Page 59 - 《中国医疗器械杂志》2025年第6期

P. 59

Chinese Journal of Medical Instrumentation 2025年第49卷第6期

综合评述

印技术构建负载Kartogenin纳米颗粒的重组胶原蛋 hydroxylation for functional recombinant collagen in
白/壳聚糖甲基丙烯酸酯/纳米黏土复合水凝胶支 Escherichia coli[J]. Int J Biol Macromol, 2024, 282(Pt 5):
137400.
架，支架兼具抗菌性、生物相容性和药物缓释功
[10] CHENG Z M, HONG B, LI Y M, et al. Preparation and
能，可有效诱导干细胞软骨分化并促进体内软骨再 characterization of hydroxylated recombinant collagen by
生。基于重组胶原的3D打印技术正推动复杂组 incorporating proline and hydroxyproline in proline-
[48]
织再生革新，突破传统移植材料的功能局限，以上 deficient Escherichia coli[J]. Bioengineering, 2024,
11(10): 975.
研究验证了从单一组织修复到管腔器官再生的跨尺
[11] ZENG H, LI H, WANG L, et al. Recombinant humanized
度应用潜力，未来须融合多材料打印与动态信号编 type Ⅲ collagen inhibits ovarian cancer and induces
程，开发适配异质组织界面的智能胶原基植入体。 protective anti-tumor immunity by regulating autophagy
through GSTP1[J]. Mater Today Bio, 2024, 28: 101220.
4 结语 [12] GUO X Y, WANG P, YUWEN W G, et al. Production
and functional analysis of collagen hexapeptide repeat
重组胶原蛋白作为医疗器械创新的核心材料， sequences in Pichia pastoris[J]. J Agric Food Chem,
凭借可编程分子结构和优异生物相容性特性，通过 2024, 72(24): 13622-13633.
羟脯氨酸修饰、多域功能融合、配位交联优化等分 [13] SUN Y, GAO C G, JIA P C, et al. Novel in situ and rapid
self-gelation recombinant collagen-like protein hydrogel
子设计策略与精准发酵等制备工艺创新，可显著提
for wound regeneration: mediated by metal coordination
升力学性能与生物活性，在再生医学、组织工程、 crosslinking and reinforced by electro-oxidized tea
药物递送及创面修复等医疗器械领域实现突破性应 polyphenols[J]. Biofabrication, 2024, 17(1): 015027.
用。在创新层面，AI驱动设计与3D生物打印技术 [14] HE H X, WEI N N, XIE Y, et al. Self-assembling triple-
可深度融合，构建智能响应材料体系，结合合成生 helix recombinant collagen hydrogel enriched with
tyrosine[J]. ACS Biomater Sci Eng, 2024, 10(5): 3268-
物学推动产业化升级。未来，希望可突破重组胶原 3279.
蛋白规模化生产、长期安全性等瓶颈，通过多学科 [15] BOCHOVE V B, WARMINK L, ANKONE M, et al.
协同构建其全周期创新生态，为再生医学与精准医 Porous photo-crosslinked hybrid networks based on poly
疗的可持续发展注入新动能。 (trimethylene carbonate-co-ε-caprolactone) and
recombinant human-like collagen[J]. Biomater Adv,
2025, 167: 214106.
参考文献
[16] WANG Q, YAN H Y, YAO L Y, et al. A highly bioactive
[1] 乔绍俊, 裴育, 兰小宾. 新型生物医用材料A型重组Ⅲ型
THPC-crosslinked recombinant collagen hydrogel
人源化胶原蛋白[J]. 新兴科学和技术趋势, 2024, 3(1):
implant for aging skin rejuvenation[J]. Int J Biol
9-17.
[2] 刘英杰, 徐荣荣, 苏淮, 等. 重组胶原蛋白制备工艺研究 Macromol, 2024, 266(Pt 2): 131276.
[17] 黄长瑾, 雷桓, 唐晓军. EDC/NHS交联重组胶原蛋白水
进展[J]. 山东化工, 2024, 53(16): 113-118.
[3] 胡欢, 张蕻, 王建, 等. 重组胶原蛋白在生物医药方面的凝胶修复关节软骨缺损[J]. 中国材料进展, 2024, 43(4):
344-354.
应用[J]. 生物化学与生物物理进展, 2025, 52(2): 395-
416. [18] DE MOURA CAMPOS S, DOS SANTOS COSTA G,
[4] 夏煌慧, 黄建忠. 重组胶原蛋白的生物合成研究进展[J]. KARP S G, et al. Innovations and challenges in collagen
微生物学报, 2025, 65(5): 1939-1957. and gelatin production through precision fermentation[J].
[5] 袁军. 载芍药苷重组人Ⅲ型胶原蛋白水凝胶对糖尿病 World J Microbiol Biotechnol, 2025, 41(2): 63.
足溃疡作用的研究[D]. 南京: 南京中医药大学, 2024. [19] YAN J M, YIN S Y, CHEN Y R, et al. Expression,
[6] HE H X, YANG F, ZHANG S S, et al. Bone optimization and biological activity analysis of
morphogenetic protein-2 loaded triple helix recombinant recombinant type Ⅲ collagen in Komagataella phaffii[J].
collagen-based hydrogels for enhancing bone defect Int J Biol Macromol, 2024, 288: 138243.
healing[J]. Biomed Mater, 2024, 19(3): 035029. [20] ZHANG L, CHEN Y F, FENG D N, et al. Recombinant
[7] WU Y, HU C, LI Y X, et al. A versatile composite collagen microneedles for transdermal delivery of
hydrogel with spatiotemporal drug delivery of antibacterial copper-DNA nanoparticles to treat skin and
mesoporous ZnO and recombinant human collagen for soft tissue infections[J]. J Control Release, 2025, 379:
diabetic infected wound healing[J]. Biomacromol, 2024, 191-201.
25(12): 7878-7893 . [21] ZHANG X Y, HUANG Y W, LUO T, et al. Advanced
[8] 邵杨鳕. 重组胶原蛋白行业白皮书[R]. 北京: 动脉网, wound healing and scar reduction using an innovative
2024. anti-ROS polysaccharide hydrogel with recombinant
[9] ZHU P, MA M X, YOU T J, et al. Optimizing prolyl human collagen type Ⅲ[J]. ACS Appl Mater Interfaces,

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