How Do You Spell ENGINEERED BIOMATERIAL?

Pronunciation: [ˌɛnd͡ʒɪnˈi͡əd bˌa͡ɪə͡ʊmətˈi͡əɹɪə͡l] (IPA)

The spelling of the word "engineered biomaterial" is influenced by its pronunciation. The first syllable is pronounced as "en", with the "e" pronounced as in "bed" and "n" as in "nut." The second syllable is pronounced "juh-neerd," with the "e" pronounced as in "bed," and "d" as in "dog." The third syllable is pronounced "bi-o," with the "i" pronounced as in "bit." The final syllable is pronounced "muh-teer-ee-ul," with the "e" pronounced as in "bed," and "r" as in "rat." The spelling of this word reflects its scientific context and its emphasis on accuracy and precision.

ENGINEERED BIOMATERIAL Meaning and Definition

  1. Engineered Biomaterial:

    An engineered biomaterial refers to a synthetic or natural substance that has been intentionally designed or modified for use in biomedical applications. These materials are often created by combining biological components with chemical, physical, or mechanical properties that make them suitable for specific medical purposes.

    Engineered biomaterials are developed with the aim of enhancing and promoting biological interactions within the body. They can be used to replace, repair, or augment damaged tissues and organs, and can also serve as vehicles for drug delivery, tissue engineering scaffolds, or diagnostic tools.

    These biomaterials are manufactured through a process that involves thorough testing, modification, and optimization to ensure their safety, biocompatibility, and efficacy. Examples of engineered biomaterials include implantable devices such as artificial joints, dental implants, and sutures, as well as drug-eluting stents, wound dressings, and tissue engineering constructs.

    To be considered an engineered biomaterial, the material must possess specific properties, such as biocompatibility (ability to interact favorably with living tissues), mechanical strength, controllable degradation rates, and the ability to support cell adhesion, proliferation, and differentiation.

    Engineered biomaterials play a crucial role in modern medicine, enabling advancements in areas such as regenerative medicine, tissue engineering, and drug delivery. Their development and utilization have significantly improved patient outcomes and quality of life by addressing various medical conditions and challenges.

Common Misspellings for ENGINEERED BIOMATERIAL

  • wngineered biomaterial
  • sngineered biomaterial
  • dngineered biomaterial
  • rngineered biomaterial
  • 4ngineered biomaterial
  • 3ngineered biomaterial
  • ebgineered biomaterial
  • emgineered biomaterial
  • ejgineered biomaterial
  • ehgineered biomaterial
  • enfineered biomaterial
  • envineered biomaterial
  • enbineered biomaterial
  • enhineered biomaterial
  • enyineered biomaterial
  • entineered biomaterial
  • enguneered biomaterial
  • engjneered biomaterial
  • engkneered biomaterial
  • engoneered biomaterial

Etymology of ENGINEERED BIOMATERIAL

The etymology of the word "engineered biomaterial" can be understood by breaking it down into its constituent parts.

1. Engineered: The word "engineered" comes from the verb "engineer", which originated from the Middle English term "enginour". "Enginour" was derived from the Old French word "engigneor", meaning "constructor of military engines". The term evolved to encompass the concept of designing or constructing complex systems, devices, or structures.

2. Biomaterial: The term "biomaterial" combines "bio" and "material". "Bio-" is a prefix derived from the Greek word "bios", meaning "life". It is used to indicate a connection with living organisms or biological processes. The word "material" stems from the Late Latin term "materiale", derived from "mater", meaning "substance" or "matter".

Plural form of ENGINEERED BIOMATERIAL is ENGINEERED BIOMATERIALS

Infographic

Add the infographic to your website: