期刊名称:ePlasty: Open Access Journal of Plastic and Reconstructive Surgery
印刷版ISSN:1937-5719
出版年度:2018
卷号:18
语种:English
出版社:Open Science Co. LLC
摘要:DESCRIPTIONA 46-year-old African American man presented with grade IIIB Gustilo-Anderson open left distal tibia/fibula fracture, which was sustained after a 10-ft fall into a ditch. The patient underwent a successful anterolateral thigh (ALT) perforator free flap reconstruction, anastomosed to the posterior tibial vessels.QUESTIONSWhat is sickle cell and can patients with sickle cell trait (SCT) undergo erythrocyte sickling and under what conditions?What are the potential systemic complications displayed in persons with SCT and why?What are the potential associated flap complications in patients with SCT undergoing microsurgical or pediceled flap reconstruction?What measures can be taken to reduce flap complications in patients with SCT?DiscussionSickle cell disease (SCD) is a relatively common disorder of hemoglobin (Hb) formation inherited through autosomal recessive means with a prevalence of 80,000 Americans. It is a single nucleotide substitution of GTG to GAG at the sixth codon of the β-globin gene, replacing the amino acid glutamate to valine.1The morphology of the red blood cell (RBC) is altered during periods of deoxygenation from a normal biconcave (HbA) to a sickle shape (HbS). HbS presents with a rigid and more viscous RBC. These irregularly shaped cells can cluster together and obstruct blood vessels. This can trigger a series of events that lead to tissue damage and eventual inflammatory response, causing the vaso-occlusions and painful crises that are hallmark of SCD.1It was previously thought that patients with SCT, having only one diseased allele of HbS and milder to no symptoms, were regarded as healthy. However, with enough systemic stressors such as severe tissue hypoxia, acidosis, dehydration, and hypothermia, erythrocyte sickling can occur and cause similar problems as in SCD.2Even under normal conditions, SCT RBCs are inherently stiffer and more viscous than normal RBCs.3Physiologically, individuals with SCT have higher levels of coagulative factors such as D-dimers, thrombin-antithrombin complexes, and monocyte levels, which mediate endothelial cell damage and may promote thrombogenesis. Studies have shown that SCT patients are significantly more vulnerable to venous thromboses and further venous thromboembolism, as they can have up to 45% of their total Hb as HbS.4,5Patients with SCT are 4 times more likely to develop pulmonary embolism when compared with the healthy population. In addition, SCT patients have double the risk of ischemic stroke incidents.6,7Patients with SCT are at risk of flap failure due to a combination of flap microcirculatory sludging precipitated by systemic or local stressors and hypercoagulability.4Several measures can be taken to reduce flap-related complications due to sickling within the flap microcirculation in SCT patients. Pedicel flaps are thought to be safe when the patient's HbS is maintained between 30% and 40% .5Preoperative prophylactic measures such as an exchange transfusion to reduce HbS levels remain advocated but alone is ineffective in preventing flap thrombosis.4In addition, an indirect approach through hydroxyurea treatment combined with erythropoietin will increase levels of fetal Hb and reduce HbS formation.1Data show that ischemia time during flap elevation may cause flap failure. By keeping ischemia time as short as possible during free tissue transfer (flap off-time), or alternatively by choosing a well-vascularized pedicel flap, one can achieve a reduction in flap complications. It has been speculated that free flap tissue hypothermia induced by cooling, a method used for flap preservation during free flap transfer, may precipitate erythrocyte sickling within the flap microvasculature and may be the leading cause of intraflap thrombosis.2Flap survival may be potentially improved by minimizing or avoiding direct local tissue hypothermia or systemic hypothermia. Adequate systematic oxygen saturation and hydration throughout surgery and postoperatively are essential. Limiting vasoconstrictors will reduce flap necrosis as well. Introducing hyperbaric oxygen therapy at the time of initial signs of ischemia may be beneficial as well.2,5In conclusion, surgical and anesthesia guidelines exist for patients with SCD to prevent sickle cell crisis; however, no guidelines are established for SCT patients as they are regarded as healthy.2Clearly, SCT patients are also at risk of flap necrosis complications and appropriate precautions must be taken.5,8
