RESUMEN
Background: Intrathecal baclofen infusing pumps are nowadays commonly implanted in patients suffering from severe, intractable spasticity with a background of multiple sclerosis. Although intrathecal baclofen therapy is considered a safe therapeutic modality, complications are unavoidable and broadly categorized as mechanical and infectious. In the instance of a pump pocket infection, a surgical explanation of the pump is often necessary to treat the infection. Case Description: We present the rare case of a 60-year-old woman who was admitted emergently to our clinic with a subcutaneous pump pocket empyema caused by proximal vesicocutaneous fistulas. The patient underwent explantation of the pump and otherwise had an uncomplicated perioperative course. Conclusion: The surgical explanation of the baclofen pump and antibiotic treatment were sufficient to treat the pump pocket empyema in this instance. To the best of our knowledge, this is the first report of a pump pocket empyema formed in the proximity of a vesicocutaneous fistula.
RESUMEN
BACKGROUND: The human brain, depending on aerobic glycolysis to cover its metabolic needs and having no energy reserves whatsoever, relies on a constant and closely regulated blood supply to maintain its structural and functional integrity. Cerebral autoregulation, that is, the brain's intrinsic ability to regulate its own blood flow independently from the systemic blood pressure and cardiac output, is an important physiological mechanism that offers protection from hypoperfusion injury. DISCUSSION: Two major independent mechanisms are known to be involved in cerebral autoregulation: (1) flow-metabolism coupling and (2) myogenic responses of cerebral blood vessels to changes in transmural/arterial pressure. A third, less prominent component of cerebral autoregulation comes in the form of neurogenic influences on cerebral vasculature. CONCLUSION: Although fragmentation of cerebral autoregulation in separate and distinct from each other mechanisms is somewhat arbitrary, such a scheme is useful for reasons of simplification and to better understand their overall effect. Comprehension of cerebral autoregulation is imperative for clinicians in order for them to mitigate consequences of its impairment in the context of traumatic brain injury, subarachnoid hemorrhage, stroke, or other pathological conditions.