Complications.

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The use of topical antibacterial agents has reduced the incidence of post-burn infection, but infection remains one of the most serious complications of burns. Burn surgeons often obtain cultures of the burn wound and of sputum and other body secretions; these are examined for signs of infection. Early detection and prompt treatment of infection with antibiotics and surgical debridement can minimize its consequences. Acute gastrointestinal ulcers are another frequent complication of burns; they appear as small, circumscribed lesions within the lining of the stomach or duodenum. These ulcers can be detected by endoscopy and are treated with antacids and drugs that reduce the amount of acid secretion.

The occurrences of post-burn seizures is a complication unique to children. These seizures may result from electrolyte imbalances, abnormally low levels of oxygen in the blood, infection, or drugs. The cause is unknown in about a third of the cases. Post-burn hypertension is also somewhat unique to children and is probably related to the release of catecholamines and other stress hormones.

A common complication of deep dermal burns and skin grafts is the formation of fibrous masses of scar tissue called hypertrophic scars and keloids. This complication is especially common in brown-skinned races. Reddened, inflamed tissue is biologically active; it has a rich vascular supply, and it rapidly forms collagen, the primary wound protein and major component of scars. Direct pressure on inflamed tissue reduces its blood supply and collagen content, thereby minimizing the formation of hypertrophic scars and keloids. Such pressure can be provided by tailored splints, sleeves, stockings, and body jackets. Skeletal traction may be necessary in special instances.

Respiratory complications rank as the major cause of death in burn patients. Potentially fatal respiratory complications include inhalation injuries, aspiration of fluids by unconscious patients, bacterial pneumonia, pulmonary edema, obstruction of pulmonary arteries, and postinjury respiratory failure. Direct-inhalation injuries, which can lead to other respiratory complications, are especially common. The three basic categories of direct-inhalation injuries are inhalation of dry heat and soot, carbon monoxide poisoning, and smoke inhalation.

Any patient likely to have suffered inhalation injuries should receive a bronchoscopic examination of the airway. This examination can reveal the degree of respiratory injury and help in planning the appropriate treatment. Constant one-on-one nursing care is often necessary to provide the required pulmonary treatment. In most instances, an endotracheal tube is passed into the lungs, and the patient is placed on a mechanical ventilator. By delivering air under constant pressure, the ventilator helps keep the lungs inflated; this aids in the control and prevention of atelectasis (collapse of the air sacs). The ventilator can also be used to reexpand collapsed lungs. In addition, the machine can deliver varying concentrations of oxygen and mists in the inspired air. Patients who have suffered smoke inhalation are given high concentrations of humidified oxygen. Those with carbon monoxide poisoning receive 100 percent oxygen until their blood level of carboxyhemoglobin falls below 20 percent.

Rehabilitation.

Physically and cosmetically debilitating scars are the most common aftereffects of extensive burns. Such scars often require additional plastic surgery—sometimes years after the initial skin grafting—to release contractures over joints and to achieve acceptable cosmetic results. Realistically, the results are almost never as good as the patient’s preinjury condition. Most burn scars are unsightly, and, though the patient may realistically hope for improvement, complete restoration is usually not possible.

Burn scars require special care. The patient should avoid exposing the scars to sunlight. Scars in areas that are frequently exposed to the sun, such as the face and hands, should be protected by an ultraviolet screening agent (a sunblock). Because full-thickness burns can destroy sweat glands, sebaceous glands, and hair follicles, it may be necessary to apply lanolin and other emollient creams and lotions to the scarred skin in order to prevent drying and cracking and to reduce itching.

Many victims of severe burns face years of often painful physical therapy as they work to regain or maintain mobility in damaged joints. The psychological adjustment to disfigurement may be traumatic, and many patients require extended counseling to come to grips with their altered appearance and physical disabilities. Yet, with the help of understanding family, friends, and professionals, even severely injured burn victims can make successful adjustments and lead productive lives.