JPH0160007B2 - - Google Patents
Info
- Publication number
- JPH0160007B2 JPH0160007B2 JP57021924A JP2192482A JPH0160007B2 JP H0160007 B2 JPH0160007 B2 JP H0160007B2 JP 57021924 A JP57021924 A JP 57021924A JP 2192482 A JP2192482 A JP 2192482A JP H0160007 B2 JPH0160007 B2 JP H0160007B2
- Authority
- JP
- Japan
- Prior art keywords
- blood
- cancer
- substance
- anticancer
- immobilized
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
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- 230000002401 inhibitory effect Effects 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 229940079322 interferon Drugs 0.000 description 1
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- 238000004519 manufacturing process Methods 0.000 description 1
- 229960004961 mechlorethamine Drugs 0.000 description 1
- HAWPXGHAZFHHAD-UHFFFAOYSA-N mechlorethamine Chemical class ClCCN(C)CCCl HAWPXGHAZFHHAD-UHFFFAOYSA-N 0.000 description 1
- 229960001924 melphalan Drugs 0.000 description 1
- SGDBTWWWUNNDEQ-LBPRGKRZSA-N melphalan Chemical compound OC(=O)[C@@H](N)CC1=CC=C(N(CCCl)CCCl)C=C1 SGDBTWWWUNNDEQ-LBPRGKRZSA-N 0.000 description 1
- 229960001428 mercaptopurine Drugs 0.000 description 1
- 229960000485 methotrexate Drugs 0.000 description 1
- 229960005485 mitobronitol Drugs 0.000 description 1
- MXWHMTNPTTVWDM-NXOFHUPFSA-N mitoguazone Chemical compound NC(N)=N\N=C(/C)\C=N\N=C(N)N MXWHMTNPTTVWDM-NXOFHUPFSA-N 0.000 description 1
- 239000011259 mixed solution Substances 0.000 description 1
- 238000013188 needle biopsy Methods 0.000 description 1
- 235000016709 nutrition Nutrition 0.000 description 1
- 239000001301 oxygen Substances 0.000 description 1
- 229910052760 oxygen Inorganic materials 0.000 description 1
- 239000000137 peptide hydrolase inhibitor Substances 0.000 description 1
- NJBFOOCLYDNZJN-UHFFFAOYSA-N pipobroman Chemical compound BrCCC(=O)N1CCN(C(=O)CCBr)CC1 NJBFOOCLYDNZJN-UHFFFAOYSA-N 0.000 description 1
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- NUKCGLDCWQXYOQ-UHFFFAOYSA-N piposulfan Chemical compound CS(=O)(=O)OCCC(=O)N1CCN(C(=O)CCOS(C)(=O)=O)CC1 NUKCGLDCWQXYOQ-UHFFFAOYSA-N 0.000 description 1
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- CPTBDICYNRMXFX-UHFFFAOYSA-N procarbazine Chemical compound CNNCC1=CC=C(C(=O)NC(C)C)C=C1 CPTBDICYNRMXFX-UHFFFAOYSA-N 0.000 description 1
- 229960000624 procarbazine Drugs 0.000 description 1
- 238000012545 processing Methods 0.000 description 1
- 102000004169 proteins and genes Human genes 0.000 description 1
- 108090000623 proteins and genes Proteins 0.000 description 1
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- 238000005070 sampling Methods 0.000 description 1
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- 239000002904 solvent Substances 0.000 description 1
- 239000007921 spray Substances 0.000 description 1
- 238000001356 surgical procedure Methods 0.000 description 1
- 239000000725 suspension Substances 0.000 description 1
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- GYDJEQRTZSCIOI-LJGSYFOKSA-N tranexamic acid Chemical compound NC[C@H]1CC[C@H](C(O)=O)CC1 GYDJEQRTZSCIOI-LJGSYFOKSA-N 0.000 description 1
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- PXSOHRWMIRDKMP-UHFFFAOYSA-N triaziquone Chemical compound O=C1C(N2CC2)=C(N2CC2)C(=O)C=C1N1CC1 PXSOHRWMIRDKMP-UHFFFAOYSA-N 0.000 description 1
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Landscapes
- Medicinal Preparation (AREA)
- Pharmaceuticals Containing Other Organic And Inorganic Compounds (AREA)
Description
【発明の詳細な説明】
本発明は、抗癌性物質徐放性塞栓剤に関し、さ
らに詳しくは癌又は腫瘍の治療及び診断法、たと
えば血管閉塞療法又は穿刺法などの施術に際して
好適に使用しうる抗癌性物質徐放性塞栓剤に関す
るものである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an anti-cancer substance sustained-release embolic agent, and more specifically, it can be suitably used in cancer or tumor treatment and diagnosis methods, such as vasoocclusive therapy or puncture therapy. The present invention relates to an anti-cancer substance sustained-release embolic agent.
肝臓癌、乳癌などの治療法として血管閉塞療法
が有効な手段であることが近年、富に認められつ
つある。血管閉塞療法は、血管カテーテルの先端
を、癌又は腫瘍組織への栄養動脈に到達させ、他
端より塞栓物質を注入してこの栄養動脈を閉塞し
て血流を止めることにより、癌又は腫瘍組織への
栄養補給を断ち、これらの組織を壊死させること
を目的として行われるものである。血管閉塞療法
に用いられる塞栓物質として、先に本出願人が提
案した(特開昭54―135214号など。)血液凝固第
因子とトロンビンを固定化した創傷部保護材
料が有効に利用できることが報告されているが
(第18回日本人工臓器学会など)、この療法には癌
又は腫瘍の治療の有効な手段である化学療法を並
行して行うことができないという欠点がある。す
なわち血管閉塞療法施術後においては、抗癌性物
質を経口もしくは注射により投与しても、栄養動
脈が閉塞されているので、もはや癌又は腫瘍組織
に到達し得ず、投与は無意味なこととなる。従つ
て血管閉塞療法を施術する場合は、化学療法を放
棄するか又は施術する以前に血管カテーテルを通
じて抗癌性物質を注入してから閉塞を行うといつ
た2段階法が取られる。しかしながら、この方法
にて注入される抗癌性物質は量的にも充分なもの
ではなく、また通常、溶液状で注入されることと
栄養動脈はいまだ閉塞されていないという理由の
ため極短時間にて、標的癌又は腫瘍組織以外の部
位に流れ散つてしまうので効果は期待しにくい。
このように血管閉塞療法の持つ問題点、すなわち
化学療法を並行させることができないという点は
いまだ未解決のままである。 In recent years, vascular occlusion therapy has been increasingly recognized as an effective means for treating liver cancer, breast cancer, and the like. Vascular occlusion therapy involves reaching the feeding artery of the cancer or tumor tissue with the tip of the vascular catheter, and injecting embolic material from the other end to occlude the feeding artery and stop blood flow. The purpose of this treatment is to cut off nutritional supply to the body and cause necrosis of these tissues. It has been reported that the wound protection material on which blood coagulation factors and thrombin are immobilized, which was previously proposed by the applicant (Japanese Patent Application Laid-Open No. 135214/1983), can be effectively used as an embolic material used in vascular occlusion therapy. However, this therapy has the disadvantage that it cannot be used concurrently with chemotherapy, which is an effective means of treating cancer or tumors. In other words, after vascular occlusion therapy, even if an anticancer substance is administered orally or by injection, the feeding artery is occluded, so it can no longer reach the cancer or tumor tissue, and the administration is meaningless. Become. Therefore, when administering vascular occlusion therapy, a two-step method is used: either abandoning chemotherapy or injecting an anticancer substance through a vascular catheter before occlusion. However, the amount of anticancer substances injected using this method is not sufficient, and because it is usually injected in the form of a solution and the feeding artery has not yet been occluded, the anticancer substance is only available for a very short period of time. However, it is difficult to expect an effect because it will spread to areas other than the target cancer or tumor tissue.
