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Cholesterol-poloxamer-cholesterol triblock copolymer and its preparation method and application

A cholesterol and triblock technology, which is applied in the field of preparation of poloxamer derivatives, can solve the complex synthesis and purification process of unilaterally grafted cholesterol, insignificant reduction of critical micelle concentration, short cycle time of acid anhydride ester bonds, etc. problems, to achieve the effect of improving drug-carrying capacity, low critical micelle concentration, and improving dilution stability

Active Publication Date: 2016-09-28
SHENYANG PHARMA UNIVERSITY +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0015] However, this patent has the following defects: (1) Compared with the poloxamer grafted with cholesterol on both sides, the critical micelle concentration of the poloxamer is not significantly lowered after unilaterally grafted cholesterol, and the drug loading capacity is not significantly improved ; (2) Since both ends of the poloxamer contain hydroxyl groups, the polymer synthesis and purification process of unilaterally grafted cholesterol is more complicated and the yield is lower; (3) Compared with the carbonate bond, the acid anhydride ester bond is in The short circulation time in the body easily leads to the leakage of encapsulated drugs; (Xu, H., et al., Esterase-catalyzed dePEGylation of pH-sensitive vesicles modified with cleavable PEG-lipid derivatives. Journal of Controlled Release, 2008. 130(3 ):p. 238-245) (4) The patent did not confirm the structure of the obtained results, nor did it investigate the properties of the preparations in the examples

Method used

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  • Cholesterol-poloxamer-cholesterol triblock copolymer and its preparation method and application
  • Cholesterol-poloxamer-cholesterol triblock copolymer and its preparation method and application
  • Cholesterol-poloxamer-cholesterol triblock copolymer and its preparation method and application

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0051] Embodiment 1: the synthesis of CHMC-F68-CHMC

[0052]Take 336 mg F68 (0.04 mM) and place it in a closed container, add 2.44 mg 4-lutidine and 20 μL triethylamine under nitrogen, slowly add cholesteryl chloromethyl ester (0.12 mM) in dichloromethane solution 8 mL, stirred and mixed in an ice-water bath for 30 min, then reacted at room temperature for 24 h, and removed the solvent under reduced pressure after the reaction was completed. A certain amount of distilled water was added to the obtained crude product, extracted three times with dichloromethane, washed three times with ice water, saturated sodium chloride and 100 mM hydrochloric acid respectively, and a white wax was obtained by precipitation with glacial ether, which was further refined by repeated precipitation for 3 The CHMC-F68-CHMC three-block copolymer is obtained in one time.

[0053] During the reaction, silica gel thin-layer chromatography (TLC) was used to monitor the progress of the reaction and anal...

Embodiment 2

[0056] Embodiment 2: Synthesis of CHMC-F127-CHMC

[0057] Take 504 mg F127 (0.04 mM) and place it in a closed container, add 2.44 mg 4-lutidine and 20 μL triethylamine under nitrogen, and slowly add cholesteryl chloromethyl ester (0.12 mM) in dichloromethane solution 8 mL, stirred and mixed in an ice-water bath for 30 min, then reacted at room temperature for 24 h, and removed the solvent under reduced pressure after the reaction was completed. Add a certain amount of distilled water to the obtained crude product, extract three times with dichloromethane, wash three times with ice water, saturated sodium chloride and 100 mM hydrochloric acid respectively, and precipitate a white waxy substance through glacial ether precipitation, continue to repeatedly precipitate and refine Three times to get powdered CHMC-F127-CHMC tri-block copolymer.

[0058] During the reaction, silica gel thin-layer chromatography (TLC) was used to monitor the progress of the reaction and analyze the pu...

Embodiment 3

[0061] Embodiment 3: Synthesis of CHMC-F87-CHMC

[0062] Take 308 mg F87 (0.04 mM) and place it in a closed container, add 2.44 mg 4-lutidine and 20 μL triethylamine under nitrogen, slowly add cholesteryl chloromethyl ester (0.12 mM) in dichloromethane solution 8 mL, stirred and mixed in an ice-water bath for 30 min, then reacted at room temperature for 24 h, and removed the solvent under reduced pressure after the reaction was completed. Add a certain amount of distilled water to the obtained crude product, extract three times with dichloromethane, wash three times with ice water, saturated sodium chloride and 100 mM hydrochloric acid respectively, and precipitate a white waxy substance through glacial ether precipitation, continue to repeatedly precipitate and refine Three times to get powdered CHMC-F87-CHMC tri-block copolymer.

[0063] Use IFS-55 Fourier Transform Infrared Spectrometer (Bruker Company, Switzerland) to carry out infrared analysis on the product obtained, a...

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Abstract

The invention relates to a cholesterol-poloxamer-cholesterol triblock copolymer, a preparation method and application thereof. The triblock copolymer is obtained by taking poloxamer as the basic framework, and connecting cholesterol to both ends by carbonic ester bonds. The preparation method includes: placing poloxamer in a sealed container, adding an alkaline catalyst and an acid binding agent under a nitrogen condition, slowly adding a dichloromethane solution containing cholesteryl chloroformate dropwise, conducting stirring mixing in ice-water bath for 5-30min, then placing the mixture at room temperature to react for 1-72h, after the reaction, at the end of the reaction, reducing the pressure and removing the solvent so as to obtain a crude product; adding a proper amount of distilled water to the crude product, performing extraction with dichloromethane three times, then conducting washing three times with ice water, saturated sodium chloride and 100mM hydrochloric acid in order, and carrying out precipitation by ice ether to obtain a white wax matter; and subjecting the white wax matter to repeated precipitation refining by ice ether, thus obtaining the triblock copolymer. And the triblock copolymer has the advantages of low critical micelle concentration, large drug loading capacity, good dilution stability, simple synthetic process, low cost, and wide application range, etc. (structural formula).

Description

technical field [0001] The invention belongs to the field of pharmaceutical preparations, and in particular relates to a preparation method of a class of poloxamer derivatives and its application in a drug delivery system. Background technique [0002] Poloxamer is a multifunctional pharmaceutical excipient approved by the FDA. The block composition is an amphiphilic block copolymer. With the different numbers of hydrophilic EO chains and hydrophobic PO chains, they have different hydrophilic-lipophilic balance (HLB), critical micelle concentration (CMC) and oil-water partition coefficient (P). Poloxamer has a long history of research in the field of medicine due to its non-toxic, non-antigenic, non-irritating, non-sensitizing, non-hemolytic, and stable chemical properties. [0003] Poloxamers are usually used as emulsifiers, solubilizers, drug stabilizers, solid dispersion carriers, ointments and suppository bases, transdermal absorption enhancers, etc., which can increas...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C08G65/00A61K47/34A61K45/00A61K47/28
Inventor 邓意辉宋艳志刘欣荣田清菁隋月蒋宫平佘振南程晓波
Owner SHENYANG PHARMA UNIVERSITY
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