Classification Of Biomaterials and Their Applications

Abstract

Biomaterials, designed to interact with living systems, play a vital role in various medical applications. Classifying these materials effectively is crucial for understanding their properties and ensuring optimal use. Biomaterials are classified based on their chemical composition, structure, and properties relevant for biological applications. In this paper five types of Biomaterials classification methods are given namely. Chemical, Functional, Source of biomaterials, Structural and Smart levels classification. Each of these five-biomaterial classification method offers unique advantages and disadvantages. Chemical Classification is simple and well-established method, easy to understand and interpret and provides a basic framework for material identification. Functional Classification is directly related to the application of the biomaterial, provides insight into the desired material properties and useful for identifying materials for specific therapeutic needs. Source-Based Classification is straightforward method based on material origin and can be useful for initial categorization and understanding general material properties (e.g., natural materials often biocompatible). Structural Classification provides information about material properties like strength, degradation, and permeability and can be relevant for understanding biocompatibility and material performance. Smart Level Classification captures the advanced functionalities of next-generation biomaterials, provides insights into targeted drug delivery or controlled cell interactions and useful for identifying materials for specific therapeutic applications. The most suitable method depends on the specific context and information needs.