ABCD: Arquivos Brasileiros de Cirurgia Digestiva (Jun 2016)

ANALYSIS OF BIOMECHANICAL PARAMETERS IN COLONIC ANASTOMOSIS

  • Tiago Cavalcanti IWANAGA,
  • José Lamartine de Andrade AGUIAR,
  • Euclides Dias MARTINS-FILHO,
  • Flávio KREIMER,
  • Fernando Luiz SILVA-FILHO,
  • Amanda Vasconcelos de ALBUQUERQUE

DOI
https://doi.org/10.1590/0102-6720201600020006
Journal volume & issue
Vol. 29, no. 2
pp. 90 – 92

Abstract

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ABSTRACT Background: The use of measures in colonic anastomoses to prevent dehiscences is of great medical interest. Sugarcane molasses, which has adequate tolerability and compatibility in vivo, has not yet been tested for this purpose. Aim: To analyze the biomechanical parameters of colonic suture in rats undergoing colectomy, using sugarcane molasses polysaccharide as tape or gel. Methods: 45 Wistar rats (Rattus norvegicus albinus) were randomized into three groups of 15 animals: irrigation of enteric sutures with 0.9% saline solution; application of sugarcane molasses polysaccharide as tape; and sugarcane molasses polysaccharide as gel. The rats underwent colon ressection, with subsequent reanastomosis using polypropylene suture; they were treated according to their respective groups. Five rats from each group were evaluated at different times after the procedure: 30, 90 and 180 days postoperatively. The following variables were evaluated: maximum rupture force, modulus of elasticity and specific deformation of maximum force. Results: The biomechanical variables among the scheduled times and treatment groups were statistically calculated. The characteristics of maximum rupture force and modulus of elasticity of the specimens remained identical, regardless of treatment with saline, polysaccharide gel or tape, and treatment time. However, it was found that the specific deformation of maximum force of the intestinal wall was higher after 180 days in the group treated with sugarcane polysaccharide gel (p=0.09). Conclusion: Compared to control, it was detected greater elasticity of the intestinal wall in mice treated with sugarcane polysaccharide gel, without changing other biomechanical characteristics, regardless of type or time of treatment.

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