Thrombotic occlusion of the microvascular pedicle is the major reason for flap loss. Thus, identifying patients who are at risk for such events is paramount. Rotational thromboelastometry (RTE) is widely used to detect coagulopathy and hypercoagulable states. The aim of our study was to assess its diagnostic value in reconstructive microsurgery. In all 181 patients undergoing free tissue transfer at our department between February 2010 and November 2011 preoperative RTE was performed. In addition, coagulation values as well as patient's demographic data, cause and localization of defect, type of flap and surgical revisions were recorded. The majority of patients was male (59.6%) with traumatic (59.7%) defects located on the lower extremity (60.3%). ALT was the most often used flap (35.9%). Preoperatively, 36.5% of patients had a hypercoagulable RTE (higher than physiological RTE values; intrinsic (ICPT) or extrinsic (ECPT) mean clot firmness (MCF) >72mm or functional fibrinogen (ICF) MCF >25mm). A total of 28 primary thrombosis of the microvascular pedicle occurred, 11 of those in-patients with a hypercoagulable state. Total flap loss rate because ofthrombosis was 7.7% (n = 14). Both a hypercoagulable RTE assay and a functional fibrinogen to platelet ratio (FPR) of >43 (MCF value of ICF divided by the MCF value of ICPT) were significant predictors of thrombotic flap loss when performing multivariate binary logistic regression, co-factoring for age, sex, and comorbidities (p = 0.036 and 0.003, respectively). RTE seems to be able to identify patients that are prone to thrombotic complications and might be used as a screening tool.
IntroductionSurgical treatment of malignant thoracic wall tumors represents a formidable challenge. In particular, locally advanced tumors that have already infiltrated critical anatomic structures are associated with a high surgical morbidity and can result in full-thickness defects of the thoracic wall. Plastic surgery can reduce this surgical morbidity by reconstructing the thoracic wall through various tissue transfer techniques. Sufficient soft-tissue reconstruction of the thoracic wall improves quality of life and mitigates functional impairment after extensive resection. The aim of this article is to illustrate the various plastic surgery treatment options in the multimodal therapy of patients with malignant thoracic wall tumors.Materials and methodsThis article is based on a review of the current literature and the evaluation of a patient database.ResultsSeveral plastic surgical treatment options can be implemented in the curative and palliative therapy of patients with malignant solid tumors of the chest wall. Large soft-tissue defects after tumor resection can be covered by local, pedicled, or free flaps. In cases of large full-thickness defects, flaps can be combined with polypropylene mesh to improve chest wall stability and to maintain pulmonary function. The success of modern medicine has resulted in an increasing number of patients with prolonged survival suffering from locally advanced tumors that can be painful, malodorous, or prone to bleeding. Resection of these tumors followed by thoracic wall reconstruction with viable tissue can substantially enhance the quality of life of these patients.DiscussionIn curative treatment regimens, chest wall reconstruction enables complete resection of locally advanced tumors and subsequent adjuvant radiotherapy. In palliative disease treatment, plastic surgical techniques of thoracic wall reconstruction provide palliation of tumor-associated morbidity and can therefore improve patients’ quality of life.
Remote ischemic conditioning (RIC) is known to improve microcirculation in various settings, but little is known about the impact of the amount of ischemic tissue mass or the limb itself. Since ischemia and subsequent necrosis of flaps is one of the most dreaded complications in reconstructive surgery, adjuvant methods to improve microcirculation are desirable. We therefore performed a randomized trial to compare the effect of arm versus leg ischemia for RIC of the cutaneous microcirculation of the antero-lateral thigh. Forty healthy volunteers were randomized to undergo 5 min of ischemia of either the upper or lower extremity, followed by 10 min of reperfusion.Ischemia was induced by a surgical tourniquet applied to the proximal limb, which was inflated to 250 mmHg for the upper and 300 mgHg for the lower extremity. This cycle was repeated a total of three times. Cutaneous microcirculation was assessed by combined laser doppler spectrophotometry on the antero-lateral aspect of the thigh to measure cutaneous blood flow (BF), relative hemoglobin content (rHb), and oxygen saturation (StO2). Baseline measurements were performed for 10 min, after which the ischemia/reperfusion cycles were begun. Measurements were performed continuously and were afterwards pooled to obtain a mean value per minute. Both groups showed significant increases in all three measured parameters of cutaneous microcirculation after three cycles of ischemia/reperfusion when compared to baseline (BF: 95.1% (P < 0.001) and 27.9% (P = 0.002); rHb: 9.4% (P < 0.001) and 5.9% (P < 0.001), StO2: 8.4% (P = 0.045) and 9.4% (P < 0.001). When comparing both groups, BF was significantly higher in the arm group (P = 0.019 after 11 min., P = 0.009 after 45 min). In conclusions, both ischemic conditioning of the upper and lower extremity is able to improve cutaneous BF on the ALT donor site. However, RIC of the upper extremity seems to be a superior trigger for improvement of cutaneous BF.
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