As described above, the problem with vasoocclusive therapy, that is, the inability to concurrently use chemotherapy, remains unresolved.
一方、血管閉塞療法とともに新しい癌治療法と
して期待されている療法に穿刺法がある。穿刺と
は元来は中空の針を体に刺して内部の液体を吸い
取らせることを意味するが、ここにいう穿刺法と
は、特に癌又は腫瘍組織の検査法及び治療法に関
するものを指す。 On the other hand, along with vascular occlusion therapy, puncture is a therapy that is expected to be a new cancer treatment method. Puncture originally refers to inserting a hollow needle into the body to suck out internal fluid, but the puncture method referred to here particularly refers to methods for examining and treating cancer or tumor tissue.
検査法とは、一般に穿刺生検法といわれている
ものを意味し、生体から被検査組織を採つて検査
する方法のことであり、癌又は腫瘍と思われる組
織を針先にてかき採りこの針先に付着した組織を
体外に取り出してこれを検査するものである。こ
の穿刺生検法における問題点として、針先に付着
した癌又は腫瘍組織が、抜針の際に、他の正常組
織上に散布される危惧があるということが指摘さ
れているが、このことに対する対策はなんらなさ
れていない。いま一つの問題点として出血が起り
やすく止血が困難となる場合が多いということが
指摘されている。すなわち穿刺法は、血管を通じ
てカテーテルを挿入する血管閉塞療法とは異なり
体表面から直接、標的組織に達するごとくに針を
つき刺すのであるから、針により損傷された部位
から出血が起ることとなる。損傷される部位が正
常な場合には、出血があつても自然と止血されて
比較的短期間に損傷血管は修復され、穿刺法施術
以降に悪影響を及ぼさない。しかしながら、癌又
は腫瘍組織に対して穿刺を行う場合には、通常、
癌又は腫瘍組織自体のみならず付近の組織におい
ても止血能力及び損傷血管修復能力が不充分とな
つていることが多く、出血傾向が大きくなり、止
血が困難であつたりまた多量の出血が予想される
場合には穿刺法施術を断念せざるを得なかつたり
する。特に〓臓への穿刺は、その出血のために余
り行われていない現況である。従つて穿刺を行う
場合には止血対策は大きな問題であり、止血を行
いながら抜針を行うことが必要となる場合が多
い。この際の止血の方法としては、通常トロンビ
ンの水溶液を徐々に注入しながら抜針を行うとい
つた方法が取られているが、トロンビン自体の止
血能力が不充分なこと、トロンビンが液状である
ために修復を要する部位から他の部位へ流れ散つ
てしまうといつた理由で満足な止血が行えていな
い。一方、治療法とは、穿刺針を通じて抗癌性物
質を標的となる癌又は腫瘍組織上へ直接注入する
治療法のことを意味する。現在では穿刺針からの
薬物の注入は、通常、使用する穿刺針が19G〜
23G程度の極細いものであるため抗生物質などの
溶液状のものの注入のみしか行われていない。し
かるに、抗癌性物質を溶液状態で注入した場合
は、直ちに標的組織以外の部位に流出し局所的に
直接投与した意義が失なわれるので十分な効果は
期待できない。このようなことから、通常使用さ
れる程度の口径を有する穿刺針を通じて標的組織
上及び穿刺針経路付近に散布することが可能で、
かつ散布された部位に付着して長時間留まり抗癌
性物質を徐放しうるような製剤が待望されてい
る。 The testing method generally refers to what is called a puncture biopsy method, which is a method of collecting tissue to be tested from a living body and testing it by scraping tissue that is thought to be cancer or tumor with the tip of a needle. The tissue attached to the needle tip is taken out of the body and examined. It has been pointed out that a problem with this needle biopsy method is that there is a risk that cancer or tumor tissue attached to the needle tip may be scattered onto other normal tissue when the needle is removed. No countermeasures have been taken. It has been pointed out that another problem is that bleeding tends to occur and it is often difficult to stop the bleeding. In other words, unlike vascular occlusion therapy, which involves inserting a catheter through a blood vessel, the puncture method involves inserting a needle directly from the body surface to reach the target tissue, which results in bleeding from the area injured by the needle. . If the injured area is normal, even if bleeding occurs, it will stop spontaneously, the injured blood vessel will be repaired in a relatively short period of time, and there will be no adverse effects after the puncture procedure. However, when puncturing cancer or tumor tissue, typically
Not only the cancer or tumor tissue itself, but also nearby tissues often have insufficient hemostatic ability and ability to repair damaged blood vessels, resulting in increased bleeding tendency, difficulty in hemostasis, and the possibility of large amounts of bleeding. In such cases, the patient may have no choice but to abandon the puncture procedure. In particular, puncture of the viscera is currently not performed very often due to bleeding. Therefore, when performing puncture, hemostasis is a major problem, and it is often necessary to remove the needle while stopping the bleeding. The method of hemostasis in this case is usually to remove the needle while gradually injecting an aqueous solution of thrombin, but thrombin itself has insufficient hemostasis ability, and thrombin is in liquid form. Hemostasis has not been achieved satisfactorily because the bleeding tends to flow from the area requiring repair to other areas. On the other hand, the treatment method refers to a treatment method in which an anticancer substance is directly injected onto a target cancer or tumor tissue through a puncture needle. Currently, when injecting drugs through a puncture needle, the puncture needle used is usually 19G or more.
