Pain
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Randomized Controlled Trial
Effect of combined pharmacological, behavioral, and physical interventions for procedural pain on salivary cortisol and neurobehavioral development in preterm infants: a randomized controlled trial.
Repeated procedural pain may lead to increased secretion of cortisol and future neurobehavioral development disorders in preterm infants. Changes in the cortisol level may mediate the effect of neonatal repetitive procedural pain on altered childhood neurobehavioral development in preterm infants. However, few studies have investigated the effect of combined pharmacological, behavioral, and physical interventions over repeated painful procedures on pain response, cortisol level, and neurobehavioral development. ⋯ The Premature Infant Pain Profile scores in the early, middle, and late periods of the NICU stay were measured, as were the basal salivary cortisol level at admission and discharge, the Neonatal Behavioral Neurological Assessment score at 40 weeks' corrected gestational age, and the incidence of adverse effects during the study period. Our findings indicated that the combined interventions remained efficacious and safe for reducing repeated procedural pain, decreased the cortisol level at discharge, and promoted early neurobehavioral development in preterm infants. This effect may have been mediated through decreased cortisol levels and reduced repeated procedural pain.
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Randomized Controlled Trial
Machine learning suggests sleep as a core factor in chronic pain.
Patients with chronic pain have complex pain profiles and associated problems. Subgroup analysis can help identify key problems. We used a data-based approach to define pain phenotypes and their most relevant associated problems in 320 patients undergoing tertiary pain management. ⋯ In addition, among 59 demographic, pain etiology, comorbidity, lifestyle, psychological, and treatment-related variables, sleep problems appeared 638 and 439 times among the most important characteristics in 1000 cross-validation runs where patients were assigned to the 2 extreme pain phenotype clusters. Also important were the parameters "fear of pain," "self-rated poor health," and "systolic blood pressure." Decision trees trained with this information assigned patients to the extreme pain phenotype with an accuracy of 67%. Machine learning suggested sleep problems as key factors in the most difficult pain presentations, therefore deserving priority in the treatment of chronic pain.
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Randomized Controlled Trial
Intradural artery dilation during experimentally induced migraine attacks.
The middle meningeal artery is a proposed surrogate marker for activation of trigeminal nociceptors during migraine. Previous studies focused on the extracranial part of the artery; hence, vasoreactivity in the intradural arteries during migraine is unknown. Thirty-four patients with migraine without aura were given sildenafil on one day and calcitonin gene-related peptide on another in double-blind crossover fashion. ⋯ Middle cerebral artery dilated by 9.4% [95% CI: 7.1%-11.7%] and superficial temporal artery by 2.3% [95% CI: 0.2%-4.4%]. Our study shows that the intradural middle meningeal artery and the middle cerebral artery are dilated during migraine induced by calcitonin gene-related peptide as well as sildenafil. We propose that intradural vasculature is affected by migraine-driven activation of trigeminal afferents during migraine attacks.