Massive bleeding despite tourniquet inflation in total knee replacement patient with a femoro-popliteal artery bypass graft
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A tourniquet is used frequently in orthopedic surgeries, including total knee replacement, to reduce bleeding and enhance the visual field during surgery. Herein, we present a case with massive bleeding that occurred during a total knee replacement that had administered a tourniquet with adequate pressure. A 65-year-old man presented to the orthopaedic clinic for right total knee replacement due to osteoarthritis. The patient had right lower limb artery obstruction and a history of a right femoro-popliteal artery bypass graft 7 years prior to his visit. He was 169 cm tall weighing 68 kg. The patient had no other specific medical history, and no abnormal finding was covered on the preoperative examination. When the patient arrived at the operating room, his blood pressure was 150/90 mmHg. We provided propofol 120 mg and rocuronium 50 mg followed by induction with sevoflurane and 1 : 1 of oxygen and N2O. An inflation tourniquet with a pressure of 300 mmHg was applied to the right thigh. While the surgeon was making the skin incision to expose the joint, unpredicted massive bleeding occurred. Just before the tourniquet was applied, the patient's blood pressure was 95/65 mmHg, and right after the tourniquet was inflated, it was 130/80 mmHg. Based on the assumption of a tourniquet function error, we applied a new tourniquet with 300 mmHg of pressure on the right thigh. However, the bleeding continued even when we the raised pressure up to 400 mmHg. The bleeding decreased considerably when we deflated the cuff. Furthermore, with ultrasonographic guidance, we found that the femoral artery flow was not blocked by the tourniquet; therefore, the surgeon proceeded with the surgery without use of a tourniquet. During the surgery, 1,200 ml of crystalloid solution, 500 ml of colloid solution and packed RBC 4 units were administered and the estimated blood loss was 2,500 ml. Upon searching for the cause of the unpredicted bleeding, we examined the blood flow of the right femoro-popliteal artery bypass graft with ultrasonography 6 months later. It showed that both the femoro-popliteal artery bypass graft with or without 350 mmHg of tourniquet pressure had good blood flow (Fig. 1). A tourniquet is frequently used in total knee joint replacement surgeries to block the vascular flow of the limb during surgery. However, complications such as thigh pain, nerve injury, compartment syndrome, and nonalignment of the patella as well as systemic complications such as deep venous thrombosis, hypertension, and arrhythmia may occur. Therefore, it is important to maintain an adequate pressure and duration while using a tourniquet. There is no absolute limit on the pressure and duration when using a tourniquet, but Flatt [1] reported 2 hours is an adequate time if the patient has no hemodynamic problems. Horlocker et al. [2] reported 300 mmHg for the tourniquet pressure as being adequate for the lower limb. In this case, bleeding continued with an initial tourniquet pressure of 300 mmHg and even continued after we applied 400 mmHg of pressure. The use of the tourniquet instead increased the blood flow in our case. It is believed that the use of the tourniquet was unable to block the graft artery flow but collapsed the venous flow, which resulted in the increased blood loss. In case of artery occlusion above the knee, a polytetrafluroethylene (PTFE) bypass graft is used in elderly when an artery is in poor condition or there is no venous graft. For a PTFE bypass graft, it has good short outcomes compared to the use of a venous graft. For long term outcomes, a PTFE bypass graft shows less patency though. This case also used a PTFE bypass graft and this may have affected the blood flow when compared with a venous graft. However, there is no report on this issue yet. Complications from femoro-popliteal bypass grafts are myocardial ischemia, cerebral infarct, infection on the graft site, peripheral venous thrombosis, and sexual dysfunction by autonomic nerve injury. Infection on the graft site may result in permanent adhesion or fibrosis [3]. Therefore, in our case, it is believed that the patient had an asymptomatic infection, which resulted in adhesion and fibrosis around the artificial vessel graft. The adhesion and fibrosis blocked vessel collapsed even under high pressure causing severe bleeding afterwards. There is controversy about the use of a tourniquet in patients with peripheral artery occlusion. Some say it is safe not to use a tourniquet [4]. Others say there is no difference in postoperative vascular complications by using a tourniquet [5]. Therefore, adequate discussion must be carried out with orthopedists before use of a tourniquet. Patients with a history of a femoro-popliteal bypass graft should be evaluated first with ultrasonography on whether vascular flow can be blocked with a tourniquet. If it is decided that a tourniquet should not be used during surgery, care should be taken for the bleeding during surgery and for postoperative vascular complications.