Your search keyword '"Quaternary Ammonium Compounds urine"' showing total 221 results

1. Identification of oxymorphone as decomposition product of the permitted drug methylnaltrexone.

Author

Sobolevsky T, Kucherova Y, and Ahrens B

Subjects

Doping in Sports, Drug Stability, Gas Chromatography-Mass Spectrometry methods, Humans, Naltrexone chemistry, Naltrexone urine, Narcotic Antagonists chemistry, Narcotics analysis, Oxymorphone analysis, Quaternary Ammonium Compounds chemistry, Quaternary Ammonium Compounds urine, Naltrexone analogs & derivatives, Narcotic Antagonists urine, Narcotics urine, Oxymorphone urine, Substance Abuse Detection methods

Published

2018

2. Simultaneous determination of phosphatidylcholine-derived quaternary ammonium compounds by a LC-MS/MS method in human blood plasma, serum and urine samples.

Author

Steuer C, Schütz P, Bernasconi L, and Huber AR

Subjects

Humans, Quaternary Ammonium Compounds blood, Quaternary Ammonium Compounds urine, Chromatography, Liquid methods, Phosphatidylcholines chemistry, Quaternary Ammonium Compounds analysis, Tandem Mass Spectrometry methods

Abstract

The determination of circulating trimethylamine-N-oxide (TMAO), choline, betaine, l-carnitine and O-acetyl-l-carnitine concentration in different human matrices is of great clinical interest. Recent results highlighted the prognostic value of TMAO and quaternary ammonium containing metabolites in the field of cardiovascular and kidney diseases. Herein, we report a method for the rapid and simultaneous measurement of closely related phosphatidylcholine-derived metabolites in three different biological matrices by stable isotope dilution assay. Plasma, serum and urine samples were simply deproteinized and separated by HILIC-chromatography. Detection and quantification were performed using LC-MS/MS with electrospray ionization in positive mode. For accuracy and precision, full calibration was performed covering more than the full reference range. Assay performance metrics include intra- and interday imprecision were below 10% for all analytes. To exclude matrix effects standard addition methods were applied for all matrices. It was shown that calibration standards and quality control prepared in water can be used instead of matrix-matched calibration and controls. The LC/MS/MS-based assay described in this article may improve future clinical studies evaluating TMAO and related substances as prognostic markers for cardiovascular risk and all-cause mortality in different patient populations., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2016

3. Perchlorate exposure and thyroid function in ammonium perchlorate workers in Yicheng, China.

Author

Chen H, Wu L, Wang X, Liu Q, Ding M, Peng K, and Meng Z

Subjects

Adult, Air Pollutants, Occupational toxicity, Biomarkers analysis, Biomarkers urine, China, Chromatography, Liquid, Cross-Sectional Studies, Female, Homeostasis, Humans, Male, Middle Aged, Perchlorates toxicity, Quaternary Ammonium Compounds toxicity, Tandem Mass Spectrometry, Thyroid Function Tests, Thyroid Gland drug effects, Dust analysis, Occupational Exposure, Perchlorates analysis, Perchlorates urine, Quaternary Ammonium Compounds analysis, Quaternary Ammonium Compounds urine, Thyroid Gland physiology

Abstract

The impact of low level dust on the thyroid function of workers chronically exposed to ammonium perchlorate (AP) is uncertain and controversial. The aim of this study was to examine whether workers in China with long-term (>3 years) occupational exposure to low levels of AP dust had affected thyroid homeostasis. Mean occupational exposures to AP dust ranged from 0.43 to 1.17 mg/m3. Geometric means of post-shift urinary perchlorate levels were 20.5 µg/L for those exposed and 12.8 µg/L for the controls. No significant differences were found for thyroid function parameters of FT3, FT4, or log TSH or for TPO prevalence or thyroglobulin levels. Additionally, no differences in findings were observed for complete blood count (CBC), serum biochemical profile, or pulmonary function test. Median urinary iodine levels of 172 and 184 µg/L showed that the workers had sufficient iodine intake. This study found no effect on thyroid function from long term, low-level documented exposure to ammonium perchlorate. It is the first study to report both thyroid status parameters and urinary perchlorate, a biomarker of internal perchlorate exposure, in occupationally exposed workers in China.

Published

2014

4. Another suicide using the veterinary drug T61 and distribution of drugs in the body.

Author

Musshoff F, Kirschbaum KM, and Madea B

Subjects

Adult, Amides blood, Amides urine, Drug Combinations, Fatal Outcome, Forensic Toxicology methods, Humans, Male, Quaternary Ammonium Compounds blood, Quaternary Ammonium Compounds urine, Tetracaine blood, Tetracaine poisoning, Tetracaine urine, Tissue Distribution, Veterinary Drugs blood, Veterinary Drugs urine, Amides poisoning, Quaternary Ammonium Compounds poisoning, Suicide, Veterinary Drugs poisoning

Published

2013

5. Direct urine ammonium measurement: time to discard urine anion and osmolar gaps.

Author

Ha LY, Chiu WW, and Davidson JS

Subjects

Anions analysis, Humans, Osmolar Concentration, Quaternary Ammonium Compounds blood, Quaternary Ammonium Compounds urine, Urinalysis methods, Urinalysis standards

Abstract

Background: A failure of urine ammonium to increase during acidosis indicates impaired renal acidification, and the urinary ammonium concentration is therefore a useful investigation in determining the cause of a metabolic acidosis. However, urine ammonium measurements are not widely available in routine diagnostic laboratories. This has led to the use of urine anion or osmolar gaps, which are unsatisfactory as surrogates for urine ammonium measurement., Methods: We evaluated the adaptation of two widely available automated plasma ammonium assays for measurement of urinary ammonium., Results: Both assays showed good recovery and linearity in urine samples spiked with ammonium chloride, and acceptable precision. Urine ammonium concentrations estimated from urinary anion and osmolar gaps showed poor agreement with measured urine ammonium concentrations., Conclusions: Direct urine ammonium measurements are easily performed with modern autoanalysers by simple adaptation of routine plasma ammonium assays. The use of urine anion and osmolar gaps should be abandoned where direct measurement is available.

Published

2012

6. Mitochondrial aquaporin-8 in renal proximal tubule cells: evidence for a role in the response to metabolic acidosis.

Author

Molinas SM, Trumper L, and Marinelli RA

Subjects

Animals, Animals, Genetically Modified, Aquaporins genetics, Blood Gas Analysis, Blotting, Western, Cell Line, Cell Survival, Humans, Kidney Cortex metabolism, Kidney Tubules, Proximal cytology, L-Lactate Dehydrogenase metabolism, Male, Microscopy, Confocal, Quaternary Ammonium Compounds urine, RNA Interference, Rats, Rats, Wistar, Real-Time Polymerase Chain Reaction, Acidosis metabolism, Aquaporins metabolism, Kidney Tubules, Proximal metabolism, Mitochondria metabolism

Abstract

Mitochondrial ammonia synthesis in proximal tubules and its urinary excretion are key components of the renal response to maintain acid-base balance during metabolic acidosis. Since aquaporin-8 (AQP8) facilitates transport of ammonia and is localized in inner mitochondrial membrane (IMM) of renal proximal cells, we hypothesized that AQP8-facilitated mitochondrial ammonia transport in these cells plays a role in the response to acidosis. We evaluated whether mitochondrial AQP8 (mtAQP8) knockdown by RNA interference is able to impair ammonia excretion in the human renal proximal tubule cell line, HK-2. By RT-PCR and immunoblotting, we found that AQP8 is expressed in these cells and is localized in IMM. HK-2 cells were transfected with short-interfering RNA targeting human AQP8. After 48 h, the levels of mtAQP8 protein decreased by 53% (P < 0.05). mtAQP8 knockdown decreased the rate of ammonia released into culture medium in cells grown at pH 7.4 (-31%, P < 0.05) as well as in cells exposed to acid (-90%, P < 0.05). We also evaluated mtAQP8 protein expression in HK-2 cells exposed to acidic medium. After 48 h, upregulation of mtAQP8 (+74%, P < 0.05) was observed, together with higher ammonia excretion rate (+73%, P < 0.05). In vivo studies in NH(4)Cl-loaded rats showed that mtAQP8 protein expression was also upregulated after 7 days of acidosis in renal cortex (+51%, P < 0.05). These data suggest that mtAQP8 plays an important role in the adaptive response of proximal tubule to acidosis possibly facilitating mitochondrial ammonia transport.

Published

2012

7. Detection of singly- and doubly-charged quaternary ammonium drugs in equine urine by liquid chromatography/tandem mass spectrometry.

Author

Ho EN, Kwok WH, Wong AS, and Wan TS

Subjects

Animals, Cholinergic Antagonists isolation & purification, Cholinergic Antagonists urine, Doping in Sports, Horses, Pharmaceutical Preparations isolation & purification, Quaternary Ammonium Compounds isolation & purification, Quaternary Ammonium Compounds urine, Solid Phase Extraction, Chromatography, High Pressure Liquid, Pharmaceutical Preparations urine, Tandem Mass Spectrometry

Abstract

Quaternary ammonium drugs (QADs) are anticholinergic agents some of which are known to have been abused or misused in equine sports. A recent review of literature shows that the screening methods reported thus far for QADs mainly cover singly-charged QADs. Doubly-charged QADs are extremely polar substances which are difficult to be extracted and poorly retained on reversed-phase columns. It would be ideal if a comprehensive method can be developed which can detect both singly- and doubly-charged QADs. This paper describes an efficient liquid chromatography/tandem mass spectrometry (LC/MS/MS) method for the simultaneous detection and confirmation of 38 singly- and doubly-charged QADs at sub-parts-per-billion (ppb) to low-ppb levels in equine urine after solid-phase extraction. Quaternary ammonium drugs were extracted from equine urine by solid-phase extraction (SPE) using an ISOLUTE(®) CBA SPE column and analysed by LC/MS/MS in the positive electrospray ionisation mode. Separation of the 38 QADs was achieved on a polar group embedded C18 LC column with a mixture of aqueous ammonium formate (pH 3.0, 10 mM) and acetonitrile as the mobile phase. Detection and confirmation of the 38 QADs at sub-ppb to low-ppb levels in equine urine could be achieved within 16 min using selected reaction monitoring (SRM). Matrix interference of the target transitions at the expected retention times was not observed. Other method validation data, including precision and recovery, were acceptable. The method was successfully applied to the analyses of drug-administration samples., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2012