Because it is extremely thin, about 23G, it is only used to inject solutions such as antibiotics. However, when an anticancer substance is injected in the form of a solution, sufficient effects cannot be expected because it immediately flows out to areas other than the target tissue and the significance of direct local administration is lost. For this reason, it is possible to spray on the target tissue and near the puncture needle path through a puncture needle with a diameter that is normally used.
Moreover, there is a long-awaited demand for a preparation that can adhere to the sprayed site and remain there for a long time to release anticancer substances in a sustained manner.
本発明者らは、上述のごとき現況に鑑み、血管
閉塞療法に使用した場合には血管の閉塞を迅速、
確実に行ことができ、かつ癌又は腫瘍組織に対し
て抗癌性物質を長時間有効に作用させうる性能を
有し、穿刺法に使用した場合には、施術に際して
の出血を迅速、確実に抑え、損傷血管を早期に修
復することができ、かつ癌又は腫瘍組織自体のみ
ならず生検法の施術にあたつて穿刺針経路付近に
散布される恐れの高い癌又は腫瘍組織にも抗癌性
物質を長時間有効に作用させうる性能を有する製
剤を開発することを目的として鋭意研究を重ねた
結果、驚くべきことに抗癌性物質と血液凝固剤と
を固定化した構造物が、血管閉塞能力、止血能力
及び損傷血管修復能力に優れているという事実さ
らには体外部より注入され体内に到達した場合速
やかに到達部位、すなわち癌又は腫瘍組織あるい
はそれらの近縁部付着して留まり、血液や体液に
よつて洗い流されることもなく、また抗癌性物質
を長期間に渡つて徐放するという事実を見い出
し、本発明に到達したものである。 In view of the above-mentioned current situation, the present inventors have proposed that when used in vascular occlusion therapy, the present inventors can rapidly occlude blood vessels.
It can be performed reliably and has the ability to effectively cause anti-cancer substances to act on cancer or tumor tissue for a long time, and when used for puncture, it quickly and reliably prevents bleeding during the procedure. It can suppress and repair damaged blood vessels at an early stage, and is anti-cancer not only for the cancer or tumor tissue itself but also for cancer or tumor tissue that is likely to be dispersed near the puncture needle route during the biopsy procedure. As a result of intensive research with the aim of developing a drug that has the ability to effectively cause cancer-causing substances to act for a long period of time, surprisingly, a structure immobilized with an anti-cancer substance and a blood coagulant was found to be effective against blood vessels. The fact that it has excellent occlusion ability, hemostasis ability, and damaged blood vessel repair ability.Furthermore, when it is injected from outside the body and reaches the body, it quickly attaches to the area it reaches, that is, cancer or tumor tissue, or their nearby areas, and stays there. The present invention was achieved based on the discovery that anti-cancer substances are not washed away by body fluids and body fluids, and that anti-cancer substances are sustainedly released over a long period of time.
すなわち本発明は、生体吸収性物質を素材とし
た繊維集合体、スポンジ、粉末、モノフイラメン
ト、フイルム、マイクロカプセルなどの形状を有
する構造物に抗癌性物質と血液凝固剤が固定化さ
れてなる抗癌性物質徐放性塞栓剤である。 That is, the present invention is a structure in which an anticancer substance and a blood coagulant are immobilized on a structure made of a bioabsorbable substance and having a shape such as a fiber aggregate, sponge, powder, monofilament, film, or microcapsule. It is an anti-cancer substance sustained release embolic agent.
本発明において塞栓剤とは、血管内に注入して
血流を停止させる製剤及び血管損傷部位を埋め止
血を行い、かつ損傷血管の修復を行う製剤のこと
をいい、本発明においては血管カテーテル又は穿
刺針内を速やかに通過する必要があるため、水な
どの媒体に微細に懸濁しうるものであることが好
ましい。 In the present invention, an embolic agent refers to a preparation that is injected into a blood vessel to stop blood flow, and a preparation that fills a damaged area of a blood vessel to stop bleeding and repair the damaged blood vessel. Since it is necessary to quickly pass through the puncture needle, it is preferable that the material can be finely suspended in a medium such as water.
本発明において構造物を構成する素材としては
体内に注入して使用し、かつ体外への回収が不可
能である場合が多いこと。また体内に異物が残留
することは癌又は腫瘍の治ゆに悪影響を及ぼすこ
となどのゆえに生体吸収性である必要があり、本
発明においては、たとえばゼラチン、キチン、コ
ラーゲン、ポリグリコール酸、グリコール酸―乳
酸共重合体、ポリグルタミン酸、アミロースなど
があげられ、なかでもゼラチン、アミロース、キ
チンが好ましく用いられる。 In the present invention, the materials constituting the structure are often injected into the body and cannot be recovered outside the body. In addition, foreign substances that remain in the body have a negative effect on the cure of cancer or tumors, so they must be bioabsorbable, and in the present invention, for example, gelatin, chitin, collagen, polyglycolic acid, -Lactic acid copolymer, polyglutamic acid, amylose, etc., among which gelatin, amylose, and chitin are preferably used.
本発明にいう抗癌性物質とは、一般に抗癌剤又
は制癌剤又は抗腫瘍剤と呼ばれている物質並びに
一般に免液製剤又は免疫賦活剤と呼ばれている物
質を意味し、前者の物質としては、たとえばニト
ロゲンマスタード、ニトロミン、クロラムブシ
ル、サイクロフオスフアミド、メルフアラン、ウ
ラシルマスタード、マンノムスチン、ドーパン、、
BCNU、トリエチレンメラミン、チオ―TEPA、
Aza―TEPA、トレニモン、イソプロキユオン、
ブスルフアン、ジメチルミレラン、ピポスルフア
ン、エトグルシド、エポキシプロピジン、エポキ
シピペラジン、ヘキサメチルメラミン、ジブロモ
マンニトール、ピポブロマンなどのアルキル化
剤、アミノプリテン、メトトレキセート、グアニ
ン、8―アザガニン、6―メルカプトプリン、ア
ザチオプリン、ウラシル、5―フルオロウラシ
ル、シタラビン、アザセリン、ジアゾマイシンな
どの代謝拮抗剤、アクチノマイシンD、サイクロ
マイシン、マイトマイシンC、ダウノマイシン、
プレオマイシン、クロモマイシン、カルジノフイ
リンなどの抗性物質、5―HP、IQ―1などの合
成剤、チオテバ、シクロホスフアミド、ドキソル
ビシン、ダウノルビシン、ネオカルチノスタンな
どの植物成分、Hg―ヘマトポルフイリン、Co―
プロトポルフイリン、ステイルベストロール、ヒ
ドロキシウレア、プロカルバジン、メチルグリヨ
キザル―ビス―グアニルヒドラゾン、L―アスパ
ラギナーゼなどがあげられ、これらはそれぞれ単
独にて用いても2種以上を用いてもよいが、アル
キル化剤から1種、代謝拮抗剤から1種、抗出物
質から1種を選んで組み合わせて使用する方法な
どは一般的であり、エンドキサン、5―フルオロ
ウラシル、マイトマイシンあるいはプレオマイシ
ンの3者の組み合わせなどは特に一般的である。
後者の物質としては、たとえばチミツクホルモン
とその関連物質、BCG、細胞壁スケルトン及び
そのメタノール不溶分画、コリネバクテリウムパ
ルバム、OK―432などの細菌及び細菌成分、ピ
シバニール、レエンチナン、SPG、マンナン、
レバン、グルカンなどの多糖体、ムラミルジペプ
ト及びその誘導体、レバミソール、ベスタチン、
イソプリノシン、NPT15392、アジメクリン、ト
ランスフアーフアクター、リンホオカイン、イム
ノRNA、インタフエロン及びそのインデユーサ
ー、丸山ワクチンなどのワクチン類などがあげら
れ、これらはそれぞれ単独にて用いても2種以上
用いてもよいが、前述の抗癌剤又は制癌剤又は抗
腫瘍剤と呼ばれている物質と併用するものが一般
的である。 The anticancer substance as used in the present invention refers to a substance generally called an anticancer agent, an anticancer agent, or an antitumor agent, and a substance generally called an immunostimulant or an immunostimulant, and the former substance includes: For example, nitrogen mustard, nitromine, chlorambucil, cyclophosphamide, melphalan, uracil mustard, mannomustine, dopan, etc.
