Characterization of the deposition of collagen fibers and Lithogenic potential in bladder of rats submitted to a sugar cane biopolymer graft

Carvalho, Alessandra de Albuquerque Tavares; Santos, Marina Moura; Barkokébas, Béda; Aguiar, José Lamartine de Andrade; Lima, Salvador Vilar Correia; Dambros, Míriam

doi:10.1590/s1677-55382012000400015

Cited by 7 publications

(3 citation statements)

References 12 publications

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“…Probably, this was the reason of SCB biodegradation in one SCB-6 group animal. This fact coincides with Carvalho Júnior's study [17]. Also there was no trace of SCB thread in one animal.…”

Section: Discussionsupporting

confidence: 91%

A New Biomaterial for Urinary Catheters

Lima¹,

Lima²,

Aguiar³

et al. 2018

JBNB

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Several studies argue that an ideal biomaterial for urinary catheters is utopian. Based in literature review it seems to be true. However, research advances: the biomaterial itself, new designs, new coatings, associated drugs, etc. Once implanted and interacting with urine, two old problems persist: encrustation and bacterial colonization. In this context, an extracellular product from bacterial synthesis on sugarcane molasses biomaterial has been studied in several experimental and clinical studies. Based on its high biocompatibility, the aim of this study is to evaluate its performance in an in vivo model as an endourologic prosthesis implanted in the bladder of Wistar rats. We evaluate physical, chemical and biological phenomena in comparison to an already established biomaterial, polyurethane. Even though it is not a finished product, the sugarcane biopolymer presented similar performance compared to polyurethane in several analyzed parameters and has an important characteristic: low cost.

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“…Probably, this was the reason of SCB biodegradation in one SCB-6 group animal. This fact coincides with Carvalho Júnior's study [17]. Also there was no trace of SCB thread in one animal.…”

Section: Discussionsupporting

confidence: 91%

A New Biomaterial for Urinary Catheters

Lima¹,

Lima²,

Aguiar³

et al. 2018

JBNB

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“…BC hydrogel subcutaneous implants were found beneath the hypodermis layer of the skin, a slight inflammatory response was present and the formation of new vessels (neovascularization) was present in the majority of the animals. These effects are supported by previous studies (Rangel et al, 2006;Carvalho Junior et al, 2012;Cordeiro-Barbosa et al, 2012;Lima et al, 2015;Pita et al, 2015;Lima et al, 2017;Cavalcante et al, 2018;Gonçalves-Pimentel et al, 2018).…”

Section: Discussionsupporting

confidence: 86%

Non-clinical safety study of a sugarcane bacterial cellulose hydrogel

Silva

Pinto

Oliveira

et al. 2020

RSD

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A hydrogel of bacterial cellulose of 0.8%, biopolymer produced from sugarcane molasses and synthesized from a bacteria called Zoogloea sp., was analyzed for its composition and tested by two routes of administration, subcutaneous and intraperitoneal, to clarify the local and systemic adverse effects after skin implantation in Wistar rats (24 males, 24 females, 55 days old). Analysis of two samples of BC films indicates carbon (42.94%; 43.43%), hydrogen (6.73%; 6.76%), nitrogen (0.28%, 0.23%) and oxygen (50.05%, 49.58%). No abnormal behavior, clinical signs of chronic toxicity or inflammation were observed. There was no change in liver injury biomarker levels (ALT, AST and ALP), as well as in renal histology, where it was evaluated to signs of tubular cell injury, glomerular or vascular damage, and renal morphometry, in which it was quantified the number of renal corpuscles, the number of cells per glomerulus and the capsular space area. Thus, the absence of signs and symptoms of toxicity suggests that subcutaneous or intraperitoneal injections of these polymers may be used in clinical situations.

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“…In experimental studies the application of sugarcane biopolymer has shown adequate response in reconstruction of tympanic membrane (Mayer et al, 2011), fold vocal (Vasconcelos et al, 2015), osteochondral defect (Albuquerque et al), patch vascular (Marques et al, 2007), eviscerated eyes (Cordeiro-Barbosa et al, 2012) and bladder graft (Carvalho Junior et al, 2012). However, there are not records in scientific literature on the use this biopolymer in the treatment of nerve injuries.…”

Section: Introductionmentioning

confidence: 99%

Sugarcane Biopolymer as a Guide Tube in the Regeneration of Peripheral Nerves in Rats

et al. 2019

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Peripheral nerve regeneration is a serious clinical problem. The goal of this work was to evaluate comparatively a biopolymer tube of sugarcane with an expanded polyethylene tube as a tube guide in peripheral nerve regeneration. Fourteen male albino Wistar rats were used, separated into three different groups: control (CG), lesion + polyethylene tube (PG) and lesion + sugarcane biopolymer (SBG). At 60 days old, animals from the PG and SBG underwent surgery for tubulization of the sciatic nerve, and 60 days after the injury they were sacrificed for collection of the nerve. In the analysis of the number of nerve fibers, a smaller number was seen in the PG and SBG groups compared to the CG, no difference was seen between the PG and SBG groups (p<0.05). With regard to the number of blood vessels, the SBG group had a larger number than the CG and PG groups (p<0.05). The SBG also presented increase on axonal diameter and G -ratio compared to PG (p<0.05). Taken together these data revealed that biopolymer tube favors a suitable environment for peripheral nerve regeneration.

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Characterization of the deposition of collagen fibers and Lithogenic potential in bladder of rats submitted to a sugar cane biopolymer graft

Cited by 7 publications

References 12 publications

A New Biomaterial for Urinary Catheters

A New Biomaterial for Urinary Catheters

Non-clinical safety study of a sugarcane bacterial cellulose hydrogel

Sugarcane Biopolymer as a Guide Tube in the Regeneration of Peripheral Nerves in Rats

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