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ポリサイエンス社製品
cat.#24381

PEG(1000)-b-PLA(5000), Diblock Polymer

Biodegradable Polymers based on copolymers of polylactic acid (PLA) and polyethylene glycol (PEG) offer scientists new tools for controlled release formulations and delivery platforms.

Polymer structures featuring polyethylene glycol (PEG), with biodegradable or biocompatabile segments offering micelluar, nano and microsphere morphologies which are useful for controlled release formulations. Molecular weights of blocks controlled by GPC. Alternative structures can be synthesized.

A new class of polymeric biomaterials is emerging. The biodegradability of polymers based on lactic acid(LA) and its copolymers with ethylene glycol (EG) opens up new avenues for drug delivery, gene therapy, tissue engineering and determination of cellular pathway mechanisms.

Historically there have been three basic building block monomers for degradable polymers: lactides, glycolides and caprolactone. All are in clinical use and show varying degrees of degradability based on backbone compositions, crystallinity and molecular weights.

Lactic acid is a “chiral” molecule having both (L) and (D) forms with (L) being the common metabolite. The family of lactic acid polymers includes the pure poly-L- lactic acid (L form of PLA), the pure poly-D-lactic acid and the poly-D, L lactic acid (DL-PLA). Many other useful compositions occur when the polymer is organized into diblocks with ethylene glycol and/or glycolic acid comonomers or triblocks with ethylene glycol and/or glycolic acid.

Polymers of this type are insoluble in water but degrade by hydrolytic attack on their ester bonds. This degradation can be mediated by selective choice of comonomers such as ethylene glycol which enhance the penetration of water and rate of hydrolysis.

Additional custom synthesis materials are available upon request. Please contact us for a quotation for your custom synthesis needs.

Numbers in parentheses refer to Mw of the segment.

References:

  • (1) D.L. Griffith, Polymeric Biomaterials, Acta Mater. 48, 263-277(2000)
  • (2) M. Vert et. al. , Synthesis, Characterization, and Hydrolytic Degradation of PLA/PEO/PLA Triblock Copolymers with Short Poly(L-lactic acid) Chains, Macromolecules, 29, 50-56 (1996)
  • (3) D.S. Lee et. al., Poly(D,L-lactic acid-co-glycolic acid)-b-poly(ethylene glycol)-b-poly (D,L-lactic acid-co-glycolic acid) triblock copolymer and thermoreversible phase transition in water, Wiley Periodicals Inc. 2002
  • (4) D. Chen et. al. Injectable biodegradable temperature-responsive PLGA—PEG-PLGA copolymers:Synthesis and effect of copolymer composition on the drug release from the copolymer-based hydrogels, International Journal of Pharmaceutics, 294, 103-112 (2005)
  • (5) S.W. Kim, Controlled Release of Insulin from Injectable Biodegradable Triblock Copolymer, Pharmaceutical Research, 18, No.. 4, 548-550(2001)
  • (6) S.W. Kim, Thermoreversible Gelation of PEG-PLGA-PEG Triblock Copolymer Aqueous Solutions, Macromolecules, 32, 7064-7069 (1999)
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製品リスト
Cat.# 容量 定価
24381-0.5 0.5 g ¥86,900
24381-1 1 g ¥156,000

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