BCNU, triethylenemelamine, thio-TEPA,
Aza-TEPA, Trenimon, Isoprocyone,
Alkylating agents such as busulfan, dimethylmyleran, piposulfan, ethoglucide, epoxypropidine, epoxypiperazine, hexamethylmelamine, dibromomannitol, pipobroman, aminopritene, methotrexate, guanine, 8-azaganine, 6-mercaptopurine, azathioprine, uracil , 5-fluorouracil, cytarabine, azaserine, antimetabolites such as diazomycin, actinomycin D, cyclomycin, mitomycin C, daunomycin,
Antibiotics such as pleomycin, chromomycin, cardinophyllin, synthetic agents such as 5-HP, IQ-1, plant ingredients such as thioteba, cyclophosphamide, doxorubicin, daunorubicin, neocarcinostane, Hg-hematoporphyrin, Co―
Examples include protoporphyrin, stilbestrol, hydroxyurea, procarbazine, methylglyoxal-bis-guanylhydrazone, L-asparaginase, and these may be used alone or in combination of two or more. A common method is to select and use a combination of one alkylating agent, one antimetabolite, and one antidepressant; a combination of endoxan, 5-fluorouracil, mitomycin, or pleomycin is common. are particularly common.
Examples of the latter substances include chimic hormone and its related substances, BCG, cell wall skeleton and its methanol-insoluble fraction, bacteria and bacterial components such as Corynebacterium parvum and OK-432, pisibanil, reentinan, SPG, mannan,
Polysaccharides such as levan and glucan, muramyldipept and its derivatives, levamisole, bestatin,
Vaccines such as isoprinosine, NPT15392, azimecline, transfer factor, lymphokine, immunoRNA, interferon and its inducer, Maruyama vaccine, etc. may be used alone, or two or more of these may be used. It is generally used in combination with the aforementioned anticancer agents or substances called anticancer agents or antitumor agents.
本発明に用いられる血液凝固剤としては、たと
えば血液凝固の第因子、第因子、第因子、
第因子、第因子、第因子、第因子、第
因子、第因子、第XI因子、第XII因子及び第
因子、プレカリクレン、高分子キニノーゲン、ト
ロンビンなどがあげられる。これらは単独で用い
ることもできるし、2種以上組み合わせて用いる
こともできる。本発明においては血液凝固第
因子(以降Fと略記する。)、トロンビンが特
に好ましく使用される。Fはフイブリン安定
化因子と呼ばれ、フイブリン分子間のイソペプチ
ド結合による安定化フイブリンの生成を促進する
因子である。Fは人、牛などの血液あるいは
胎盤より分離されるが、人に適用する場合には人
由来のFを用いるのが好ましい。トロンビン
は、フイブリノーゲンをフイブリンに転化するこ
とができるタン白分解酵素である。トロンビンは
人、牛、豚などの血液より分離されるが、人に適
用する場合には人トロンビンを用いるのが好まし
い。 The blood coagulant used in the present invention includes, for example, blood coagulation factor,
Examples include factor factor, factor 1, factor 1, factor 1, factor 1, factor 1, factor XI, factor XII, factor 1, prekallikrene, polymeric kininogen, thrombin, and the like. These can be used alone or in combination of two or more. In the present invention, blood coagulation factor (hereinafter abbreviated as F) and thrombin are particularly preferably used. F is called a fibrin stabilizing factor, and is a factor that promotes the production of stabilized fibrin due to isopeptide bonds between fibrin molecules. F is isolated from the blood or placenta of humans, cows, etc., but when applied to humans, it is preferable to use human-derived F. Thrombin is a proteolytic enzyme that can convert fibrinogen to fibrin. Thrombin is isolated from blood of humans, cows, pigs, etc., but when applied to humans, it is preferable to use human thrombin.
本発明に用いる抗癌性物質及び血液凝固剤は、
前記構造物に結合させるか、又は吸着させるか、
又は内包させることにより固定化することができ
る。抗癌性物質及び血液凝固剤を構造物に結合さ
せるには、たとえばO.Zaborsky、“Immobilized
Enzymes”CRC Press.1973に記載されているよ
うな従来より公知の共有結合法やイオン結合法を
採用することができるし、また吸着させるには、
同じく物理的吸着法や抱括法を採用することがで
きるし、また内包させるには構造物を構成する素
材を外壁として、公知のマイクロカプセル化法に
てマイクロカプセル化する方法を採用することが
できる。 The anticancer substance and blood coagulant used in the present invention are:
binding or adsorption to the structure;
Alternatively, it can be immobilized by encapsulating it. The attachment of anti-cancer substances and blood clotting agents to structures is described, for example, in O. Zaborsky, “Immobilized
Conventionally known covalent bonding methods and ionic bonding methods such as those described in "Enzymes" CRC Press. 1973 can be used, and for adsorption,
Similarly, a physical adsorption method or an encapsulation method can be adopted, and for encapsulation, a method of microencapsulating using a known microencapsulation method using the material constituting the structure as an outer wall can be adopted. can.