8. Weight, age and coefficients of variation in renal solute excretion.

Author

Perry GM, Scheinman SJ, and Asplin JR

Subjects

Adolescent, Adult, Age Factors, Aged, Aged, 80 and over, Calcium urine, Chlorides urine, Citrates urine, Creatinine urine, Female, Humans, Magnesium urine, Male, Middle Aged, Oxalates urine, Phosphorus urine, Potassium urine, Quaternary Ammonium Compounds urine, Sodium urine, Sulfates urine, Uric Acid urine, Young Adult, Body Weight, Kidney Calculi urine, Urinalysis methods, Urinalysis statistics & numerical data

Abstract

Background: Homoscedasticity (constant variance over axes or among statistical factors) is an integral assumption of most statistical analyses. However, a number of empirical studies in model organisms and humans demonstrate significant differences in residual variance (that component of phenotype unexplained by known factors) or intra-individual variation among genotypes. Our work suggests that renal traits may be particularly susceptible to randomization by genetic and non-genetic factors, including endogenous variables like age and weight., Methods: We tested associations between age, weight and intra-individual variation in urinary calcium, citrate, chloride, creatinine, potassium, magnesium, sodium, ammonium, oxalate, phosphorus, sulfate, uric acid and urea nitrogen in 9,024 male and 6,758 female kidney stone patients. Coefficients of variation (CVs) were calculated for each individual for each solute from paired 24-hour urines. Analysis of CVs was corrected for inter-measurement collection variance in creatinine and urine volume. CVs for sodium and urea nitrogen were included to correct for dietary salt and protein., Results: Age was positively associated with individual CVs for calcium and negatively associated with CVs for potassium, ammonium and phosphorus (p(FDR) < 0.01). Weight was associated with CVs for creatinine, magnesium and uric acid, and negatively associated with CVs for calcium, potassium and oxalate (p(FDR) < 0.05)., Conclusion: Intra-individual variation changes over age and weight axes for numerous urinary solutes. Changing residual variance over age and weight could cause bias in the detection or estimation of genetic or environmental effects. New methodologies may need to account for such residual unpredictability, especially in diverse collections., (Copyright © 2013 S. Karger AG, Basel.)

Published

2012

9. Preservation of nutrients during long-term storage of source-separated yellowwater.

Author

Paruch AM

Subjects

Adult, Biological Oxygen Demand Analysis, Child, Female, Humans, Male, Nitrates urine, Nitrites urine, Phosphorus urine, Potassium urine, Quaternary Ammonium Compounds urine, Recycling, Sulfur urine, Temperature, Waste Disposal, Fluid methods, Fertilizers analysis, Urine chemistry

Abstract

Source separation of human urine (yellowwater) enhances the sustainability of wastewater management and efficiency of nutrient recovery and recycling. Storage of source-separated yellowwater is recommended prior to agronomic reuse. At this point, it is of immense interest to determine the effect of storage time on quality of yellowwater. Therefore, this study focused on examining changes in some chemical properties of raw, undiluted, freshly collected, source-separated yellowwater stored for a period of 1 year under different temperature regimes: cold (4 °C), mild (10 °C) and warm (22 °C). Chemical parameters (biochemical oxygen demand (BOD(5)), N-tot, N-NO(2), N-NO(3), N-NH(4), P-tot, K, S, and pH), with the main focus on fertiliser nutrient compounds intended for agricultural utilisation, were tested. The outcomes revealed that both nitrification and denitrification processes took place in the stored yellowwater, and an increase in the pH level of up to pH greater than 9 was observed. The study found that the main macronutrients can be well preserved in yellowwater, as there were no substantial changes in the contents of these elements over a 1 year storage period at the three temperatures tested.

Published

2012

10. [Effects of acid and alkaline stress on energy metabolism of Oreochromis niloticus juveniles with different body mass].

Author

Qiang J, Wang H, Li RW, Zhu XW, and Peng J

Subjects

Animals, Cichlids metabolism, Hydrogen-Ion Concentration, L-Lactate Dehydrogenase metabolism, Oxygen Consumption, Quaternary Ammonium Compounds urine, Sodium-Potassium-Exchanging ATPase metabolism, Body Size, Cichlids physiology, Energy Metabolism, Stress, Physiological physiology, Water chemistry

Abstract

A 6 x 3 factorial laboratory experiment was conducted to study the effects of acid and alkaline stress (pH 5.0, 6.0, 7.0, 8.0, 9.0, and 10.0) on the oxygen consumption rate (OR), ammonia excretion rate (NR), and lactate dehydrogenase (LDH) and Na+ -K+ adenosine triphosphatase (Na+ -K+ ATPase) activities of Oreochromis niloticus juveniles with body mass 1.02, 5.13, and 10.31 g. With increasing pH, the juveniles OR and NR increased first, peaked at pH 7.0-8.0, and decreased then. The OR and NR increased with increasing body mass, and their relationships fitted power equations. The linear effects of pH and body mass and the quadratic effect of pH on the OR and NR were highly significant (P < 0.01), but the pH and body mass had less synergistic effect on the OR and NR (P > 0.05). Regressive equations of pH and body mass with the OR and NR were established, the R2 being 0.942 and 0.936, respectively (P < 0.01). Body mass had significant effects on the O:N ratio (P < 0.01), whereas acid and alkaline stress could alter the energy source utilization patterns of the juveniles. High pH was not favorable to the LDH activity, but favorable to the Na+ -K+ ATPase activity. The pH had linear and quadratic effects on the LDH and Na+ -K+ ATPase activities (P < 0.01), body mass had no significant effect on the Na+ -K+ ATPase activity, and the pH and body mass had no synergistic effect on the two enzyme activities (P > 0.05).

Published

2011

11. Diet-induced metabolic acidosis.

Author

Adeva MM and Souto G

Subjects

Acidosis etiology, Acidosis urine, Bicarbonates blood, Biomarkers urine, Cardiovascular Diseases complications, Cardiovascular Diseases urine, Citric Acid urine, Humans, Hydrogen-Ion Concentration, Hypercalciuria complications, Hypercalciuria urine, Hypertension complications, Hypertension urine, Insulin Resistance, Kidney metabolism, Kidney Failure, Chronic complications, Kidney Failure, Chronic urine, Quaternary Ammonium Compounds urine, Uric Acid urine, Acid-Base Equilibrium, Acidosis metabolism, Diet adverse effects

Abstract

The modern Western-type diet is deficient in fruits and vegetables and contains excessive animal products, generating the accumulation of non-metabolizable anions and a lifespan state of overlooked metabolic acidosis, whose magnitude increases progressively with aging due to the physiological decline in kidney function. In response to this state of diet-derived metabolic acidosis, the kidney implements compensating mechanisms aimed to restore the acid-base balance, such as the removal of the non-metabolizable anions, the conservation of citrate, and the enhancement of kidney ammoniagenesis and urinary excretion of ammonium ions. These adaptive processes lower the urine pH and induce an extensive change in urine composition, including hypocitraturia, hypercalciuria, and nitrogen and phosphate wasting. Low urine pH predisposes to uric acid stone formation. Hypocitraturia and hypercalciuria are risk factors for calcium stone disease. Even a very mild degree of metabolic acidosis induces skeletal muscle resistance to the insulin action and dietary acid load may be an important variable in predicting the metabolic abnormalities and the cardiovascular risk of the general population, the overweight and obese persons, and other patient populations including diabetes and chronic kidney failure. High dietary acid load is more likely to result in diabetes and systemic hypertension and may increase the cardiovascular risk. Results of recent observational studies confirm an association between insulin resistance and metabolic acidosis markers, including low serum bicarbonate, high serum anion gap, hypocitraturia, and low urine pH., (Copyright © 2011 Elsevier Ltd and European Society for Clinical Nutrition and Metabolism. All rights reserved.)

Published

2011

12. Nitrogen recovery from source-separated human urine using clinoptilolite and preliminary results of its use as fertilizer.

Author

Beler-Baykal B, Allar AD, and Bayram S

Subjects

Ficus drug effects, Ficus growth & development, Humans, Nitrogen pharmacology, Quaternary Ammonium Compounds isolation & purification, Quaternary Ammonium Compounds urine, Specimen Handling, Time Factors, Fertilizers, Nitrogen isolation & purification, Nitrogen urine, Waste Management methods, Zeolites chemistry

Abstract

The use of source separated human urine as fertilizer is one of the major suggestions of the new sanitation concept ECOSAN. Urine is rich in nitrogen, phosphorus and potassium which act as plant nutrients, however its salinity is high for agricultural and landscape purposes. Moreover, characteristics change significantly throughout storage where salinity increases to higher values as the predominant form of nitrogen shifts from urea to ammonium. Transferring nitrogen in human urine onto the natural zeolite clinoptilolite and using the subsequently recovered ammonium from the exhausted clinoptilolite for agricultural/landscape purposes is suggested as an indirect route of using urine in this work. Results reporting the outcome of the proposed process together with characterization of fresh and stored urine, and preliminary work on the application of the product on the landscape plant Ficus elastica are presented. Up to 97% of the ammonium in stored urine could be transferred onto clinoptilolite through ion exchange and about 88% could be recovered subsequently from exhausted clinoptilolite, giving an overall recovery of 86%. Another important merit of the suggested process was the successful elimination of salinity. Preliminary experiments with Ficus elastica had shown that the product, i.e. clinoptilolite exhausted with ammonium, was compatible with the synthetic fertilizer tested.

Published

2011

13. Laboratory diagnostics in the urine of young and pregnant ewes.

Author

Sendag S, Cetin Y, Failing K, and Wehrend A

Subjects

Animals, Calcium urine, Female, Hydrogen-Ion Concentration, Potassium urine, Pregnancy, Quaternary Ammonium Compounds urine, Reference Values, Sodium urine, Acid-Base Equilibrium, Pregnancy, Animal urine, Sheep urine

Abstract

Objective: The purpose of this study was to identify values for net acid base excretion (NABE) which are significant indicators of the acid-base equilibrium in pregnant and young ewes and to show its relationship with other parameters (base, acid, ammonium [NH4], base-acid quotient, sodium [Na], potassium [K], calcium [Ca]) in ovine urine. In contrast to dairy cows, data are rare on these parameters in ewes., Material and Methods: A total of 99 animals were used in the study, consisting of 56 young (average of 5.6±1.1 months) and 43 pregnant ewes (average of 35.2±18.8 months). Measurement of fractional NABE in urine samples was carried out according to the method reported by Kutas. The pH value of the urine was measured with a laboratory pH meter. Na, K and total Ca were measured with a flame photometer., Results: For all values except Na significant differences occurred between urine samples of pregnant ewes and young ewes (p<0.001). Base, acid, NH4, NABE, K and Ca values were significantly higher in the urine of the youngs than in pregnant ewes. In young ewes, a strong correlation was found between NABE and base values while a weak correlation could be observed between pH and base values. In pregnant ewes, strong NABE-base, NABE-K, K-acid and K-base correlations were found as well as weak NH4-base, NH4-NABE and NH4-K correlations. There was a strongly positive correlation between NABE and NH4 in pregnant ewes, while a weak negative correlation between those values was observed in young ewes., Conclusion: For the first time, we established values for NABE and certain other parameters in urine of pregnant ewes and young ewes. It was shown that the acid-base balance in pregnant ewes and young ewes can be evaluated by measuring NABE and certain trace elements in urine like in cattle.

