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DOI: 10.1055/s-2007-993147
© J. A. Barth Verlag in Georg Thieme Verlag KG Stuttgart · New York
Microscopic, Morphometric and Ultrastructural Analysis of Anastomotic Healing in the Intestine of Normal and Diabetic Rats
Publication History
received 12.07.2007
first decision 17.09.2007
accepted 31.10.2007
Publication Date:
10 December 2007 (online)
Abstract
The purpose of this study was to investigate if experimental alloxanic diabetes could cause qualitative changes in intestinal anastomoses of the terminal ileum and distal colon in rats, as compared to controls. 192 male Wistar rats, weighing ±300 g were split into four experimental groups of 48 animals each, after 3 months of follow-up: a control group with ileum anastomoses (G1), a control group with colon anastomoses (G2), a diabetic group with ileum anastomoses (G3) and a diabetic group with colon anastomoses (G4). Animals were evaluated and sacrificed on days 4, 14, 21 and 30 after surgery, and fragments of the small and large intestine where the anastomoses were performed were removed. Samples from 6 animals from each sacrifice moment were submitted to ultrastructural analysis of the collagen fibers using a scanning electron microscope and samples from another 6 animals were submitted to histopathology and optical microscopy studies using picrosirius red-staining. Histopathological analysis of picrosirius red-stained anastomosis slides using an optical microscope at 40x magnification showed that the distribution of collagen fibers was disarranged and also revealed a delay in scar tissue retraction. The morphometric study revealed differences in the collagen filled area for the ileum anastomoses 14 days post surgery whereas, in the case of colon anastomoses, differences were observed at days 4 and 30 post surgery, with higher values in the diabetic animals. Ultrastructure analysis of the ileum and colon anastomoses using a scanning electron microscope revealed fewer wide collagen fibers, the presence of narrower fibers and a disarranged distribution of the collagen fibers. We conclude that diabetes caused qualitative changes in scar tissue as well as in the structural arrangement of collagen fibers, what could explain the reduced wound strength in the anastomosis of diabetic animals.
Key words
experimental diabetes - healing - intestinal anastomosis
References
- 1 Andreassen TT, Oxlund H. The influence of experimental diabetes and insulin treatments on the biomechanical properties of rat skin incisional wounds. Acta Chir Scand. 1987; 153 405-409
- 2 Baricevic I, Jones DR, Nikolic JA, Nedic O. Gastrointestinal inflammation and the circulating IGF system in humans. Horm and Metab Res. 2006; 38 22-27
- 3 Bonnefont-Rousselot D, Beaudeux JL, Therond P, Peynet J, Legmud A, Delattre J. Diabetes mellitus, oxidative stress and advanced glycation endproducts. Ann Pharm Fr. 2004; 62 ((3)) 147-157
- 4 Covington DS, Xue H, Pizzini R, Lally KP, Andrassy RJ. Streptozotocin and Alloxan are comparable agents in the diabetic model of impaired wound healing. Diabetes Res. 1993; 23 ((2)) 47-53
- 5 Davi O, Falco A, Patrono C. Lipid peroxidation in diabetes mellitus. Antioxid Redox Signal. 2005; 7 ((1-2)) 256-268
- 6 Ekmektzoglou KA, Zografos GC. A concomitant review of the effects of diabetes mellitus and hypothyroidism in wound healing. World J Gastroenterol. 2006; 12 ((17)) 2721-2729
- 7 Follak N, Kloting I, Wolf E, Merk H. Histomorphometric evaluation of the influence of the diabetic metabolic state on bone defect healing depending on the defect size in spontaneously diabetic BB/OK rats. Bone. 2004; 35 144-152
- 8 Goodson W, Hunt K. Deficient collagen formation by obese mice in a standard wound model. Am J Surg. 1979; 138 ((5)) 692-694
- 9 Hamilton CW, Chandler DBS, Klintworth GK, Machemer R. A transmission and scanning electron microscopic study of surgically excised preretinal membrane proliferations in diabetes mellitus. Am J Ophtalmol. 1982; 94 473-488
- 10 Humpert PM, Bartsch U, Konrade I, Hammes HP, Morcos M, Kasper M, Bierhaus A, Nawroth PP. Locally applied mononuclear bone marrow cells restore angiogenesis and promote wound healing in a type 2 diabetic patient. Exp and Clin End and Diab. 2005; 113 538-540
- 11 Klein L, Eichelberger H, Mirian M, Hiltner A. Ultrastructural properties of collagen fibrils in rat intestine. Connect. Tissue Res. 1983; 12 71-78
- 12 Makino H, Yamasaki Y, Haramoto T, Shikata K, Hironaka K, Ota Z, Kanwar YS. Ultrastructural changes of extracellular matrices in diabetic nephropathy revealed by high resolution scanning and immunoelectron microscopy. Lab Invest. 1993; 68 45-55
- 13 Martim AC, Sanders RA, Watkins JB. Diabetes oxidative stress and antioxidants: a review. J Biochem Mol Toxicol. 2003; 17 ((1)) 24-38
- 14 Onodera H, Ikeuchi D, Nagayama S, Imamura M. Weakness of anastomotic site in diabetic rats is caused by changes in the integrity of newly formed collagen. Dig Surg. 2004; 21 146-151
- 15 Ortolan EVP, Spadella CT, Machado JLM, Kobayasi S. The evaluation of healing parameters in the colon of diabetic rats without surgical injury. Acta Cir Bras. 2004; 19 286-295
- 16 Rosenberg CS. Wound healing in the patient with diabetes mellitus. Nurs Clin North Am. 1990; 25 247-261
- 17 Ruoslahti E. Structure and biology of proteoglicans. Ann Rev Cell Biol. 1988; 4 229-255
- 18 Thornton FJ, Barbul A. Healing in the gastrointestinal tract. Surg Clin North Am. 1997; 77 549-586
- 19 Verhofstad MHJ, Lomme RMLM, Man BM de, Hendriks T. Intestinal anastomosis from diabetic rats contain supranormal levels of gelatinase activity. Dis Colon Rectum. 2002; 45 ((4)) 554-561
- 20 Verhofstad MHJ, Hendriks T. Diabetes impairs the development of early strength, but not the accumulation of collagen, during intestinal anastomotic healing in the rat. Br J Surg. 1994; 81 1040-1045
Correspondence
Prof. E. V. P. OrtolanPhD
Department of Surgery
Botucatu School of Medicine
Rubiao Jr s/n
18618-730 Botucatu
Brazil
Email: erika_paiva@yahoo.com