AVALIAÇÃO DA CITOTOXICIDADE DE CERÂMICAS BIFÁSICAS DE HAp/?-TCP

Doi: 10.47094/978-65-88958-77-3/34-43

PALAVRAS CHAVE: Síntese. Fosfato de cálcio bifásico. Pechini.

KEYWORDS: Synthesis. Biphasic calcium phosphate. Pechini.

ABSTRACT:
Tissue engineering stands out in the search for reliable resources and routes in order to provide assistance to human health, aiming to minimize damage caused by loss or failure of tissues or organs, mimicking the physiological microenvironment. BCP is a promising ceramic biomaterial for this area, which consists of the union of two distinct calcium phosphate phases, hydroxyapatite (Hap) which has bioactivity and stability and beta tricalcium phosphate (? -TCP) which has rapid dissolution. With that, these bioceramics, endowed with a reliable and controllable absorption rate, allow a better osseointegration and fast bone growth by direct connection with the natural bone, thus helping in the formation of new bone. Thus, this work aims to obtain BCP through the Pechini route, evaluating the effect of the citric acid/metal cations ratio on the cytotoxicity of the ceramic produced. The resulting powders were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM) and cytotoxicity assays in Artemia salina, using the methodology of McLaughlin (1991). It was noticed that the different citric acid/metal cations ratios affected the proportion between the phases, hydroxyapatite and beta TCP, constituents of BCP. The particles were strongly agglomerated and were considered non-toxic, as they had 0% lethality.

Autores

• Aluska do Nascimento Simões Braga

• Diogenes de Moura Junior

• Genivaldo Melo da Rocha

• Geysivana Késsya Garcia Carvalho

• Hitalo de Jesus Bezerra da Silva

• José Rosa de Souza Farias

• Ketelly Estefane da Silva Alves

• Slanna Larissa Olimpio Costa

• Valdeci Bosco dos Santos

• Veruska do Nascimento Simões

• Victoria Regia Alves Sales

• Ycaro Breno Alves de Almeida