Biomedical research
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Biomedical research · Aug 2009
Effects of hyperoxic inhalation on psychological stress-induced salivary biomarkers.
This study examined the effects of hyperoxic inhalation on psychological stress-induced salivary biomarkers. To induce psychological stress, eight males (22-24 year old) were performed a simple mathematical calculation. After the task, the subjects inspired either normal air or 100% O(2) for 30 min. ⋯ Changes in the increased rate of s-amylase activity and s-CgA concentration showed a significant negative correlation with each other, after the task. These results imply that hyperoxic inhalation attenuates a part of autonomic excitability resulting from psychological stress. Although both s-amylase and s-CgA are employed as biomarkers of autonomic excitability, the s-amylase and s-CgA do not appear to be regulated by the same autonomic nervous system.
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Biomedical research · Aug 2009
Type 2a sodium-phosphate co-transporter serves as a histological predictor of renal dysfunction and tubular apical damage in the kidneys of septic mice.
Acute renal failure (ARF) occurs in septic patients and is histologically characterized by tubular apical damages, including brush border breakdown. Nevertheless, little information is available to identify the apical injury at a molecular level. Type 2a Na-phosphate (Pi) co-transporter (NaPiT2a) is constitutively expressed by brush borders of proximal tubules under a healthy condition. ⋯ Inversely, the loss in apical NaPiT2a was restored in a regenerating stage, associated with the recovery from renal hypoxia. Overall, there was a negative correlation between the NaPiT2a expression and BUN levels or tubular injury scores in septic mice. Our data indicate that the loss of NaPiT2a is a reliable marker for predicting the progression of septic ARF, while local hypoxia might be involved in the decrease of NaPiT2a expression.