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Good Morning. 26 September 2002. Acute Postoperative Pain Management. 麻醉科 林子富. Pathophysiology of Postoperative Pain. 6 problems : Peripheral sensitization Constant bombardment of the CNS with noxious input Noxious input processed by the CNS Pathophysiological consequences of acute pain
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Good Morning 26 September 2002
Pathophysiology of Postoperative Pain • 6 problems: • Peripheral sensitization • Constant bombardment of the CNS with noxious input • Noxious input processed by the CNS • Pathophysiological consequences of acute pain • Sensitization of the CNS response, called wind-up • Induced sensitivity in the nervous system outlasts the stimulus
3. Noxious input processed by the CNS • Adverse spinal reflexes, such as muscle spasm and sympathetic stimulation, are provoked. • Supraspinal reflexes incite the mediators of the stress response.
A Multimodal Approach to Control Postoperative Pathophysiology and Rehabilitation in Patients Undergoing Abdominothoracic EsophagectomyBrodner G, Pogatzki E, Van Aken H, et al. Anesth Analg 1998;86:228 –34 • Multimodal regimen: • Effective thoracic epidural analgesia • Establishing epidural blockade intraoperatively • Patient-controlled postoperative epidural analgesia (PCEA) • Continuous evaluation and treatment of postoperative pain by an acute pain service • Early tracheal extubation • Forced mobilization
Cardiovascular Pulmonary Gastrointestinal Renal tachycardia, hypertension, increased SVR, increased cardiac work hypoxia, hypercarbia, atelectasis; decreased cough, VC, FRC; ventilation perfusion mismatch nausea, vomiting, ileus, NPO oliguria, urinary retention 4. Pathophysiological consequences of acute pain ()
Extremities Endocrine Central nervous system Immunologic skeletal muscle pain, limited mobility, thromboembolism vagal inhibition; increased adrenergic activity, metabolism, oxygen consumption anxiety, fear, sedation, fatigue impairment 4. Pathophysiological consequences of acute pain ()
Physiologic Impact of Epidural Analgesia • Lower rates of deep venous thromboses • Lessening myocardial ischemia • Decreasing pulmonary morbidity • Positive consequences on recovery of gastrointestinal function
5. Sensitization of the CNS response • Central sensitization refers to enhanced excitability of dorsal horn neurons and is characterized by: • increased spontaneous activity • Enlarged receptive field area • An increase in responses evoked by large and small caliber primary afferent fibers • Windup refers to the progressive increase in the magnitude of C-fiber evoked responses of dorsal horn neurons produced by repetitive activation of C-fibers. • Triggered by neurotransmitter glutamate and neurokinin peptides (substance P)
Reversing Tissue Injury-Induced PlasticChanges in the Spinal Cord:The Search for the Magic BulletRaja SN, Dougherty PM. Reg Anesth Pain Med 2000;25:441– 4 • 4 glutamate & 3 substance P receptor subtypes • Different neurochemical mechanism mediated by differing pain states • There may be no single “magic bullet” that blocks central sensitization and the result secondary hyperalgesia.
Clinical pain Low-threshold Sensitization following injury Allodynia Hyperethesia hyperpathia Physiologic pain High-threshold Serve to warm the organism of harm 6. Induced sensitivity in the nervous system outlasts the stimulus ? Can we avoid total analgesia and block only the clinical pain ? The sophisticated goal of preemptive analgesia to achieve a differential effect on physiologic and clinical pain
Preemptive Epidural Analgesia and Recovery From Radical ProstatectomyGottschalk A, Smith DS, Jobes DR, et al. JAMA 1998;279:1076 –82.
Applying What We Know to Postoperative Pain Management 1. Prevent sensitization or stimulation of peripheral receptors • Antihistamines • NSAIDs • Local anesthetics
Applying What We Know to Postoperative Pain Management 2. Diminish or eliminate the bombardment of the CNS with nociceptive input • Peripheral nerve blocks • Intrathecal or epidural analgesia • Systemic opioids • Small-dose IV ketamine
Small-Dose Ketamine Enhances Morphine-Induced Analgesia After Outpatient SurgeryManzo Suzuki, Kentaro Tsueda, et al. Anesth Analg 1999;89:98-103 • IV coadministration of ketamine 50-100 μg/kg with morphine 50 μg/kg 15 min before the end of the operation • Although opiates produce antinociception through μ receptor agonist activity, they activate NMDA receptors, resulting in hyperalgesia and the development of tolerance to opiates. • The marked reduction in both pain score and morphine requirement may be explained by the interaction of ketaminewith NMDA receptors that had been activated by perioperative nociceptive inputs, as well as by the administration of morphine.
Applying What We Know to Postoperative Pain Management 3. Continue treatment until the inflammatory reaction that fuels the nociceptive input is minimized • Sustained release opioids • Consultation with a pain psychologist
心得感想… • For humanitarian reasons… • Why postoperative pain must be treated effectively… • The value of “multimodal” or “balanced analgesia” in postoperative pain management…