Neurosurgery clinics of North America
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Nerve stimulation is a reversible technique that is used successfully for the treatment of traumatic neuropathic pain, complex regional pain syndrome, and craniofacial neuropathic pain. Nerve field stimulation targets painful regions rather than a single nerve and has expanded indications, including axial low back pain. ⋯ Ongoing research is necessary to provide high-level evidence for the use of nerve stimulation. Most electrodes are primarily designed for spinal cord stimulation, hence the need to develop nerve electrodes dedicated for nerve stimulation.
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Neurosurg. Clin. N. Am. · Apr 2019
ReviewEvolving Techniques and Indications in Peripheral Nerve Stimulation for Pain.
Peripheral nerve stimulation is the direct electrical stimulation of named nerves outside the central neuraxis to alleviate pain in the distribution of the targeted peripheral nerve. These treatments have shown efficacy in treating a variety of neuropathic, musculoskeletal, and visceral refractory pain pathologies; although not first line, these therapies are an important part of the treatment repertoire for chronic pain. With careful patient selection and judicious choice of stimulation technique, excellent results can be achieved for a variety of pain etiologies and distributions. This article reviews current and past practices of peripheral nerve stimulation and upcoming advancements in the field.
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Neurosurg. Clin. N. Am. · Oct 2018
ReviewIntraoperative Blood and Coagulation Factor Replacement During Neurosurgery.
Intraoperative blood and coagulation factor transfusion is of particular importance to neurosurgeons. Maintaining the hematologic and coagulation parameters of the patient within normal limits during surgery is critical to facilitate normal hemostasis, reduce transfusion requirements, and prevent complications associated with excessive blood loss. In this article, the authors review topics relevant to intraoperative transfusion during neurosurgery, including laboratory studies and other diagnostic modalities available to help with decision making, blood components and coagulation factors currently available for transfusion, and indications for intraoperative transfusion during cranial and spinal neurosurgical procedures.
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Intraoperative bleeding can be minimized with optimal preoperative preparation but cannot be completely prevented. There are circumstances when patients need emergent operative intervention, and thorough hemostatic evaluation and preparation is not possible. ⋯ The authors review the potential causes for intraoperative bleeding and the methods for rapid and accurate diagnosis. The authors summarize the current evidence for treatment options, including transfusion of platelets and coagulation factors and the use of topical agents, antidotes to direct-acting anticoagulants, antifibrinolytics, and desmopressin.
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Normal hemostasis provides for balanced interactions between the blood vessel wall, coagulation proteins, and platelets. After vascular injury, primary hemostasis and secondary hemostasis function in a coordinated fashion to stop bleeding. ⋯ Emerging coagulation tests are useful point-of-care assays that guide transfusion therapy and diagnose patients with hyperfibrinolysis. This article provides an overview of hemostasis, a summary of standard coagulation testing and point-of-care tests, and a brief review of coagulation test usefulness in neurosurgery, focusing on studies in patients with traumatic brain injury.