Biomaterials are materials that are engineered to interact with biological systems for a medical purpose. They are designed to be biocompatible, meaning they are non-toxic and do not cause an immune response. Biomaterials can be used to replace or support biological tissue, and can be composed of polymers, metals, ceramics, or natural substances. They can be used to create medical implants, prosthetics, and devices such as pacemakers and artificial organs. Biomaterials are also used to create drug delivery systems, wound dressings, and diagnostic tools. One important aspect of biomaterials is their ability to mimic the properties of natural tissue. For example, a biomaterial used to replace bone must have similar strength and stiffness to the original bone. Biomaterials can also be designed to degrade over time, allowing for the regeneration of new tissue. This is particularly important in tissue engineering, where biomaterials are used to create scaffolds that support the growth of new tissue. Another important aspect of biomaterials is their ability to interact with cells and tissues. Biomaterials can be designed to promote cell adhesion and proliferation, which is important for tissue regeneration. They can also be designed to release growth factors or other signaling molecules that promote tissue growth and healing. Overall, biomaterials play an important role in modern medicine and have a wide range of applications. They are used in everything from joint replacements to drug delivery systems, and are constantly being developed and improved to better meet the needs of patients.
biocompatible, tissue engineering, scaffolds, cell adhesion, growth factors
Biomaterial can be classified as a noun. It is defined as a material of natural or synthetic origin that is used in medical technology and research. Common synonyms for biomaterials include biodegradable materials, biosynthetic materials and biopolymers. Popular antonyms for the word include non-biomaterial and non-biodegradable materials. Cognates of the term include bio-active materials, and bio-absorbable materials. Variants of the word Biomaterial include 'biomaterials' and 'biomaterialistic'.
Biomaterial, morphology, etymology, origin, creation, research, technology, science, synthetic, biodegradable, biopolymer, bio-active, bio-absorbable.
Morphologically speaking, the term Biomaterial is a neologism that has evolved over time as a result of a combination of two root words: bio and material. Historically, the term gained prominence in the early 20th century, with the development of medical research in the field of biology. It is a combination of two words, one referring to biological material and the other to the material itself, hence ‘biomaterial’. Used to describe a range of products created from biological sources, the term is commonly used to refer to different forms of medical devices and implants. Morphologically, the term is a combination of two morphemes, the ‘bio’ as a prefix and the ‘material’ as a noun. Pragmatically, the term is used in bioengineering and medical research to refer to materials derived from living organisms. It can also refer to a type of material that degrades over time after being exposed to biological components such as bacteria or enzymes.
Etymology, morphological evolution, historical evolution, morphology, pragmatics, biological sources, medical devices, implants, bioengineering, living organisms, degradation, biological components.
CITATION : "Henry Fontaine. 'Biomaterial.' Design+Encyclopedia. https://design-encyclopedia.com/?E=220033 (Accessed on June 29, 2025)"
Biomaterials are substances, or mixtures of substances, that are used to repair damaged tissue and create functional replacements for damaged tissues. Biomaterials can come from a variety of sources and can be synthetic or natural. Examples of biomaterials include polymers, ceramics, metals, composites, and biological tissues. As this term is not used universally in all languages, it is important to understand the various words used to describe this concept. In French, biomatériaux, in German, Biomaterialien, in Spanish, biomateriales, in Italian, biomateriali, in Portuguese, biomateriais, in Dutch, biomaterialen, in Swedish, biomaterial, in Danish, biomasseprodukter or biomaterialer, in Polish, biomateriały, in Hungarian, biomaszanyagok, in Romanian, materiale biologice, in Czech, biopřípravky, in Slovak, biomateriály, in Finnish, biomateriaalit, and in Indian languages, jeevan dhatu. All of these terms offer a unique perspective on the concept of biomaterials and their usage in tissue engineering and other medical applications.
Biomatériaux, Biomaterialien, Biomateriales, Biomateriali, Biomateriais, Biomaterialen, Biomaterial, Biomasseprodukter, Biomaterialer, Biomateriały, Biomaszanyagok, Materiale Biologice, Biopřípravky, Biomateriály, Biomateriaalit, Jeevan Dhatu; Tissue Engi
Biomaterials are materials that are specifically designed to interact with biological systems. They are used in a wide range of medical devices and implants, such as joint replacements, stents, and artificial organs. Biomaterials are also used in drug delivery systems, tissue engineering, and diagnostics. Biomaterials are designed to be biocompatible, meaning they are non-toxic and do not cause an immune response. They also need to be able to withstand the body’s environment and be able to perform the desired function.
Biomaterial, medical device, implant, drug delivery, tissue engineering, diagnostics, biocompatible, immune response, body environment, function.
Biomaterials are materials that are engineered to interact with biological systems for a medical purpose. These materials can be used to replace or support biological tissue, and can be composed of polymers, metals, ceramics, or natural substances. Biomaterials can be used to create medical implants, prosthetics, and devices such as pacemakers and artificial organs. Biomaterials are also used to create drug delivery systems, wound dressings, and diagnostic tools.
Biomaterials, Medical Implants, Prosthetics, Pacemakers, Artificial Organs, Drug Delivery Systems, Wound Dressings, Diagnostic Tools
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