BackgroundThe aim of the present study was to investigate the cardioprotective effect of Taurine on the donor hearts during cold ischemic period.Methods32 rats were divided into four groups (sham, taurine, ischemia, treatment group, 8 rats in each). All rats were fed with rat food for three weeks. Taurine and treatment groups were given a 200 mg/kg/day dose of Taurine by oral gavage besides rat feed. Cardiectomy was performed in all rats after three weeks. In ischemia and treatment groups, harvested hearts were kept in 0.9% sodium chloride at +4 degrees C for 5 hours. Tissue samples were taken from left ventricle in all groups. These samples were evaluated by histopathologic and biochemical examination.ResultsIn the present study results of the biochemical and histopathological examination reveals the protective effects of Taurine. As a marker of lipid peroxidation, Malondialdehyde (MDA) levels in ischemia group were significantly higher than both Sham and Taurine groups. MDA values were recorded; 3.62 ± 0.197 in the sham group, 2.07 ± 0.751 in the Taurine group, 9.71 ± 1.439 in the ischemia group and 7.68 ± 1.365 in the treatment group. MDA levels decreased in treatment group. (p < 0.05) In accordance with MDA findings, while superoxide dismutase and glutathione peroxidase levels decreased in ischemia group, they increased in treatment group. (p < 0.05) There was no differences in Catalase (CAT) enzyme level between treatment and ischemia group (p = 1.000). CAT level results were recorded; 7.08 ± 0.609 in the sham group, 6.15 ± 0.119 in the Taurine group, 5.02 ± 0.62 in the ischemia group, and 5.36 ± 0.384 in the treatment group. Less intracellular edema and inflammatory cell reaction were observed in histologic examination in favor of treatment group. (p < 0.01)ConclusionTaurine decreased myocardial damage during cold ischemic period following global myocardial ischemia.
Although the most significant improvement was observed in Group I, all groups demonstrated improved skills with the simulation model. Therefore, it can be suggested that anastomosis training on tissue-based simulation models may be beneficial for the skill acquisition process.
ObjectiveThe aim of this study is to present our 7-year results of external valvuloplasty for isolated great saphenous vein (GSV) insufficiency.MethodsExternal valvuloplasty was applied in 83 patients with isolated GSV insufficiency. Follow-up consisted of venous color duplex scanning performed on the first postoperative day, the first postoperative month, and then annually. Valvular insufficiency, venous reflux, and venous thrombosis formation in the saphenofemoral junction were the main outcomes.ResultsA complete clinical and radiological healing was observed in 50 patients (60%). In 13 cases (15.6%), a secondary surgical treatment was performed consisting of vena saphena magna high ligation/stripping and varicose vein excisions, mainly due to severe and progressive vena saphena magna valvular insufficiency and clinical persistence of symptoms. Eight patients (9.6%) developed superficial vein thrombosis, and only one patient (1.2%) developed deep vein thrombosis. Contact was lost from 32 patients (38.5%) for different reasons.ConclusionExternal valvuloplasty is an effective surgical technique for selected cases of isolated GSV insufficiency without extensive varicose dilatations. This alternative method can be safely administered as an alternative to high ligation and conventional GSV stripping.
The importance of surgical simulation has grown in the quickly changing climate of modern surgical training. Prior to operating on human hearts, practice in appropriate experimental models is necessary to attain adequate experience. Nowadays, training of surgery residents has shifted to simulation workshops and residency programmes outside the operating theatre. We have experience in training our residents to perform mitral valve repair techniques in bovine hearts. Previously, the heart would be fixed on the tablecloth with simple stitches, which proved to be a complex and difficult technique while performing surgery. Moving forwards, we have built a successful 'surgical table' to achieve better stabilization and to simplify the surgery. This paper describes our model, which could be a helpful tool for any cardiac surgeon performing surgical techniques successfully at home.
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