Postoperative Care of the Neurosurgical Patient



Postoperative Care of the Neurosurgical Patient


Joanne E. Baker

Ala Nozari



POSTOPERATIVE CARE OF THE NEUROSURGICAL PATIENT

A hospitalized patient can present following a number of neurosurgical procedures that can vary significantly depending on location and invasiveness of the surgery performed. For many of the neurosurgical patients, postoperative monitoring is expected to take place in the intensive care unit (ICU) to allow for more rapid recognition and treatment of complications that may arise quickly, and to act swiftly, in order to prevent permanent loss of function.

This chapter will give a broad overview of the postoperative care for the common neurosurgical procedures including: craniotomies, cerebral and spinal vascular repair (including coiling), spinal surgery (laminectomies, fusions, tumor removal), and minimally invasive procedures (biopsies, placement of deep brain stimulators). As the care of these patients is reviewed, it is important to focus on the similarities in the management of these patients, most notably, the importance of neurologic assessments and physiologic monitoring with the goal to optimize the perioperative cerebral perfusion and oxygenation.


THE IMMEDIATE POSTANESTHESIA CARE

Recovery from anesthesia is a stress period that is often characterized by a transient surge in sympathetic output. Emergence from general anesthesia and tracheal extubation induce a major sympathetic stimulation that is associated with an increased oxygen consumption, catecholamine secretion, tachycardia, and hypertension. Control of hypertension is of utmost importance for the neurosurgical patient, given the increased risk for intracranial bleeding in the setting of elevated blood pressure.

Neurologic assessment should be performed as soon as possible in the postoperative phase. As with any patient, if perfusion and ventilation are adequate and extubation criteria are met, then early extubation is optimal to decrease the discomfort and agitation caused by the endotracheal tube and to allow for more accurate neurologic exams to be performed. If patients are slow to wake, it may be difficult to distinguish if the cause is residual pharmacologic sedation or a neurologic event. Early assessment and identification of surgical complications is key to allow for intervention in order to prevent progressive injury and decrease the possibility of irreversible deficits. If a deficit is identified, then this may require emergent neuroimaging using computed tomography to assess for hemorrhagic complications or mass effect, or magnetic resonance imaging to assess the surgical resection, edema, or ischemic injury.



  • Hypertension is caused by a variety of mechanisms including but not limited to pain, anxiety, delirium, hypothermia, hypercarbia, hypoxia, emergence excitement, and other triggers of catecholamine release. Treatment of the hypertension must be immediate and patient specific, and should target its often multifactorial etiology. A balanced approach
    to analgesics to reduce perioperative pain while avoiding excessive sedation, maintaining normothermia, and ensuring adequate oxygenation and ventilation is imperative and can help in the management of postoperative hypertension. Medical treatment of hypertension often includes intravenous administration of β-blocking agents (e.g., labetalol) or calcium channel blockers (e.g., nicardipine), both of which are readily found in the infusion formulation.


  • As in any postsurgical patient, hypotension is also a common finding after neurosurgical procedures and may require optimization of the volume status or administration of vasopressors. Common causes include large perioperative blood loss and hypovolemia from other volume losses such as vomiting (seen often with brain tumors) and urinary losses associated with diabetes insipidus or cerebral salt wasting. If volume resuscitation is required, it is important to avoid hypotonic solutions (e.g., 0.45% saline), which could worsen the intracranial swelling and raise the intracranial pressure (ICP). Isotonic crystalloids (normal saline or lactated ringers) are typically used, but hypertonic saline and colloids are also sometimes used, with the aim to minimize the risk of worsening edema and intracranial hypertension.


  • Similar to other postsurgical patients, tachycardia after neurosurgery can be a response to hypovolemia, pain, and withdrawal from medications (most notably benzodiazepines, nodal agents). It may be managed by treating the underlying cause or through pharmacologic rate control with β-blockers or calcium channel blockers. Given the prolonged time of immobility and inability to use deep venous thrombosis prophylaxis during the immediate postoperative period, it is important to consider pulmonary embolism as a potential etiology, particularly in patients with associated hypoxemia or chest pain. In the setting of an acute stress response, patients with underlying cardiac disease and electrolyte abnormalities (i.e., secondary to excessive diuresis or after brain relaxation therapy) are at higher risk for developing dysrhythmias and should be managed carefully through correction of the underlying conditions and administration of antiarrhythmic agents.


  • Postoperative nausea and vomiting (PONV) is common, especially following infratentorial craniotomies and resection of acoustic neuromas. In the general population, the predictors of PONV include female gender, history of motion sickness or PONV, duration of surgery, use of postoperative opioids, and a nonsmoking status. In the case of neurosurgical procedures, this complication may be augmented by the stimulation of the chemoreceptor trigger zone, which is located in the infratentorial compartment. In addition to the usual antiemetic agents such as ondansetron, prochlorperazine, and low-dose haloperidol, prophylactic dexamethasone has been reported to reduce the incidence of PONV.


  • Postoperative neurosurgical patients usually stay in the ICU for a few hours to a few days depending on the pathophysiology of their underlying disease, intervention performed, intraoperative or immediate postoperative events, their comorbid conditions, and the efficacy of their pharmacologic treatment. An accurate and comprehensive baseline medical and neurologic evaluation is important to minimizing the ICU time and improving patient outcome. An accurate and timely medication reconciliation and reintroduction of the patient’s home regimen is also important to the postoperative hemodynamic management.


THE POSTCRANIOTOMY PATIENT

Craniotomies are performed for diagnosing, removing, or treating tumors; clipping or repairing an aneurysm; removing blood or clot; controlling
hemorrhage; repair of vessels; drainage of brain abscess; relieving pressure in the skull; and biopsy, among others. Most complications requiring reoperation occur in the first 6 hours after a craniotomy. It is important to establish a baseline preoperative neurologic exam, and to outline any anticipated neurologic deficits associated with the surgery.

Decompressive craniectomy, a craniotomy aiming for the decompression of the supratentorial space without reinsertion of the bone flap, may be performed in patients with traumatic brain injury or ischemic hemispheric stroke at risk for refractory intracranial hypertension and herniation. These patients require intensive physiologic monitoring and ICP management in the ICU setting, with frequent neurologic checks and often multimodal neuromonitoring. In the setting of a cerebrovascular accident, systemic pressures, temperature, and the blood glucose need to be closely monitored and controlled to prevent progression of the injury (see management earlier in the chapter).

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Oct 13, 2018 | Posted by in ANESTHESIA | Comments Off on Postoperative Care of the Neurosurgical Patient

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