A 42 year-old male sustained an accidental rifle gunshot wound to his left foot, resulting in fracture deformities of the calcaneus, navicular, cuneiform, 1st and 2nd metatarsal bases, and talus. As he was transported to our trauma center, he developed progressive encephalopathy. Urgent external fixator placement under general anesthesia was postponed due to his encephalopathy of unknown etiology. Brain magnetic resonance imaging demonstrated a “starfield” pattern of infarcts, consistent with cerebral fat embolism syndrome. Subsequently, he underwent uneventful general anesthesia. The patient was managed supportively and continued to have persistent neurologic dysfunction two months after injury.
Fat embolism syndrome (FES) is a potentially devastateing complication of musculoskeletal trauma that has historically been underdiagnosed [
An otherwise healthy 42 year-old male sustained an accidental, close-range, gunshot wound to his left foot from a 270-caliber hunting rifle while on a family hunting trip. He was initially evaluated at a local hospital and found to have a normal mental status. Over the course of approximately 6 hours (throughout the initial evaluation at the referring hospital and during transport), he received 7 milligrams of hydromorphone for pain control along with antibiotic and antiemetic therapy. He was transferred via ground ambulance to our trauma center for definitive orthopedic surgical management. During the transport, the patient’s mental status progressively declined but he was apparently still able to respond to questioning appropriately.
Upon arrival at our facility, orthopedic trauma evaluation was performed. At this point, his neurological status had further deteriorated and he was unresponsive with only brief, nonpurposeful movement to painful stimulus. He demonstrated horizontal roving eye movements, occasional irregular arm jerks, right ankle sustained clonus, and extensor plantar response. Examination of the left lower extremity revealed a small gun shot entrance wound medial to the Achilles tendon with an exit wound on the plantar aspect of the foot near the heads of the first and second metatarsals. Significant pedal edema was observed with intact pedal pulses. His initial foot X-ray (
Given the patient’s altered mental status, he received a standard dose of naloxone in the Emergency Department (ED), without improvement in his mental status. He was brought to the operating room (OR) for left foot irrigation and debridement with external fixator placement. Prior to induction, he was further evaluated by the anesthesiologist and remained obtunded. Due to his persistent significant cognitive decline of unknown etiology, surgery was canceled.
The patient returned to the ED and neurology consultation was obtained. A lumbar puncture was performed with normal opening pressure, and normal cell counts, protein, and glucose. An emergent electroencephalogram showed generalized diffuse slowing without epileptogenic discharges or seizure activity, consistent with encephalopathy. Computed tomography scanning (CT) of the head showed no acute findings. The patient was admitted to the intensive care unit with no obvious cause for his coma. Shortly after admission he required endotracheal intubation due to inability to protect his airway. Magnetic resonance imaging (MRI) was delayed until the second hospital day due to concerns of metallic bullet fragements abutting the doraslis pedis artery. Once performed, brain MRI demonstrated innumerable tiny infarcts throughout the cerebral hemispheres, cerebellum, and brainstem, consistent with cerebral fat embolism syndrome (
Supportive care was continued throughout his hospital course. A transthoracic echocardiogram showed a small right to left shunt, likely from intrapulmonary shunting, without evidence of a definitive patent foramen ovale (PFO). He developed thrombocytopenia (platelet count of 88 × 109/L) and unexplained anemia (hemoglobin 6.6 g/dL), with nadirs on the forth and fifth hospital days, respectively. Following very slight improvement in his neurologic exam, he underwent external fixator placement on the fourth hospital day under general anesthesia, which he tolerated well. Throughout his hospitalization, he required only minimal ventilator settings without pulmonary infiltrates or dysfunction. No petechial rash was observed. The patient had intermittent tachycardia and pyrexia throughout his hospital course.
The patient had no substantial neurological improvement and underwent bedside percutaneous tracheostomy on the sixth hospital day. Repeat MRI on the eighth hospital day showed expected progression of cerebral fat embolism syndrome, with confluence of the previous tiny infarcts. Percutaneous endoscopic gastrostomy tube placement was performed on hospital day number 16. The patient was discharged on hospital day number 19 to a long-term rehab care center. At discharge, the patient’s neurological exam was only minimally improved, with spontaneous eye opening, blinking to threat, however, he did not fixate nor track. He continued to have spontaneous trismus, extensor posturing, and increase tone throughout.
Approximately 2 months after his injury, the patient had slowly improving cognitive function, followed simple commands, initiated speech, and was more aware of his surroundings.
This report details the rare case of profound neurologic
deterioration from cerebral FES in a patient who sustained penetrating trauma to multiple small bones in the foot. Major criteria, as proposed by Gurd [
Given the absence of long bone skeletal trauma in our patient, the initial differential diagnosis of his cognitive decline was broad and included opioid overdose, hypoxic-ischemic encephalopathy, nonconvulsive status epilepticus, or a rare infectious or inflammatory encephalopathy. The diagnosis of FES was made more difficult by the absence of pulmonary or cutaneous manifestations. Our patient still satisfied multiple criteria for FES, including intermittent tachycardia, pyrexia, and otherwise unexplained anemia and thrombocytopenia.
Reported cases of cerebral fat embolism syndrome are most commonly due to musculoskeletal large bone blunt trauma [
One case of cerebral fat embolism, similar to ours, occurred in a 19 year-old male who sustained gunshot wounds to the right hand and right knee [
The pathophysiology of FES has been described by two mechanisms. The first mechanism involves physical embolization of intramedullary fat into the venous system following trauma [
The second pathophysiologic mechanism is biochemical in nature [5,8]. Traumatic injury causes plasma lipase levels to rise, increasing the release of free fatty acids and resulting in altered fat homeostasis. Consequently, fat droplets are further formed and subsequently sequestered in the microvasculature [
Magnetic resonance imaging played a key role in the diagnosis of cerebral FES in our patient and has shown to be a sensitive tool to detect embolic infarcts [
The treatment of FES remains supportive [
Due to the rarity of cerebral fat embolism, clinical outcomes are also largely unknown. Isolated case reports range from complete recovery [17,18] to mild residual cognitive impairments [12,19] to progressive intracranial hypertension and brain death [
In conclusion, fat embolism is common in traumatically injured patients. Isolated cerebral FES from penetrating trauma is a rare presentation with largely unknown outcomes. Anesthesia providers and trauma practitioners are encouraged to remain vigilant for FES in the setting of neurologic or pulmonary dysfunction associated with traumatic injury.
DWI: Diffusion weighted MRIADC: Apparent diffusion coefficientIRB: This study is considered a “no risk” case and is exempt from IRB review according to the Mayo Foundation IRB.