Clinical features of basilar skull fractures vary depending on the degree of the associated brain and cranial nerve injury. Patients may present with altered mental status, nausea, and vomiting. Oculomotor deficits due to injuries to cranial nerves III, IV, and VI may be present. Patients may also present with facial droop due to compression or injury to cranial nerve VII. Hearing loss or tinnitus suggests damage to cranial nerve VIII. Several clinical signs highly predictive of a basilar skull fracture include:
The presence of Battle sign and raccoon eye are highly predictive of basilar skull fracture. Treatment / ManagementBasilar skull fractures are usually due to significant trauma. A thorough trauma evaluation with interventions to stabilize airway, ventilation, and circulatory issues is the priority. Associated cervical spine injury is common, so attention to cervical spine immobilization, particularly during airway management is necessary. Nasogastric tubes and nasotracheal intubation should be avoided because of the risk for inadvertent intracranial tube placement. In addition, nasal intermittent positive pressure ventilation (NIPPV) should be avoided as it may induce pneumocephalus. Patients with basilar skull fractures require admission for observation. Those taking anticoagulants should be admitted to a facility with immediate neurosurgical capabilities and the ability to do frequent assessments of the neurologic decline, even if no hemorrhage is present on initial imaging. Patients with intracranial hemorrhage require emergent neurosurgical evaluation. Otherwise, skull base fractures are often managed expectantly. Surgical management is necessary for cases complicated by intracranial bleeding requiring decompression, vascular injury, significant cranial nerve injury, or persistent cerebrospinal fluid leak. Basilar skull fractures increase the risk of meningitis because of the increased possibility of bacteria from the paranasal sinuses, nasopharynx, and the ear canal making direct contact with the central nervous system. Patients with associated cerebrospinal fluid leaks, present in up to 45% of patients with basilar skull fractures, are often treated with prophylactic antibiotics to prevent meningitis, but there is no good evidence to support this practice. A recent Cochrane review did not find sufficient evidence to recommend prophylactic antibiotics in patients with basilar skull fractures even in the presence of a documented cerebrospinal fluid leak. However, patients with persistent leaks should have cerebrospinal fluid cultures to guide antibiotic therapy, and patients with clinical presentations consistent with meningitis should be treated with empiric antibiotics until culture results are available. While prophylactic antibiotics are not indicated generally, use is still considered appropriate for coverage related to procedures such as insertion of intracranial pressure (ICP) monitor. Persistent leaks require neurosurgical intervention. Less invasive, endoscopic techniques are becoming common with fewer of these injuries requiring open repair. Enhancing Healthcare Team OutcomesSkull base fractures are not common but when they do occur, they represent a serious life-threatening condition with very high morbidity and mortality. Because of the diverse presentation, these patients are best managed by an interprofessional team that includes a neurosurgeon, neurologist, ophthalmologist, ENT surgeon, neurosurgical nurses, a radiologist, and an infectious disease specialist. The patients are usually managed in an ICU setting and monitored by a nurse. Patients need frequent assessment of neurological signs, ventilation, and oxygenation. Nurses have to ensure that patients have DVT and gastric ulcer prophylaxis. Some patients may not be able to eat and parenteral nutrition may be required. The pharmacist needs to make sure that the patient is not receiving high doses of analgesias because this may hide any neurological signs. Further, the use of opiates may make it difficult to assess the pupils for elevation in intracranial pressure. The patient needs to be monitored by critical care nurses to ensure that there are no signs of CNS infection. The entire team must communicate regarding changes in the patient's condition to ensure that the patient is receiving the appropriate care. Outcomes will be improved by an interprofessional approach to the care of patients with a basilar skull fracture. [Level V] Outcomes The outcome of patients with basilar skull fractures depends on whether the fracture is displaced. For nondisplaced fractures, the management is conservative and the outcomes are good. However, for those with displaced fractures, intervention may be required and this also carries a risk of surgical complications. The key morbidity is meningitis which can be lethal. Those who have a dissection of the carotid artery can develop life-threatening bleeding. Overall, most patients with basilar skull fractures do have some type of residual functional or neurological deficit which may take months or even years to reverse. |