Published

2011

14. Metabolic basis for low urine pH in type 2 diabetes.

Author

Maalouf NM, Cameron MA, Moe OW, and Sakhaee K

Subjects

Adult, Age Factors, Aged, Biomarkers urine, Body Mass Index, Buffers, Diabetes Mellitus, Type 2 complications, Diabetes Mellitus, Type 2 diet therapy, Diabetes Mellitus, Type 2 drug therapy, Diabetic Nephropathies urine, Female, Humans, Hydrogen-Ion Concentration, Male, Middle Aged, Nephrolithiasis urine, Phosphorus urine, Potassium urine, Quaternary Ammonium Compounds urine, Sulfates urine, Texas, Urea urine, Uric Acid urine, Diabetes Mellitus, Type 2 urine, Diabetic Nephropathies etiology, Nephrolithiasis etiology

Abstract

Background and Objectives: Type 2 diabetes is associated with excessively low urine pH, which increases the risk for uric acid nephrolithiasis. This study was conducted to assess the metabolic basis responsible for the excessive urinary acidity of individuals with type 2 diabetes., Design, Setting, Participants, & Measurements: Nine non-stone-forming patients who had type 2 diabetes and low urine pH and 16 age- and body mass index-matched non-stone-forming volunteers without type 2 diabetes were maintained on a constant metabolic diet for 7 days, and 24-hour urine was collected on the last 2 days of the diet., Results: Urine dietary markers (potassium, sulfate, phosphorus, and urea nitrogen) were not different between the two groups. Patients with type 2 diabetes exhibited a significantly lower 24-hour urine pH (5.45+/-0.27 versus 5.90+/-0.42; P<0.01) and higher net acid excretion (NAE; 57+/-12 versus 38+/-18 mEq/d; P<0.01) compared with control subjects. The proportion of NAE excreted as ammonium (NH4+/NAE) was significantly lower in patients with type 2 diabetes than in control subjects (0.70+/-0.12 versus 0.94+/-0.36; P<0.01); however, the greater NAE in patients with type 2 diabetes was not accounted for by the differences in unmeasured urinary anions., Conclusions: The overly acidic urine in patients with type 2 diabetes persists after controlling for dietary factors, body size, and age. The lower pH is due to a combination of greater NAE and lower use of ammonia buffers in patients with diabetes, which predisposes them to uric acid urolithiasis.

Published

2010

15. Deletion of the anion exchanger Slc26a4 (pendrin) decreases apical Cl(-)/HCO3(-) exchanger activity and impairs bicarbonate secretion in kidney collecting duct.

Author

Amlal H, Petrovic S, Xu J, Wang Z, Sun X, Barone S, and Soleimani M

Subjects

Alkalosis metabolism, Alkalosis prevention & control, Animals, Anion Transport Proteins genetics, Bicarbonates blood, Chlorides blood, Chlorides urine, Down-Regulation, Hydrogen-Ion Concentration, Kidney Tubules, Collecting cytology, Mice, Mice, Inbred C57BL, Mice, Knockout, Quaternary Ammonium Compounds urine, Sodium-Bicarbonate Symporters metabolism, Sulfate Transporters, Time Factors, Anion Transport Proteins deficiency, Bicarbonates metabolism, Chloride-Bicarbonate Antiporters metabolism, Kidney Tubules, Collecting metabolism

Abstract

The anion exchanger Pendrin, which is encoded by SLC26A4 (human)/Slc26a4 (mouse) gene, is localized on the apical membrane of non-acid-secreting intercalated (IC) cells in the kidney cortical collecting duct (CCD). To examine its role in the mediation of bicarbonate secretion in vivo and the apical Cl(-)/HCO(3)(-) exchanger in the kidney CCD, mice with genetic deletion of pendrin were generated. The mutant mice show the complete absence of pendrin expression in their kidneys as assessed by Northern blot hybridization, Western blot, and immunofluorescence labeling. Pendrin knockout (KO) mice display significantly acidic urine at baseline [pH 5.20 in KO vs. 6.01 in wild type (WT); P < 0.0001] along with elevated serum HCO(3)(-) concentration (27.4 vs. 24 meq/l in KO vs. WT, respectively; P < 0.02), consistent with decreased bicarbonate secretion in vivo. The urine chloride excretion was comparable in WT and KO mice. For functional studies, CCDs were microperfused and IC cells were identified by their ability to trap the pH fluorescent dye BCECF. The apical Cl(-)/HCO(3)(-) exchanger activity in B-IC and non-A, non-B-IC cells, as assessed by intracellular pH monitoring, was significantly reduced in pendrin-null mice. The basolateral Cl(-)/HCO(3)(-) exchanger activity in A-IC cells and in non-A, non-B-IC cells, was not different in pendrin KO mice relative to WT animals. Urine NH(4)(+) (ammonium) excretion increased significantly, consistent with increased trapping of NH(3) in the collecting duct in pendrin KO mice. We conclude that Slc26a4 (pendrin) deletion impairs the secretion of bicarbonate in vivo and reduces apical Cl(-)/HCO(3)(-) exchanger activity in B-IC and non-A, non-B-IC cells in CCD. Additional apical Cl(-)/HCO(3)(-) exchanger(s) is (are) present in the CCD.

Published

2010

16. Some observations on the clinical approach to metabolic acidosis.

Author

Halperin ML and Kamel KS

Subjects

Anions urine, Bicarbonates blood, Blood Volume, Carbon Dioxide blood, Extracellular Fluid metabolism, Hematocrit, Humans, Hydrogen-Ion Concentration, Quaternary Ammonium Compounds urine, Acidosis diagnosis, Acidosis metabolism, Metabolic Diseases diagnosis, Metabolic Diseases metabolism

Published

2010

17. Potassium restriction, high protein intake, and metabolic acidosis increase expression of the glutamine transporter SNAT3 (Slc38a3) in mouse kidney.

Author

Busque SM and Wagner CA

Subjects

Acidosis chemically induced, Amino Acid Transport Systems, Neutral genetics, Ammonium Chloride, Animals, Disease Models, Animal, Glutaminase metabolism, Kidney Tubules, Proximal metabolism, Male, Mice, Phosphoenolpyruvate Carboxykinase (GTP) metabolism, Potassium Deficiency etiology, Quaternary Ammonium Compounds urine, RNA, Messenger metabolism, Time Factors, Up-Regulation, Acidosis metabolism, Amino Acid Transport Systems, Neutral metabolism, Caseins metabolism, Kidney metabolism, Potassium Deficiency metabolism, Potassium, Dietary metabolism, Quaternary Ammonium Compounds metabolism

Abstract

Kidneys produce ammonium to buffer and excrete acids through metabolism of glutamine. Expression of the glutamine transporter Slc38a3 (SNAT3) increases in kidney during metabolic acidosis (MA), suggesting a role during ammoniagenesis. Potassium depletion and high dietary protein intake are known to elevate renal ammonium excretion. In this study, we examined SNAT3, phosphate-dependent glutaminase (PDG), and phosphoenolpyruvate carboxykinase (PEPCK) regulation during a control (0.36%) or low-K(+) (0.02%) diet for 7 or 14 days or a control (20%) or high-protein (50%) diet for 7 days. MA was induced in control and low-K(+) groups by addition of NH(4)Cl. Urinary ammonium excretion increased during MA, after 14-day K(+) restriction alone, and during high protein intake. SNAT3, PDG, and PEPCK mRNA abundance were elevated during MA and after 14-day K(+) restriction but not during high protein intake. SNAT3 protein abundance was enhanced during MA (both control and low K(+)), after 14-day low-K(+) treatment alone, and during high protein intake. Seven-day dietary K(+) depletion alone had no effect. Immunohistochemistry showed SNAT3 staining in earlier parts of the proximal tubule during 14-day K(+) restriction with and without NH(4)Cl treatment and during high protein intake. In summary, SNAT3, PDG, and PEPCK mRNA expression were congruent with urinary ammonium excretion during MA. Chronic dietary K(+) restriction, high protein intake, and MA enhance ammoniagenesis, an effect that may involve enhanced SNAT3 mRNA and protein expression. Our data suggest that SNAT3 plays an important role as the glutamine uptake mechanism in ammoniagenesis under these conditions.

Published

2009

18. Low bone density in children with hypercalciuria and/or nephrolithiasis.

Author

Schwaderer AL, Cronin R, Mahan JD, and Bates CM

Subjects

Absorptiometry, Photon, Child, Creatinine urine, Female, Humans, Hypercalciuria urine, Male, Nephrolithiasis urine, Quaternary Ammonium Compounds urine, Retrospective Studies, Risk Factors, Sex Characteristics, Urinary Calculi epidemiology, Bone Density physiology, Hypercalciuria physiopathology, Nephrolithiasis physiopathology

Abstract

The objective of this study was to identify how many children with hypercalciuria and/or nephrolithiasis have a low bone density and whether the risk of low bone density can be identified by 24-h urine stone-risk profiles and/or growth parameters. A retrospective chart review was performed on 110 idiopathic hypercalciuria and/or kidney stone patients who received both a 24-h urine for stone-risk profile and a dual-energy X-ray densitometry scan. Patients were divided into low bone density vs. normal bone density groups and hypercalcuria verus nephrolithiasis groups and analyzed for differences in growth parameters, urine stone-risk profiles, and bone densities. Overall, 47% had a bone density z score < -1, and 26% had a bone density z score < -2. Patients with a low bone density had a higher body mass index and lower urine creatinine and ammonium than those with a normal bone density. Patients with nephrolithiasis had a lower bone density z score than patients with hypercalcuria and no nephrolithiasis. Clinicians should be aware of the increased incidence of low bone density in children with hypercalciuria and nephrolithiasis. The effect of hypercalciuria and nephrolithiasis treatment on bone density and the natural progression of the bone density in the studied patient population warrants further investigation.