本発明の塞栓剤を製造する際には、たとえば次
のようにして構造物に抗癌性物質及び血液凝固剤
を結合させることができる。すなわち抗癌性物質
や血液凝固剤が、アミノ基、カルボキシル基など
の共有結合又はイオン結合形成能を持つ官能基を
有する場合には、これらを含む溶液にて、これら
の官能基と共有結合又はイオン結合し得る官能基
を持つ構造物を処理することにより目的とする結
合による固定化を行うことができる。またこの際
構造物が抗癌性物質又は血液凝固剤のもつ官能基
と共有結合又はイオン結合し得る官能基を全く有
しないか又は少ししか有しない場合には、予め構
造物にそれらの官能基を化学反応により導入した
後、抗癌性物質及び血液凝固剤をその構造物に結
合することができる。抗癌性物質又は血液凝固剤
が官能基を有しない場合には、前述の場合と同様
に化学反応にて官能基を導入して後、使用するこ
とも可能であるが、多くの場合このような化学反
応にて抗癌性物質又は血液凝固剤の薬剤としての
特性がそこなわれることとなるのでこの方法は好
ましくは採用されることはない。なお共有結合さ
せる場合には、ジシクロヘキシルカーボジイミ
ド、1―シクロヘキシル―3―(2―モルホリノ
エチル)―カーボジイミド―メト―p―トルエン
スルホネートなどの脱水縮合剤を用いるのが好ま
しい。 When producing the embolic agent of the present invention, an anticancer substance and a blood coagulant can be bound to the structure, for example, in the following manner. In other words, when an anticancer substance or a blood coagulant has a functional group capable of forming a covalent bond or an ionic bond, such as an amino group or a carboxyl group, a solution containing these functional groups can form a covalent bond or an ionic bond. By treating a structure having a functional group capable of ionically bonding, it is possible to perform immobilization through desired bonding. In addition, in this case, if the structure has no or only a few functional groups that can covalently or ionically bond with the functional groups of the anticancer substance or blood coagulant, those functional groups are added to the structure in advance. After being introduced by chemical reaction, anti-cancer substances and blood clotting agents can be attached to the structure. If the anticancer substance or blood coagulant does not have a functional group, it is possible to use it after introducing a functional group through a chemical reaction as in the case described above, but in many cases this is not possible. This method is preferably not employed, since the drug properties of the anticancer substance or blood coagulant will be damaged due to the chemical reaction. In the case of covalent bonding, it is preferable to use a dehydration condensation agent such as dicyclohexylcarbodiimide, 1-cyclohexyl-3-(2-morpholinoethyl)-carbodiimide-meth-p-toluenesulfonate.
また、本発明の塞栓剤を製造する際には、次の
ようにして構造物に抗癌性物質及び血液凝固剤を
物理的吸着法や包括法などにより吸着することが
できる。すなわち、構造物を湿潤しうる溶媒に抗
癌性物質及び血液凝固剤を溶解又は懸濁し、この
溶液により構造物を処理することにより抗癌性物
質及び血液凝固剤を物理的に吸着することができ
る。包括法は抗癌性物質及び血液凝固剤をゲルの
微細な格子の中に包み込んで脱離できないように
する方法である。この吸着法及び包括法はどのよ
うな抗癌性物質、血液凝固剤、構造の組み合わせ
にも有効であり、簡便でかつ薬剤としての特性を
そこなうことも少ないので本発明においては好ま
しく採用される。 Furthermore, when producing the embolic agent of the present invention, an anticancer substance and a blood coagulant can be adsorbed onto a structure by a physical adsorption method, an entrapment method, or the like as follows. That is, by dissolving or suspending an anticancer substance and a blood coagulant in a solvent that can wet the structure, and treating the structure with this solution, the anticancer substance and blood coagulant can be physically adsorbed. can. The entrapment method is a method in which anticancer substances and blood coagulants are encapsulated in a fine gel lattice so that they cannot be released. This adsorption method and entrapment method are effective for any combination of anticancer substances, blood coagulants, and structures, and are preferred in the present invention because they are simple and rarely impair the properties as a drug.
本発明の塞栓剤を製造するには、前記のごとく
構造物に抗癌性物質及び血液凝固剤を結合させる
か又は吸着させる方法のほかに、まず構造物に加
工する前の素材そのものに抗癌性物質及び血液凝
固剤を結合させるか又は吸着させ、しかるのち抗
癌性物質及び血液凝固剤を結合するか又は吸着し
た素材を構造物に加工して製造することもでき
る。たとえばあらかじめ高分子物質に抗癌性物質
を結合させるか又は吸着させたものを用いて構造
物を得て本発明の塞栓剤を製造することができ
る。 In order to produce the embolic agent of the present invention, in addition to the method of binding or adsorbing an anticancer substance and a blood coagulant to a structure as described above, first, the anticancer substance and the blood coagulant are added to the material itself before being processed into a structure. It can also be manufactured by combining or adsorbing the anti-cancer substance and the blood coagulant, and then processing the material to which the anti-cancer substance and the blood coagulant are combined or adsorbed into a structure. For example, the embolic agent of the present invention can be produced by obtaining a structure using a polymeric substance in which an anticancer substance is bound or adsorbed in advance.
上記のいずれの方法により抗癌性物質及び血液
凝固剤を固定化する場合も、抗癌性物質及び血液
凝固剤を同時に固定化してもよいし、あるいは先
に抗癌性物質を固定化しておいてから、引き続き
血液凝固剤を固定化してもよいし、その逆であつ
てもよい。 When immobilizing an anticancer substance and a blood coagulant by any of the above methods, the anticancer substance and the blood coagulant may be immobilized at the same time, or the anticancer substance may be immobilized first. After that, the blood coagulant may be subsequently immobilized, or vice versa.
本発明の塞栓剤の製造に際しては、抗癌性物
質、血液凝固剤の他にアンチプラスミン、アルブ
ミン、α2―マクログロブリンなどのプロテアーゼ
インヒビター、セルロプラスミン、ハプトグロビ
ン、コールドインソルブルグロブリンなどの血し
ようたん白、フアイブロネクチン、抗生物質など
を構造物に固定化することができる。アンチプラ
スミンはフイブリン溶解酵素であるプラスミンの
阻害剤であり、従つてプラスミンを阻害すること
により効果を発揮するものである。本発明におい
てはアンチプラスミンとしては、例えばε―アミ
ノカプロン酸、トラネキサム酸などが好ましく用
いられる。 When producing the embolic agent of the present invention, in addition to anticancer substances and blood coagulants, protease inhibitors such as antiplasmin, albumin, and α 2 -macroglobulin, and blood proteins such as ceruloplasmin, haptoglobin, and cold insoluble globulin are used. Proteins, fibronectin, antibiotics, etc. can be immobilized on the structure. Antiplasmin is an inhibitor of plasmin, which is a fibrinolytic enzyme, and therefore exerts its effect by inhibiting plasmin. In the present invention, as antiplasmin, for example, ε-aminocaproic acid, tranexamic acid, etc. are preferably used.
