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Query: UMLS:C0020440 (
hypercapnia
)
7,939
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Standard clearance studies were performed in mechanically ventilated intact and acutely thyroparathyroidectomized (TPTX) rats to document and characterize the effect of
hypercapnia
(HC) on urinary phosphorus excretion (U(P)V). HC as compared to normocapnia (NC) was associated with an increase in U(P)V in intact (62.5 vs. 7.93 mug/min) and TPTX (30.5 vs. 0.59 mug/min) rats, an increase in filtered load of phosphorus in intact (218 vs. 191 mug/min) and TPTX (243 vs. 146 mug/min) rats, an increase in blood bicarbonate concentration in intact (27.8 vs. 26.0 meq/liter) and TPTX (24.5 vs. 22.3 meq/liter) animals, and a decrease in blood pH in intact (7.15 vs. 7.42) and TPTX (7.07 vs. 7.39) rats. Additional TPTX rats with NC and HC were studied during phosphorus infusion at a comparable filtered load of phosphorus (NC = 307 mug/min and HC = 328 mug/min). U(P)V was 18.5 mug/min in NC and 85.2 mug/min in HC animals. Intact NC animals infused with NaHCO(3) achieved a blood bicarbonate of 45.9 meq/liter compared to 26.0 meq/liter in intact NC NaCl-infused rats. U(P)V was 10.0 mug/min in the NaHCO(3) and 7.93 mug/min in NaCl-infused animals. In intact HC animals infused with NaHCO(3), blood pH was 7.36 compared to 7.42 in NC intact NaCl-infused animals. U(P)V was 83.2 mug/min in the HC bicarbonate-infused and 7.93 mug/min in the NC NaCl-infused rats. These experiments demonstrate that elevated blood carbon dioxide tension per se increases U(P)V. Increases in filtered load of phosphorus and blood bicarbonate which are associated with HC contribute to the
phosphaturia
as does parathyroid hormone. The
phosphaturia
is not dependent upon reduction of extracellular pH.
...
PMID:Relationship between phosphaluria and acute hypercapnia in the rat. 1 98
Proximal tubular cell membrane potentials were measured in rat kidney in vivo and the response to luminal perfusion of 2mmolar phosphate (Pi) was studied. Pi transport was preferentially rheogenic at low pH (cotransport of 1H2PO2- plus 2Na+) but preferentially electroneutral at high pH (cotransport of 1HPO4--plus 2Na+). The potential response as a function of pH conformed to a model which transports both H2PO4- and HPO4--indiscriminately and whose maximal transport capacity increases with increasing pH. Further kinetic experiments are required to definitely exclude separate transport systems for both ionised forms.
Hypercapnic
phosphaturia
may be explained by a decreased maximal transport capacity of Pi at low luminal pH.
...
PMID:pH--dependence of phosphate absorption in rat renal proximal tubule. 687 64