Published

2008

19. Physiology: Courier service for ammonia.

Author

Knepper MA

Subjects

Acidosis physiopathology, Animals, Cation Transport Proteins deficiency, Cation Transport Proteins genetics, Epididymis cytology, Epididymis metabolism, Humans, Hydrogen-Ion Concentration, Male, Membrane Glycoproteins deficiency, Membrane Glycoproteins genetics, Mice, Cation Transport Proteins metabolism, Fertility physiology, Kidney physiology, Membrane Glycoproteins metabolism, Quaternary Ammonium Compounds urine

Published

2008

20. A role for Rhesus factor Rhcg in renal ammonium excretion and male fertility.

Author

Biver S, Belge H, Bourgeois S, Van Vooren P, Nowik M, Scohy S, Houillier P, Szpirer J, Szpirer C, Wagner CA, Devuyst O, and Marini AM

Subjects

Acidosis physiopathology, Acids metabolism, Animals, Biological Transport, Body Fluids, Cation Transport Proteins deficiency, Cation Transport Proteins genetics, Epithelial Cells metabolism, Gene Deletion, Genitalia, Male cytology, Genitalia, Male metabolism, Homeostasis, Hydrogen-Ion Concentration, Kidney Tubules, Collecting physiology, Kidney Tubules, Distal physiology, Male, Membrane Glycoproteins deficiency, Membrane Glycoproteins genetics, Mice, Permeability, Stress, Physiological, Weight Loss, Cation Transport Proteins metabolism, Fertility physiology, Kidney physiology, Membrane Glycoproteins metabolism, Quaternary Ammonium Compounds urine

Abstract

The kidney has an important role in the regulation of acid-base homeostasis. Renal ammonium production and excretion are essential for net acid excretion under basal conditions and during metabolic acidosis. Ammonium is secreted into the urine by the collecting duct, a distal nephron segment where ammonium transport is believed to occur by non-ionic NH(3) diffusion coupled to H(+) secretion. Here we show that this process is largely dependent on the Rhesus factor Rhcg. Mice lacking Rhcg have abnormal urinary acidification due to impaired ammonium excretion on acid loading-a feature of distal renal tubular acidosis. In vitro microperfused collecting ducts of Rhcg(-/-) acid-loaded mice show reduced apical permeability to NH(3) and impaired transepithelial NH(3) transport. Furthermore, Rhcg is localized in epididymal epithelial cells and is required for normal fertility and epididymal fluid pH. We anticipate a critical role for Rhcg in ammonium handling and pH homeostasis both in the kidney and the male reproductive tract.

Published

2008

21. [Urinary ammonium: validation of an enzymatic method and reliability with an indirect urine ammonium estimation].

Author

Szmidt-Adjidé V and Vanhille P

Subjects

Adolescent, Adult, Aged, Female, Humans, Kidney Failure, Chronic urine, Kidney Function Tests methods, Male, Middle Aged, Prospective Studies, Reproducibility of Results, Young Adult, Quaternary Ammonium Compounds urine

Abstract

Urinary ammonium excretion is the best parameter to quantify net acid excretion by the kidney. As measurement of ammonium excretion is not routinely available, clinicians use formulas to estimate NH(4)+ excretion. However, the measurement of urinary NH(4)+ concentration can be performed by an automatically method, which is suitable for clinical practice. The aim of this study is to evaluate the validity of the enzymatic method of ammonium determination with Ammonia SL Elitech Diagnostics reagent on an Olympus AU 2700 analyzer, which use 1/100 diluted urine samples. A clinico-biological study allowed us to compare measurements obtained during a 30 months' period with the above enzymatic method with results obtained by a formula of calculation. Variations coefficients (CV%) of repeatability were less than 2.4% and, those of reproducibility tests less than 2,6%. Linearity was verified from 0.62 mmol/L to 158 mmol/L. Analytical sensitivity was 0.52 mmol/L and the correlation obtained with the assay used to date in the laboratory was excellent (y = 1.11 x - 1.72 ; r = 0.98). There is a significant positive correlation between measured concentrations obtained with this enzymatic method and urinary ammonium concentration estimates using the modified urine osmolal gap in two groups of patients, with and without mild chronic renal failure. As urine ammonium estimation is not reliable for detecting small changes in ammonium excretion, it must be absolutely measured when renal functional tests are performed. The assay described in this paper is simple, automatic and offers for the clinician accurate matter for the measurement of NH(4)+ excretion.

Published

2008

22. Bioelectronic tongue for the simultaneous determination of urea, creatinine and alkaline ions in clinical samples.

Author

Gutiérrez M, Alegret S, and del Valle M

Subjects

Humans, Neural Networks, Computer, Biosensing Techniques methods, Creatinine urine, Potassium urine, Potentiometry methods, Quaternary Ammonium Compounds urine, Sodium urine, Urea urine

Abstract

Urea and creatinine biosensors based on urease and creatinine deiminase, respectively, covalently immobilized onto ammonium selective electrodes, were included in an array together with sensors sensitive to ammonium, potassium and sodium. Generic sensors to alkaline ions were also included. All the sensors used were of all-solid-state type, employing polymeric membranes and having rather nonspecific response characteristics. A response model based on artificial neural networks was built and tested for the simultaneous determination of urea, creatinine, ammonium, potassium and sodium. The results show that it is possible to obtain a good multivariate calibration model. In this way, the developed bioelectronic tongue was successfully applied to multidetermination of the five species in raw and spiked urine samples. Predicted concentrations showed a good agreement with reference methods of analysis, allowing a simple direct method for determining urea and creatinine in real samples. At the same time, this method permitted to obtain the concentrations of the alkaline interferences (endogenous ammonium, potassium and sodium) without the need of eliminating them.

Published

2008

23. Short-term exposure to a high-protein diet differentially affects glomerular filtration rate but not Acid-base balance in older compared to younger adults.

Author

Wagner EA, Falciglia GA, Amlal H, Levin L, and Soleimani M

Subjects

Adult, Age Factors, Aged, Analysis of Variance, Biomarkers blood, Biomarkers urine, Blood Chemical Analysis, Cross-Over Studies, Dietary Proteins adverse effects, Dose-Response Relationship, Drug, Female, Humans, Hydrogen-Ion Concentration, Kidney Function Tests, Male, Middle Aged, Quaternary Ammonium Compounds urine, Sex Factors, Acid-Base Equilibrium drug effects, Aging physiology, Dietary Proteins administration & dosage, Glomerular Filtration Rate drug effects, Urine chemistry

Abstract

There is conflicting evidence regarding the effects of high protein intake on kidney health, especially as it relates to age. We investigated the short-term effects of a high-protein diet on kidney function and systemic acid-base homeostasis in older compared to younger adults. The subjects were healthy men and women either between the ages of 25 and 40 years (n=12) or 55 and 70 years (n=10). They underwent a two-period crossover trial with each period consisting of 2 weeks of usual diet followed by a 1-week experimental diet. During the experimental diet period subjects consumed metabolic meals that provided either low protein content (0.5 g protein/kg/day) or high protein content (2.0 g protein/kg/day). Outcome measures included blood and urine markers of renal function and acid-base balance. An analysis of variance was used to assess differences between age groups with respect to experimental diet. The older group, mainly women, showed an increase in glomerular filtration rate after the high-protein compared to low-protein diet; the younger group did not. Urinary pH was significantly lower, and ammonium excretion was significantly higher after the high-protein diet in both age groups, but neither group developed a clinically detectable acidosis after the week of receiving a high-protein diet.

Published

2007

24. Studies to identify the basis for an alkaline urine pH in patients with calcium hydrogen phosphate kidney stones.

Author

Kamel KS, Shafiee MA, Cheema-Dhadli S, and Halperin ML

Subjects

Adult, Alkalies metabolism, Biomarkers urine, Citric Acid urine, Creatinine metabolism, Female, Follow-Up Studies, Glomerular Filtration Rate physiology, Humans, Hydrogen-Ion Concentration, Kidney Calculi physiopathology, Male, Prognosis, Quaternary Ammonium Compounds urine, Sulfates urine, Calcium Phosphates analysis, Kidney Calculi urine, Urine chemistry

Abstract

Background: Patients with CaHPO(4) kidney stones belong to a diagnostic category that has a high urine pH as its common feature. Our objective was to provide a new clinical approach to examine the basis for this high pH., Methods: The study group consisted of 26 CaHPO(4) stone formers and 28 normal volunteers. Urine was collected q2h plus an overnight sample to identify patients with a urine pH > 6.5 for 12/24 h. Urine ammonium (U(NH4)), sulphate (U(SO4)) and citrate were measured and diet net alkali was calculated., Results: Of the 26 patients, 13 had persistently alkaline urine. In 7/13, U(NH4) (68 +/- 13 mEq/day) and U(SO4) (57 +/- 7 mEq/day) were both high. In 6/13 patients, U(NH4) was the usual 31 +/- 3 mEq/day; in 4/6, U(NH4)/U(SO4) was 0.9 +/- 0.1; the cause of the alkaline urine pH seemed to be a dietary alkali load because the rise in urine pH was episodic and coincided with a high net diet alkali load and peak citrate excretion rates. The remaining two patients had a high U(NH4)/U(SO4) (2.2 and 1.6). Citrate excretion was very low in the male, but not in the female patient., Conclusions: There are heterogeneous causes for a persistently high urine pH. Two of the patients had a possible molecular basis: the lesion could be a low proximal convoluted tubule cell pH in the male and an increased entry of NH(3) into the late distal nephron in the female.

