Your search keyword '"Baker, JT"' showing total 6 results

1. Extraction fraction at any urine flow and extraction percentage.

Author

Baker JT and Cain CP

Subjects

Humans, Kidney blood supply, Regional Blood Flow, Renal Artery, Renal Veins, Kidney physiology, Kidney Function Tests, Models, Biological

Abstract

Extraction fraction of renal solutes is ordinarily calculated as a ratio of arterial and venous concentration differences. Calculations provided in the present manuscript illustrate the need to correct for changes in renal venous concentration when solute extraction is low and urine flow simultaneously high.

Published

1977

2. Renal response to infusion of isotonic Ringer-Locke solution: effect of hypophysectomy.

Author

Baker JT and Solomon S

Subjects

Animals, Blood Pressure, Body Weight, Extracellular Space, Glomerular Filtration Rate, Isotonic Solutions, Kidney blood supply, Kidney Tubules metabolism, Male, Nephrons physiology, Rats, Regional Blood Flow, Water metabolism, Hypophysectomy, Kidney physiology, Natriuresis

Published

1977

3. Development of the intrarenal vascular system of the puppy kidney.

Author

Evan AP Jr, Stoeckel JA, Loemker V, and Baker JT

Subjects

Aging, Animals, Arterioles anatomy & histology, Arterioles growth & development, Capillaries anatomy & histology, Capillaries growth & development, Dogs, Kidney Glomerulus blood supply, Kidney Tubules blood supply, Male, Renal Artery anatomy & histology, Renal Artery growth & development, Renal Veins anatomy & histology, Renal Veins growth & development, Blood Vessels growth & development, Kidney blood supply

Abstract

This study investigates the development of the vascular system of the puppy kidney (1-21 days after birth) after preparing casts of the renal vessels. At two days, the intrarenal vascular system distal to the afferent arteriole is strikingly different than that of the adult. The glomeruli of the outer cortex consist of a single dilated vessel while those of the mid and inner cortex posses an increasingly larger number of capillary loops. The efferent arterioles vary greatly in appearance from outer to inner cortex. Those in the nephrogenic zone are characteristically short and narrow and join a larger venous vessel termined a sinusoidal capillary. An efferent system somewhat similar to that of the adult is seen in the mid and inner cortex. One of the most obvious differences noted between the puppy and adult kidney is the relative lack of peritubular capillary networks throughout the cortex of the puppy kidney. The puppy possesses large, irregular vessels termed sinusoidal capillaries. The most rudimentary sinusoids are found in the outer cortex with more mature vessels in the inner cortex. The vascular arrangement of the efferent arteriole and sinusoidal capillary appears as a post-glomerular shunt. Functionally, the shunt would direct blood flow away from the proximal tubule and thus could result in a low extraction ratio and Tm for secreted solutes.

Published

1979

4. Relationship between glucose and sodium excretion in the new-born dog.

Author

Baker JT and Kleinman LI

Subjects

Age Factors, Animals, Biological Transport, Chlorothiazide pharmacology, Dogs, Ethacrynic Acid pharmacology, Glomerular Filtration Rate, Kidney blood supply, Kidney Glomerulus blood supply, Kidney Tubules metabolism, Kidney Tubules, Distal drug effects, Microspheres, Nephrons metabolism, Regional Blood Flow, Sodium metabolism, Animals, Newborn metabolism, Glucose metabolism, Kidney physiology, Natriuresis