本発明の塞栓剤は癌又は腫瘍の治療に好ましく
使用されるが、特に血管閉塞法、穿刺法などに特
に好ましく使用される。 The embolic agent of the present invention is preferably used in the treatment of cancer or tumors, and is particularly preferably used in vascular occlusion methods, puncture methods, and the like.
本発明の塞栓剤の血管閉塞療法への適用は、例
えば血管を通じ血管カテーテル先端を標的癌又は
腫瘍組織への栄養動脈まで到達させ、他端より塞
栓剤を生理食塩水などに懸濁させたものを注入す
ることによつてなされる。この際に塞栓剤は、一
部は標的組織上及びその近傍組織にまで達し、到
達部位に付着して留まり、一部は栄養血管内部に
留まり迅速に血管を閉塞する。また閉塞された血
管は再開通を起さない。さらに標的組織上及びそ
の近傍組織及び血管閉塞部に留まつた塞栓剤は抗
癌性物質徐放性剤として働き、このものからは抗
癌性物質が徐放され、癌又は腫瘍組織に局所的に
長時間作用していき壊死を早めかつ確実にする。
このことは、すなわち本発明の塞栓剤を使用した
場合には迅速かつ正確に血管閉塞療法を施術する
ことが可能であり、同時にこの塞栓剤は抗癌性物
質徐放性剤として働くので、従来は並行して行い
得なかつた化学療法を、並行して行うことが可能
となることを意味する。 The embolic agent of the present invention can be applied to vascular occlusion therapy by, for example, passing the tip of a vascular catheter through a blood vessel to the feeding artery to the target cancer or tumor tissue, and suspending the embolic agent in physiological saline or the like from the other end. It is made by injecting. At this time, a portion of the embolic agent reaches the target tissue and its neighboring tissues, adheres to the target tissue, and remains there, and a portion remains inside the feeding blood vessel, quickly occluding the blood vessel. Also, occluded blood vessels do not recanalize. Furthermore, the embolic agent that remains on the target tissue, its neighboring tissue, and the vascular occlusion acts as a sustained release agent for anticancer substances, and the anticancer substance is sustainedly released from this agent and localized to the cancer or tumor tissue. It acts over a long period of time to accelerate and ensure necrosis.
This means that when the embolic agent of the present invention is used, it is possible to perform vascular occlusion therapy quickly and accurately, and at the same time, since this embolic agent acts as a sustained release agent for anticancer substances, it is possible to perform vascular occlusion therapy quickly and accurately. This means that chemotherapy, which could not be performed in parallel, can now be performed in parallel.
本発明の塞栓剤の穿刺法への適用は、例えば標
的とする癌又は腫瘍組織上へ到達させた穿刺針を
通じて塞栓剤を生理食塩水などに懸濁させたもの
を必要量注入した後、さらにこの懸濁液を徐々に
注入しながら抜針を行うことによつてなされる。
このことによつて塞栓剤は標的組織上及び穿刺針
の経路付近の組織上に分散されその部位に付着し
て留まる。標組織上に留まつた塞栓剤は直ちに出
血を停止させ血管損傷部位を修復する一方、抗癌
性物質徐放剤として働き、抗癌性物質を徐放して
癌又は腫瘍組織に長時間有効に作用していく。一
方、抜針時に注入され穿刺針の経路付近の組織上
に分散され付着して留まつた塞栓剤は近傍の血管
の損傷部位からの出血を直ちに押え修復を行い、
かつ針の経路付近に散布された癌又は腫瘍組織に
対して長時間有効に作用していく。 Application of the embolic agent of the present invention to the puncture method is, for example, after injecting a required amount of embolic agent suspended in physiological saline through a puncture needle that has reached the target cancer or tumor tissue, and then This is done by removing the needle while gradually injecting this suspension.
This allows the embolic agent to be dispersed onto the target tissue and the tissue near the path of the puncture needle and remains attached to the site. The embolic agent that remains on the target tissue immediately stops bleeding and repairs the vascular damage site, while also acting as a sustained release agent for anti-cancer substances, allowing them to be effectively released against cancer or tumor tissue for a long time. It will work. On the other hand, the embolic agent injected at the time of needle removal, dispersed and adhered to the tissue near the puncture needle path, immediately suppresses bleeding from the damaged site of the nearby blood vessel and repairs it.
Moreover, it acts effectively for a long period of time on cancer or tumor tissue dispersed near the needle route.
以上のごとくに、本発明の塞栓剤は血管閉塞療
法及び穿刺法などの施術に際して使用され、優れ
た塞栓剤としての性能と抗癌性物質徐放製剤とし
ての性能を合わせもつものである。 As described above, the embolic agent of the present invention is used in procedures such as vascular occlusion therapy and puncture, and has both excellent performance as an embolic agent and performance as an anticancer substance sustained release preparation.
さらに本発明の塞栓剤は単に抗癌性物質徐放性
剤として用いた場合にも大きな効果を発揮する。
すわち従来の抗癌性物質徐放性剤を例えば切開手
術を行い露出した癌組織上に散布して局所的に作
用するごとくに投与しても、徐放性剤は血液、体
液などのため散布後直ちに局所から流れさつてし
まい効果が期待しにくいが本発明の塞栓剤を同様
に投与した場合には、局所に直ちに粘着し流れさ
つてしまうことはない。 Furthermore, the embolic agent of the present invention exhibits great effects even when used simply as an anticancer substance sustained release agent.
In other words, even if conventional sustained-release anti-cancer agents are administered locally by being sprayed onto cancerous tissue exposed through incisional surgery, the sustained-release agents may not be effective because of blood, body fluids, etc. After being sprayed, it immediately washes away from the local area, making it difficult to expect an effect, but if the embolic agent of the present invention is similarly administered, it will not stick to the local area immediately and will not wash away.
以下に実施例をあげて本発明をさらに具体に説
明する。 The present invention will be explained in more detail with reference to Examples below.