Published

2007

25. Urine calcium excretion predicts bone loss in idiopathic hypercalciuria.

Author

Asplin JR, Donahue S, Kinder J, and Coe FL

Subjects

Absorptiometry, Photon, Adult, Aged, Alkaline Phosphatase blood, Bone Resorption blood, Calcitriol blood, Cohort Studies, Collagen blood, Female, Femur Neck metabolism, Femur Neck physiopathology, Humans, Hydroxyproline blood, Male, Middle Aged, Predictive Value of Tests, Prospective Studies, Quaternary Ammonium Compounds urine, Spine metabolism, Spine physiopathology, Bone Density physiology, Bone Resorption physiopathology, Bone Resorption urine, Bone and Bones metabolism, Bone and Bones physiopathology, Calcium urine

Abstract

Although idiopathic hypercalciuria (IH) is associated with reduced bone mineral density (BMD), no studies to date have identified predictors of BMD change over an extended period of observation. We have studied change in femoral neck and spine BMD z-scores in men and women with IH and stone disease (IHSF) and their first-degree relatives in order to determine the predictive value of commonly made clinical measurements. Urine calcium excretion was inversely correlated with change in femoral neck z-score over 3 years, and marginally correlated with fall in spine z-score. Markers of bone turnover, serum calcitriol, and urine measurements of acid-base balance such as ammonium and sulfate had no predictive value, nor did calcium intake assessed using a well-established questionnaire. It would appear that IHSF with the highest 24-h urine calcium excretion rates are at highest risk for loss of femoral neck bone mineral over a 3-year period.

Published

2006

26. Delayed hypokalemic paralysis following a convulsion due to alcohol abstinence.

Author

Chen WH, Yin HL, Lin HS, Chen SS, and Liu JS

Subjects

Adult, Humans, Male, Middle Aged, Paralysis urine, Potassium urine, Quaternary Ammonium Compounds urine, Alcohol Withdrawal Seizures complications, Hypokalemia complications, Hypokalemia etiology, Paralysis etiology

Abstract

We encountered three patients with hypokalemic paralysis following a convulsion in the early stages of alcohol abstinence. The transtubular potassium gradient was less than 2.0, suggesting intracellular potassium shift. Hypokalaemic paralysis may result from retention of intracellular cationic potassium bound by anionic phosphorylated compounds, precipitated by an acceleration of the (Na+)-(K+) pump in alcohol withdrawal and convulsions. These findings warn of the lethal hypokalemia that may occur after convulsions, particularly soon after alcohol abstinence associated with moderate withdrawal symptoms.

Published

2006

27. The effect of oral protein loading on renal acidification in patients with heart failure.

Author

Frangiosa A, De Santo LS, Saviano C, Anastasio P, Cotrufo M, Capasso G, Adrogue HJ, and De Santo NG

Subjects

Absorption, Adult, Bicarbonates blood, Bicarbonates urine, Blood Gas Analysis, Glomerular Filtration Rate drug effects, Glomerular Filtration Rate physiology, Heart Failure diet therapy, Heart Failure physiopathology, Humans, Hydrogen-Ion Concentration, Kidney Tubules drug effects, Kidney Tubules metabolism, Male, Meat, Middle Aged, Quaternary Ammonium Compounds urine, Sodium urine, Dietary Proteins pharmacokinetics, Heart Failure metabolism

Abstract

Background: The purpose of this study was to explore the renal acid-base response to acute protein load in patients with heart failure (HF). It was prompted by the fact that there are no data available regarding the role of renal tubules in maintaining acid-base balance following protein loading in HF patients., Methods and Results: Nine male patients with HF and 12 healthy subjects (controls) were enrolled in this study. In the HF patients, average blood pH was 7.42 (0.03), average pCO2 was 36.6 mmHg (6.3) and average bicarbonate was 24.2 mmol/L (4.3). The acid-base status of patients was unaffected by meat ingestion. The values at peak glomerular filtration rate (GFR) did not differ significantly from baseline levels. An oral protein load did not influence the urinary pH, titratable acidity (TA) and ammonium excretion in the patients with HF, contrary to the findings in the controls. On the other hand, ammonium excretion in patients with HF reduced significantly compared with values from controls at baseline and following oral protein loading. Filtered and reabsorbed bicarbonate increased significantly in HF patients following meat ingestion, whereas there was no change in absolute and fractional bicarbonate excretion and fractional bicarbonate reabsorbed., Conclusions: This study demonstrated that in patients with HF, bicarbonate reabsorption increases following an oral protein load without a significant enhancement in bicarbonate excretion. The difference can be explained by the presence of respiratory alkalosis leading to bicarbonate conservation.

Published

2005

28. Can birds be ammonotelic? Nitrogen balance and excretion in two frugivores.

Author

Tsahar E, Martínez del Rio C, Izhaki I, and Arad Z

Subjects

Analysis of Variance, Animals, Body Weight, Dietary Proteins metabolism, Drinking, Israel, Passeriformes urine, Species Specificity, Nitrogen urine, Passeriformes physiology, Quaternary Ammonium Compounds urine, Uric Acid urine

Abstract

We measured minimal nitrogen requirements (MNR), total endogenous nitrogen loss (TENL) and the effect of protein and water intake on the nitrogenous waste composition in two frugivorous bird species: yellow-vented bulbuls Pycnonotus xanthopygos and Tristram's grackles Onychognathus tristrami. The nitrogen requirements of both species were much lower than expected for their body mass. The two species differed in the composition of the nitrogenous waste that they produced. The grackles were uricotelic, and the chemical composition of their nitrogenous waste products was relatively independent of water and protein intake. In contrast, the bulbuls were 'apparently ammonotelic'. Their ammonotely was related to low protein intake and high water flux, and was the result of post-renal urine modification. We suggest two non-exclusive mechanisms for the post-renal modification of urine in these birds: bacterial catabolism of uric acid and reabsorption of uric acid in the hindgut. As uric acid functions both as a nitrogenous waste product and as an antioxidant, birds might benefit from its reabsorption.

Published

2005

29. Very low calorie diets and hypokalaemia: the importance of ammonium excretion.

Author

Liu T, Nagami GT, Everett ML, and Levine BS

Subjects

Humans, Male, Middle Aged, Caloric Restriction adverse effects, Hypokalemia etiology, Hypokalemia urine, Quaternary Ammonium Compounds urine

Published

2005

30. [Effect of constant darkness on circadian rhythm of the kidney excretory function in white rats].

Author

Kokoshchuk HI and Kushnir IH

Subjects

Animals, Creatinine urine, Kidney Function Tests, Potassium urine, Quaternary Ammonium Compounds urine, Rats, Rats, Wistar, Sodium urine, Circadian Rhythm physiology, Darkness, Diuresis, Kidney physiology

Abstract

In experiments on White rats was established, that the steady-state darkness during 8 days results in desynchronizes of the circadian rhythms of sodium ions, titrate acids and ammonium excretion with moving from 23.00-2.00 hours to 2.00-14.00 hours.

Published

2005

31. Absorption, excretion, and distribution of dietary antioxidant betalains in LDLs: potential health effects of betalains in humans.

Author

Tesoriere L, Allegra M, Butera D, and Livrea MA

Subjects

Adult, Antioxidants analysis, Area Under Curve, Betacyanins, Betalains, Betaxanthins, Biological Availability, Chromatography, High Pressure Liquid, Female, Humans, Indoles blood, Indoles pharmacokinetics, Indoles urine, Lipoproteins, LDL metabolism, Male, Oxidation-Reduction, Pyridines blood, Pyridines pharmacokinetics, Pyridines urine, Quaternary Ammonium Compounds blood, Quaternary Ammonium Compounds urine, Vitamin E analysis, beta Carotene analysis, Antioxidants pharmacokinetics, Cactaceae chemistry, Lipoproteins, LDL chemistry, Quaternary Ammonium Compounds pharmacokinetics

Abstract

Background: Betalains were recently identified as natural antioxidants. However, little is known about their bioavailability from dietary sources., Objective: The objective was to evaluate the bioavailability of betalains from dietary sources., Design: The plasma kinetics and urinary excretion of betalains were studied in healthy volunteers (n = 8) after a single ingestion of 500 g cactus pear fruit pulp, which provided 28 and 16 mg indicaxanthin and betanin, respectively. The incorporation of betalains in LDL and the resistance of the particles to ex vivo-induced oxidation was also researched., Results: Betanin and indicaxanthin reached their maximum plasma concentrations 3 h after the fruit meal and declined according to first-order kinetics. The half-life of betanin (0.94 +/- 0.07 h) was shorter than that of indicaxanthin (2.36 +/- 0.17 h). Both compounds had disappeared from plasma by 12 h after intake. The urinary excretion of indicaxanthin and betanin over 12 h represented 76 +/- 3.0% and 3.7 +/- 0.2%, respectively, of the ingested compounds. LDL isolated 3 and 5 h after the fruit meal incorporated betalains at concentrations of 100.5 +/- 11 and 50 +/- 7.2 pmol/mg LDL protein, respectively. In addition, the particles appeared more resistant to ex vivo-induced oxidative injury than did the samples isolated before fruit ingestion (P < 0.05)-the higher the amount of betalains incorporated, the higher the resistance. The concentrations of vitamin E and beta-carotene in LDL did not change significantly after fruit ingestion., Conclusion: Our results show that cactus pear fruit is a source of bioavailable betalains and suggest that indicaxanthin and betanin may be involved in the observed protection of LDL against ex vivo-induced oxidative modifications.

Published

2004

32. Dogmas and controversies in the handling of nitrogenous wastes: excretion of nitrogenous wastes in human subjects.

Author

Kamel KS, Cheema-Dhadli S, Shafiee MA, and Halperin ML

Subjects

Calcium urine, Humans, Hydrogen-Ion Concentration, Kidney Medulla metabolism, Kidney Medulla physiology, Oxalates urine, Urinary Calculi metabolism, Vasopressins metabolism, Models, Biological, Quaternary Ammonium Compounds metabolism, Quaternary Ammonium Compounds urine, Urea metabolism, Urea urine

Abstract

Two major nitrogenous waste products, urea and ammonium (NH(4)(+)), are produced in humans when proteins are oxidized, and in this manuscript their excretions are examined from two perspectives. First, the specific physiology of each nitrogenous waste is reviewed and the current dogmas summarized. Second, their excretions are considered in the context of integrative physiology, i.e. the need to ensure that the urine composition is appropriate to minimize the risk of kidney stone formation. After the latter analysis, weak links in our understanding of the overall physiology become apparent and a conundrum is defined. The conundrum for the excretion of urea focuses on the fact that urea is not an effective osmole in the medullary-collecting duct when vasopressin acts. As a result, it appears that urinary urea cannot prevent a large decline in the urine flow rate and thereby minimize the risk of forming kidney stones in electrolyte-poor urine. The conundrum for the excretion of NH(4)(+) is: high rates of NH(4)(+) excretion require a low urine pH, yet a pH approximately 6.0 must be maintained in order to reduce the risk of precipitating uric acid in the urine. Possible ways of resolving these conundrums require novel physiological interpretations.