Abstract

1. The relationship between renal glucose and sodium excretion was studied in thirty-three new-born dogs aged 1-14 days and in ten adult dogs.2. Glucose was infused into the animals at rates sufficient to produce an amount of filtered glucose at least 1.5 times the tubular transport of glucose (saturating glucose load). In both puppies and adults tubular glucose reabsorption at saturating glucose loads varied directly with the glomerular filtration rate (r = 0.54 and 0.73 respectively, P < 0.01 for both).3. In the puppy, as the fraction of filtered sodium excreted (C(Na)/C(In)) increased from 0.05 to 0.45, the ratio, renal tubular glucose transport divided by glomerular filtration rate at saturating glucose loads, (T(G)/GFR)(m), decreased from 3.7 to 1.7 mg/ml. (r = -0.75, P < 0.01). In the adult C(Na)/C(In) was below 0.08 in all experiments and (T(G)/GFR)(m) was within the 95% confidence limits predicted by regression analysis of the data from puppies. Although mean (T(G)/GFR)(m) was greater in the adult than in the puppy (P < 0.01), when puppies had C(Na)/C(In) similar to that for adults, they had (T(G)/GFR)(m) values equivalent to that for the adult.4. There was excellent correlation between glucose excretion and water excretion for both adult and new-born dogs (r = 0.93 and 0.87, respectively). However, for any glucose loss, water loss was greater in the puppy than in the adult (P < 0.01).5. During the control period total sodium excretion (per gram kidney) and C(Na)/C(In) were similar in the new-born and adult dog. However, during glucose loading, the puppies excreted more sodium and had a higher C(Na)/C(In) than did the adult, although glucose excretion was greater in the adult than in the puppy (P < 0.01 for all comparisons).6. Glomerular blood flow, as measured by radioactive microspheres, was redistributed towards inner cortical nephrons during glucose loading in the puppy. There was no such redistribution of glomerular blood flow in the adult.7. Sodium reabsorption beyond the proximal tubule was blocked with ethacrynic acid and chlorothiazide. In the puppy, the increase of C(Na)/C(In) following a glucose load was the same whether the glucose load followed control or distal blockade collections, suggesting that reductions of sodium reabsorption following a glucose load probably came from the proximal tubule. C(Na)/C(In) during glucose loading plus distal blockade was significantly (P < 0.01) higher in the puppy (0.598) than in the adult (0.280), indicating that glucose diuresis produced a greater inhibition of proximal tubular sodium reabsorption in the new-born than in the adult dog. These results support the hypothesis that the high sodium excretion rate during glucose diuresis in the new-born dogs appears to be due to the greater sensitivity of the neonatal proximal tubule to the osmotic effect of glucose. When presented with a glucose osmotic load the new-born dog diminishes net proximal sodium reabsorption more than does the adult and thus depresses tubular glucose reabsorption to a greater extent. The lower values of maximal glucose transport rates found in new-born animals may be related, therefore, to the higher fractional sodium excretion rates during glucose diuresis rather than to a diminished intrinsic glucose transport capacity in the new-born kidney.

Published

1974

5. Maturation of the renal response to hypertonic sodium chloride loading in rats: micropuncture and clearance studies.

Author

Baker JT and Solomon S

Subjects

Age Factors, Animals, Glomerular Filtration Rate, Hypertonic Solutions, Kidney growth & development, Kidney Tubules, Distal physiology, Kidney Tubules, Proximal physiology, Male, Potassium urine, Punctures, Rats, Sodium urine, Water metabolism, Kidney physiology, Natriuresis, Sodium Chloride pharmacology

Abstract

1. The ability of maturing rats to excrete a sodium load was studied by micropuncture and clearance procedures. 2. During control conditions, no change of glomerular filtration rate or sodium excretion was observed for the time period of the entire procedure (P greater than 0-20). During the infusion of hypertonic (4%) sodium chloride, fractional sodium excretion was 0-08 +/- 0-01 in rats 21-30 days old and 0-14 +/- 0-01 (P less than 0-01) in adults. However, the depression of proximal tubular water re-absorption was equal in both groups (P greater than 0-20). 3. Proximal glomerulotubular balance for water re-absorption was similar in all groups (P less than 0-20). Since end proximal tubular water excretion and depression of fractional water excretion were the same in all animals, differences of urinary sodium excretion during development are probably due to differences of function of segments beyond the proximal tubule during development. 4. Fractional potassium excretion was reduced in young rats (0-17 +/- 0-04) during hypertonic sodium chloride infusion, compared to adults (0-24 +/- 0-01, P less than 0-05). 5. Passage time of fast green through cortical segments in seconds is prolonged in young rats during control conditions. Similar decreases of passage time were seen in all groups during hypertonic sodium chloride infusion. No segmental differences of passage time were seen during developmental. 6. No difference in the relationship between fractional sodium and water excretion was seen during development of the renal response to hypertonic sodium chloride infusion. Thus, altered sensitivity to sodium chloride osmotic diuresis does not exist during maturation in rats.

Published

1976

6. Glucose reabsorption in the newborn dog kidney.

Author

Baker JT and Kleinman LI

Subjects

Age Factors, Animals, Biological Transport, Dogs, Glomerular Filtration Rate, Kidney metabolism, Kidney Glomerulus physiology, Kidney Tubules physiology, Animals, Newborn physiology, Glucose metabolism, Kidney physiology

Published

1973