実施例 1
粉末ゼルフオーム(吸収性粉末ゼラチン、日本
アツプジヨン製)200mgを、フイブロガミン水溶
液〔人Fの濃縮乾燥製剤(ヘキスト製)1ビ
ンを水4mlに溶解したもの。〕4ml、トロンビン
の生理食塩水溶液(人トロンビンの濃縮乾燥製剤
(ミドリ十字製)1ビンを生理食塩水5mlに溶解
したもの。〕4ml及びマイトマイシンC水溶液
〔20mg/4ml〕4mlの混合液に室温にて5分間浸
漬した後、−30℃にて凍結乾燥を15時間行つてF
とトロンビンとマイトマイシンCとが固定化
された固定化粉末ゼルフオームを得た。Example 1 200 mg of powdered Zelform (absorbable powdered gelatin, manufactured by Nippon Upjiyon) was dissolved in 4 ml of water with 1 bottle of fibrogamin aqueous solution [1 bottle of concentrated dry preparation of human F (manufactured by Hoechst). ] 4 ml, physiological saline solution of thrombin (1 bottle of concentrated dry human thrombin preparation (Midori Juji) dissolved in 5 ml of physiological saline.] 4 ml and mitomycin C aqueous solution [20 mg/4 ml] 4 ml mixed solution at room temperature. After soaking for 5 minutes, freeze-dry at -30℃ for 15 hours and
An immobilized powder Zelform on which thrombin and mitomycin C were immobilized was obtained.
一方、内径4mmのシリユン医用チユーブ34cmを
用いてループを作り、2℃の部屋において、これ
に2mlのACD保存血にCacl2の10重量%水溶液1
mlを添加したものを充てんしたのち、先に調製し
た固定化粉末ゼルフオーム20mgを加えた後23度の
傾斜を持つ回転板の上で16回転/分にて回転させ
た。回転開始後1分にて血中に凝血塊の形成が認
められた。この時点において回転を停止させ、停
止後1時間目にペーパーデイスク(東洋製作所
製、抗生物質試験用ペーパーデイスク、径8mm)
をループ内の血液又は凝血塊に充分に浸漬又は密
着させ、このものをサンプルとし、試験菌として
Bacillus Subtilis ATCC6633を用い、円筒平板
法にて生ずる阻止円の大きさを求め、この阻止円
の大きさより1時間目のマイトマイシンCの血中
濃度を求めたところ10μg/mgであつた。同様に
して5時間目、10時間目、24時間目、1.5日目、
2日目、3日目の血中濃度を求めたところそれぞ
れ15μg/mg、21μg/mg、41μg/mg、82μg/
mg、112μg/mg、198μg/mgであつた。 On the other hand, make a loop using a 34 cm Siriyun medical tube with an inner diameter of 4 mm, and place it in a room at 2°C and add 2 ml of ACD preserved blood to 10 wt% aqueous solution of Cacl 2 .
ml was added, and then 20 mg of the previously prepared immobilized powder Zelform was added, and the mixture was rotated at 16 revolutions/min on a rotary plate having an inclination of 23 degrees. One minute after the start of rotation, formation of a clot was observed in the blood. At this point, stop the rotation, and 1 hour after stopping, use a paper disk (manufactured by Toyo Seisakusho, paper disk for antibiotic testing, diameter 8 mm).
Thoroughly immerse or adhere to the blood or clot in the loop, use this as a sample, and use it as a test bacterium.
Using Bacillus Subtilis ATCC6633, the size of the inhibition circle produced by the cylindrical plate method was determined, and the blood concentration of mitomycin C at 1 hour was determined from the size of the inhibition circle, and was found to be 10 μg/mg. Similarly, 5th hour, 10th hour, 24th hour, 1.5th day,
The blood concentrations on the second and third days were 15 μg/mg, 21 μg/mg, 41 μg/mg, and 82 μg/mg, respectively.
mg, 112 μg/mg, and 198 μg/mg.
比較例 1
Fとトロンビンを使用しなかつた他は実施
例1と同様にして得たマイトマイシン固定化ゼル
フオーム20mgを用いて実施例1と同様の回転ルー
プによる。凝血試験及びマイトマイシンの血中濃
度の測定を行つたところ回転開始後3時間経過し
ても凝血塊の形成は認められず、この時点でのマ
イトマイシンCの血中濃度は600μg/mlであつ
た。この結果はほとんどのマイトマイシンCが30
時間以内で血中に放出されてしまつていることを
示し、徐放性をもたないことを意味する。Comparative Example 1 The same rotating loop as in Example 1 was carried out using 20 mg of mitomycin-immobilized Zelform obtained in the same manner as in Example 1 except that F and thrombin were not used. A blood coagulation test and measurement of mitomycin concentration in the blood revealed that no clot was formed even after 3 hours had passed after the start of rotation, and the blood concentration of mitomycin C at this point was 600 μg/ml. This result shows that most mitomycin C
This indicates that the drug is released into the blood within a certain period of time, meaning that it does not have sustained release properties.
実施例 2
粉末ゼルフオーム(吸収性粉末ゼラチン、日本
アツプジヨン製)200mgを、フイブロガミン水溶
液〔人Fの濃縮乾燥製剤(ヘキスト製)1ビ
ンを水8mlに溶解したもの。〕4mlに室温にて3
分間浸漬した後、−30℃にて凍結乾燥を15時間行
つた。次いで、このものを5―フルオロウラシル
25mgを4mlのジメチルホルムアミドに懸濁させた
懸濁液に室温にて5分間浸漬した後、−30℃にて
凍結乾燥を15時間行い、Fと5―フルオロウ
ラシルの固定化された固定化粉末ゼルフオームを
得た。このものを20mg用いて実施例1と同様に回
転ループによる凝血試験を行つたところ、回転開
始後1.5分にて凝血塊の形成が認められた。この
時点において回転を停止させ、停止後5時間目、
10時間目、24時間目、1.5日目、2日目、3日目
において血液又は凝血塊を50μgずつサンプリン
グし、各々を凍結乾燥後、水酸化ナトリカム及び
水の混液を吸収液とし酸素フラスコ燃焼法のフツ
素の定量操作法により、各サンプルに含まれる5
―フルオロウラシルの重量を測定し、各サンプリ
ング時の5―フルオロウラシルの血中濃度を求め
たところ、それぞれ120μg/mg、170μg/mg、
380μg/mg、780μg/mg、1010μg/mg、1620μ
g/mgであつた。Example 2 200 mg of powdered Zelform (absorbable powdered gelatin, manufactured by Nippon Upjiyon) was dissolved in 8 ml of water with 1 bottle of fibrogamin aqueous solution [1 bottle of concentrated dry preparation of human F (manufactured by Hoechst). ]3 to 4 ml at room temperature
After soaking for 1 minute, freeze-drying was performed at -30°C for 15 hours. Next, this material was treated with 5-fluorouracil.
