NZ626622B2 - Delayed-release formulation for reducing the frequency of urination and method of use thereof - Google Patents
Delayed-release formulation for reducing the frequency of urination and method of use thereof Download PDFInfo
- Publication number
- NZ626622B2 NZ626622B2 NZ626622A NZ62662212A NZ626622B2 NZ 626622 B2 NZ626622 B2 NZ 626622B2 NZ 626622 A NZ626622 A NZ 626622A NZ 62662212 A NZ62662212 A NZ 62662212A NZ 626622 B2 NZ626622 B2 NZ 626622B2
- Authority
- NZ
- New Zealand
- Prior art keywords
- pharmaceutical composition
- release
- formulated
- acetaminophen
- active ingredients
- Prior art date
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K2300/00—Mixtures or combinations of active ingredients, wherein at least one active ingredient is fully defined in groups A61K31/00 - A61K41/00
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K31/00—Medicinal preparations containing organic active ingredients
- A61K31/16—Amides, e.g. hydroxamic acids
- A61K31/165—Amides, e.g. hydroxamic acids having aromatic rings, e.g. colchicine, atenolol, progabide
- A61K31/167—Amides, e.g. hydroxamic acids having aromatic rings, e.g. colchicine, atenolol, progabide having the nitrogen of a carboxamide group directly attached to the aromatic ring, e.g. lidocaine, paracetamol
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Abstract
Disclosed is the use of a pharmaceutical composition comprising the analgesic acetaminophen in the manufacture of a medicament for treating nocturia, wherein said acetaminophen is formulated for administration at a daily dose of 1 mg to 2000 mg and wherein said pharmaceutical composition is formulated in a delayed-release formulation or an immediate-release formulation, wherein said pharmaceutical composition further comprises one or more spasmolytics (e.g. carisoprodol, benzodiazepines, baclofen, cyclobenzaprine, metaxalone, methocarbamol, clonidine, dantrolene etc.) , one or more antimuscarinic agents selected from the group consisting of oxybutynin, solifenacin, darifenacin and atropine, or one or more antidiuretics (such as antidiuretic hormone (ADH); angiotensin II; aldosterone; vasopressin; desmopressin; argipressin; lypressin; felypressin; ornipressin; terlipressin; vasopressin receptor agonists; atrial natriuretic peptide (ANP); C-type natriuretic peptide (CNP) receptor antagonists, e.g. HS-142-1, isatin, anantin, 3G12 monoclonal antibody etc); somatostatin type 2 receptor antagonists (e.g., somatostatin)). Also disclosed is the use of a pharmaceutical composition in the manufacture of a medicament for treating nocturia wherein the pharmaceutical composition comprises a plurality of active ingredients, wherein said plurality of active ingredients comprise acetaminophen and one or more antimuscarinic agents selected from the group consisting of oxybutynin, solifenacin, darifenacin and atropine, wherein said pharmaceutical composition is formulated for immediate-release of said plurality of active ingredients or for delayed-release of said plurality of active ingredients and wherein said acetaminophen is formulated for administration at a daily dose of 50 mg to 2000 mg. ed in a delayed-release formulation or an immediate-release formulation, wherein said pharmaceutical composition further comprises one or more spasmolytics (e.g. carisoprodol, benzodiazepines, baclofen, cyclobenzaprine, metaxalone, methocarbamol, clonidine, dantrolene etc.) , one or more antimuscarinic agents selected from the group consisting of oxybutynin, solifenacin, darifenacin and atropine, or one or more antidiuretics (such as antidiuretic hormone (ADH); angiotensin II; aldosterone; vasopressin; desmopressin; argipressin; lypressin; felypressin; ornipressin; terlipressin; vasopressin receptor agonists; atrial natriuretic peptide (ANP); C-type natriuretic peptide (CNP) receptor antagonists, e.g. HS-142-1, isatin, anantin, 3G12 monoclonal antibody etc); somatostatin type 2 receptor antagonists (e.g., somatostatin)). Also disclosed is the use of a pharmaceutical composition in the manufacture of a medicament for treating nocturia wherein the pharmaceutical composition comprises a plurality of active ingredients, wherein said plurality of active ingredients comprise acetaminophen and one or more antimuscarinic agents selected from the group consisting of oxybutynin, solifenacin, darifenacin and atropine, wherein said pharmaceutical composition is formulated for immediate-release of said plurality of active ingredients or for delayed-release of said plurality of active ingredients and wherein said acetaminophen is formulated for administration at a daily dose of 50 mg to 2000 mg.
Description
TITLE
DELAYED-RELEASE FORMULATION FOR REDUCING THE FREQUENCY OF
URINATION AND METHOD OF USE THEREOF
This application claims the priority from U.S. Patent Application Serial No.
13/487,343, filed on June 4, 2012, U.S. Application Serial No. 13/423,949, filed on March
19, 2012, and U.S. Patent Application Serial No. 13/343,349, filed on January 4, 2012.
FIELD
The present application generally relates to methods and compositions for
inhibiting the contraction of muscles and, in particular, to methods and compositions for
inhibiting the contraction of smooth muscles of the urinary bladder.
BACKGROUND
The detrusor muscle is a layer of the urinary bladder wall made of smooth
muscle fibers arranged in spiral, longitudinal, and circular bundles. When the bladder is
stretched, this signals the parasympathetic nervous system to contract the detrusor muscle.
This encourages the bladder to expel urine through the urethra.
For the urine to exit the bladder, both the autonomically controlled internal
sphincter and the voluntarily controlled external sphincter must be opened. Problems with
these muscles can lead to incontinence. If the amount of urine reaches 100% of the urinary
bladder's absolute capacity, the voluntary sphincter becomes involuntary and the urine will be
ejected instantly.
The human adult urinary bladder usually holds about 300-350 ml of urine (the
working volume), but a full adult bladder may hold up to about 1000 ml (the absolute
volume), varying among individuals. As urine accumulates, the ridges produced by folding
of the wall of the bladder (rugae) flatten and the wall of the bladder thins as it stretches,
allowing the bladder to store larger amounts of urine without a significant rise in internal
pressure.
In most individuals, the desire to urinate usually starts when the volume of urine
in the bladder reaches around 200 ml. At this stage it is easy for the subject, if desired,
to resist the urge to urinate. As the bladder continues to fill, the desire to urinate becomes
stronger and harder to ignore. Eventually, the bladder will fill to the point where the urge to
urinate becomes overwhelming, and the subject will no longer be able to ignore it. In some
individuals, this desire to urinate starts when the bladder is less than 100% full in relation to its
8284579_1 (GHMatters) P97047.NZ
working volume. Such increased desire to urinate may interfere with normal activities,
including the ability to sleep for sufficient uninterrupted periods of rest. In some cases, this
increased desire to urinate may be associated with medical conditions such as benign prostate
hyperplasia or prostate cancer in men, or pregnancy in women. However, increased desire to
urinate also occurs in individuals, both male and female, who are not affected by another
medical condition.
Accordingly, there exists a need for compositions and methods for the
treatment of male and female subjects who suffer from a desire to urinate when the bladder is
less than 100% full of urine in relation to its working volume. Said compositions and methods
are needed for the inhibition of muscle contraction in order to allow in said subjects the desire
to urinate to start when the volume of urine in the bladder exceeds around 100% of its
working volume.
SUMMARY
One aspect of the present application relates to a method for reducing the
frequency of urination. In one embodiment, the method comprises administering to a subject
in need thereof an effective amount of a pharmaceutical composition comprising
acetaminophen, wherein said acetaminophen is administered at a daily dose of 1 mg to 2000
[0008A] The pharmaceutical composition may be formulated in a delayed-release
formulation.
Another aspect of the present application relates to a method comprising
administering to a subject in need thereof an effective amount of a pharmaceutical
composition comprising a plurality of active ingredients, wherein the plurality of active
ingredients comprise acetaminophen and one or more antimuscarinic agents, and wherein the
acetaminophen is administered at a daily dose of 50 mg to 2000 mg. Examples of the
antimuscarinic agents include, but are not limited to, oxybutynin, solifenacin, darifenacin, and
atropine.
A further aspect of the present application relates to a pharmaceutical
composition, comprising: acetaminophen; one or more antidiuretics; and a pharmaceutically
acceptable carrier, wherein the acetaminophen is formulated for delayed-release.
[0010A] In one aspect, the present invention provides the use of a pharmaceutical
composition comprising acetaminophen in the manufacture of a medicament for treating
nocturia, wherein said acetaminophen is formulated for administration at a daily dose of 1 mg
8284579_1 (GHMatters) P97047.NZ
to 2000 mg and wherein said pharmaceutical composition is formulated in a delayed-release
formulation or an immediate-release formulation, wherein said pharmaceutical composition
further comprises one or more spasmolytics, one or more antimuscarinic agents selected from
the group consisting of oxybutynin, solifenacin, darifenacin and atropine, or one or more
antidiuretics, wherein said one or more antidiuretics act to: (1) increase vasopressin secretion;
(2) increase vasopressin receptor activation; (3) reduce secretion of atrial natriuretic peptide
(ANP) or C-type natriuretic peptide (CNP); or (4) reduce ANP and/or CNP receptor
activation.
[0010B] In another aspect, the present invention provides the use of a pharmaceutical
composition in the manufacture of a medicament for treating nocturia, wherein the
pharmaceutical composition comprises a plurality of active ingredients, wherein said plurality
of active ingredients comprise acetaminophen and one or more antimuscarinic agents selected
from the group consisting of oxybutynin, solifenacin, darifenacin and atropine, wherein said
pharmaceutical composition is formulated for immediate-release of said plurality of active
ingredients or for delayed-release of said plurality of active ingredients and wherein said
acetaminophen is formulated for administration at a daily dose of 50 mg to 2000 mg.
BRIEF DESCRIPTION OF DRAWINGS
Figure 1A and 1B are diagrams showing that analgesics regulate expression of
co-stimulatory molecules by Raw 264 macrophage cells in the absence (Figure 1A) or
presence (Figure 1B) of LPS. Cells were cultures for 24 hrs in the presence of analgesic
alone or together with Salmonella typhyiurium LPS (0.05 µg/ml). Results are mean relative
% of CD40+CD80+ cells.
DETAILED DESCRIPTION
The following detailed description is presented to enable any person skilled in
the art to make and use the invention. For purposes of explanation, specific nomenclature is
set forth to provide a thorough understanding of the present invention. However, it will be
apparent to one skilled in the art that these specific details are not required to practice the
invention. Descriptions of specific applications are provided only as representative examples.
The present invention is not intended to be limited to the embodiments shown, but is to be
accorded the broadest possible scope consistent with the principles and features disclosed
herein.
As used herein, the term “effective amount” means an amount necessary to
achieve a selected result.
As used herein, the term “analgesic” refers to agents, compounds or drugs used
8284579_1 (GHMatters) P97047.NZ
to relieve pain and inclusive of anti-inflammatory compounds. Exemplary analgesic and/or
anti-inflammatory agents, compounds or drugs include, but are not limited to, the following
substances: non-steroidal anti-inflammatory drugs (NSAIDs), salicylates, aspirin, salicylic
acid, methyl salicylate, diflunisal, salsalate, olsalazine, sulfasalazine, para-aminophenol
derivatives, acetanilide, acetaminophen, phenacetin, fenamates, mefenamic acid,
meclofenamate, sodium meclofenamate, heteroaryl acetic acid derivatives, tolmetin,
ketorolac, diclofenac, propionic acid derivatives, ibuprofen, naproxen sodium, naproxen,
fenoprofen, ketoprofen, flurbiprofen, oxaprozin; enolic acids, oxicam derivatives, piroxicam,
meloxicam, tenoxicam, ampiroxicam, droxicam, pivoxicam, pyrazolon derivatives,
phenylbutazone, oxyphenbutazone, antipyrine, aminopyrine, dipyrone, coxibs, celecoxib,
rofecoxib, nabumetone, apazone, indomethacin, sulindac, etodolac, isobutylphenyl propionic
acid, lumiracoxib, etoricoxib, parecoxib, valdecoxib, tiracoxib, etodolac, darbufelone,
dexketoprofen, aceclofenac, licofelone, bromfenac, pranoprofen, loxoprofen, piroxicam,
nimesulide, cizolirine, 3-formylaminomethylsulfonylaminophenoxy-4Hbenzopyran-
4-one, meloxicam, lornoxicam, d-indobufen, mofezolac, amtolmetin, pranoprofen, tolfenamic
acid, flurbiprofen, suprofen, oxaprozin, zaltoprofen, alminoprofen, tiaprofenic acid,
pharmacological salts thereof, hydrates thereof, and solvates thereof.
As used herein, the terms “coxib” and “COX inhibitor” refer to a composition
of compounds that is capable of inhibiting the activity or expression of COX2 enzymes or is
capable of inhibiting or reducing the severity, including pain and swelling, of a severe
inflammatory response.
The urinary bladder has two important functions: storage of urine and
emptying. Storage of urine occurs at low pressure, which implies that the detrusor muscle
relaxes during the filling phase. Emptying of the bladder requires a coordinated contraction of
the detrusor muscle and relaxation of the sphincter muscles of the urethra. Disturbances of
the storage function may result in lower urinary tract symptoms, such as urgency, frequency,
and urge incontinence, the components of the overactive bladder syndrome. The overactive
bladder syndrome, which may be due to involuntary contractions of the smooth muscle of the
bladder (detrusor) during the storage phase, is a common and underreported problem, the
prevalence of which has only recently been assessed.
