Preparation method of biologically absorbable polyphosphate and amino acid copolymer material
A polyphosphate and amino acid technology, which is applied in the field of biomedical degradable materials, can solve the problems of application limitations, uncontrollable degradation rate, and rapid mechanical strength decay, and achieves improved hydrophilicity and degradation performance, high plasticity and application. value, the effect of improving physical and mechanical properties
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Embodiment 1
[0043] Take 55.17g (0.4875mol), 31.94g (0.2438mol), and 25.14g (0.2437mol) of caprolactam, 6-aminocaproic acid, and γ-aminobutyric acid, respectively, and put them into a 250ml three-necked bottle, add 70ml of distilled water, and pass nitrogen gas protection , stirring and gradually raising the temperature to 150°C to 200°C for slow dehydration. After the dehydration is completed, the prepolymerization reaction is 0.5 hours, and the temperature is raised to 210°C for 1.5 hours of polymerization reaction. Add 7.15g (0.025mol) of cyclic phosphate after calcium chloride dehydration, The temperature was raised to 220°C for ring-opening reaction for 1 h, and then cooled to room temperature under nitrogen protection to obtain 101.4 g of a light yellow solid. The obtained polyphosphate amino acid copolymer is broken into 1-3mm particles. The polyphosphate content in the copolymer was 2.5%.
[0044] The polyphosphate amino acid copolymer was subjected to an in vitro simulated body f...
Embodiment 2-4
[0046] Take respectively 56.01g, 53.75g, 50.92g, 32.42g, 31.11g, 29.48g, 25.52g, 24.49g, 23.20g of caprolactam, 6-aminocaproic acid, and γ-aminobutyric acid into a 250ml three-necked bottle, add 70ml of distilled water, protected by nitrogen gas, stirred and gradually raised to 150°C to 200°C for slow dehydration, pre-polymerized for 0.5 hours after dehydration, heated to 210°C for 1.5 hours of polymerization, added calcium chloride dehydrated cyclic phosphate 2.86g, 14.3g and 28.6g were heated to 220°C for 1 hour of ring-opening reaction and then cooled to room temperature under nitrogen protection to obtain copolymers with different contents of polyphosphate, the contents of which were 1%, 5% and 10% respectively. The obtained polyphosphate amino acid copolymer is broken into 1-3mm particles.
[0047] The polyphosphate amino acid copolymer was subjected to an in vitro simulated body fluid immersion test, a clear water test and an experiment of culturing L929 fibroblasts with...
Embodiment 5
[0049] Take 55.17g, 30.04g, 23.11g, 3g and 5g of caprolactam, 6-aminocaproic acid, γ-aminobutyric acid, lysine and proline, respectively, and put them into a 250ml three-necked bottle, add 70ml of distilled water, and pass nitrogen gas protection , Stir and gradually raise the temperature to 150°C to 200°C for slow dehydration. After the dehydration is completed, the prepolymerization reaction is 0.5 hours, and the temperature is raised to 210°C for 1.5 hours of polymerization reaction. Add 7.15g of cyclic phosphate after calcium chloride dehydration, and heat up to 220°C After ring-opening reaction for 1 h, it was cooled to room temperature under the protection of nitrogen to obtain 103.17 g of light yellow solid. The obtained polyphosphate amino acid copolymer is broken into 1-3mm particles. The polyphosphate content in the copolymer was 2.5%.
[0050] The polyphosphate amino acid copolymer was subjected to an in vitro simulated body fluid immersion test, a clear water test...
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