Slow release injection containing anti-metabolism medicament and alkylating agent
A slow-release injection, anti-metabolism technology, applied in the field of medicine, can solve problems such as enhanced tolerance and treatment failure
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Embodiment 1
[0113] Put 80, 80 and 80 mg of p(BHET-EOP / TC) (BHET-EOP: TC is 80: 20) copolymers into three containers of A, B and C respectively, and then add 100 ml of dichloromethane to each , after dissolving and mixing, add 20mg fluorouracil, 20mg carmustine, 10mg fluorouracil and 10mg carmustine respectively, shake again and use spray drying method to prepare 20% fluorouracil, 20% carmustine, and 10% carmustine Microspheres for Injection of Fluorouracil and 10% Carmustine. Then suspend the microspheres in physiological saline containing 15% mannitol to prepare the corresponding suspension-type sustained-release injection. The release time of the sustained-release injection in physiological saline in vitro is 50-60 days, and the release time in mice subcutaneously is more than 50 days.
Embodiment 2
[0115] The method step of being processed into slow-release injection is identical with embodiment 1, but difference is that used auxiliary material is the p(BHET-EOP / TC) of 50: 50, containing anticancer active ingredient and weight percent thereof are:
[0116] (1) 2-30% carmustine or nimustine;
[0117] (2) 5-40% fluorouracil, tegafur or capecitabine; or
[0118] (3) Combination of 5-40% fluorouracil, tegafur or capecitabine and 1-20% carmustine.
Embodiment 3
[0120]Put 70 mg of p(LAEG-EOP) with a peak molecular weight of 10,000-25,000 into three containers of A, B, and C, respectively, and then add 100 ml of dichloromethane to each, dissolve and mix well, and pour into the three containers respectively Add 30mg of fluorouracil, 30mg of nimustine, 25mg of fluorouracil and 5mg of nimustine, re-shake and use spray drying method to prepare 30% fluorouracil, 30% nimustine, 25% fluorouracil and 5% nimustine microspheres for injection. The dried microspheres are suspended in physiological saline containing 1.5% sodium carboxymethylcellulose to prepare the corresponding suspension-type sustained-release injection. The drug release time of the sustained release injection in physiological saline in vitro is 55-60 days, and the drug release time in mice subcutaneous is about 60 days.
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