One aspect of the present application relates to a method for reducing the
frequency of urination by administering to a person in need thereof a pharmaceutical
composition formulated in a delayed-release formulation. The pharmaceutical composition
comprises one or more analgesic agents and, optionally, one or more antimuscarinic agents.
8284579_1 (GHMatters) P97047.NZ
As used herein, the term "delayed-release" refers to a medication that does not
immediately disintegrate and release the active ingredient(s) into the body. In some
embodiments, the term "delayed-release" is used with reference to a drug formulation having
a release profile in which there is a predetermined delay in the release of the drug following
administration. In some embodiments, the delayed-release formulation includes an enteric
coating, which is a barrier applied to oral medication that prevents release of medication
before it reaches the small intestine. Delayed-release formulations, such as enteric coatings,
prevent drugs having an irritant effect on the stomach, such as aspirin, from dissolving in the
stomach. Such coatings are also used to protect acid-unstable drugs from the stomach's
acidic exposure, delivering them instead to a basic pH environment (intestine's pH 5.5 and
above) where they do not degrade, and give their desired action.
The term “pulsatile release” is a type of delayed-release, which is used herein
with reference to a drug formulation that provides rapid and transient release of the drug
within a short time period immediately after a predetermined lag period, thereby producing a
“pulsed” plasma profile of the drug after drug administration. Formulations may be designed
to provide a single pulsatile release or multiple pulsatile releases at predetermined time
intervals following administration.
Most enteric coatings work by presenting a surface that is stable at the highly
acidic pH found in the stomach, but breaks down rapidly at a less acidic (relatively more
basic) pH. Therefore, an enteric coated pill will not dissolve in the acidic juices of the
stomach (pH ~3), but they will in the alkaline (pH 7-9) environment present in the small
intestine. Examples of enteric coating materials include, but are not limited to, methyl
acrylate-methacrylic acid copolymers, cellulose acetate succinate, hydroxy propyl methyl
cellulose phthalate, hydroxy propyl methyl cellulose acetate succinate (hypromellose acetate
succinate), polyvinyl acetate phthalate (PVAP), methyl methacrylate-methacrylic acid
copolymers, sodium alginate and stearic acid.
In some embodiments, the pharmaceutical composition is orally administered
from a variety of drug formulations designed to provide delayed-release. Delayed oral
dosage forms include, for example, tablets, capsules, caplets, and may also comprise a
plurality of granules, beads, powders or pellets that may or may not be encapsulated. Tablets
and capsules represent the most convenient oral dosage forms, in which case solid
pharmaceutical carriers are employed.
In a delayed-release formulation, one or more barrier coatings may be applied
to pellets, tablets, or capsules to facilitate slow dissolution and concomitant release of drugs
8284579_1 (GHMatters) P97047.NZ
into the intestine. Typically, the barrier coating contains one or more polymers encasing,
surrounding, or forming a layer, or membrane around the therapeutic composition or active
core.
In some embodiments, the active agents are delivered in a formulation to
provide delayed-release at a pre-determined time following administration. The delay may
be up to about 10 minutes, about 20 minutes, about 30 minutes, about 1 hour, about 2 hours,
about 3 hours, about 4 hours, about 5 hours, about 6 hours, or longer.
A delayed-release composition may comprise 100% of the total dosage of a
given active agent administered in a single unit dose. Alternatively, a delayed-release
composition may be included as a component in a combined release profile formulation may
provide about 30-95% of the total dosage of the active agent(s) to be delivered by the
pharmaceutical formulation. For example, the immediate-release component may provide
about 5-70%, or about 50% of the total dosage of the active agent(s) to be delivered by the
pharmaceutical formulation. In alternate embodiments, the delayed-release component
provides about 30, 35, 40, 45, 50, 55, 60, 65, 70, 75, 80, 85, 90 or 95% of the total dosage of
the active agent(s) to be delivered by the formulation.
A delayed-release formulation typically comprises a barrier coating that delays
the release of the active ingredient(s). The barrier coating may consist of a variety of
different materials, depending on the objective. In addition, a formulation may comprise a
plurality of barrier coatings to facilitate release in a temporal manner. The coating may be a
sugar coating, a film coating (e.g., based on hydroxypropyl methylcellulose, methylcellulose,
methyl hydroxyethylcellulose, hydroxypropylcellulose, carboxymethylcellulose, acrylate
copolymers, polyethylene glycols and/or polyvinylpyrrolidone), or a coating based on
methacrylic acid copolymer, cellulose acetate phthalate, hydroxypropyl methylcellulose
phthalate, hydroxypropyl methylcellulose acetate succinate, polyvinyl acetate phthalate,
shellac, and/or ethylcellulose. Furthermore, the formulation may additionally include a time
delay material such as, for example, glyceryl monostearate or glyceryl distearate.
In some embodiments, the delayed-release formulation includes an enteric
coating comprised one or more polymers facilitating release of active agents in proximal or
distal regions of the gastrointestinal tract. As used herein, the term “enteric polymer coating”
a coating comprising of one or more polymers having a pH dependent or pH-independent
release profile. Typically the coating resists dissolution in the acidic medium of the stomach,
but dissolves or erodes in more distal regions of the gastrointestinal tract, such as the small
intestine or colon. An enteric polymer coating typically resists releases of the active agents
8284579_1 (GHMatters) P97047.NZ
until some time after a gastric emptying lag period of about 3-4 hours after administration.
pH dependent enteric coatings comprising one or more pH-dependent or pH-
sensitive polymers that maintain their structural integrity at low pH, as in the stomach, but
dissolve in higher pH environments in more distal regions of the gastrointestinal tract, such as
the small intestine, where the drug contents are released. For purposes of the present
invention, “pH dependent” is defined as having characteristics (e.g., dissolution) which vary
according to environmental pH. Exemplary pH-dependent polymers include, but are not
limited to, methacarylic acid copolymers, methacrylic acid-methyl methacrylate copolymers
(e.g., EUDRAGIT L100 (Type A), EUDRAGIT S100 (Type B), Rohm GmbH, Germany;
methacrylic acid-ethyl acrylate copolymers (e.g., EUDRAGIT L100-55 (Type C) and
EUDRAGIT L30D-55 copolymer dispersion, Rohm GmbH, Germany); copolymers of
methacrylic acid-methyl methacrylate and methyl methacrylate (EUDRAGIT FS);
terpolymers of methacrylic acid, methacrylate, and ethyl acrylate; cellulose acetate phthalates
(CAP); hydroxypropyl methylcellulose phthalate (HPMCP) (e.g., HP-55, HP-50, HP-55S,
Shinetsu Chemical, Japan); polyvinyl acetate phthalates (PVAP) (e.g., COATERIC ,
OPADRY enteric white OY-P-7171); cellulose acetate succinates (CAS); hydroxypropyl
methylcellulose acetate succinate (HPMCAS), e.g., HPMCAS LF Grade, MF Grade, HF
Grade, including AQOAT LF and AQOAT MF (Shin-Etsu Chemical, Japan); Shinetsu
Chemical, Japan); shellac (e.g., Marcoat™ 125 & Marcoat™ 125N); carboxymethyl
ethylcellulose (CMEC, Freund Corporation, Japan), cellulose acetate phthalates (CAP)(e.g.,
AQUATERIC ); cellulose acetate trimellitates (CAT); and mixtures of two or more thereof
at weight ratios between about 2:1 to about 5:1, such as, for instance, a mixture of
EUDRAGIT L 100-55 and EUDRAGIT S 100 at a weight ratio of about 3:1 to about 2:1,
or a mixture of EUDRAGIT L 30 D-55 and EUDRAGIT FS at a weight ratio of about 3:1
to about 5:1.
pH-dependent polymers typically exhibit a characteristic pH optimum for
dissolution. In some embodiments, the pH-dependent polymer exhibits a pH optimum
between about 5.0 and 5.5, between about 5.5 and 6.0, between about 6.0 and 6.5, or between
about 6.5 and 7.0. In other embodiments, the pH-dependent polymer exhibits a pH optimum
of ≥5.0, of ≥5.5, of ≥6.0, of ≥6.5, or of ≥7.0.
In other embodiments, the enteric coating may comprise one or more pH-
independent polymers. These polymers provide for release of the drug after a certain time,
independent of the pH. For purposes of the present invention, “pH independent” is defined as
having characteristics (e.g., dissolution) which are substantially unaffected by pH. pH
8284579_1 (GHMatters) P97047.NZ
independent polymers are often referred to in the context of “time-controlled” or “time-
dependent” release profiles.
A pH independent polymer may be water-insoluble or water soluble.
Exemplary water insoluble pH independent polymers include, but are not limited to, neutral
methacrylic acid esters with a small portion of trimethylammonioethyl methacrylate chloride
(e.g., EUDRAGIT RS and EUDRAGIT RL; neutral ester dispersions without any
functional groups (e.g., EUDRAGIT NE30D and EUDRAGIT NE30); cellulosic polymers,
such as ethylcellulose, hydroxyl ethyl cellulose, cellulose acetate or mixtures and other pH
independent coating products. Exemplary water soluble pH independent polymers include
OPADRY amb.
In some embodiments, the pH independent polymers contain one or more
polysaccharides that are resistant to erosion in both the stomach and intestine. Such polymers
can be only degraded in the colon, which contains a large microflora containing
biodegradable enzymes breaking down, for example, the polysaccharide coatings to release
the drug contents in a controlled, time-dependent manner.
In certain embodiment, the coating methodology employs the blending of one
or more pH-dependent and one or more pH-independent polymers. The blending of pH-
dependent and pH-independent polymers can reduce the release rate of active ingredients
once the soluble polymer has reached its optimum pH of solubilization.
In some embodiments, a “time-controlled” or “time-dependent” release profile
can be obtained using a water insoluble capsule body containing one or more active agents,
wherein the capsule body closed at one end with an insoluble, but permeable and swellable
hydrogel plug. Upon contact with gastrointestinal fluid or dissolution medium, the plug
swells, pushing itself out of the capsule and releasing the drugs after a pre-determined lag
time, which can be controlled by e.g., the position and dimensions of the plug. The capsule
body may be further coated with an outer pH-dependent enteric coating keeping the capsule
intact until it reaches the small intestine. Suitable plug materials include, for example,
polymethacrylates, erodible compressed polymers (e.g., HPMC, polyvinyl alcohol),
congealed melted polymer (e.g., glyceryl mono oleate) and enzymatically controlled erodible
polymers (e.g., polysaccharides, such as amylose, arabinogalactan, chitosan, chondroitin
sulfate, cyclodextrin, dextran, guar gum, pectin and xylan).
In other embodiments, capsules or bilayered tablets may be formulated to
contain a drug-containing core, covered by a swelling layer, and an outer insoluble, but semi-
permeable polymer coating or membrane. The lag time prior to rupture can be controlled by
8284579_1 (GHMatters) P97047.NZ
the permeation and mechanical properties of the polymer coating and the swelling behavior
of the swelling layer. Typically, the swelling layer comprises one or more swelling agents,
such as swellable hydrophilic polymers that swell and retain water in their structures.
Exemplary water swellable materials include, but are not limited to,
polyethylene oxide (having e.g., an average molecular weight between 1,000,000 to
7,000,000, such as POLYOX ), methylcellulose, hydroxypropyl cellulose, hydroxypropyl
methylcellulose; polyalkylene oxides having a weight average molecular weight of 100,000
to 6,000,000, including but not limited to poly(methylene oxide), poly(butylene oxide);
poly(hydroxy alkyl methacrylate) having a molecular weight of from 25,000 to 5,000,000;
poly(vinyl)alcohol, having a low acetal residue, which is cross-linked with glyoxal,
formaldehyde or glutaraldehyde and having a degree of polymerization of from 200 to
,000; mixtures of methyl cellulose, cross-linked agar and carboxymethyl cellulose;
hydrogel forming copolymers produced by forming a dispersion of a finely divided
copolymer of maleic anhydride with styrene, ethylene, propylene, butylene or isobutylene
cross-linked with from 0.001 to 0.5 moles of saturated cross-linking agent per mole of maleic
anyhydride in the copolymer; CARBOPOL acidic carboxy polymers having a molecular
weight of 450,000 to 4,000,000; CYANAMER polyacrylamides; cross-linked water
swellable indenemaleicanhydride polymers; GOODRITE polyacrylic acid having a
molecular weight of 80,000 to 200,000; starch graft copolymers; AQUA-KEEPS acrylate
polymer polysaccharides composed of condensed glucose units such as diester cross-linked
polyglucan; carbomers having a viscosity of 3,000 to 60,000 mPa as a 0.5%-1% w/v aqueous
solution; cellulose ethers such as hydroxypropylcellulose having a viscosity of about 1000-
7000 mPa s as a 1% w/w aqueous solution (25 C); hydroxypropyl methylcellulose having a
viscosity of about 1000 or higher, preferably 2,500 or higher to a maximum of 25,000 mPa as
a 2% w/v aqueous solution; polyvinylpyrrolidone having a viscosity of about 300-700 mPa s
as a 10% w/v aqueous solution at 20 C; and combinations thereof.
