In June, 2011, a 27-year-old man was walking home in the dark, in Lilongwe, Malawi, when he fell several meters into an open septic tank that was under construction. He was brought to Kamuzu Central Hospital (KCH), the main government referral hospital for the central region of Malawi, in considerable pain and was found to have sustained a left closed subtrochanteric spiral fracture (Figure 1). He also sustained a brachial plexus injury on his left side with complete loss of function of the shoulder and elbow, but with some hand function preserved. Hemoglobin test was not done on admission due to the full blood count (FBC) machine in the laboratory having broken down. As would be the case for femoral fractures in most hospitals in the region, proximal tibial skeletal traction was applied. The brachial plexus injury was treated with a sling only. Figure 1. The day after admission to hospital. At KCH, more often than not, the lack of films and chemicals prevents getting a second view. The patient was HIV-positive and had started antiretroviral treatment (ART) only a few weeks before the accident. A CD4 count result was not available to us, but in Malawi ART is started only when the CD4 count is below 350. He had no AIDS-defining conditions, had not lost weight, had no symptoms or complaints from his HIV infection, and as such was probably WHO clinical stage 1 (WHO 2007) and CDC class A2 (CDC 1992). He was admitted to the male orthopedic ward on traction. This ward is designed for 40 beds, but at any time has between 60 and 90 inpatients, and most of the time there is only one qualified nurse on duty. KCH has surgeons who are trained to do locked intramedullary (IM) nailing of fractures, and it has the equipment. A successful operation with an IM nail would have led to this patient being out of bed in a few days, but because of a heavy workload, a severe lack of staff and theater time, and the fact that this fracture was considered by the treating clinicians to have good potential for of healing, it was decided to continue treatment with traction until union. We saw the patient 3 months later. He had spent the entire 3 months on traction in bed without physiotherapy or exercises. A new radiograph showed increased angulation at the fracture site and no obvious callus (Figure 2). His knee was stiff in extension with only 20 degrees range of motion. The fracture was still mobile and very painful on manipulation. There was a pin-site infection with a little pus discharging from the medial side of the traction pin, but no tenderness over the soft tissues around the pin sites and knee. The patient was in a great deal of discomfort and had already been away from his family and work for 3 months. Because of this, he was counseled on the benefits and risks of IM nailing, and he agreed readily to having surgery. The traction pin was removed and the infected wound washed and dressed for 2 weeks until the pin sites were clean and dry. During this time, the patient’s pain increased. However, this was interpreted as pain because of increased mobility of the fracture after the traction was removed. Before surgery his hemoglobin was 9.0, white blood cell count 8.1, platelet count 369, and his CD4 count was 295. Figure 2. After 3 months on skeletal traction. Yet again, a lateral radiograph was not possible because of lack of resources. There was no obvious callus formation. There was some rounding of the sharp fragment ends and the displacement had increased. On the day of surgery the patient’s thigh was still a little swollen, but the skin was intact. There was no rubor or increased warmth in the thigh. However, as soon as the fascia was incised, a large amount of pus drained into the wound. Approximately 300 mL of pus was drained from an extensive cavity between the fascia and the quadriceps muscles on the proximal thigh. No communication was found extending to the level of the knee. The cavity was thoroughly irrigated and mechanically cleaned. A drain was left in the cavity and the wound loosely adapted. Naturally, the planned IM nail was not inserted. Pus was sent for culture and sensitivity, but results were never received, as the lab had run out of supplies. Postoperatively, the patient was treated with intravenous Ceftriaxone (1g once daily). The drain was removed after 2 days. 10 days postoperatively, the hospital ran out of Ceftriaxone. Treatment was continued with the only 2 available antibiotics at that time apart, from benzyl-penicillin: Cefalexin tablets (500 mg 4 times daily) and intravenous Gentamycin (240 mg once daily). The infection settled surprisingly quickly. The patient was in less pain on the first day after surgery and continued to improve steadily over the next few weeks. He was mobilized on crutches 11 days postoperatively and was discharged 22 days after surgery. Oral Cefalexin was prescribed for 2 more weeks after discharge. Despite getting his phone number and address and repeatedly trying to contact him, we never saw the patient again.