Expert review of neurotherapeutics
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Multiple lines of evidence suggest an increased sensitivity to pain in neonates. Repeated and prolonged pain exposure may affect the subsequent development of pain systems, as well as potentially contribute to alterations in long-term development and behavior. Despite impressive gains in the knowledge of neonatal pain mechanisms and strategies to treat neonatal pain acquired during the last 15 years, a large gap still exists between routine clinical practice and research results. ⋯ Nonpharmacological interventions (environmental and preventive measures, non-nutritive sucking, sweet solutions, skin-skin contact, and breastfeeding analgesia) can reduce neonatal pain indirectly by reducing the total amount of noxious stimuli to which infants are exposed, and directly, by blocking nociceptive transduction or transmission or by activation of descending inhibitory pathways or by activating attention and arousal systems that modulate pain. Opioids are the mainstay of pharmacological pain treatment but there are other useful medications and techniques that may be used for pain relief. National guidelines are necessary to improve neonatal pain management at the institutional level, individual neonatal intensive care units need to develop specific practice guidelines regarding pain treatment to ensure that all staff are familiar with the effects of the drugs being used and to guarantee access and safe administration of pain treatment to all neonates.
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Expert Rev Neurother · May 2004
ReviewDeep brain stimulation in the treatment of neurological and psychiatric disease.
Deep brain stimulation has become a topic of intense interest both from a clinical and basic science perspective. Its indications, currently including Parkinson's disease, tremor and dystonia, may expand in the future to include not only other movement disorders but also epilepsy, obsessive-compulsive disorder and other neuropsychiatric conditions. The mechanism(s) of action of deep brain stimulation have only recently begun to be characterized and have already yielded surprises that may open the door to a greater expansion of the indications for this novel and powerful therapeutic intervention.
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Expert Rev Neurother · May 2004
ReviewDo minimally invasive procedures have a place in the treatment of chronic low back pain?
Chronic low back pain is the leading cause of disability in the industrialized world. Medical and surgical treatments remain costly despite limited efficacy. The field of 'interventional pain' has grown enormously and evidence-based practice guidelines are systematically developed. ⋯ Interventional pain literature suggests that there is moderate evidence (small randomized, nonrandomized, single group or matched-case controlled studies) for medial branch neurotomy and limited evidence (nonexperimental one or more center studies) for intradiscal treatments in mechanical low back pain. There is moderate evidence for the use of transforaminal epidural steroid injections, lumbar percutaneous adhesiolysis and spinal endoscopy for painful lumbar radiculopathy, and spinal cord stimulation and intrathecal pumps mostly after spinal surgery. In reality, there is no gold standard for the treatment of chronic low back pain, but these results appear promising.
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Expert Rev Neurother · May 2004
ReviewEtiology of primary headaches: the importance of genes and environment.
Results from twin studies show that genes play an important role for susceptibility to migraine. The propensity for migraine to run in some families but not in others arises predominantly from alleles shared by family members and not the shared family environment, and that environmental influences on migraine are unique to the affected family member. The main genetic and environmental architecture for the other two major primary headaches, tension-type and cluster, remains to be elucidated. This review focuses on recent advances in twin studies of primary headaches and the future prospects are outlined.
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Expert Rev Neurother · May 2004
ReviewOxidative injury in epilepsy: potential for antioxidant therapy?
Biological ill effects of oxidative injury from excess free radical production are implicated in many human conditions. Epilepsy is a chronic, dynamic neurological disorder associated with ongoing neuronal damage, particularly when uncontrolled. ⋯ However, there is sparse direct clinical data on the use of antioxidants in human epilepsy. This review examines the evidence for the role of oxidative injury in epilepsy, the rationale for use of antioxidant therapy in epilepsy and appraises the current clinical performance of the studies of antioxidant therapies.