The enteric layer may further comprise anti-tackiness agents, such as talc or
glyceryl monostearate and/or plasticizers such as. The enteric layer may further comprise
one or more plasticizers including, but not limited to, triethyl citrate, acetyl triethyl citrate,
acetyltributyl citrate, polyethylene glycol acetylated monoglycerides, glycerin, triacetin,
propylene glycol, phthalate esters (e.g., diethyl phthalate, dibutyl phthalate), titanium dioxide,
ferric oxides, castor oil, sorbitol and dibutyl sebacate.
In another embodiment, the delay release formulation employs a water-
permeable but insoluble film coating to enclose the active ingredient and an osmotic agent
8284579_1 (GHMatters) P97047.NZ
utilizing a enclosing. As water from the gut slowly diffuses through the film into the core,
the core swells until the film bursts, thereby releasing the active ingredients. The film
coating may be adjusted to permit various rates of water permeation or release time.
Alternatively, the release time of the drugs can be controlled by a
disintegration lag time depending on the balance between the tolerability and thickness of a
water insoluble polymer membrane (such as ethyl cellulose, EC) containing predefined
micropores at the bottom of the body and the amount of a swellable excipient, such as low
substituted hydroxypropyl cellulose (L-HPC) and sodium glycolate. After oral
administration, GI fluids permeate through the micropores, causing swelling of the swellable
excipients, which produces an inner pressure disengaging the capsular components, including
a first capsule body containing the swellable materials, a second capsule body containing the
drugs, and an outer cap attached to the first capsule body.
In other embodiments, the drugs may be released by an osmotic mechanism.
By way of example, a capsule may be formulated with a single osmotic unit or it may
incorporate 2, 3, 4, 5, or 6 push-pull units encapsulated within a hard gelatin capsule,
whereby each bilayer push pull unit contains an osmotic push layer and a drug layer, both
surrounded by a semi-permeable membrane. One or more orifices are drilled through the
membrane next to the drug layer. This membrane may be additionally covered with a pH-
dependent enteric coating to prevent release until after gastric emptying. The gelatin capsule
dissolves immediately after ingestion. As the push pull unit(s) enter the small intestine, the
enteric coating breaks down, which then allows fluid to flow through the semi-permeable
membrane, swelling the osmotic push compartment to force to force drugs out through the
orifice(s) at a rate precisely controlled by the rate of water transport through the semi-
permeable membrane. Release of drugs can occur over a constant rate for up to 24 hours or
more.
The osmotic push layer comprises one or more osmotic agents creating the
driving force for transport of water through the semi-permeable membrane into the core of
the delivery vehicle. One class of osmotic agents includes water-swellable hydrophilic
polymers, also referred to as "osmopolymers" and "hydrogels," including, but not limited to,
hydrophilic vinyl and acrylic polymers, polysaccharides such as calcium alginate,
polyethylene oxide (PEO), polyethylene glycol (PEG), polypropylene glycol (PPG), poly(2-
hydroxyethyl methacrylate), poly(acrylic) acid, poly(methacrylic) acid, polyvinylpyrrolidone
(PVP), crosslinked PVP, polyvinyl alcohol (PVA), PVA/PVP copolymers, PVA/PVP
copolymers with hydrophobic monomers such as methyl methacrylate and vinyl acetate,
8284579_1 (GHMatters) P97047.NZ
hydrophilic polyurethanes containing large PEO blocks, sodium croscarmellose, carrageenan,
hydroxyethyl cellulose (HEC), hydroxypropyl cellulose (HPC), hydroxypropyl methyl
cellulose (HPMC), carboxymethyl cellulose (CMC) and carboxyethyl, cellulose (CEC),
sodium alginate, polycarbophil, gelatin, xanthan gum, and sodium starch glycolate.
Another class of osmotic agents includes osmogens, which are capable of
imbibing water to effect an osmotic pressure gradient across the semi-permeable membrane.
Exemplary osmogens include, but are not limited to, inorganic salts, such as magnesium
sulfate, magnesium chloride, calcium chloride, sodium chloride, lithium chloride, potassium
sulfate, potassium phosphates, sodium carbonate, sodium sulfite, lithium sulfate, potassium
chloride, and sodium sulfate; sugars, such as dextrose, fructose, glucose, inositol, lactose,
maltose, mannitol, raffinose, sorbitol, sucrose, trehalose, and xylitol; organic acids, such as
ascorbic acid, benzoic acid, fumaric acid, citric acid, maleic acid, sebacic acid, sorbic acid,
adipic acid, edetic acid, glutamic acid, p-toluenesulfonic acid, succinic acid, and tartaric acid;
urea; and mixtures thereof.
Materials useful in forming the semipermeable membrane include various
grades of acrylics, vinyls, ethers, polyamides, polyesters, and cellulosic derivatives that are
water-permeable and water-insoluble at physiologically relevant pHs, or are susceptible to
being rendered water-insoluble by chemical alteration, such as crosslinking.
In another embodiment, the delay release formulation employs a water-
impermeable tablet coating whereby water enters through a controlled aperture in the coating
until the core bursts. When the tablet bursts, the drug contents are released immediately or
over a longer period of time. These and other techniques may be modified to allow for a pre-
determined lag period before release of drugs is initiated.
Various coating techniques may be applied to granules, beads, powders or
pellets, tablets, capsules or combinations thereof containing active agents to produce different
and distinct release profiles. In some embodiments, the pharmaceutical composition is in a
tablet or capsule form containing a single coating layer. In other embodiments, the
pharmaceutical composition is in a tablet or capsule form containing multiple coating layers.
In some embodiments, the pharmaceutical composition comprises a plurality
of active ingredients selected from the group consisting of analgesics, antimuscarinic agents,
antidiuretics and spasmolytics. Examples of spasmolytics include, but are not limited to,
carisoprodol, benzodiazepines, baclofen, cyclobenzaprine, metaxalone, methocarbamol,
clonidine, clonidine analog, and dantrolene. In some embodiments, the pharmaceutical
composition comprises one or more analgesics. In other embodiments, the pharmaceutical
8284579_1 (GHMatters) P97047.NZ
composition comprises (1) one or more analgesics, and (2) one or more other active
ingredients selected from the group consisting of antimuscarinic agents, antidiuretics and
spasmolytics. In another embodiment, the pharmaceutical composition comprises (1) one or
two analgesics and (2) one or two antimuscarinic agents. In another embodiment, the
pharmaceutical composition comprises (1) one or two analgesics and (2) one or two
antidiuretics. In another embodiment, the pharmaceutical composition comprises (1) one or
two analgesics and (2) one or two spasmolytics. In yet another embodiment, the
pharmaceutical composition comprises (1) one or two analgesics, (2) one or two
antimuscarinic agents, and (3) one or two antidiuretics.
In one embodiment, the plurality of active ingredients are formulated for
immediate-release. In other embodiment, the plurality of active ingredients are formulated
for delayed-release. In other embodiment, the plurality of active ingredients are formulated
for both immediate-release and delayed-release (e.g., a first portion of each active ingredient
is formulated for immediate-release and a second portion of each active ingredient is
formulated for delayed-release). In yet other embodiment, some of the plurality of active
ingredients are formulated for immediate-release and some of the plurality of active
ingredients are formulated for delayed-release (e.g., active ingredients A, B, C are
formulated for immediate-release and active ingredients C and D are formulated for delayed-
release).
In certain embodiments, the pharmaceutical composition comprises an
immediate-release component and a delayed-release component. The immediate-release
component may comprise one or more active ingredients selected from the group consisting
of analgesics, antimuscarinic agents, antidiuretics and spasmolytics.. The delayed-release
component may comprise one or more active ingredients selected from the group consisting
of analgesics, antimuscarinic agents, antidiuretics and spasmolytics.. In some embodiments,
the immediate-release component and the delayed-release component have exactly the same
active ingredients. In other embodiments, the immediate-release component and the delayed-
release component have different active ingredients. In yet other embodiments, the
immediate-release component and the delayed-release component have one or more common
active ingredients.
In one embodiment, the pharmaceutical composition comprises two active
ingredients (e.g., two analgesic agents, or a mixture of one analgesic agent and one
antimuscarinic agent or antiuretic or spasmolytic), formulated for immediate-release at about
the same time. In another embodiment, the pharmaceutical composition comprises two active
8284579_1 (GHMatters) P97047.NZ
ingredients, formulated for delayed-release at about the same time. In another embodiment,
the pharmaceutical composition comprises two active ingredients formulated as two delayed-
release components, each providing a different delayed-release profile. For example, a first
delayed-release component releases a first active ingredient at a first time point and a second
delayed-release component releases a second active ingredient at a second time point. In
another embodiment, the pharmaceutical composition comprises two active ingredients, one
is formulated for immediate-release and the other is formulated for delayed-release.
In other embodiments, the pharmaceutical composition comprises two active
ingredients (e.g., two analgesic agents, or a mixture of one analgesic agent and one
antimuscarinic agent or antiuretic or spasmolytic) formulated for immediate-release, and (2)
two active ingredients (e.g., two analgesic agents, or a mixture of one analgesic agent and one
antimuscarinic agent or antiuretic or spasmolytic) formulated for delayed-release. In other
embodiments, the pharmaceutical composition comprises three active ingredients formulated
for immediate-release, and (2) three active ingredients formulated for delayed-release. In
other embodiments, the pharmaceutical composition comprises four active ingredients
formulated for immediate-release, and (2) four active ingredients formulated for delayed-
release. In these embodiments, the active ingredient(s) in the immediate-release component
can be the same as, or different from, the active ingredient(s) in the delayed-release
component.
The term "immediate-release" is used herein with reference to a drug
formulation that does not contain a dissolution rate controlling material. There is
substantially no delay in the release of the active agents following administration of an
immediate-release formulation. An immediate-release coating may include suitable materials
immediately dissolving following administration so as to release the drug contents therein.
Exemplary immediate-release coating materials include gelatin, polyvinyl alcohol
polyethylene glycol (PVA-PEG) copolymers (e.g., KOLLICOAT ) and various others
materials known to those skilled in the art.
An immediate-release composition may comprise 100% of the total dosage of
a given active agent administered in a single unit dose. Alternatively, an immediate-release
component may be included as a component in a combined release profile formulation that
may provide about 1% to about 50% of the total dosage of the active agent(s) to be delivered
by the pharmaceutical formulation. For example, the immediate-release component may
provide at least about 5%, or about 10% to about 30%, or about 45% to about 50% of the
total dosage of the active agent(s) to be delivered by the formulation. The rest of the active
8284579_1 (GHMatters) P97047.NZ
agent(s) may be delivered in a delayed-release formulation. In alternate embodiments, the
immediate-release component provides about 10, 15, 20, 25, 30, 35, 40, 45 or 50% of the
total dosage of the active agent(s) to be delivered by the formulation. The delayed-release
component provides about 90, 85, 80, 75, 70, 65, 60, 55 or 50% of the total dosage of the
active agent(s) to be delivered by the formulation.
In some embodiments, the immediate-release or delayed-release formulation
comprises an active core comprised of one or more inert particles, each in the form of a bead,
pellet, pill, granular particle, microcapsule, microsphere, microgranule, nanocapsule, or
nanosphere coated on its surfaces with drugs in the form of e.g., a drug-containing film-
forming composition using, for example, fluid bed techniques or other methodologies known
to those of skill in the art. The inert particle can be of various sizes, so long as it is large
enough to remain poorly dissolved. Alternatively, the active core may be prepared by
granulating and milling and/or by extrusion and spheronization of a polymer composition
containing the drug substance.
The amount of drug in the core will depend on the dose that is required, and
typically varies from about 5 to 90 weight %. Generally, the polymeric coating on the active
core will be from about 1 to 50% based on the weight of the coated particle, depending on the
lag time and type of release profile required and/or the polymers and coating solvents chosen.
Those skilled in the art will be able to select an appropriate amount of drug for coating onto
or incorporating into the core to achieve the desired dosage. In one embodiment, the inactive
core may be a sugar sphere or a buffer crystal or an encapsulated buffer crystal such as
calcium carbonate, sodium bicarbonate, fumaric acid, tartaric acid, etc. which alters the
microenvironment of the drug to facilitate its release.
In some embodiments, the delayed-release formulation is formed by coating a
water soluble/dispersible drug-containing particle, such as a bead, with a mixture of a water
insoluble polymer and an enteric polymer, wherein the water insoluble polymer and the
enteric polymer may be present at a weight ratio of from 4:1 to 1:1, and the total weight of
the coatings is 10 to 60 weight % based on the total weight of the coated beads. The drug
layered beads may optionally include an inner dissolution rate controlling membrane of
ethylcellulose. The composition of the outer layer, as well as the individual weights of the
inner and outer layers of the polymeric membrane are optimized for achieving desired
circadian rhythm release profiles for a given active, which are predicted based on in vitro/in
vivo correlations.
In other embodiments the formulations comprise a mixture of immediate-
8284579_1 (GHMatters) P97047.NZ
release drug-containing particles without a dissolution rate controlling polymer membrane
and delayed-release beads exhibiting, for example, a lag time of 2-4 hours following oral
administration, thus providing a two-pulse release profile. In yet other embodiments the
formulations comprise a mixture of two types of delayed-release beads: a first type that
exhibits a lag time of 1-3 hours and a second type that exhibits a lag time of 4-6 hours.
In some embodiments, the active core is coated with one or more layers of
dissolution rate-controlling polymers to obtain desired release profiles with or without a lag
time. An inner layer membrane can largely control the rate of drug release following
imbibition of water or body fluids into the core, while the outer layer membrane can provide
for a desired lag time (the period of no or little drug release following imbibition of water or
body fluids into the core). The inner layer membrane may comprise a water insoluble
polymer, or a mixture of water insoluble and water soluble polymers.
