Biomaterials: Types, Applications, and Market

“…Polysaccharides of microbial origin, such as chitosan, alginate, xanthan gum, and cellulose, are another class of biomaterials that have gained considerable interest for medical use because of their properties, including that they are renewable, biodegradable, and mimic the components of the extracellular matrix, which make them key elements in biological processes (Pires and Moraes, 2015; Pires et al, 2015). Chitosan can be easily recovered from the cell wall of fungi such as A. niger, Rhizopus oryzae, Cunninghamella elegans , and Mucor indicus , among others (Pochanavanich and Suntornsuk, 2002; Franco et al, 2004; Ruholahi et al, 2016; Abdel-Gawad et al, 2017).…”

“…Cellulose synthesized (in abundance) by bacteria such as Gluconacetobacter xylinus (e.g., Huang C. et al, 2016) displays the same polymeric structure of cellulose from plants but is superior in its mechanical properties, purity, and uniformity, allowing the production of higher-quality devices (Pires et al, 2015). These devices include dialysis membranes and scaffolds for tissue engineering (Svensson et al, 2005).…”

Technological Microbiology: Development and Applications

“…Polysaccharides of microbial origin, such as chitosan, alginate, xanthan gum, and cellulose, are another class of biomaterials that have gained considerable interest for medical use because of their properties, including that they are renewable, biodegradable, and mimic the components of the extracellular matrix, which make them key elements in biological processes (Pires and Moraes, 2015; Pires et al, 2015). Chitosan can be easily recovered from the cell wall of fungi such as A. niger, Rhizopus oryzae, Cunninghamella elegans , and Mucor indicus , among others (Pochanavanich and Suntornsuk, 2002; Franco et al, 2004; Ruholahi et al, 2016; Abdel-Gawad et al, 2017).…”

“…Cellulose synthesized (in abundance) by bacteria such as Gluconacetobacter xylinus (e.g., Huang C. et al, 2016) displays the same polymeric structure of cellulose from plants but is superior in its mechanical properties, purity, and uniformity, allowing the production of higher-quality devices (Pires et al, 2015). These devices include dialysis membranes and scaffolds for tissue engineering (Svensson et al, 2005).…”

Technological Microbiology: Development and Applications

“…Diferentes atividades biológicas já foram descritas para a quitosana, como antimicrobiana e estimulante do processo cicatricial. 72,73 Entretanto, no que compete à terapia genética, é a habilidade de interagir com o material genético que torna atrativo o uso da quitosana. Um dos maiores limitantes do emprego da quitosana, não só em formulações para a terapia gênica ocular, mas para outras vias e aplicações, é a dificuldade na caracterização da matéria-prima.…”

Biomateriais para formulações de base nanotecnológica visando terapia gênica ocular

“…Cerâmicas apresentam boa estabilidade dimensional, são resistentes ao desgaste e à compressão e estáveis em ambientes ácidos [2]. As cerâmicas porosas pertencem à classe de materiais caracterizados por uma rede tridimensional de poros dispostos de forma regular e interconectados entre si através de canais [3].…”

Obtenção de espumas cerâmicas a partir de resíduo da terra diatomácea e ignimbrita pelo método de réplica