Abstract
To evaluate the biocompatibility and local sensibility reaction to bacterial cellulose hydrogel (0.8%) implanted in subcutaneous tissue of rabbits. Fifteen New Zeland rabbits were randomly allocated into three groups: T1, 7 days, T2, 21 days, and T3, 84 days. The new material was implanted in the subcutaneous tissue of the ear; on the scalp over the periosteum; and on the outer and inner surfaces of the thighs, in the aponeurosis of the muscle. At 7, 21 and 84 postoperative days, the material was collected for histological study. The clinical signs, inflammatory response, angiogenesis and fibrogenesis were variables used for analysis of the biocompatibility and biological reactivity to BCH. Analyses were performed with an AXIO(r) Imager. The statistical tests were performed using the GraphPad Prism 5.0 program(r) The intensity of the inflammatory infiltrate, considering the different cell types (PMN, LMN and GC), was statistically significant, with group T1 different from groups T2 and T3 (p = 0.0124 and p <0.0001, respectively) and T2 different from the T3 group (p = 0.0007). Fibrogenesis grade 1 was the most prevalent in groups T1 (55.4%) and T2 (44.6%). The formation of neovascularization in the group was identified in 84.4% of samples. Bacterial cellulose hydrogel (0.8%) is biocompatible, integrating with the subcutaneous tissue of rabbits and inducing tissue remodeling.
Highlights
Bacterial cellulose hydrogel (BCH) is a natural product obtained from molasses, a by-product of the sugar production process, and its chemical structure consists of stable polymerized sugars[1]
In vitro cytotoxicity of bacterial cellulose was evaluated in rat alveolar macrophages by [3-(4.5-Dimethylthiazol-2-yl)-2.5diphenyltetrazolium bromide] (MTT) assay, cells adhesion rate and nitric oxide production
This study aims to evaluate the biocompatibility and the local sensibility reaction to the bacterial cellulose hydrogel (BCH) implanted in the subcutaneous space of rabbits
Summary
In vitro cytotoxicity of bacterial cellulose was evaluated in rat alveolar macrophages by [3-(4.5-Dimethylthiazol-2-yl)-2.5diphenyltetrazolium bromide] (MTT) assay, cells adhesion rate and nitric oxide production. The bacterial cellulose presented a high biocompatibility in the three cytotoxicity assays[2]. Bacterial cellulose has demonstrated effectiveness as a conductor cell and inducing the healing process[3,4,5,6]. It has been used in different areas of surgery such as urethral reconstruction[7], bio-sling for treatment of urinary incontinence[8,9], bulking agent in orthopedics, ophtalmology and urology[10,11,12]. Patches in the femoral vein[13], mesh as an anti-adherent barrier in peritoneal surgery have been used[14]
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