Handbook of clinical neurology
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Postconcussion syndrome (PCS) is a heterogeneous condition comprised of a set of signs and symptoms in somatic, cognitive, and emotional domains. PCS is a controversial concept because of differing consensus criteria, variability in presentation, and lack of specificity to concussion. Whereas symptoms of concussion resolve in most individuals over days to weeks, a minority of individuals experience symptoms persisting months to years. ⋯ Successful treatment requires thoughtful differential diagnosis, including consideration of comorbid and premorbid conditions and other possible contributing factors. Treatment should include a hierarchic, sequential approach to management of treatable symptoms that impact functioning, such as depression, anxiety, insomnia, headache, musculoskeletal pain, and vertigo. A guided prescription of aerobic exercise is beneficial for early- and late-phase disorders after concussion.
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In this chapter, the nuance of body temperature is explored in the context of contemporary clinical medicine and technology. It takes the reader through the concept of body and shell as a route to explain the variety of temperature measurements that are observed in health and disease and the interdependence between skin and core temperature in maintaining thermal stability and thermal comfort perception. Methods for the measurement of temperature using different thermometer devices are discussed from the perspective of fundamental clinical assessment and vital signs, temperature monitoring and measurement for life-critical decision making, thermometry in mass screening, and to the future with advances in thermometry and thermography in new applications for diagnosis.
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The clinical manifestation of drug-induced abnormalities in thermoregulation occurs across a variety of drug mechanisms. The aim of this chapter is to review two of the most common drug-induced hyperthermic states, serotonin syndrome and neuroleptic malignant syndrome. ⋯ Our goal is to both review the current literature and to provide a practical guide to identification and treatment of these potentially life-threatening illnesses. The diagnostic and treatment recommendations made by us, and by other authors, are likely to change with a better understanding of the pathophysiology of these syndromes.
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Accidental hypothermia causes profound changes to the body's physiology. After an initial burst of agitation (e.g., 36-37°C), vital functions will slow down with further cooling, until they vanish (e.g. <20-25°C). Thus, a deeply hypothermic person may appear dead, but may still be able to be resuscitated if treated correctly. ⋯ Intermittent CPR may be appropriate in hypothermic arrest when continuous CPR is impossible. Modern postresuscitation care should be implemented following hypothermic arrest. Structured protocols should be in place to optimize prehospital triage, transport, and treatment as well as in-hospital management, including detailed criteria and protocols for the use of ECLS and postresuscitation care.
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Genetics of migraine has recently undergone a major shift, moving in the space of a few years from having only a few known genes for rare Mendelian forms to 47 known common variant loci affecting the susceptibility of the common forms of migraine. This has largely been achieved by rapidly increasing sample sizes for genomewide association studies (GWAS), soon to be followed by the first wave of large-scale exome-sequencing studies. ⋯ Heritability-based analyses are demonstrating strong links between migraine and other neuropsychiatric disorders and brain phenotypes, highlighting genetic links between migraine and major depressive disorder and attention-deficit hyperactivity disorder, among others. These recent successes in migraine genetics are starting to be mature enough to provide robust evidence of specific quantifiable genetic factors in common migraine.