Published

2004

33. The metabolic syndrome and uric acid nephrolithiasis: novel features of renal manifestation of insulin resistance.

Author

Abate N, Chandalia M, Cabo-Chan AV Jr, Moe OW, and Sakhaee K

Subjects

Acids urine, Adult, Female, Humans, Hydrogen-Ion Concentration, Hyperinsulinism metabolism, Hyperinsulinism pathology, Male, Middle Aged, Quaternary Ammonium Compounds urine, Uric Acid metabolism, Insulin Resistance, Kidney Calculi metabolism, Kidney Calculi pathology, Metabolic Syndrome metabolism, Metabolic Syndrome pathology

Abstract

Background: Uric acid nephrolithiasis primarily results from low urinary pH, which increases the concentration of the insoluble undissociated uric acid, causing formation of both uric acid and mixed uric acid/calcium oxalate stones. These patients have recently been described as exhibiting features of insulin resistance. This study was designed to evaluate if insulin resistance is associated with excessively low urinary pH in overtly healthy volunteers (non-stone formers) and if insulin resistance may explain the excessively low urinary pH in patients with uric acid nephrolithiasis., Methods: Fifty-five healthy volunteers (non stone-formers) with a large range of body mass index and 13 patients with recurrent uric acid nephrolithiasis underwent hyperinsulinemic euglycemic clamp, 24-hour urinary studies, and anthropometric measurements of adiposity. A subgroup of 35 non-stone formers had 2-hour timed urinary collection before and during the hyperinsulinemic phase of the clamp studies., Results: For the non-stone former population, low insulin sensitivity measured as glucose disposal rate significantly correlated with low 24-hour urinary pH (r= 0. 35; P= 0.01). In addition to the previously described acidic urine pH and hypouricosuria, patients with recurrent uric acid nephrolithiasis were found to be severely insulin resistant (glucose disposal rate: uric acid stone-formers vs. normals; 4.1 +/- 1.3 vs. 6.9 +/- 2.1 mg/min/kg of lean body mass, P= 0.008). Acute hyperinsulinemia was associated with higher urinary pH (6.1 +/- 0.7 at baseline to 6.8 +/- 0.7 during hyperinsulinemia; P < 0.0001), urinary ammonia excretion (2.7 +/- 1.6 mEq/2 hr at baseline and 4.0 +/- 2.6 mEq/2 hr P= 0.002) and urinary citrate excretion (48 +/- 33 mg/2 hr at baseline and 113 +/- 68 mg/2 hr P < 0.0001)., Conclusion: We conclude that one renal manifestation of insulin resistance may be low urinary ammonium and pH. This defect can result in increased risk of uric acid precipitation despite normouricosuria.

Published

2004

34. Toxicity and carcinogenicity of acidogenic or alkalogenic diets in rats; effects of feeding NH(4)Cl, KHCO(3) or KCl.

Author

Lina BA and Kuijpers MH

Subjects

Acid-Base Equilibrium drug effects, Animals, Bicarbonates urine, Blood Gas Analysis, Bone and Bones chemistry, Bone and Bones metabolism, Calcium metabolism, Carcinogenicity Tests, Drinking drug effects, Eating drug effects, Feces chemistry, Growth drug effects, Hydrogen-Ion Concentration, Male, Neoplasms epidemiology, Neoplasms pathology, Organ Size drug effects, Phosphorus metabolism, Quaternary Ammonium Compounds urine, Rats, Rats, Wistar, Sex Characteristics, Ammonium Chloride toxicity, Bicarbonates toxicity, Carcinogens toxicity, Diet, Potassium Chloride toxicity, Potassium Compounds toxicity

Abstract

The effects of diet-induced acid-base disturbances were examined in 4-week, 13-week and 18-month toxicity studies, and in a 30-month carcinogenicity study. Rats were fed a natural ingredient diet (controls), supplemented with 2% or 4% KHCO(3) (base-forming diets), or with 1% or 2.1% NH(4)Cl (acid-forming diets). Additional controls were fed 3% KCl (neutral diet providing K(+) and Cl(-) in amounts equimolar to those in the 4% KHCO(3) diet and the 2.1% NH(4)Cl diet, respectively). NH(4)Cl induced the expected metabolic acidosis, as shown by decreased base excess in blood, decreased urinary pH and increased urinary net acid excretion. KHCO(3) induced the opposite effects. KCl did not affect the acid-base balance. Clinical condition and death rate were not affected. The feeding of high levels of each salt resulted in growth retardation and increased water intake and urinary volume. Plasma potassium and urinary potassium excretion were increased with KHCO(3) and KCl. Plasma chloride was increased with NH(4)Cl, but not with KCl. Urinary calcium and phosphate excretion were increased with NH(4)Cl, but there were no indications that bone minerals were involved (weight, calcium content and fat free solid of the femur were not affected). Standard haematological and clinical chemistry parameters were not affected. Kidney weights were increased with 2.1% NH(4)Cl. Hypertrophy of the adrenal zona glomerulosa occurred with KHCO(3), KCl and NH(4)Cl, due to chronic stimulation of the adrenal cortex by either K(+) or by NH(4)Cl-induced acidosis. An early onset (from week 13) of oncocytic tubules was noted in the kidneys of rats fed KHCO(3) and, after 30 months, the incidence of this lesion was much higher than the background incidence in ageing controls. No progression to oncocytomas was noted. KCl showed only slight effects on the early onset of oncocytic tubules (from 18 months). In contrast, the severity of nephrosis and the incidence of oncocytic tubules were decreased with 2.1% NH(4)Cl, suggesting a protective effect of acidosis. The feeding of KHCO(3) resulted in hyperplasia, papillomas and carcinomas of the urinary bladder. With KCl only a slight increase in proliferative urothelial lesions was noted. Apart from these (pre-)neoplastic lesions in the urinary bladder there were no treatment-related differences in tumour response among the groups. We concluded that most of the observed changes represent physiological adaptations to the feeding of acid- or base-forming salts. Remarkable effects noted with KHCO(3), and to a far lesser extent with KCl, consisted of renal oncocytic tubules and (pre-)neoplastic lesions of the urinary bladder epithelium. NH(4)Cl-induced chronic metabolic acidosis was not associated with dissolution of alkaline bone salts in rats. Finally, a protective effect of chronic acidosis on tumour development was not found.

Published

2004

35. Long-term regulation of ENaC expression in kidney by angiotensin II.

Author

Beutler KT, Masilamani S, Turban S, Nielsen J, Brooks HL, Ageloff S, Fenton RA, Packer RK, and Knepper MA

Subjects

Angiotensin Receptor Antagonists, Animals, Benzimidazoles pharmacology, Benzothiadiazines, Bicarbonates blood, Biphenyl Compounds, Diuretics, Epithelial Sodium Channels, Gene Expression Regulation drug effects, Immunoblotting, Infusion Pumps, Injections, Subcutaneous, Kidney metabolism, Kidney Cortex drug effects, Kidney Cortex metabolism, Kidney Medulla drug effects, Kidney Medulla metabolism, Kidney Tubules, Distal drug effects, Kidney Tubules, Distal metabolism, Male, Mineralocorticoid Receptor Antagonists pharmacology, Potassium urine, Protein Subunits genetics, Protein Subunits metabolism, Quaternary Ammonium Compounds urine, RNA, Messenger drug effects, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Sodium Channels genetics, Sodium Chloride Symporter Inhibitors pharmacology, Sodium Chloride Symporters, Sodium Chloride, Dietary administration & dosage, Spironolactone pharmacology, Symporters metabolism, Tetrazoles pharmacology, Time Factors, Angiotensin II pharmacology, Kidney drug effects, Sodium Channels metabolism

Abstract

We carried out semiquantitative immunoblotting of kidney to identify apical sodium transporter proteins whose abundances are regulated by angiotensin II. In NaCl-restricted rats (0.5 mEq Na/200 g BW/d), the type 1 angiotensin II receptor (AT1 receptor) antagonist, candesartan, (1 mg/kg of body weight per day SC for 2 days) markedly decreased the abundance of the alpha subunit of the epithelial sodium channel (ENaC). This subunit has been shown to be rate-limiting for assembly of mature ENaC complexes. In addition, systemic infusion of angiotensin II increased alphaENaC protein abundance in rat kidney cortex. The decrease in alphaENaC protein abundance in response to AT1 receptor blockade was associated with a fall in alphaENaC mRNA abundance (real-time RT-PCR), consistent with transcriptionally mediated regulation. The effect of AT1 receptor blockade on alphaENaC expression was not blocked by spironolactone, suggesting a direct role of the AT1 receptor in regulation of alphaENaC gene expression. Candesartan administration was also found to increase the abundances of the beta and gamma subunits. The increase in beta and gammaENaC protein abundance was not associated with a significant increase in the renal abundances of the corresponding mRNAs, suggesting a posttranscriptional mechanism. Immunocytochemistry confirmed the increase in beta and gammaENaC protein abundance and demonstrated candesartan-induced ENaC internalization in collecting duct cells. The results support the view that the angiotensin II receptor regulates ENaC abundance, consistent with a role for angiotensin II in regulation of collecting duct function.

Published

2003

36. Bone mineral density and urine calcium excretion among subjects with and without nephrolithiasis.

Author

Asplin JR, Bauer KA, Kinder J, Müller G, Coe BJ, Parks JH, and Coe FL

Subjects

Adult, Aged, Calcium, Dietary administration & dosage, Case-Control Studies, Femur Neck metabolism, Humans, Kidney Calculi urine, Middle Aged, Quaternary Ammonium Compounds urine, Spine metabolism, Bone Density, Calcium urine, Kidney Calculi metabolism

Abstract

Background: Bone mineral density (BMD) is reduced among patients with idiopathic hypercalciuria (IH) and nephrolithiasis. To disentangle effects of diet, stone formation, and physiology upon BMD, we studied vertebral and femoral neck BMD among relatives of hypercalciuric stone formers, and contrasted those with to those without stones., Methods: Among 59 subjects from 11 families, vertebral and femoral neck BMD, diet calcium intake, urine excretions of calcium, sodium, ammonium, titratable acid, sulfate, urea nitrogen, and serum levels of calcitriol and markers of bone turnover were studied., Results: Stone formers (SF) consumed less calcium than non-stone formers (NSF). Spine and femoral neck BMD z-scores varied inversely with urine calcium loss and urine ammonium excretion among SF but not NSF. No correlations of BMD z-score were found for bone markers, calcitriol, or any of the other measurements., Conclusion: SF consumed less calcium, presumably to prevent more stones, and displayed a bone mineral responsiveness to calcium loss and ammonium excretion not present among NSF, who ate more calcium. Lowered calcium consumption in IH, perhaps in response to stone formation, alters bone responses in a direction that can predispose to mineral loss and eventual fracture.

