本課程將概述性介紹生物應用性材料包括高分子材料、陶瓷與無機材料、以及金屬合金材料等之基本特性,與其生物適用性範圍。內容並從基礎生化與生物系統與生物體的反應導入,透過生物測試評估了解材料的降解特性,及其生醫材料的生物與人工器官相關臨床應用。This course will provide an overview of the basic characteristics of bioapplicable materials including polymer materials, ceramics and inorganic materials, as well as metal alloy materials, and their biological applicability. The content is also directed from the reaction of basic biochemistry and biological systems and organisms, and through biotest assessment, we can understand the degradation characteristics of materials and the biological and artificial organ-related clinical applications of biomedical materials.
介紹生物應用性材料包括高分子材料、陶瓷與無機材料、以及金屬合金材料等之基本生物醫學應用特性,透過臨床研究與應用性綜合分析,使學生能了解材料的選擇、設計與加工條件差異,並從生物性評估生物體免疫反應與材料的降解破壞角度,分析生醫材料的生物相容性及其適用性。
Introduce the basic biomedical application characteristics of bio-applicable materials including polymer materials, ceramics, and inorganic materials, as well as metal alloy materials. Through clinical research and comprehensive analysis of application, students can understand the differences in material selection, design and processing conditions, and analyze the biocompatibility and applicability of biomedical materials from the perspective of biological immunoreaction and degradation and destruction of materials.
1. Introduction to Physical Polymer Science. L.H. Sperling John Wiley & Sons, Inc.
2. Biomaterials: An Introduction. Joon Park, R.S. LakesSpringer; 3rd edition
3. 教師自行製作或提供之補充資料。
1. Introduction to Physical Polymer Science. L.H. Sperling John Wiley & Sons, Inc.
2. Biomaterials: An Introduction. Joon Park, R.S. LakesSpringer; 3rd edition
3. Supplementary information produced or provided by the teacher.
評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
---|---|---|
作業作業 Action |
30 | 學期中提交報告 |
專題報告專題報告 Special Report |
50 | 由學生選定與本課程相關之主題進行報告 |
出席率出席率 Attendance rate |
20 |