Qi Xia scite author profile

Qi Xia

2Publications

1Citation Statement Received

52Citation Statements Given

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Fudan University

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Structure, properties, and in vitro degradation behavior of biodegradable poly(L‐lactic acid)‐trimethylene carbonate‐glycolide terpolymer

Xia

Zhang

et al. 2022

J of Applied Polymer Sci

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For biodegradable medical implants, it is critical to match the degradation rate of the material with the lesion healing rate of the tissue defect. Here, we report the synthesis of poly(L-lactic acid) (PLLA)-trimethylene carbonate (TMC)glycolide (GA) terpolymers with various monomer feeding ratios of L-lactide, TMC, and GA. The terpolymers were prepared through ring-opening polymerization with the purpose to improve degradation and mechanical properties of the terpolymers for biomedical applications. The influence of various GA contents in PLLA-TMC-GA terpolymers on the chain structure and their in vitro degradation performances were evaluated by using gel permeation chromatography, differential scanning calorimetry, X-ray diffraction, 1 H nuclear magnetic resonance, and tensile tests. Compared with pure PLLA, the degradation rate of terpolymers increased with the increase of GA content, because GA segments, which have a faster hydrolysis rate, not only effectively disrupt the regularity of LLA segment, but also increase the probability of chains scission during the degradation process. In a 28-week long degradation study, the mass loss of PLLA-TMC-GA terpolymers was about 36%, which is a faster rate than reported for pure PLLA. Therefore, it is possible to tailor the copolymer chain structures by varying the ratio of GA in the terpolymer to balance its degradation rate with body's lesion healing rate.

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Correction: Fluorine-containing nano-objects with the same compositions but different segment distributions: synthesis, characterization and comparison

et al. 2023

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Qi Xia

Structure, properties, and in vitro degradation behavior of biodegradable poly(L‐lactic acid)‐trimethylene carbonate‐glycolide terpolymer

Correction: Fluorine-containing nano-objects with the same compositions but different segment distributions: synthesis, characterization and comparison

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