Published

2003

37. 1,3-dialkylimidazolium-based room-temperature ionic liquids as background electrolyte and coating material in aqueous capillary electrophoresis.

Author

Qin W, Weih H, and Li SF

Subjects

Humans, Ions, Metals analysis, Quaternary Ammonium Compounds urine, Wine analysis, Electrolytes chemistry, Electrophoresis, Capillary methods, Imidazoles chemistry

Abstract

The 1-ethyl-3-methylimidazolium (EMIM) cation was found to have constant mobility of 4.5 x 10(-4) cm2 V(-1) s(-1) over the pH range of 3 to 11. The electroosmotic flow of bare silica capillary was reversed by the covalently bonded room-temperature ionic liquid (RTIL) coating. With run buffer of 5 mM EMIM (pH 8.5), NH4+ in human urine was separated from the K+ matrix and was detected to be 0.37 +/- 0.012%. K+, Na+, Li+, Ca2+, Mg2+ and Ba2+ were baseline separated in RTIL-coated capillary with run buffer of 10 mM EMIMOH-acetic acid at pH 5, and the concentration of the above ions in a red wine were detected to be 907, 27.9, 0, 71.0, 83.4 and 31.1 microg/ml, respectively. The RTIL-coated capillary showed stable electroosmotic flow for at least 80 h in the run buffer.

Published

2003

38. Urinary acidification in extremely low birth weight infants.

Author

Sato T, Takahashi N, Komatsu Y, Wada M, Matsunaga M, Ito K, Uchiyama M, and Nishida H

Subjects

Acidosis drug therapy, Bicarbonates urine, Gestational Age, Humans, Hydrogen-Ion Concentration, Infant, Newborn, Infant, Very Low Birth Weight blood, Infusions, Intravenous, Quaternary Ammonium Compounds urine, Sodium Bicarbonate administration & dosage, Sodium Bicarbonate therapeutic use, Acidosis urine, Infant, Premature, Infant, Very Low Birth Weight urine

Abstract

Premature infants often present metabolic acidosis without protein load in the early neonatal period, around days 4-6. In order to elucidate the cause of acidosis, we investigated urinary acidification of infants in the early neonatal period. Urine pH, fractional excretion of HCO(3)(-) (FEHCO(3)), excretion of HCO(3)(-) and NH(4)(+) of the appropriate-for-date infants were measured on days 0-2 and on days 4-6 of life. Extremely low birth weight (ELBW) infants showed higher urine pH than more than 1500 g birth weight infants. FEHCO(3) and HCO(3)(-) excretion were of high values in ELBW infants on days 0-2, but decreased on days 4-6. Urine NH(4)(+) excretion rate was lower in ELBW infants than in birth weight more than 1000 g on days 0-2 of life and still remained at a low rate on days 4-6. These data indicated that insufficiency of NH(4)(+) excretion is the main cause for metabolic acidosis of ELBW infants in the early neonatal period.

Published

2002

39. Effect of fasting for two days on the excretion of ammonium in dogs with chronic metabolic acidosis.

Author

Halperin ML, Cheema-Dhadli S, and Chen CB

Subjects

Animals, Chronic Disease, Dogs, Acidosis urine, Fasting, Quaternary Ammonium Compounds urine

Abstract

Background: The source of glutamine for renal ammonium production is ultimately dietary protein in the fed state and body proteins in fasting., Objective: Our objective was to determine if less NH(+)(4) would be excreted by fasted dogs with chronic metabolic acidosis resulting in conservation of lean body mass., Methods: Acid-loaded fed and fasted dogs were given 10 mmol NH(4)Cl/kg for 5 days; the fasted group had food withheld on days 4 and 5., Results: The renal production of NH(+)(4) was not significantly different in both acid-loaded groups, yet the rate of NH(+)(4) excretion was significantly lower in the fasted dogs (8 vs. 21 mmol NH(+)(4)/mmol creatinine). The urine pH was significantly higher (6.0 versus 5.5) while titratable acid and the urine flow rate were significantly lower in these fasted dogs. Despite nearly equal urine flow rates and Na(+) excretion rates after an infusion of saline, the fasted dogs failed to increase the rate of excretion of NH(+)(4) to rates seen in the fed group., Conclusions: The lower rate of excretion of NH(+)(4) in fasted, acidotic dogs appeared to be due to a lower distal H(+) secretion. This may help preserve lean body mass during fasting., (Copyright 2002 S. Karger AG, Basel)

Published

2002

40. Exhaled NH3 and excreted Nh4+ in children in unpolluted or urban environments.

Author

Giroux M, Brémont F, Salles JP, Rey E, Della Massa JP, and Ferrières J

Subjects

Breath Tests, Case-Control Studies, Child, Environmental Monitoring methods, Female, France, Humans, Luminescent Measurements, Male, Nitric Oxide metabolism, Osmolar Concentration, Potassium urine, Rural Health, Sodium urine, Spirometry, Urban Health, Urea urine, Air Pollutants metabolism, Ammonia metabolism, Asthma metabolism, Quaternary Ammonium Compounds urine

Abstract

Exhaled ammonia (NH3ex) was measured by chemiluminescence in a group of healthy children (n = 20) and in two groups of asthmatic children, one (Group 1) residing in a National Park in the mountains (n = 68) and other (Group 2) in an urban area (n = 52). We also determined urinary ammonia, nitrates, urea, sodium and potassium normalized to osmolarity. Unlike exhaled nitric oxide (NOex), NH3ex was not specific to asthma as the children in Group 2 and the controls exhaled more ammonia that did the children in Group 1 (14.3 +/- 10.2 and 14.8 +/- 10.3 vs. 5.6 +/- 4.7 ppb; P < .001, respectively). In the urban environment, all children, including the healthy controls, excreted more ammonia (P < .001) and potassium (P < .001) but less urea (P < .02) than did the children residing in the National Park. These manifestations of moderate metabolic acidosis would favor excretion of ammonia at the expense of urea. In the children residing in the National Park, positive correlations were observed between NH3ex and urinary ammonia, and nitrates, age and morphological parameters. The relationship with the morphological parameters is a reflection of the normal physiological formation of NH3ex. In the children residing in the urban area, the other endogenous source of NH3ex was attributed to a slight disturbance in acid-base balance. In conclusion, the measurement of NH3ex appeared of limited interest, although the higher urinary urea/NH4+ ratio in Group 1 (P < .0001), especially in the treated children, appeared to be linked to the lack of atmospheric pollutants in the National Park. Further experimentation is in progress to confirm these findings.

Published

2002

41. Influence of cations and total protein of urine on the solubility and probability of urate stone formation in kidneys.

Author

Bilobrov VM, Bogdan NM, Bilobrov SV, and Roy A

Subjects

Cations, Humans, Proteinuria metabolism, Quaternary Ammonium Compounds urine, Solubility, Kidney Calculi chemistry, Uric Acid urine

Abstract

The solubility of uric acid kidney stones has been studied in water solutions containing ammonium ions, alkaline ions and alkaline earth metals. It was shown that the solubility of uric acid stones depends on the concentration of these cations. The shape of the dependence curve of uric acid stone solubility in solutions containing cations of ammonium, sodium, potassium, calcium and magnesium has an extreme character. It was shown that a maximal balanced solubility of stones occurs in solutions in which the concentrations and ratios of the cations concentrations are equal to their 'normal' value in the urine of healthy persons. The solubility dependence of stones on ammonium ions does not show any extreme and is well approximated with the exponent. Correlation analysis of the above-mentioned cations and also of total protein in urine was carried out in healthy people and patients with uric acid stones. The relationship was determined between the concentrations of cations and total protein in urine, and the formation of uric acid stones in human kidneys., (Copyright 2002 S. Karger AG, Basel)

Published

2002

42. Influence of nutrition on acid-base balance--metabolic aspects.

Author

Remer T

Subjects

Adult, Child, Diet, Dietary Proteins administration & dosage, Female, Humans, Hydrogen-Ion Concentration, Kidney, Male, Models, Biological, Quaternary Ammonium Compounds urine, Acid-Base Equilibrium, Nutritional Physiological Phenomena

Abstract

Background: Nutrition has long been known to strongly influence acid-base balance. Recently, we have shown that it is possible to appropriately estimate the renal net acid excretion (NAE) of healthy subjects from the composition of their diets., Aim of the Study: 1) To briefly present a physiologically based calculation model that allows a reasonable estimation of the analytically determined urinary NAE, 2) to summarize the underlying metabolic mechanisms and 3) to study the specific effect of protein on ammoniagenesis which may counteract, to a small degree, the primary acid load-increasing potential of protein., Methods: The calculation model and the algorithm for predicting the dietary acid load are summarized, major metabolic (and intestinal) pathways of acid and base equivalents are explained, and urinary excretion rates of ammonium and NAE were specifically examined with special regard to the respective protein intake levels. For the latter examinations, data from diet experiments in adults and epidemiological data from children (protein intake; NAE, pH, and ammonium excretion in 24-h urine samples) were analyzed., Results: The paper shows that the diet-induced generation of acidity and alkalinity is not only determined by the metabolism (oxidation) of sulfur-containing amino acids and organic acid anions of alkali salts, respectively. The intestine is also directly involved in the generation of food-derived acid or alkali loads which is due to the considerably different intestinal absorption rates of relevant food components, i. e., protein and minerals. Further analyses of the interrelation between diet and acid-base status revealed that increasing protein intake (despite its potential to increase NAE) also significantly improves the capacity for renal net acid excretion by stimulating urinary ammonium excretion., Conclusion: An adequate concept to estimate renal NAE and potential renal acid loads from dietary intakes must consider the specific bioavailability of the individual nutrients. Furthermore, an increased protein intake does not necessarily result in an accordingly increased use of endogenous acid excretion capacity for two reasons: 1) additional alkali loads in an appropriately composed diet can compensate for the protein-related raised acid production and 2) protein itself moderately improves the renal capacity to excrete net acid by increasing the endogenous supply of ammonia which is the major urinary hydrogen ion acceptor.