The polymers suitable for the outer membrane, which largely controls the lag
time of up to 6 hours may comprise an enteric polymer, as described above, and a water
insoluble polymer at 10 to 50 weight %. The ratio of water insoluble polymer to enteric
polymer may vary from 4:1 to 1:2, preferably the polymers are present at a ratio of about 1:1.
The water insoluble polymer typically used is ethylcellulose.
Exemplary water insoluble polymers include ethylcellulose, polyvinyl acetate
(Kollicoat SR#0D from BASF), neutral copolymers based on ethyl acrylate and
methylmethacrylate, copolymers of acrylic and methacrylic acid esters with quaternary
ammonium groups such as EUDRAGIT NE, RS and RS30D, RL or RL30D and the like.
Exemplary water soluble polymers include low molecular weight HPMC, HPC,
methylcellulose, polyethylene glycol (PEG of molecular weight>3000) at a thickness ranging
from 1 weight % up to 10 weight % depending on the solubility of the active in water and the
solvent or latex suspension based coating formulation used. The water insoluble polymer to
water soluble polymer may typically vary from 95:5 to 60:40, preferably from 80:20 to 65:35.
Preferably, the formulations are designed with release profiles to limit
interference with restful sleep, wherein the formulation releases the medicine when the
individual would normally be awakened by an urge to urinate. For example, consider an
individual who begins sleeping at 11 PM and is normally awakened at 12:30 AM, 3:00 AM,
and 6:00 AM to urinate. A delayed-release vehicle could deliver the medicine at 12:15 AM,
thereby delaying the need to urinate for perhaps 2-3 hours.
The pharmaceutical composition may be administered daily or administered on
an as needed basis. In certain embodiments, the pharmaceutical composition is administered
8284579_1 (GHMatters) P97047.NZ
to the subject prior to bedtime. In some embodiments, the pharmaceutical composition is
administered immediately before bedtime. In some embodiments, the pharmaceutical
composition is administered within about two hours before bedtime, preferably within about
one hour before bedtime. In another embodiment, the pharmaceutical composition is
administered about two hours before bedtime. In a further embodiment, the pharmaceutical
composition is administered at least two hours before bedtime. In another embodiment, the
pharmaceutical composition is administered about one hour before bedtime. In a further
embodiment, the pharmaceutical composition is administered at least one hour before
bedtime. In a still further embodiment, the pharmaceutical composition is administered less
than one hour before bedtime. In still another embodiment, the pharmaceutical composition
is administered immediately before bedtime. Preferably, the pharmaceutical composition is
administered orally.
The appropriate dosage (“therapeutically effective amount”) of the active
agent(s) in the immediate-component or delayed-release component will depend, for
example, the severity and course of the condition, the mode of administration, the
bioavailability of the particular agent(s), the age and weight of the patient, the patient's
clinical history and response to the active agent(s), discretion of the physician, etc.
As a general proposition, the therapeutically effective amount of the active
agent(s) in the immediate-release component or the delayed-release component is
administered in the range of about 100 μg/kg body weight/day to about 100 mg/kg body
weight/day whether by one or more administrations. In some embodiments, the range of each
active agent administered daily is from about 100 μg/kg body weight/day to about 50 mg/kg
body weight/day, 100 μg/kg body weight/day to about 10 mg/kg body weight/day, 100 μg/kg
body weight/day to about 1 mg/kg body weight/day, 100 μg/kg body weight/day to about 10
mg/kg body weight/day, 500 μg/kg body weight/day to about 100 mg/kg body weight/day,
500 μg/kg body weight/day to about 50 mg/kg body weight/day, 500 μg/kg body weight/ day
to about 5 mg/kg body weight/ day, 1 mg/kg body weight/day to about 100 mg/kg body
weight/day, 1 mg/kg body weight/day to about 50 mg/kg body weight/ day, 1 mg/kg body
weight/day to about 10 mg/kg body weight/day, 5 mg/kg body weight/dose to about 100
mg/kg body weight/day, 5 mg/kg body weight/dose to about 50 mg/kg body weight/day, 10
mg/kg body weight/day to about 100 mg/kg body weight/day, and 10 mg/kg body weight/day
to about 50 mg/kg body weight/day.
The active agent(s) described herein may be included in an immediate-release
component or a delayed-release component or combinations thereof for daily oral
8284579_1 (GHMatters) P97047.NZ
administration at a single dose or combined dose range of 1 mg to 2000 mg, 5 mg to 2000
mg, 10 mg to 2000 mg, 50 mg to 2000 mg, 100 mg to 2000 mg, 200 mg to 2000 mg, 500 mg
to 2000 mg, 5 mg to 1800 mg, 10 mg to 1600 mg, 50 mg to 1600 mg, 100 mg to 1500 mg,
150 mg to 1200 mg, 200 mg to 1000 mg, 300 mg to 800 mg, 325 mg to 500 mg, 1 mg to
1000 mg, 1 mg to 500 mg, 1 mg to 200 mg, 5 mg to 1000 mg, 5 mg to 500 mg, 5 mg to 200
mg, 10 mg to 1000 mg, 10 mg to 500 mg, 10 mg to 200 mg, 50 mg to 1000 mg, 50 mg to 500
mg, 50 mg to 200 mg, 100 mg to 250 mg, 100 mg to 500 mg, 250 mg to 1000 mg, 250 mg to
500 mg, 500 mg to 1000 mg, 500 mg to 2000 mg. As expected, the dosage will be dependant
on the condition, size, age and condition of the patient.
In some embodiments, the pharmaceutical composition comprises a single
analgesic agent. In one embodiment, the single analgesic agent is aspirin. In another
embodiment, the single analgesic agent is ibuprofen. In another embodiment, the single
analgesic agent is naproxen sodium. In another embodiment, the single analgesic agent is
indomethacin. In another embodiment, the single analgesic agent is nabumetone. In another
embodiment, the single analgesic agent is acetaminophen.
In some embodiments, the single analgesic agent is given at a daily dose of 1
mg to 2000 mg, 5 mg to 2000 mg, 20 mg to 2000 mg, 5 mg to 1000 mg, 20 mg to 1000 mg,
50 mg to 500 mg, 100 mg to 500 mg, 250 mg to 500 mg, 250 mg to 1000 mg or 500 mg to
1000 mg. In certain embodiments, the pharmaceutical composition comprises acetylsalicylic
acid, ibuprofen, naproxen sodium, indomethancin, nabumetone or acetaminophen as a single
analgesic agent and the analgesic agent is administered orally at a daily dose in the range of 5
mg to 2000 mg, 20 mg to 2000 mg, 5 mg to 1000 mg, 20 mg to 1000 mg, 50 mg to 500 mg,
100 mg to 500 mg, 250 mg to 500 mg, 250 mg to 1000 mg or 500 mg to 1000 mg. In some
embodiments, a second analgesic agent is given at a daily dose of 1 mg to 2000 mg, 5 mg to
2000 mg, 20 mg to 2000 mg, 5 mg to 1000 mg, 20 mg to 1000 mg, 50 mg to 500 mg, 100 mg
to 500 mg, 250 mg to 500 mg, 250 mg to 1000 mg or 500 mg to 1000 mg.
In other embodiments, the pharmaceutical composition comprises a pair of
analgesic agents. Examples of such paired analgesic agents include, but are not limited to,
acetylsalicylic acid and ibuprofen, acetylsalicylic acid and naproxen sodium, acetylsalicylic
acid and nabumetone, acetylsalicylic acid and acetaminophen, acetylsalicylic acid and
indomethancin, ibuprofen and naproxen sodium, ibuprofen and nabumetone, ibuprofen and
acetaminophen, ibuprofen and indomethancin, naproxen sodium and nabumetone, naproxen
sodium and acetaminophen, naproxen sodium and indomethancin, nabumetone and
acetaminophen, nabumetone and indomethancin, and acetaminophen and indomethancin. The
8284579_1 (GHMatters) P97047.NZ
paired analgesic agents are mixed at a weight ratio in the range of 0.1:1 to 10:1, 0.2:1 to 5:1
or 0.3:1 to 3:1, with a combined dose in the range of 5 mg to 2000 mg, 20 mg to 2000 mg,
100 mg to 2000 mg, 200 mg to 2000 mg, 500 mg to 2000 mg, 5 mg to 1500 mg, 20 mg to
1500 mg, 100 mg to 1500 mg, 200 mg to 1500 mg, 500 mg to 1500 mg, 5 mg to 1000 mg, 20
mg to 1000 mg, 100 mg to 1000 mg, 250 mg to 500 mg, 250 mg to 1000 mg, 250 mg to
1500 mg, 500 mg to 1000 mg, 500 mg to 1500 mg, 1000 mg to 1500 mg, and 1000 mg to
2000 mg. In one embodiment, the paired analgesic agents are mixed at a weight ratio of 1:1.
In some other embodiments, the pharmaceutical composition of the present
application further comprises one or more antimuscarinic agents. Examples of the
antimuscarinic agents include, but are not limited to, oxybutynin, solifenacin, darifenacin,
fesoterodine, tolterodine, trospium and atropine. The daily dose of antimuscarinic agent is in
the range of 0.01 mg to 100 mg, 0.1 mg to 100 mg, 1 mg to 100 mg, 10 mg to 100 mg, 0.01
mg to 25 mg, 0.1 mg to 25 mg, 1 mg to 25 mg, 10 mg to 25 mg, 0.01 mg to 10 mg, 0.1 mg to
mg, 1 mg to 10 mg, 10 mg to 100 mg and 10 mg to 25 mg.
Another aspect of the present application relates to a method for reducing the
frequency of urination by administering to a person in need thereof a pharmaceutical
composition formulated in an immediate-release formulation. In some embodiments, the
pharmaceutical composition comprises one or more analgesic agents and one or more
antimuscarinic agents. In other embodiments, the pharmaceutical composition comprises one
or more analgesic agents and one or more antidiuretic agents. In yet other embodiments, the
pharmaceutical composition comprises one or more analgesic agents, one or more
antimuscarinic agents, and one or more antidiuretic agents.
In other embodiments, the pharmaceutical composition of the present
application further comprises one or more spasmolytics. Examples of spasmolytics include,
but are not limited to, carisoprodol, benzodiazepines, baclofen, cyclobenzaprine, metaxalone,
methocarbamol, clonidine, clonidine analog, and dantrolene. In some embodiments, the
spasmolytics is used at a daily dose of 1 mg to 1000 mg, 1 mg to 100 mg, 10 mg to 1000 mg,
mg to 100 mg, 20 mg to 1000 mg, 20 mg to 800 mg, 20 mg to 500 mg, 20 mg to 200 mg,
50 mg to 1000 mg, 50 mg to 800 mg, 50 mg to 200 mg, 100 mg to 800 mg, 100 mg to 500
mg, 200 mg to 800 mg, and 200 mg to 500 mg. The spasmolytics may be formulated, alone
or together with other active ingredient(s) in the pharmaceutical composition, for immediate-
release, delayed-extended release or combinations thereof.
In certain embodiments, the pharmaceutical composition comprises two or
more analgesic agents. In other embodiments, the pharmaceutical composition comprises
8284579_1 (GHMatters) P97047.NZ
one or more analgesic agents and one or more antimuscarinic agents and/or antidiuretic
agents. The pharmaceutical composition may be formulated into a tablet, capsule, dragee,
powder, granulate, liquid, gel or emulsion form. Said liquid, gel or emulsion may be ingested
by the subject in naked form or contained within a capsule.
In certain embodiments, the analgesic agent is selected from the group
consisting of salicylates, aspirin, salicylic acid, methyl salicylate, diflunisal, salsalate,
olsalazine, sulfasalazine, para-aminophenol derivatives, acetanilide, acetaminophen,
phenacetin, fenamates, mefenamic acid, meclofenamate, sodium meclofenamate, heteroaryl
acetic acid derivatives, tolmetin, ketorolac, diclofenac, propionic acid derivatives, ibuprofen,
naproxen sodium, naproxen, fenoprofen, ketoprofen, flurbiprofen, oxaprozin; enolic acids,
oxicam derivatives, piroxicam, meloxicam, tenoxicam, ampiroxicam, droxicam, pivoxicam,
pyrazolon derivatives, phenylbutazone, oxyphenbutazone, antipyrine, aminopyrine, dipyrone,
coxibs, celecoxib, rofecoxib, nabumetone, apazone, nimesulide, indomethacin, sulindac,
etodolac, and isobutylphenyl propionic acid. The antimuscarinic agent is selected from the
group consisting of oxybutynin, solifenacin, darifenacin and atropine.
In some embodiments, the pharmaceutical composition comprises a single
analgesic agent and a single antimuscarinic agent. In one embodiment, the single analgesic
agent is aspirin. In another embodiment, the single analgesic agent is ibuprofen. In another
embodiment, the single analgesic agent is naproxen sodium. In another embodiment, the
single analgesic agent is indomethacin. In another embodiment, the single analgesic agent is
nabumetone. In another embodiment, the single analgesic agent is acetaminophen. The
analgesic agent and anti-muscarinic agent may be given at doses in the ranges described
above.
