一种用于高质量3D打印解剖模型的生物可降解且具有生物传感功能的原料。

Bledsoe Joshua C, Gilleland Brad E, Wright Austin F, White Evan M, Crane Grant H, Herron Christopher B, Locklin Jason J, Ritchie Branson W

J Biocommun. 2023 Dec 22;47(2):e5. doi: 10.5210/jbc.v47i2.13246. eCollection 2023.

A Poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) (PHBHHx) -based filament was evaluated as an alternative feedstock for Fused Deposition Modeling (FDM) of instructional and clinical medical specimens. PHBHHx-based prints of domestic cat vertebrae, skull bone, and an aortic arch cast were found comparable to conventional materials. PHBHHx-based filament and extrudate samples were evaluated for biological degradability, to meet the BioseniaticTM standard, defined by the University of Georgia New Materials Institute. Both samples achieved more than 90% mineralization within 32 days in industrial composting conditions.

一种基于聚（3-羟基丁酸酯-co-3-羟基己酸酯）（PHBHHx）的长丝被评估为用于教学和临床医疗标本熔融沉积建模（FDM）的替代原料。发现基于PHBHHx的家猫椎骨、颅骨和主动脉弓铸件打印件与传统材料相当。对基于PHBHHx的长丝和挤出物样品进行了生物降解性评估，以符合佐治亚大学新材料研究所定义的BioseniaticTM标准。在工业堆肥条件下，两个样品在32天内均实现了超过90%的矿化。