After immersing 25 mg in 4 ml of dimethylformamide at room temperature for 5 minutes, freeze-drying at -30°C for 15 hours to obtain an immobilized powder of F and 5-fluorouracil. I got it. When a blood coagulation test using a rotating loop was conducted using 20 mg of this material in the same manner as in Example 1, formation of a blood clot was observed 1.5 minutes after the start of rotation. At this point, the rotation is stopped, and 5 hours after stopping,
At 10th hour, 24th hour, 1.5th day, 2nd day, and 3rd day, sample 50 μg of blood or clot, freeze-dry each sample, and burn in an oxygen flask using a mixture of sodium hydroxide and water as an absorption liquid. The amount of fluorine contained in each sample is determined by the
-The weight of fluorouracil was measured and the blood concentration of 5-fluorouracil at each sampling was determined to be 120 μg/mg, 170 μg/mg, respectively.
380μg/mg, 780μg/mg, 1010μg/mg, 1620μ
g/mg.
実施例 3
粉末ゼルフオームにかえて粉末キチン(共和油
脂製、分子量100万)を用いたほかは実施例1と
同様にしてFとトロンビンとマイトマイシン
Cの固定化された固定化粉末キチンを得た。この
ものを20mg用いて実施例1と同様に凝血試験及び
血中濃度の測定を行つたところ、回転開始後1分
にて凝血塊が形成され管内の血液の流動性は失な
われた。また、1時間目、5時間目、10時間目、
24時間目、1.5日目、2日目及び30日目において
の血中のマイトマイシンCの濃度はそれぞれ8μ
g/ml、14μg/ml、19μg/ml、38μg/ml、
78μg/ml、108μg/ml、178μg/mlであつた。Example 3 Immobilized powdered chitin on which F, thrombin, and mitomycin C were immobilized was obtained in the same manner as in Example 1, except that powdered chitin (manufactured by Kyowa Yushi Co., Ltd., molecular weight: 1 million) was used instead of powdered Zelform. When 20 mg of this product was used and blood coagulation tests and blood concentration measurements were performed in the same manner as in Example 1, a clot was formed one minute after the start of rotation, and the fluidity of the blood in the tube was lost. Also, the 1st hour, 5th hour, 10th hour,
The concentration of mitomycin C in the blood at 24 hours, 1.5 days, 2 days, and 30 days was 8μ, respectively.
g/ml, 14 μg/ml, 19 μg/ml, 38 μg/ml,
They were 78 μg/ml, 108 μg/ml, and 178 μg/ml.
実施例 4
スポンゼル(吸収性スポンジ状ゼラチン、山之
内製薬製)1枚(2.5cm×5cm×0.5cm)を、トロ
ンビンの生理食塩水溶液(1ビンを10mlに溶解)
10mlにブレオマイシン200mg及び1―シクロヘキ
シル―3―(2―モルホリノエチル)―カーボジ
イミド―メト―p―トルエンスルホネート20mgを
溶解した溶液に室温にて5分間浸漬した後、−30
℃にて凍結乾燥を15時間行つてトロンビンとブレ
オマイシンの固定化された固定化スポンゼルを得
た。このものを20mg用いて実施例1と同様に回転
ループによる凝血試験及びプレオマイシンの血中
濃度の測定を行つたところ、回転開始後1分にて
凝血塊の形成が認められ、またこの時点にて回転
を停止後、1時間目、5時間目、10時間目、24時
間目、1.5日目、2日目、3日目のブレオマイシ
ンの血中濃度はそれぞれ5μg/mg、7μg/mg、
11μg/mg、21μg/mg、41μg/mg、62μg/mg、
123μg/mgであつた。Example 4 One sheet (2.5 cm x 5 cm x 0.5 cm) of Sponzel (absorbable sponge-like gelatin, manufactured by Yamanouchi Pharmaceutical) was mixed with a physiological saline solution of thrombin (1 bottle dissolved in 10 ml).
After immersing in a solution of 200 mg of bleomycin and 20 mg of 1-cyclohexyl-3-(2-morpholinoethyl)-carbodiimide-meth-p-toluenesulfonate dissolved in 10 ml at room temperature for 5 minutes, -30
Freeze-drying was performed at ℃ for 15 hours to obtain immobilized sponzel on which thrombin and bleomycin were immobilized. Using 20 mg of this product, a blood coagulation test using a rotating loop and measurement of the blood concentration of pleomycin were performed in the same manner as in Example 1, and the formation of a clot was observed 1 minute after the start of rotation. After stopping the rotation, the blood concentration of bleomycin at 1 hour, 5 hours, 10 hours, 24 hours, 1.5 days, 2 days, and 3 days was 5 μg/mg, 7 μg/mg, respectively.
11μg/mg, 21μg/mg, 41μg/mg, 62μg/mg,
It was 123 μg/mg.
Claims (1)
ポンジ、粉末、モノフイラメント、フイルム、マ
イクロカプセルなどの形状を有する構造物に抗癌
性物質と血液凝固剤が固定化されてなる抗癌性物
質徐放性塞栓剤。1. An anticancer substance in which an anticancer substance and a blood coagulant are immobilized on a structure made of a bioabsorbable substance in the shape of a fiber aggregate, sponge, powder, monofilament, film, microcapsule, etc. Sustained-release embolic agents.
Priority Applications (5)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP57021924A JPS58140011A (en) | 1982-02-12 | 1982-02-12 | Obliterating preparation gradually releasing carcinostatic substance |
| DE8383300659T DE3360633D1 (en) | 1982-02-12 | 1983-02-10 | Anti-cancer device |
| EP83300659A EP0086627B1 (en) | 1982-02-12 | 1983-02-10 | Anti-cancer device |
| US06/466,190 US4536387A (en) | 1982-02-12 | 1983-02-14 | Anti-cancer device |
| US06/711,129 US4642111A (en) | 1982-02-12 | 1985-03-13 | Injector filled with an anti-cancer composition |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP57021924A JPS58140011A (en) | 1982-02-12 | 1982-02-12 | Obliterating preparation gradually releasing carcinostatic substance |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS58140011A JPS58140011A (en) | 1983-08-19 |
| JPH0160007B2 true JPH0160007B2 (en) | 1989-12-20 |
Family
ID=12068614
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP57021924A Granted JPS58140011A (en) | 1982-02-12 | 1982-02-12 | Obliterating preparation gradually releasing carcinostatic substance |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS58140011A (en) |
Families Citing this family (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS60126217A (en) * | 1983-12-14 | 1985-07-05 | Sumitomo Chem Co Ltd | Long-term sustained release pharmaceutical preparation |
| JPS60209517A (en) * | 1984-04-03 | 1985-10-22 | Unitika Ltd | Aerosol composition |
| JPS60214728A (en) * | 1984-04-06 | 1985-10-28 | Unitika Ltd | Sustained release material of physiologically active substance |
-
1982
- 1982-02-12 JP JP57021924A patent/JPS58140011A/en active Granted
Also Published As
| Publication number | Publication date |
|---|---|
| JPS58140011A (en) | 1983-08-19 |
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