Another aspect of the present application relates to a method for treating
nocturia by administering to a subject in need thereof (1) one or more analgesic agents and
(2) one or more antidiuretic agents. In certain embodiments, the antidiuretic agent(s) act to:
(1) increase vasopressin secretion; (2) increase vasopressin receptor activation; (3) reduce
secretion of atrial natriuretic peptide (ANP) or C-type natriuretic peptide (CNP); or (4)
reduce ANP and/or CNP receptor activation.
Exemplary antidiuretic agents include, but are not limited to, antidiuretic
hormone (ADH), angiotensin II, aldosterone, vasopressin, vasopressin analogs (e.g.,
desmopressin argipressin, lypressin, felypressin, ornipressin, terlipressin); vasopressin
receptor agonists, atrial natriuretic peptide (ANP) and C-type natriuretic peptide (CNP)
receptor (i.e., NPR1, NPR2, NPR3) antagonists (e.g., HS1, isatin, [Asu7,23']b-ANP-(7-
8284579_1 (GHMatters) P97047.NZ
28)], anantin, a cyclic peptide from Streptomyces coerulescens, and 3G12 monoclonal
antibody); somatostatin type 2 receptor antagonists (e.g., somatostatin), and
pharmaceutically-acceptable derivatives, analogs, salts, hydrates, and solvates thereof.
In certain embodiments, the one or more analgesic agent and one or more
antidiuretic agents are formulated for delayed-release.
Another aspect of the present application relates to a method for treating
nocturia by administering to a person in need thereof a first pharmaceutical composition
comprising a diuretic, followed with a second pharmaceutical composition comprising one or
more analgesic agents. The first pharmaceutical composition is dosed and formulated to have
a diuretic effect within 6 hours of administration and is administered at least 8 hours prior to
bedtime. The second pharmaceutical composition is administered within 2 hours prior to
bedtime.
Examples of diuretics include, but are not limited to, acidifying salts, such as
CaCl and NH Cl; arginine vasopressin receptor 2 antagonists, such as amphotericin B and
lithium citrate; aquaretics, such as Goldenrod and Junipe; Na-H exchanger antagonists, such
as dopamine; carbonic anhydrase inhibitors, such as acetazolamide and dorzolamide; loop
diuretics, such as bumetanide, ethacrynic acid, furosemide and torsemide; osmotic diuretics,
such as glucose and mannitol; potassium-sparing diuretics, such as amiloride, spironolactone,
triamterene, potassium canrenoate; thiazides, such as bendroflumethiazide and
hydrochlorothiazide; and xanthines, such as caffeine, theophylline and theobromine.
In some embodiments, the second pharmaceutical composition further
comprises one or more antimuscarinic agents. Examples of the antimuscarinic agents include,
but are not limited to, oxybutynin, solifenacin, darifenacin, fesoterodine, tolterodine,
trospium and atropine. The second pharmaceutical composition may be formulated in
immediate-release formulation or delayed-release formulation. In one embodiment, the first
pharmaceutical composition is formulated for immediate-release and the second
pharmaceutical composition is formulated for delayed-release.
In some other embodiments, the second pharmaceutical composition further
comprises one or more antidiuretic agents.
Another aspect of the present application relates to a pharmaceutical
composition comprising a plurality of active ingredients and a pharmaceutically acceptable
carrier. In some embodiments, the plurality of active ingredients comprise two or more
analgesics. In other embodiments, the plurality of active ingredients comprise one or more
analgesics and one or more antimuscarinic agents. In other embodiments, the plurality of
8284579_1 (GHMatters) P97047.NZ
active ingredients comprise one or more analgesics and one or more antidiuretic agents. In
yet other embodiments, the plurality of active ingredients comprise one or more analgesics,
one or more antidiuretic agents, and one or more antimuscarinic agents. In other
embodiments, at least one of said plurality of active ingredients is formulated for delayed-
release.
In some embodiments, the pharmaceutical composition comprises two
analgesics selected from the group consisting of cetylsalicylic acid, ibuprofen, naproxen
sodium, nabumetone, acetaminophen and indomethancin. In other embodiments, the
pharmaceutical composition comprises one or more analgesics selected from the group
consisting of cetylsalicylic acid, ibuprofen, naproxen sodium, nabumetone, acetaminophen
and indomethancin; and an antimuscarinic agent selected from the group consisting of
oxybutynin, solifenacin, darifenacin and atropine.
As used herein, "pharmaceutically acceptable carrier" includes any and all
solvents, dispersion media, coatings, antibacterial and antifungal agents, isotonic and
absorption delaying agents, sweeteners and the like. The pharmaceutically acceptable
carriers may be prepared from a wide range of materials including, but not limited to,
flavoring agents, sweetening agents and miscellaneous materials such as buffers and
absorbents that may be needed in order to prepare a particular therapeutic composition. The
use of such media and agents with pharmaceutically active substances is well known in the
art. Except insofar as any conventional media or agent is incompatible with the active
ingredient, its use in the therapeutic compositions is contemplated.
Another aspect of the present application relates to a method for reducing the
frequency of urination by administering to a subject in need thereof, two or more analgesic
agents alternatively to prevent the development of drug resistance. In one embodiment, the
method comprises administering a first analgesic agent for a first period of time and then
administering a second analgesic agent for a second period of time. In another embodiment,
the method further comprises administering a third analgesic agent for a third period of time.
The first, second and third analgesic agents are different from each other and may be selected
from the group consisting of: salicylates, aspirin, salicylic acid, methyl salicylate, diflunisal,
salsalate, olsalazine, sulfasalazine, para-aminophenol derivatives, acetanilide, acetaminophen,
phenacetin, fenamates, mefenamic acid, meclofenamate, sodium meclofenamate, heteroaryl
acetic acid derivatives, tolmetin, ketorolac, diclofenac, propionic acid derivatives, ibuprofen,
naproxen sodium, naproxen, fenoprofen, ketoprofen, flurbiprofen, oxaprozin; enolic acids,
oxicam derivatives, piroxicam, meloxicam, tenoxicam, ampiroxicam, droxicam, pivoxicam,
8284579_1 (GHMatters) P97047.NZ
pyrazolon derivatives, phenylbutazone, oxyphenbutazone, antipyrine, aminopyrine, dipyrone,
coxibs, celecoxib, rofecoxib, nabumetone, apazone, nimesulide, indomethacin, sulindac,
etodolac, and isobutylphenyl propionic acid.
In one embodiment, the first analgesic agent is acetaminophen, the second
analgesic agent is ibuprofen and the third analgesic agent is naproxen sodium. The length of
each period may vary depending on the subject’s response to each analgesic agent. In some
embodiments, each period lasts from 3 days to three weeks. In another embodiment, one or
more of the first, second and third analgesic is formulated for delayed-release.
The present invention is further illustrated by the following example which
should not be construed as limiting. The contents of all references, patents and published
patent applications cited throughout this application are incorporated herein by reference.
EXAMPLE 1: INHIBITION OF THE URGE TO URINATE
Twenty volunteer subjects, both male and female were enrolled, each of which
experienced premature urge or desire to urinate, interfering with their ability to sleep for a
sufficient period of time to feel adequately rested. Each subject ingested 400-800 mg of
ibuprofen as a single dose prior to bedtime. At least 14 subjects reported that they were able
to rest better because they were not being awakened as frequently by the urge to urinate.
Several subjects reported that after several weeks of nightly use of ibuprofen,
the benefit of less frequent urges to urinate was no longer being realized. However, all of
these subjects further reported the return of the benefit after several days of abstaining from
taking the dosages.
EXAMPLE 2: EFFECT OF ANALGESIC AGENTS, BOTULINUM NEUROTOXIN AND
ANTIMUSCARINIC AGENTS ON MACROPHAGE RESPONSES TO INFLAMMATORY
AND NON-INFLAMMATORY STIMULI
Experimental Design
This study is designed to determine the dose and in vitro efficacy of analgesics
and antimuscarinic agents in controlling macrophage response to inflammatory and non-
inflammatory stimuli mediated by Cox-2 and prostaglandins (PGE, PGH, etc.). It establishes
baseline (dose and kinetic) responses to inflammatory and non-inflammatory effectors in
bladder cells. Briefly, cultured cells are exposed to analgesic agents and/or antimuscarinic
agents in the absence or presence of various effectors.
The effectors include: lipopolysaccharide (LPS), an inflammatory agent and
COX2 inducer, as inflammatory stimuli; carbachol or acetylcholine, a stimulator of smooth
muscle contraction, as non-inflammatory stimuli; botulinum neurotoxin A, a known inhibitor
8284579_1 (GHMatters) P97047.NZ
of acetylcholine release, as positive control; and arachidonic acid (AA), gamma linolenic acid
(DGLA) or eicosapentaenoic acid (EPA) as precursors of prostaglandins, which are produced
following the sequential oxidation of AA, DGLA or EPA inside the cell by cyclooxygenases
(COX1 and COX2) and terminal prostaglandin synthases.
The analgesic agents include: Salicylates such as aspirin, iso-butyl-propanoic-
phenolic acid derivative (ibuprofen) such as Advil, Motrin, Nuprin, and Medipren, naproxen
sodium such as Aleve, Anaprox, Antalgin, Feminax Ultra, Flanax, Inza, Midol Extended
Relief, Nalgesin, Naposin, Naprelan, Naprogesic, Naprosyn, Naprosyn suspension, EC-
Naprosyn, Narocin, Proxen, Synflex and Xenobid, acetic acid derivative such as
indomethacin (Indocin),1-naphthaleneacetic acid derivative such as nabumetone or relafen,
N-acetyl-para-aminophenol (APAP) derivative such as acetaminophen or paracetamol
(Tylenol) and Celecoxib.
The antimuscarinic agents include: oxybutynin, solifenacin, darifenacin and
atropine.
Macrophages are subjected to short term (1-2 hrs) or long term (24-48 hrs)
stimulation of with:
1) Each analgesic agent alone at various doses.
(2) Each analgesic agent at various doses in the presence of LPS.
(3) Each analgesic agent at various doses in the presence of carbachol or
acetylcholine.
(4) Each analgesic agent at various doses in the presence of AA, DGLA, or EPA.
(5) Botulinum neurotoxin A alone at various doses.
(6) Botulinum neurotoxin A at various doses in the presence of LPS.
(7) Botulinum neurotoxin A at various doses in the presence of carbachol or
acetylcholine.
(8) Botulinum neurotoxin A at various doses in the presence of AA, DGLA, or EPA.
(9) Each antimuscarinic agent alone at various doses.
(10) Each antimuscarinic agent at various doses in the presence of LPS.
(11) Each antimuscarinic agent at various doses in the presence of carbachol or
acetylcholine.
(12) Each antimuscarinic agent at various doses in the presence of AA, DGLA, or
EPA.
The cells are then analyzed for the release of PGH , PGE, PGE , Prostacydin,
Thromboxane, IL-1β, IL-6, TNF-α, the COX2 activity, the production of cAMP and cGMP,
8284579_1 (GHMatters) P97047.NZ
the production of IL-1β, IL-6, TNF-α and COX2 mRNA, and surface expression of CD80,
CD86 and MHC class II molecules.
Materials and Methods
Macrophage cells
Murine RAW264.7 or J774 macrophage cells (obtained from ATCC) were
used in this study. Cells were maintained in a culture medium containing RPMI 1640
supplemented with 10 % fetal bovine serum (FBS), 15 mM HEPES, 2 mM L-glutamine, 100
U/ml penicillin, and 100 µg / ml of streptomycin. Cells were cultured at 37° C in a 5 % CO
atmosphere and split (passages) once a week.
In vitro treatment of macrophage cells with analgesics
RAW264.7 macrophage cells were seeded in 96-well plates at a cell density of
1.5x10 cells per well in 100 µl of the culture medium. The cells were treated with (1)
various concentrations of analgesic (acetaminophen, aspirin, ibuprophen or naproxen), (2)
various concentrations of lipopolysaccharide (LPS), which is an effector of inflammatory
stimuli to macrophage cells, (3) various concentrations of carbachol or acetylcholine, which
are effectors of non-inflammatory stimuli, (4) analgesic and LPS or (5) analgesic and
carbachol or acetylcholine. Briefly, the analgesics were dissolved in FBS-free culture
medium (i.e., RPMI 1640 supplemented with 15 mM HEPES, 2 mM L-glutamine, 100 U / ml
penicillin, and 100 µg / ml of streptomycin), and diluted to desired concentrations by serial
dilution with the same medium. For cells treated with analgesic in the absence of LPS, 50 µl
of analgesic solution and 50 µl of FBS-free culture medium were added to each well. For
cells treated with analgesic in the presence of LPS, 50 µl of analgesic solution and 50 µl of
LPS (from Salmonella typhimurium) in FBS-free culture medium were added to each well.
All conditions were tested in duplicates.
After 24 or 48 hours of culture, 150 µl of culture supernatants were collected,
spun down for 2 min at 8,000 rpm at 4°C to remove cells and debris and stored at -70°C for
analysis of cytokine responses by ELISA. The cells were collected and washed by
centrifugation (5 min at 1,500 rpm at 4°C) in 500 µl of Phosphate buffer (PBS). Half of the
cells were then snap frozen in liquid nitrogen and stored at -70°C. The remaining cells were
stained with fluorescent monoclonal antibodies and analyzed by flow cytometry.
