Heat acclimatization blunts copeptin responses to hypertonicity from dehydrating exercise in humans.

Acclimatization favors greater extracellular tonicity from lower sweat sodium, yet hyperosmolality may impair thermoregulation during heat stress. Enhanced secretion or action of vasopressin could mitigate this through increased free water retention. Aims were to determine responses of the vasopressin surrogate copeptin to dehydrating exercise and investigate its relationships with tonicity during short and long-term acclimatization. Twenty-three participants completed a structured exercise programme following arrival from a temperate to a hot climate. A Heat Tolerance Test (HTT) was conducted on Day-2, 6, 9 and 23, consisting of 60-min block-stepping at 50% VO2 peak, with no fluid intake. Resting sweat [Na+ ] was measured by iontophoresis. Changes in body mass (sweat loss), core temperature, heart rate, osmolality (serum and urine) and copeptin and aldosterone (plasma) were measured with each Test. From Day 2 to Day 23, sweat [Na+ ] decreased significantly (adjusted P < 0.05) and core temperature and heart rate fell. Over the same interval, HTT-associated excursions were increased for serum osmolality (5 [-1, 9] vs. 9 [5, 12] mosm·kg-1 ), did not differ for copeptin (9.6 [6.0, 15.0] vs. 7.9 [4.3, 14.7] pmol·L-1 ) and were reduced for aldosterone (602 [415, 946] vs. 347 [263, 537] pmol·L-1 ). Urine osmolality was unchanging and related consistently to copeptin at end-exercise, whereas the association between copeptin and serum osmolality was right-shifted (P = 0.0109) with acclimatization. Unchanging urine:serum osmolality argued against increased renal action of vasopressin. In conclusion, where exercise in the heat is performed without fluid replacement, heat acclimatization does not appear to enhance AVP-mediated free water retention in humans.

Effects of acute perinatal asphyxia in the rat hippocampus.

In the present work, we have used a rat animal model to study the early effects of intrauterine asphyxia occurring no later than 60 min following the cesarean-delivery procedure. Transitory hypertonia accompanied by altered posture was observed in asphyxiated pups, which also showed appreciably increased lactate values in plasma and hippocampal tissues. Despite this, there was no difference in terms of either cell viability or metabolic activities such as oxidation of lactate, glucose, and glycine in the hippocampus of those fetuses submitted to perinatal asphyxia with respect to normoxic animals. Moreover, a significant decrease in glutamate, but not GABA uptake was observed in the hippocampus of asphyctic pups. Since intense ATP signaling especially through P2X(7) purinergic receptors can lead to excitotoxicity, a feature which initiates neurotransmission failure in experimental paradigms relevant to ischemia, here we assessed the expression level of the P2X(7) receptor in the paradigm of perinatal asphyxia. A three-fold increase in P2X(7) protein was transiently observed in hippocampus immediately following asphyxia. Nevertheless, further studies are needed to delineate whether the P2X(7) receptor subtype is involved in the pathogenesis, contributing to ongoing brain injury after intrapartum asphyxia. In that case, new pharmacologic intervention strategies providing neuroprotection during the reperfusion phase of injury might be identified.

Frontal lobe dysfunction in sporadic hyperekplexia--case study and literature review.

Hyperekplexia (HE), or startle disease, is usually a familial disorder associated with mutations in the glycine receptor alpha1 subunit gene (GLRA1), characterised by exaggerated startle reactions to unexpected auditory, somaesthetic and visual stimuli. Non-familial cases may be idiopathic, or associated with pathology usually in the brainstem or rarely in the supratentorial compartment. The pathophysiological basis of HE is unclear. We report the case of a 40-year-old woman presenting with excessive startle response to unexpected stimuli and falls since the age of 16 years. There was no family history. She was initially diagnosed with epilepsy and started on phenytoin with no resolution of her symptoms. Clinical examination revealed hyperreflexia and an insecure broad-based gait but no other abnormalities. Routine comprehensive neuropsychological assessment revealed below average intelligence with signs of frontal lobe dysfunction. EEG showed non-specific abnormalities in the right frontal and central regions. A (99m)Tc-HMPAO SPET scan revealed hypoperfusion in the frontal (worse on the right) and temporal lobes and to a lesser extent in the basal ganglia. MRI was normal, as well as blood and CSF tests. No mutations were found in a genetic analysis of GLRA1. The patient improved partially with treatment by clonazepam. The localisation of the clinical and neuropsychological findings accord with the EEG and SPET scan abnormalities in our patient and corroborates previous reports. Appropriate neuropsychological testing and functional imaging enable more accurate delineation of the clinical phenotype of this rare disorder.