Literature DB >> 12706050

Biopolymer stereocomplexes.

Joram Slager1, Abraham J Domb.   

Abstract

A polymer stereocomplex is defined as a stereoselective interaction between two complementing stereoregular polymers, that interlock and form a new composite, demonstrating altered physical properties in comparison to the parent polymers. The main interactions, resulting in the complexation, are suggested to rely on stereoselective van der Waals forces. This review focuses mainly on homo-stereocomplexes of poly(methyl methacrylate) homo- and block-copolymers, which are non-degradable biopolymers, and biodegradable poly(lactic acid) (PLA) homo- and block-copolymers and hetero-stereocomplexes between D-configured PLA and L-configured peptides. Topics including physical methods for characterization and visualization and the use as matrices for controlled release, tissue engineering or other biomedical purposes, are discussed for the different stereocomplexes.

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Year:  2003        PMID: 12706050     DOI: 10.1016/s0169-409x(03)00042-5

Source DB:  PubMed          Journal:  Adv Drug Deliv Rev        ISSN: 0169-409X            Impact factor:   15.470


  13 in total

1.  Stereocomplex Prodrugs of Oligo(lactic acid) n-Gemcitabine in Poly(ethylene glycol)- block-poly(d,l-lactic acid) Micelles for Improved Physical Stability and Enhanced Antitumor Efficacy.

Authors:  Yu Tong Tam; Chengbin Huang; Michael Poellmann; Glen S Kwon
Journal:  ACS Nano       Date:  2018-07-06       Impact factor: 15.881

2.  Chirality-Mediated Mechanical and Structural Properties of Oligopeptide Hydrogels.

Authors:  Marc B Taraban; Yue Feng; Boualem Hammouda; Laura L Hyland; Y Bruce Yu
Journal:  Chem Mater       Date:  2012-06-26       Impact factor: 9.811

3.  Stereocomplexes Formed From Select Oligomers of Polymer d-lactic Acid (PDLA) and l-lactate May Inhibit Growth of Cancer Cells and Help Diagnose Aggressive Cancers-Applications of the Warburg Effect.

Authors:  Joel S Goldberg
Journal:  Perspect Medicin Chem       Date:  2011-02-15

4.  Chirality-selected phase behaviour in ionic polypeptide complexes.

Authors:  Sarah L Perry; Lorraine Leon; Kyle Q Hoffmann; Matthew J Kade; Dimitrios Priftis; Katie A Black; Derek Wong; Ryan A Klein; Charles F Pierce; Khatcher O Margossian; Jonathan K Whitmer; Jian Qin; Juan J de Pablo; Matthew Tirrell
Journal:  Nat Commun       Date:  2015-01-14       Impact factor: 14.919

5.  Reversible assembly of enantiomeric helical polymers: from fibers to gels.

Authors:  Seila Leiras; Félix Freire; Emilio Quiñoá; Ricardo Riguera
Journal:  Chem Sci       Date:  2014-09-02       Impact factor: 9.825

6.  Configurational Molecular Glue: One Optically Active Polymer Attracts Two Oppositely Configured Optically Active Polymers.

Authors:  Hideto Tsuji; Soma Noda; Takayuki Kimura; Tadashi Sobue; Yuki Arakawa
Journal:  Sci Rep       Date:  2017-03-24       Impact factor: 4.379

7.  Stereocomplex Poly(Lactic Acid) Amphiphilic Conetwork Gel with Temperature and pH Dual Sensitivity.

Authors:  Jie Wu; Xiaoyu Shi; Zhidan Wang; Fei Song; Shouxin Liu
Journal:  Polymers (Basel)       Date:  2019-11-25       Impact factor: 4.329

Review 8.  Strategies for Enhancing Polyester-Based Materials for Bone Fixation Applications.

Authors:  Raasti Naseem; Charalampos Tzivelekis; Matthew J German; Piergiorgio Gentile; Ana M Ferreira; Kenny Dalgarno
Journal:  Molecules       Date:  2021-02-13       Impact factor: 4.411

9.  Influence of poly(lactide) stereocomplexes as nucleating agents on the crystallization behavior of poly(lactide)s.

Authors:  Nuo Ji; Guang Hu; Jianbo Li; Jie Ren
Journal:  RSC Adv       Date:  2019-02-20       Impact factor: 3.361

10.  Designed proteinoid polymers and nanoparticles encapsulating risperidone for enhanced antipsychotic activity.

Authors:  L Lugasi; I Grinberg; S Rudnick-Glick; E Okun; H Einat; S Margel
Journal:  J Nanobiotechnology       Date:  2020-10-21       Impact factor: 10.435
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