Flow cytometry analysis of co-stimulatory molecule expression
For flow cytometry analysis, macrophages were diluted in 100 µl of FACS
buffer (phosphate buffered saline (PBS) with 2% bovine serum albumin (BSA) and 0.01%
NaN ) and stained 30 min at 4°C by addition of FITC-conjugated anti-CD40, PE-conjugated
8284579_1 (GHMatters) P97047.NZ
anti-CD80, PE-conjugated anti-CD86 antibody, anti MHC class II (I-A ) PE (BD
Bioscience). Cells were then washed by centrifugation (5 min at 1,500 rpm at 4°C) in 300 µl
of FACS buffer. After a second wash, cells were re-suspended in 200 µl of FACS buffer and
the percentage of cells expressing a given marker (single positive), or a combination of
markers (double positive) were analyzed with the aid of an Accuri C6 flow cytometer (BD
Biosciences).
Analysis of cytokine responses by ELISA
Culture supernatants were subjected to cytokine-specific ELISA to determine
IL-1β, IL-6 and TNF-α responses in cultures of macrophages treated with analgesic, LPS
alone or a combination of LPS and analgesic. The assays were performed on Nunc MaxiSorp
Immunoplates (Nunc) coated overnight with 100 μl of anti-mouse IL-6, TNF-α mAbs (BD
Biosciences) or IL-1β mAb (R&D Systems) in 0.1 M sodium bicarbonate buffer (pH 9.5).
After two washes with PBS (200 μl per well), 200 μl of PBS 3% BSA were added in each
well (blocking) and the plates incubated for 2 hours at room temperature. Plates were washed
again two times by addition of 200 μl per well, 100 μl of cytokine standards and serial
dilutions of culture supernatants were added in duplicate and the plates were incubated
overnight at 4°C. Finally, the plates were washed twice and incubated with 100 μl of
secondary biotinylated anti-mouse IL-6, TNFα mAbs (BD Biosciences) or IL-1β (R&D
Systems) followed by peroxidase-labelled goat anti-biotin mAb (Vector Laboratories). The
colorimetric reaction was developed by the addition of 2,2’-azino-bis (3)-
ethylbenzylthiazolinesulfonic acid (ABTS) substrate and H 0 (Sigma) and the absorbance
measured at 415 nm with a Victor V multilabel plate reader (PerkinElmer).
Determination of COX2 activity and the production of cAMP and cGMP
The COX2 activity in the cultured macrophages is determined by COX2
activity assay. The production of cAMP and cGMP is determined by the cAMP assay and
cGMP assay. These assays are performed routinely in the art.
Results
Table 1 summarizes the experiments performed with Raw 264 macrophage
cell line and main findings in terms of the effects of analgesics on cell surface expression of
costimulatory molecules CD40 and CD80. Expression of these molecules is stimulated by
COX2 and inflammatory signals and thus, was evaluated to determine functional
consequences of inhibition of COX2.
As shown in Table 2, acetaminophen, aspirin, ibuprophen and naproxen
8284579_1 (GHMatters) P97047.NZ
inhibit basal expression of co-stimulatory molecules CD40 and CD80 by macrophages at all
4 3 2
the tested doses (i.e., 5x 10 nM, 5x 10 nM, 5x 10 nM, 5x 10 nM, 50 nM and 5 nM),
except for the highest dose (i.e., 5x 10 nM), which appears to enhance, rather than inhibit,
expression of the co-stimulatory molecules. As shown in Figures 1A and 1B, such inhibitory
effect on CD40 and CD50 expression was observed at analgesic doses as low as 0.05 nM
(i.e., 0.00005 µM). This finding supports the notion that a controlled release of small doses
of analgesic may be preferable to acute delivery of large doses. The experiment also revealed
that acetaminophen, aspirin, ibuprophen and naproxen have a similar inhibitory effect on LPS
induced expression of CD40 and CD80.
Table 1. Summary of experiments
Control Salmonella
typhimurium Acetaminophen Aspirin Ibuprophen Naproxen
TESTS
2 X Dose responses
(0, 5, 50, 1000)
ng/mL
Dose responses
3 4 5 6
(0, 5, 50, 500, 5x10 , 5x10 , 5x10 , 5x10 ) nM
4 X X (5 ng/mL)
Dose responses
3 4 5 6
X (50 ng/mL
(0, 5 , 50, 500, 5.10 , 5.10 , 5.10 , 5.10 ) nM
X (1000 ng/mL)
ANALYSIS
a Characterization of activation/stimulatory status: Flow cytometry analysis of CD40, CD80,
CD86 and MHC class II
b Mediators of inflammatory responses: ELISA analysis of IL-1β, IL-6, TNF-α
Table 2. Summary of main findings
Effectors % Positive Negative LPS Dose analgesic (nM)
Control 5
ng/ml
6 5 4 3
.10 5.10 5.10 5.10 500 50 5
CD40 CD80 20.6 77.8
Acetaminophen CD40 CD80 63 18 12 9.8 8.3 9.5 7.5
Aspirin CD40 CD80 44 11 10.3 8.3 8 10.5 7.5
Ibuprophen CD40 CD80 ND* 6.4 7.7 7.9 6.0 4.9 5.8
8284579_1 (GHMatters) P97047.NZ
Naproxen CD40 CD80 37 9.6 7.7 6.9 7.2 6.8 5.2
Analgesic plus LPS
Acetaminophen CD40 CD80 95.1 82.7 72.4 68.8 66.8 66.2 62.1
Aspirin CD40 CD80 84.5 80 78.7 74.7 75.8 70.1 65.7
Ibuprophen CD40 CD80 ND 67 77.9 72.9 71.1 63.7 60.3
Naproxen CD40 CD80 66.0 74.1 77.1 71.0 68.8 72 73
* ND: not done (toxicity)
Table 3 summarizes the results of several studies that measured serum levels
of analgesic after oral therapeutic doses in adult humans. As shown in Table 3, the maximum
serum levels of analgesic after an oral therapeutic dose are in the range of 10 to 10 nM.
Therefore, the doses of analgesic tested in vitro in Table 2 cover the range of concentrations
achievable in vivo in human.
Table 3. Serum levels of analgesic in human blood after oral therapeutic doses
Maximum serum
Analgesic drug Molecular levels after oral References
weight therapeutic doses
mg/L nM
Acetaminophen 151.16 11-18 7.2x10 - * BMC Clinical Pharmacology.2010, 10:10
(Tylenol) 1.19x10 * Anaesth Intensive Care. 2011, 39:242
Aspirin 181.66 30-100 1.65x10 - * Disposition of Toxic Drugs and Chemicals in
(Acetylsalicylic acid) 5.5x10 Man, 8th Edition, Biomedical Public, Foster City,
CA, 2008, pp. 22-25
* J Lab Clin Med. 1984 Jun;103:869
206.29 24-32 1.16x10 - * BMC Clinical Pharmacology2010, 10:10
Ibuprofen
(Advil, Motrin) 1.55 x10 * J Clin Pharmacol. 2001, 41:330
Naproxen 230.26 Up to Up to * J Clin Pharmacol. 2001, 41:330
(Aleve) 60 2.6x10
EXAMPLE 3: EFFECT OF ANALGESIC AGENTS, BOTULINUM NEUROTOXIN AND
ANTIMUSCARINIC AGENTS ON BLADDER SMOOTH MUSCLE CELL RESPONSES
TO INFLAMMATORY AND NON-INFLAMMATORY STIMULI
Experimental Design
8284579_1 (GHMatters) P97047.NZ
This study is designed to characterize how the optimal doses of analgesic
determined in Example 2 affect bladder smooth muscle cells in cell culture or tissue cultures,
and to address whether different classes of analgesics can synergize to more efficiently
inhibit COX2 and PGE2 responses.
The effectors, analgesic agents and antimuscarinic agents are described in
Example 2.
Primary culture of mouse bladder smooth muscle cells are subjected to short
term (1-2 hrs) or long term (24-48 hrs) stimulation of with:
(1) Each analgesic agent alone at various doses.
(2) Each analgesic agent at various doses in the presence of LPS.
(3) Each analgesic agent at various doses in the presence of carbachol or
acetylcholine.
(4) Each analgesic agent at various doses in the presence of AA, DGLA, or EPA.
(5) Botulinum neurotoxin A alone at various doses.
(6) Botulinum neurotoxin A at various doses in the presence of LPS.
(7) Botulinum neurotoxin A at various doses in the presence of carbachol or
acetylcholine.
(8) Botulinum neurotoxin A at various doses in the presence of AA, DGLA, or EPA.
(9) Each antimuscarinic agent alone at various doses.
(10) Each antimuscarinic agent at various doses in the presence of LPS.
(11) Each antimuscarinic agent at various doses in the presence of carbachol or
acetylcholine.
(12) Each antimuscarinic agent at various doses in the presence of AA, DGLA, or
EPA.
The cells are then analyzed for the release of PGH , PGE, PGE , Prostacydin,
Thromboxane, IL-1β, IL-6, TNF-α, the COX2 activity, the production of cAMP and cGMP,
the production of IL-1β, IL-6, TNF-α and COX2 mRNA, and surface expression of CD80,
CD86 and MHC class II molecules.
Materials and Methods
Isolation and purification of murine bladder cells
Bladder cells were removed from euthanized animals C57BL/6 mice (8-12
weeks old) and cells were isolated by enzymatic digestion followed by purification on a
Percoll gradient. Briefly, bladders from 10 mice were minced with scissors to fine slurry in
ml of digestion buffer (RPMI 1640, 2% fetal bovine serum, 0.5 mg/ml collagenase, 30
8284579_1 (GHMatters) P97047.NZ
μg/ml DNase). Bladder slurries were enzymatically digested for 30 minutes at 37°C.
Undigested fragments were further dispersed through a cell-trainer. The cell suspension was
pelleted and added to a discontinue 20%, 40% and 75% Percoll gradient for purification on
mononuclear cells. Each experiment used 50-60 bladders.
After washes in RPMI 1640, bladder cells were resuspended RPMI 1640
supplemented with 10 % fetal bovine serum, 15 mM HEPES, 2 mM L-glutamine, 100 U/ml
penicillin, and 100 μg / ml of streptomycin and seeded in clear-bottom black 96-well cell
culture microculture plates at a cell density of 3x10 cells per well in 100 µl. Cells were
cultured at 37° C in a 5 % CO atmosphere.
In vitro treatment of cells with analgesics
Bladder cells were treated with analgesic solutions (50 µl/ well) either alone or
together with carbachol (10-Molar, 50 µl/ well), as an example of non-inflammatory stimuli,
or lipopolysaccharide (LPS) of Salmonella typhimurium (1 µg/ml, 50 µl/ well), as an example
of non-inflammatory stimuli. When no other effectors were added to the cells, 50 µl of RPMI
1640 without fetal bovine serum were added to the wells to adjust the final volume to 200 µl.
After 24 hours of culture, 150 µl of culture supernatants were collected, spun
down for 2 min at 8,000 rpm at 4°C to remove cells and debris and stored at -70°C for
analysis of Prostaglandin E2 (PGE ) responses by ELISA. Cells were fixed, permeabilized
and blocked for detection of Cyclooxygenase-2 (COX2) using a fluorogenic substrate. In
selected experiment cells were stimulated 12 hours in vitro for analysis of COX2 responses.
Analysis of COX2 responses
COX2 responses were analyzed by a Cell-Based ELISA using Human/mouse
total COX2 immunoassay (R&D Systems), following the instructions of the manufacturer.
Briefly, after cells fixation and permeabilization, a mouse anti-total COX2 and a rabbit anti-
total GAPDH were added to the wells of the clear-bottom black 96-well cell culture
microculture plates. After incubation and washes, an HRP-conjugated anti-mouse IgG and an
AP-conjugated anti-rabbit IgG were added to the wells. Following another incubation and set
of washes, the HRP- and AP-fluorogenic substrates were added. Finally, a Victor V
multilabel plate reader (PerkinElmer) was used to read the fluorescence emitted at 600 nm
(COX2 fluorescence) and 450 nm (GAPDH fluorescence). Results are expressed as relative
levels of total COX2 as determined by relative fluorescence unit (RFUs) and normalized to
the housekeeping protein GAPDH.
Analysis of PGE2 responses
8284579_1 (GHMatters) P97047.NZ
Prostaglandin E2 responses were analyzed by a sequential competitive ELISA
(R&D Systems). More specifically, culture supernatants or PGE2 standards were added to the
wells of a 96-well polystyrene microplate coated with a goat anti-mouse polyclonal antibody.
After one hour incubation on a microplate shaker, an HRP-conjugated PGE2 was added and
plates incubated for an additional two hours at room temperature. The plates were then
washed and HRP substrate solution added to each well. The color was allowed to develop for
min and the reaction stopped by addition sulfuric acid before reading the plate at 450 nm
with wavelength correction at 570 nm. Results are expressed as mean pg/ml of PGE2.
Other assays
The release of PGH , PGE, Prostacydin, Thromboxane, IL-1β, IL-6, and TNF-
α, the production of cAMP and cGMP, the production of IL-1β, IL-6, TNF-α and COX2
mRNA, and surface expression of CD80, CD86 and MHC class II molecules are determined
as described in Example 2.
Results
Analgesics inhibit COX2 responses of murine bladder cells to an inflammatory stimuli
Several analgesics (acetaminophen, aspirin, ibuprofen and naproxen) were
tested on mouse bladder cells at the concentration of 5 µM or 50 µM to determine whether
the analgesics could induce COX2 responses. Analysis of 24-hour cultures showed that none
of the analgesics tested induced COX2 responses in murine bladder cells in vitro.
The effect of these analgesics on the COX2 responses of murine bladder cells
to carbachol or LPS stimulation in vitro was also tested. As indicated in Table 1, the dose of
carbachol tested has no significant effect on COX2 levels in murine bladder cells. On the
other hand, LPS significantly increased total COX2 levels. Interestingly, acetaminophen,
aspirin, ibuprofen and naproxen could all suppress the effect of LPS on COX2 levels. The
suppressive effect of the analgesic was seen when these drugs were tested at either 5 µM or
50 µM (Table 4).
8284579_1 (GHMatters) P97047.NZ
Table 4. COX2 expression by murine bladder cells after in vitro stimulation and treatment
with analgesics
Stimuli Analgesic Total COX2 levels
(Normalized RFUs)
None None 158 ± 18
Carbachol (mM) None 149 ± 21
LPS (1µg/ml) None 420 ± 26
LPS (1µg/ml) Acetaminophen (5 µM) 275 ± 12
LPS (1µg/ml) Aspirin (5 µM) 240 ± 17
LPS (1µg/ml) Ibuprofen (5 µM)) 253 ± 32
LPS (1µg/ml) Naproxen (5 µM) 284 ± 11
LPS (1µg/ml) Acetaminophen (50 µM) 243 ± 15
LPS (1µg/ml) Aspirin (50 µM) 258 ± 21
LPS (1µg/ml) Ibuprofen (50 µM) 266 ± 19
LPS (1µg/ml) Naproxen (50 µM) 279 ± 23
Analgesics inhibit PGE2 responses of murine bladder cells to an inflammatory stimuli
The secretion of PGE2 in culture supernatants of murine bladder cells was
measured to determine the biological significance of the alteration of murine bladder cell
COX2 levels by analgesics. As shown in Table 5, PGE2 was not detected in the culture
supernatants of unstimulated bladder cells or bladder cells cultured in the presence of
carbachol. Consistent with COX2 responses described above, stimulation of murine bladder
cells with LPS induced the secretion of high levels of PGE2. Addition of the analgesics
acetaminophen, aspirin, ibuprofen and naproxen suppressed the effect of LPS on PGE2
secretion and no difference was seen between the responses of cells treated with the 5 or 50
µM dose of analgesic.
8284579_1 (GHMatters) P97047.NZ
Table 5. PGE2 secretion by murine bladder cells after in vitro stimulation and treatment with
analgesics
Stimuli Analgesic PGE2 levels (pg/ml)
None None < 20.5
Carbachol (mM) None < 20.5
LPS (1µg/ml) None 925 ± 55
LPS (1µg/ml) Acetaminophen (5 µM) 619 ± 32
LPS (1µg/ml) Aspirin (5 µM) 588 ± 21
LPS (1µg/ml) Ibuprofen (5 µM)) 593 ± 46
LPS (1µg/ml) Naproxen (5 µM) 597± 19
LPS (1µg/ml) Acetaminophen (50 µM) 600 ± 45
LPS (1µg/ml) Aspirin (50 µM) 571 ± 53
LPS (1µg/ml) Ibuprofen (50 µM) 568 ± 32
LPS (1µg/ml) Naproxen (50 µM) 588 ± 37
In summary, these data show that the analgesics alone at 5 µM or 50 µM do
not induce COX2 and PGE2 responses in murine bladder cells. The analgesics at 5 µM or 50
µM, however, significantly inhibit COX2 and PGE2 responses of murine bladder cells
stimulated in vitro with LPS (1 µg/ml). No significant effect of analgesics was observed on
COX2 and PGE2 responses of murine bladder cells stimulated with carbachol (1 mM).
EXAMPLE 4: EFFECT OF ANALGESIC AGENTS, BOTULINUM NEUROTOXIN AND
ANTIMUSCARINIC AGENTS ON BLADDER SMOOTH MUSCLE CELL
CONTRACTION.
Experimental Design
Cultured mouse or rat bladder smooth muscle cells and mouse or rat bladder
smooth muscle tissue are exposed to inflammatory stimuli and non-inflammatory stimuli in
the presence of analgesic agent and/or antimuscarinic agent at various concentrations. The
stimuli-induced muscle contraction is measured to evaluate the inhibitory effect of the
analgesic agent and/or antimuscarinic agent.
The effectors, analgesic agents and antimuscarinic agents are described in
Example 2.
Primary culture of mouse bladder smooth muscle cells are subjected to short
8284579_1 (GHMatters) P97047.NZ
term (1-2 hrs) or long term (24-48 hrs) stimulation of with:
(1) Each analgesic agent alone at various doses.
(2) Each analgesic agent at various doses in the presence of LPS.
(3) Each analgesic agent at various doses in the presence of carbachol or
acetylcholine.
(4) Each analgesic agent at various doses in the presence of AA, DGLA, or EPA.
(5) Botulinum neurotoxin A alone at various doses.
(6) Botulinum neurotoxin A at various doses in the presence of LPS.
(7) Botulinum neurotoxin A at various doses in the presence of carbachol or
acetylcholine.
(8) Botulinum neurotoxin A at various doses in the presence of AA, DGLA, or EPA.
(9) Each antimuscarinic agent alone at various doses.
(10) Each antimuscarinic agent at various doses in the presence of LPS.
(11) Each antimuscarinic agent at various doses in the presence of carbachol or
acetylcholine.
(12) Each antimuscarinic agent at various doses in the presence of AA, DGLA, or
EPA.
Materials and Methods
Primary mouse bladder cells are isolated as described in Example 3. In
selected experiments, cultures of bladder tissue are used. Bladder smooth muscle cell
contractions are recorded with a Grass polygraph (Quincy Mass, USA).
EXAMPLE 5: EFFECT OF ORAL ANALGESIC AGENTS AND ANTIMUSCARINIC
AGENTS ON COX2 AND PGE2 RESPONSES OF BLADDER SMOOTH MUSCLE
CELLS.
Experimental design:
Normal mice and mice with over active bladder syndrome are given oral doses
of aspirin, naproxen sodium, Ibuprofen, Indocin, nabumetone, Tylenol, Celecoxib,
oxybutynin, solifenacin, darifenacin, atropine and combinations thereof. Control groups
include untreated normal mice and untreated OAB mice without over active bladder
syndrome. Thirty (30) min after the last doses, the bladders are collected and stimulated ex
vivo with carbachol or acetylcholine. In selected experiments the bladders are treated with
botulinum neurotoxin A before stimulation with carbachol. Animals are maintained in
metabolic cages and frequency (and volume) of urination are evaluated. Bladder outputs are
determined by monitoring water intake and cage litter weight. Serum PGH , PGE, PGE ,
8284579_1 (GHMatters) P97047.NZ
Prostacydin, Thromboxane, IL-1β, IL-6, TNF-α, cAMP, and cGMP levels are determined by
ELISA. CD80, CD86, MHC class II expression in whole blood cells are determined by flow
cytometry.
At the end of the experiment, animals are euthanized and ex vivo bladder
contractions are recorded with a Grass polygraph. Portions of bladders are fixed in formalin,
and COX2 responses are analyzed by immunohistochemistry.
EXAMPLE 6: EFFECT OF ANALGESIC AGENTS, BOTULINUM NEUROTOXIN AND
ANTIMUSCARINIC AGENTS ON HUMAN BLADDER SMOOTH MUSCLE CELL
RESPONSES TO INFLAMMATORY AND NON-INFLAMMATORY STIMULI
Experimental Design
This study is designed to characterize how the optimal doses of analgesics
determined in Examples 1-5 affect human bladder smooth muscle cells in cell culture or
tissue cultures, and to address whether different classes of analgesics can synergize to more
efficiently inhibit COX2 and PGE2 responses.
The effectors, analgesic agents and antimuscarinic agents are described in
Example 2.
Human bladder smooth muscle cells are subjected to short term (1-2 hrs) or
long term (24-48 hrs) stimulation of with:
(1) Each analgesic agent alone at various doses.
(2) Each analgesic agent at various doses in the presence of LPS.
(3) Each analgesic agent at various doses in the presence of carbachol or
acetylcholine.
(4) Each analgesic agent at various doses in the presence of AA, DGLA, or EPA.
(5) Botulinum neurotoxin A alone at various doses.
(6) Botulinum neurotoxin A at various doses in the presence of LPS.
(7) Botulinum neurotoxin A at various doses in the presence of carbachol or
acetylcholine.
(8) Botulinum neurotoxin A at various doses in the presence of AA, DGLA, or EPA.
(9) Each antimuscarinic agent alone at various doses.
(10) Each antimuscarinic agent at various doses in the presence of LPS.
(11) Each antimuscarinic agent at various doses in the presence of carbachol or
acetylcholine.
(12) Each antimuscarinic agent at various doses in the presence of AA, DGLA, or
EPA.
8284579_1 (GHMatters) P97047.NZ
The cells are then analyzed for the release of PGH , PGE, PGE , Prostacydin,
Thromboxane, IL-1β, IL-6, TNF-α, the COX2 activity, the production of cAMP and cGMP,
the production of IL-1β, IL-6, TNF-α and COX2 mRNA, and surface expression of CD80,
CD86 and MHC class II molecules.
EXAMPLE 7: EFFECT OF ANALGESIC AGENTS, BOTULINUM NEUROTOXIN AND
ANTIMUSCARINIC AGENTS ON HUMAN BLADDER SMOOTH MUSCLE CELL
CONTRACTION.
Experimental Design
Cultured human bladder smooth muscle cells are exposed to inflammatory
stimuli and non-inflammatory stimuli in the presence of analgesic agent and/or
antimuscarinic agent at various concentrations. The stimuli-induced muscle contraction is
measured to evaluate the inhibitory effect of the analgesic agent and/or antimuscarinic agent.
The effectors, analgesic agents and antimuscarinic agents are described in
Example 2.
Human bladder smooth muscle cells are subjected to short term (1-2 hrs) or
long term (24-48 hrs) stimulation of with:
(1) Each analgesic agent alone at various doses.
(2) Each analgesic agent at various doses in the presence of LPS.
(3) Each analgesic agent at various doses in the presence of carbachol or
acetylcholine.
(4) Each analgesic agent at various doses in the presence of AA, DGLA, or EPA.
(5) Botulinum neurotoxin A alone at various doses.
(6) Botulinum neurotoxin A at various doses in the presence of LPS.
(7) Botulinum neurotoxin A at various doses in the presence of carbachol or
acetylcholine.
(8) Botulinum neurotoxin A at various doses in the presence of AA, DGLA, or EPA.
(9) Each antimuscarinic agent alone at various doses.
(10) Each antimuscarinic agent at various doses in the presence of LPS.
(11) Each antimuscarinic agent at various doses in the presence of carbachol or
acetylcholine.
(12) Each antimuscarinic agent at various doses in the presence of AA, DGLA, or
EPA.
Bladder smooth muscle cell contractions are recorded with a Grass polygraph
(Quincy Mass, USA).
8284579_1 (GHMatters) P97047.NZ
EXAMPLE 8: EFFECT OF ANALGESIC AGENTS ON NORMAL HUMAN BLADDER
SMOOTH MUSCLE CELL RESPONSES TO INFLAMMATORY AND NON
INFLAMMATORY SIGNALS
EXPERIMENTAL DESIGN
Culture of normal human bladder smooth muscle cells
Normal human bladder smooth muscle cells were isolated by enzymatic
digestion from macroscopically normal pieces of human bladder. Cells were expended in
vitro by culture at 37° C in a 5 % CO atmosphere in RPMI 1640 supplemented with 10 %
fetal bovine serum, 15 mM HEPES, 2 mM L-glutamine, 100 U/ml penicillin, and 100 mg /
ml of streptomycin and passage once a week by treatment with trypsin to detach cells
followed by reseeding in a new culture flask. The first week of culture, the culture medium
was supplemented with 0.5 ng/ml epidermal growth factor, 2 ng/ml fibroblast growth factor,
and 5 μg/ml insulin.
Treatment of normal human bladder smooth muscle cells with analgesics in vitro
Bladder smooth muscle cells trypsinized and seeded in microculture plates at a
cell density of 3x10 cells per well in 100 µl were treated with analgesic solutions (50 µl/
well) either alone or together carbachol (10-Molar, 50 µl/ well), as an example of non-
inflammatory stimuli, or lipopolysaccharide (LPS) of Salmonella typhimurium (1 µg/ml, 50
µl/ well), as an example of non-inflammatory stimuli. When no other effectors were added to
the cells, 50 µl of RPMI 1640 without fetal bovine serum were added to the wells to adjust
the final volume to 200 µl.
After 24 hours of culture, 150 µl of culture supernatants were collected, spun
down for 2 min at 8,000 rpm at 4°C to remove cells and debris and stored at -70°C for
analysis of Prostaglandin E2 (PGE ) responses by ELISA. Cells were fixed, permeabilized
and blocked for detection of COX2 using a fluorogenic substrate. In selected experiments
cells were stimulated 12 hours in vitro for analysis of COX2, PGE2 and cytokine responses.
Analysis of COX2, PGE2 and cytokine responses
COX2 and PGE2 responses were analyzed as described in Example 3.
Cytokine responses were analyzed as described in Example 2
RESULTS
Analgesics inhibit COX2 responses of normal human bladder smooth muscle
cells to inflammatory and non- inflammatory stimuli - Analysis of cells and culture
supernatants after 24 hours of cultures showed that none of the analgesics tested alone
8284579_1 (GHMatters) P97047.NZ
induced COX2 responses in normal human bladder smooth muscle cells. However, as
summarized in Table 6, carbachol induced low, but significant COX2 responses in normal
human bladder smooth muscle cells. On the other hand, LPS treatment resulted in higher
levels of COX2 responses in normal human bladder smooth muscle cells. Acetaminophen,
aspirin, ibuprofen and naproxen could all suppress the effect of carbachol and LPS on COX2
levels. The suppressive effect of the analgesics was seen on LPS-induced responses when
these drugs were tested at either 5 μM or 50 μM.
Table 6. COX2 expression by normal human bladder smooth muscle cells after in vitro
stimulation with inflammatory and non- inflammatory stimuli and treatment with analgesic
Total COX2 levels Total COX2 levels
Stimuli Analgesic (Normalized RFUs) (Normalized RFUs)
subject 1 subject 2
None None 230 199
Carbachol 10 M Acetaminophen (50 μM) 437 462
Carbachol 10 M 298 310
Aspirin (50 μM)
Carbachol 10 M 312 297
Ibuprofen (50 μΜ)
Carbachol 10 M Naproxen (50 μM) 309 330
Carbachol 10 M 296 354
Acetaminophen (50 μM)
None 672 633
LPS (10 μg/ml)
428 457
LPS (10 μg/ml) Acetaminophen (5 μM)
472 491
LPS (10 μg/ml) Aspirin (5 μM)
LPS (10 μg/ml) Ibuprofen (5 μM) 417 456
458 501
LPS (10 μg/ml) Naproxen (5 μM
399 509
LPS (10 μg/ml) Acetaminophen (50 μM)
413 484
LPS (10 μg/ml) Aspirin (50 μM)
427 466
LPS (10 μg/ml) Ibuprofen (50 μΜ)
LPS (10 μg/ml) Naproxen (50 μM) 409 458
Data are expressed as mean of duplicates
Analgesics inhibit PGE2 responses of normal human bladder smooth muscle
cells to inflammatory and non- inflammatory stimuli - Consistent with the induction of COX2
responses described above, both carbachol and LPS induced production of PGE2 by normal
human bladder smooth muscle cells. Acetaminophen, aspirin, ibuprofen and naproxen were
also found to suppress the LPS-induced PGE2 responses at either 5 μM or 50 μM (Table 7).
Table 7. PGE2 secretion by normal human bladder smooth muscle cells after in vitro
stimulation with inflammatory and non- inflammatory stimuli and treatment with analgesic
8284579_1 (GHMatters) P97047.NZ
Stimuli Analgesic PGE2 levels (pg/ml) PGE2 levels (pg/ml)
Subject 1 Subject 2
None None < 20.5 < 20.5
Carbachol 10 M Acetaminophen (50 μM) 129 104
Carbachol 10 M 76 62
Aspirin (50 μM)
Carbachol 10 M 89 59
Ibuprofen (50 μΜ)
Carbachol 10 M Naproxen (50 μM) 84 73
Carbachol 10 M 77 66
Acetaminophen (50 μM)
None 1125 998
LPS (10 μg/ml)
817 542
LPS (10 μg/ml) Acetaminophen (5 μM)
838 598
LPS (10 μg/ml) Aspirin (5 μM)
LPS (10 μg/ml) Ibuprofen (5 μM) 824 527
859 506
LPS (10 μg/ml) Naproxen (5 μM
LPS (10 μg/ml) Acetaminophen (50 μM) 803 540
812 534
LPS (10 μg/ml) Aspirin (50 μM)
821 501
LPS (10 μg/ml) Ibuprofen (50 μΜ)
LPS (10 μg/ml) Naproxen (50 μM) 819 523
Data are expressed as mean of duplicates
Analgesics inhibit cytokine responses of normal human bladder cells to an
inflammatory stimuli - Analysis of cells and culture supernatants after 24 hours of cultures
showed that none the analgesics tested alone induced IL-6 or TNFα secretion in normal
human bladder smooth muscle cells. As shown in Tables 8 and 9, the dose of carbachol
tested induced low, but significant TNFα and IL-6 responses in normal human bladder
smooth muscle cells. On the other hand, LPS treatment resulted in massive induction of
these proinflammatory cytokines. Acetaminophen, aspirin, ibuprofen and naproxen suppress
the effect of carbachol and LPS on TNFα and IL-6 responses. The suppressive effect of the
analgesic on LPS-induced responses was seen when these drugs were tested at either 5 μM or
50 μM.
8284579_1 (GHMatters) P97047.NZ
Table 8. TNFα secretion by normal human bladder smooth muscle cells after in vitro
stimulation with inflammatory and non- inflammatory stimuli and treatment with analgesic
Stimuli Analgesic
TNFα α α α (pg/ml) TNFα α α α (pg/ml)
Subject 1 Subject 2
None None < 5 < 5
Carbachol 10 M None 350 286
Carbachol 10 M 138 164
Acetaminophen (50 μM)
Carbachol 10 M Aspirin (50 μM) 110 142
Carbachol 10 M 146 121
Ibuprofen (50 μΜ)
Carbachol 10 M 129 137
Naproxen (50 μM)
None 5725 4107
LPS (10 μg/ml)
2338 2267
LPS (10 μg/ml) Acetaminophen (5 μM)
LPS (10 μg/ml) Aspirin (5 μM) 2479 2187
2733 2288
LPS (10 μg/ml) Ibuprofen (5 μM)
2591 2215
LPS (10 μg/ml) Naproxen (5 μM
2184 2056
LPS (10 μg/ml) Acetaminophen (50 μM)
2266 2089
LPS (10 μg/ml) Aspirin (50 μM)
LPS (10 μg/ml) Ibuprofen (50 μΜ) 2603 1997
2427 2192
LPS (10 μg/ml) Naproxen (50 μM)
Data are expressed as mean of duplicates.
Table 9. IL-6 secretion by normal human bladder smooth muscle cells after in vitro
stimulation with inflammatory and non- inflammatory stimuli and treatment with analgesic
Stimuli Analgesic IL-6 (pg/ml) IL-6 (pg/ml)
Subject 1 Subject 2
None None < 5 < 5
Carbachol 10 M None 232 278
Carbachol 10 M 119 135
Acetaminophen (50 μM)
Carbachol 10 M 95 146
Aspirin (50 μM)
Carbachol 10 M Ibuprofen (50 μΜ) 107 118
Carbachol 10 M 114 127
Naproxen (50 μM)
8284579_1 (GHMatters) P97047.NZ
LPS (10 μg/ml) None 4838 4383
2012 2308
LPS (10 μg/ml) Acetaminophen (5 μM)
LPS (10 μg/ml) Aspirin (5 μM) 2199 2089
2063 2173
LPS (10 μg/ml) Ibuprofen (5 μM)
2077 2229
LPS (10 μg/ml) Naproxen (5 μM
2018 1983
LPS (10 μg/ml) Acetaminophen (50 μM)
1987 2010
LPS (10 μg/ml) Aspirin (50 μM)
LPS (10 μg/ml) Ibuprofen (50 μΜ) 2021 1991
2102 2028
LPS (10 μg/ml) Naproxen (50 μM)
Data are expressed as mean of duplicates
Primary normal human bladder smooth muscle cells were isolated, cultured
and evaluated for their responses to analgesics in the presence of non-inflammatory
(carbachol) and inflammatory (LPS) stimuli. The goal of this study was to determine
whether or not normal human bladder smooth muscle cells recapitulate the observations
previously made with murine bladder cells.
The above-described experiment will be repeated with analgesic agents and/or
antimuscarinic agents in delayed-release, or extended-release formulation or delayed-and-
extended-release formulations.
The above description is for the purpose of teaching the person of ordinary
skill in the art how to practice the present invention, and it is not intended to detail all those
obvious modifications and variations of it which will become apparent to the skilled worker
upon reading the description. It is intended, however, that all such obvious modifications and
variations be included within the scope of the present invention, which is defined by the
following claims. The claims are intended to cover the claimed components and steps in any
sequence which is effective to meet the objectives there intended, unless the context
specifically indicates the contrary.
8284579_1 (GHMatters) P97047.NZ
Claims (17)
1. Use of a pharmaceutical composition comprising acetaminophen in the manufacture of a medicament for treating nocturia, wherein said acetaminophen is formulated for administration at a daily dose of 1 mg to 2000 mg and wherein said pharmaceutical composition is formulated in a delayed-release formulation or an immediate-release formulation, wherein said pharmaceutical composition further comprises one or more spasmolytics, one or more antimuscarinic agents selected from the group consisting of oxybutynin, solifenacin, darifenacin and atropine, or one or more antidiuretics, wherein said one or more antidiuretics act to: (1) increase vasopressin secretion; (2) increase vasopressin receptor activation; (3) reduce secretion of atrial natriuretic peptide (ANP) or C-type natriuretic peptide (CNP); or (4) reduce ANP and/or CNP receptor activation.
2. The use of Claim 1, wherein said pharmaceutical composition is formulated in a delayed-release formulation.
3. The use of Claim 1 or 2, wherein said pharmaceutical composition comprises a material selected from the group consisting of hydroxypropyl methylcellulose, methylcellulose, methyl hydroxyethylcellulose, hydroxypropylcellulose, carboxymethylcellulose, acrylate copolymers, polyethylene glycols, polyvinylpyrrolidone, methacrylic acid copolymer, cellulose acetate phthalate, hydroxypropyl methylcellulose phthalate, hydroxypropyl methylcellulose acetate succinate, polyvinyl acetate phthalate, shellac, and ethylcellulose.
4. The use of any one of Claims 1-3, wherein said pharmaceutical composition further comprises glyceryl monostearate or glyceryl distearate.
5. The use of any one of Claims 1-4, wherein said pharmaceutical composition comprises a water insoluble capsule body closed at one end with an insoluble, but permeable and swellable hydrogel plug, wherein said plug comprises a material selected from the group consisting of polymethacrylates, erodible compressed polymers, congealed melted polymer and enzymatically controlled erodible polymers.
6. The use of any one of Claims 1-5, wherein said pharmaceutical composition comprises an enteric coating.
7. The use of any one of Claims 1-6, wherein said acetaminophen is formulated for administration at a daily dose of 50 mg to 500 mg.
8. The use of any one of Claims 1-6, wherein said acetaminophen is formulated for administration at a daily dose of 500 mg to 2000 mg. 8284579_1 (GHMatters) P97047.NZ
9. The use of any one of Claims 1-6, wherein said acetaminophen is formulated for administration at a daily dose of 100 mg to 1500 mg.
10. The use of any one of Claims 1-6, wherein said acetaminophen is formulated for administration at a daily dose of 250 mg to 1000 mg.
11. The use of any one of Claims 1-10, wherein said pharmaceutical composition is formulated in an immediate-release formulation.
12. The use of any one of Claims 1-11, wherein said pharmaceutical composition further comprises: an analgesic agent selected from the group consisting of aspirin, ibuprofen, naproxen, naproxen sodium, indomethacin and nabumetone. wherein said analgesic agent is formulated for administration at a daily dose of 1 mg to 2000 mg.
13. Use of a pharmaceutical composition in the manufacture of a medicament for treating nocturia wherein the pharmaceutical composition comprises a plurality of active ingredients, wherein said plurality of active ingredients comprise acetaminophen and one or more antimuscarinic agents selected from the group consisting of oxybutynin, solifenacin, darifenacin and atropine, wherein said pharmaceutical composition is formulated for immediate-release of said plurality of active ingredients or for delayed-release of said plurality of active ingredients and wherein said acetaminophen is formulated for administration at a daily dose of 50 mg to 2000 mg.
14. The use of Claim 13, wherein said pharmaceutical composition is formulated for immediate-release of said plurality of active ingredients.
15. The use of Claim 13, wherein said pharmaceutical composition is formulated for delayed-release of said plurality of active ingredients.
16. The use of any one of Claims 13-15, wherein said plurality of active ingredients further comprises an analgesic agent selected from the group consisting of aspirin, ibuprofen, naproxen, naproxen sodium, indomethacin and nabumetone.
17. The use of any one of Claims 13-16, wherein said plurality of active ingredients further comprise one or more antidiuretics, wherein said one or more antidiuretics act to: (1) increase vasopressin secretion; (2) increase vasopressin receptor activation; (3) reduce secretion of atrial natriuretic peptide (ANP) or C-type natriuretic peptide (CNP); or (4) reduce ANP and/or CNP receptor activation. 8284579_1 (GHMatters) P97047.NZ
Applications Claiming Priority (7)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US13/343,349 US20120141554A1 (en) | 2010-07-08 | 2012-01-04 | Delayed release formulation for reducing the frequency of urination and method of use thereof |
| US13/343,349 | 2012-01-04 | ||
| US13/423,949 | 2012-03-19 | ||
| US13/423,949 US8236856B2 (en) | 2010-07-08 | 2012-03-19 | Delayed release formulation for reducing the frequency of urination and method of use thereof |
| US13/487,343 US20120237574A1 (en) | 2010-07-08 | 2012-06-04 | Delayed-release formulation for reducing the frequency of urination and method of use thereof |
| US13/487,343 | 2012-06-04 | ||
| PCT/US2012/051859 WO2013103389A1 (en) | 2012-01-04 | 2012-08-22 | Delayed-release formulation for reducing the frequency of urination and method of use thereof |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| NZ626622A NZ626622A (en) | 2016-11-25 |
| NZ626622B2 true NZ626622B2 (en) | 2017-02-28 |
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