Published

2001

43. Biochemical profile of idiopathic uric acid nephrolithiasis.

Author

Pak CY, Sakhaee K, Peterson RD, Poindexter JR, and Frawley WH

Subjects

Adult, Female, Gout blood, Gout urine, Humans, Hydrogen-Ion Concentration, Hypertriglyceridemia blood, Hypertriglyceridemia urine, Kidney Calculi blood, Male, Middle Aged, Quaternary Ammonium Compounds urine, Uric Acid blood, Kidney Calculi chemistry, Kidney Calculi urine, Uric Acid urine

Abstract

Background: The objective of this study was to elucidate a biochemical profile of patients with idiopathic uric acid nephrolithiasis, without secondary causes (such as dehydration or diarrhea). Study subjects comprised 56 patients with idiopathic uric acid nephrolithiasis (UA stone group) who underwent a full outpatient evaluation. The control group was composed of 54 with absorptive hypercalciuria and 2 normal subjects, matched with the UA stone group according to age, body mass index, and gender., Methods: Urinary pH and ammonium and serum and urinary uric acid were measured. The fractional excretion of urate was calculated., Results: Compared with the control group, the UA stone group had a significantly higher serum uric acid and significantly lower urinary uric acid, pH (5.34 +/- 0.23 vs. 6.17 +/- 0.36, P < 0.001), and fractional excretion of urate (0.052 +/- 0.028 vs. 0.080 +/- 0.029, P < 0.001), but individual values overlapped considerably between the two groups. Discriminant analysis of the relationship between urinary pH and fractional excretion of urate yielded a "discriminant score," which provided a much better separation between the two groups, with a correct classification in 95.5% of subjects. In contrast, urinary ammonium, citrate, sulfate, and potassium did not differ between two groups., Conclusions: In idiopathic uric acid nephrolithiasis, urinary pH and fractional excretion of urate are significantly lower than in control subjects, suggestive of defects in urinary acidification and urate excretion. Since these impairments are believed to be associated with primary gout, the underlying disturbance in idiopathic uric acid nephrolithiasis may be primary gout.

Published

2001

44. Analyses of quaternary ammonium drugs in horse urine by capillary electrophoresis-mass spectrometry.

Author

Tang FP, Leung GN, and Wan TS

Subjects

Animals, Cholinergic Antagonists urine, Chromatography, Liquid methods, Doping in Sports, Glycopyrrolate urine, Ipratropium urine, Male, Reproducibility of Results, Electrophoresis, Capillary methods, Horses urine, Quaternary Ammonium Compounds urine, Spectrometry, Mass, Electrospray Ionization methods

Abstract

A capillary electrophoresis-mass spectrometry (CE-MS) method for the analysis of quaternary ammonium drugs in equine urine was developed. Quaternary ammonium drugs were first extracted from equine urine by ion-pair extraction and then analysed by CE-MS in the positive electrospray ionization (ESI) mode. Within 12 min, eight quaternary ammonium drugs, each at 1 ng/mL in horse urine, could be detected. The confirmation of these drugs in urine samples was achieved by capillary electrophoresis tandem mass spectrometry (CE-MS/MS). A direct comparison of this method was made with existing liquid chromatography/mass spectrometry (LC-MS) methods in the detection and confirmation of glycopyrrolate and ipratropium bromide in horse urine. While the two drugs could be detected within the same CE-MS run at 1 ng/mL in urine, they could only be detected in separate LC-MS runs at 5 ng/mL in urine. In addition, CE-MS consumed a much smaller volume of extract; the analyte peak widths, in some cases, were much narrower; and as the quaternary ammonium ions were well separated electrophoretically from the mainly neutral urine matrix, a much cleaner background in the CE-MS total ion trace was observed.

Published

2001

45. [Functional furosemide loading test. Practical use in children with kidney diseases].

Author

Arkhipov VV, Papaian AV, Rivkin AM, and Levicheva OV

Subjects

Adolescent, Child, Child, Preschool, Diuresis, Humans, Hydrogen-Ion Concentration, Infant, Kidney Diseases physiopathology, Kidney Diseases urine, Kidney Function Tests, Quaternary Ammonium Compounds urine, Titrimetry, Diuretics, Furosemide, Kidney Diseases diagnosis

Abstract

Diuretic and aciduretic reactions were compared in healthy children and children with various renal diseases using furosemide loading test. Diuresis, urinary pH, urinary excretion of titered acids and ammonium, and ammonium coefficient were evaluated in healthy controls, patients with chronic and acute renal insufficiency, convalescents after acute renal insufficiency and acute postinfection glomerulonephritis, patients with chronic pyelonephritis, interstitial nephritis, lipoid nephrosis, hematuric chronic glomerulonephritis, and patients with a solitary kidney. Diuresis, urinary pH, ammonium excretion, and ammonium coefficient are proposed as the main test parameters. Patients with the distal tubular acidosis syndrome formed a special group by the results of urinary pH measurements during the third hour of furosemide action. The test helps evaluate the severity of disease and predict its course.

Published

2001

46. Urinary acid-base excretion in normotensives and hypertensives of african origin.

Author

Miller MA, Sagnella GA, Khong T, Markandu ND, and MacGregor GA

Subjects

Adult, Aged, Black People, Body Mass Index, Female, Humans, Hydrogen-Ion Concentration, Hypertension ethnology, Male, Middle Aged, Sodium urine, Hypertension urine, Quaternary Ammonium Compounds urine

Abstract

Abnormalities in acid-base regulation have previously been reported both in hypertensive humans and animals and a link between abnormalities in renal sodium handling and acid excretion may be particularly important in black hypertensives. The objectives of this study were to compare indices of urinary acid excretion (urinary pH, ammonium and titratable acid excretion) between normotensives and hypertensive people of African origin. Measurements were carried out in 86 black individuals of African origin in a case-control design (19 normotensive; 67 hypertensive). Of these, 17 normotensive and 17 patients with essential hypertension were matched for age, sex and weight. Group comparisons were carried out by unpaired t-tests or two-way analysis of variance and group values are given as means +/- s.d. Urinary pH was significantly higher in the hypertensives both in the unmatched groups and in the matched groups. In the 17 matched pairs: urinary pH in the hypertensive individuals was 6.36 +/- 0.54 and 5.84 +/- 0. 53 in the normotensives, respectively; P = 0.007. Additionally, urinary titratable acidity was significantly lower in the hypertensives than in the normotensives (25.4 +/- 13.7 vs16.7 +/- 10. 7 mmol/24 h; P = 0.047) but there were no significant differences in urinary ammonium excretion. The mechanisms for the apparent reduction in acid excretion in the hypertensives is not clear but these results highlight the possibility that hypertension in blacks is associated with abnormalities of renal sodium and hydrogen exchange with compensatory increases in renal ammonium production.

Published

2000

47. Transtubular potassium concentration gradient (TTKG) and urine ammonium in differential diagnosis of hypokalemia.

Author

Joo KW, Chang SH, Lee JG, Na KY, Kim YS, Ahn C, Han JS, Kim S, and Lee JS

Subjects

Diagnosis, Differential, Humans, Hypokalemia diagnosis, Hypokalemia metabolism, Kidney Tubules metabolism, Potassium metabolism, Quaternary Ammonium Compounds urine

Abstract

Background: Hypokalemia is a common and sometimes serious clinical problem, whose etiological diagnosis can frequently be based on the patient's history and the clinical setting. Measurement of urinary indices such as excretory rate of K+, random urine K+ concentrations and blood acid-base parameters have been employed in the pathophysiological diagnosis, though with some pitfalls., Methods: To investigate the diagnostic usefulness of the transtubular potassium concentration gradient (TTKG) and urine ammonium in the differentiation of hypokalemia, we measured serum K+ and osmolality, random urine electrolytes, osmolality and ammonium, the urinary [Na]/[K] ratio (U(Na)/K), plasma aldosterone and TTKG in 7 patients with diarrhea, 6 with vomiting, 7 with mineralocorticoid excess, 6 with diuretic usage, and compared them with those of 7 overnight fasted and acid-loaded healthy volunteers., Results: The urine K+ concentrations did not reflect urinary loss of potassium according to the subjects' hydration status. U(Na)/k in the hypokalemic patients with mineralocorticoid excess (1.4 +/- 0.5) was lower than in normal subjects (2.3 +/- 0.4) (p<0.05). TTKG was higher in hypokalemic patients with mineralocorticoid excess (13.3 +/- 4.4) and diuretic usage (8.6 +/- 1.3) and lower in those with diarrhea (1.6 +/- 0.3) than in the normal controls (5.0 +/- 0.7) (p<0.5). TTKG in the patients with vomiting (3.5 +/- 0.6) was the same as in normal controls. TTKG was stronger correlated with the plasma aldosterone levels in the hypokalemic patients due to renal potassium loss. Urine ammonium concentrations of the acid-loaded normal subjects (73.3 +/- 5.0 mEq/L), patients with diarrhea (74.4 +/- 2.0 mEq/L) and patients with mineralocorticoid excess (68.7 +/- 6.9 mEq/L) were higher than in overnight-fasted normal subjects (31.3 +/- 4.9 mEq/L)., Conclusion: TTKG and random urine ammonium were useful in the pathophysiological differential diagnosis of hypokalemia.

Published

2000

48. The biochemical functions of the renal tubules and glomeruli in the course of intrahepatic cholestasis in pregnancy.

Author

Smolarczyk R, Wójcicka-Jagodzińska J, Piekarski P, Romejko E, and Czajkowski K

Subjects

Adult, Amino Acids metabolism, Carbonic Acid metabolism, Creatinine blood, Creatinine urine, Female, Humans, Hydrogen-Ion Concentration, Metabolic Clearance Rate, Potassium urine, Pregnancy, Quaternary Ammonium Compounds urine, Serum Albumin analysis, Sodium urine, Uric Acid blood, Urine, Cholestasis, Intrahepatic physiopathology, Kidney Glomerulus physiopathology, Kidney Tubules physiopathology, Pregnancy Complications physiopathology

Abstract

Biochemical functions of kidney glomeruli and tubules were estimated in pregnancy complicated by cholestasis. The investigated group consisted of 72 women with pregnancy complicated by cholestasis and 30 healthy pregnant patients as a control group. Biochemical assays were performed for the deamination of amino acids, carbonic acid dissociation and creatinine metabolism. Statistical analysis was carried out using the t-test and P<0.05 was considered to be significant. In diurnal urine samples collected from pregnant patients with cholestasis, decreased concentrations of NH4+ (42.0+/-8.9 versus 50.3+/-7.6 mmol/24 h), H+ (19.0+/-7.0 versus 25.0+/-5.0 mmol/24 h), creatinine (1.15+/-0.2 versus 1.43+/-0.3 mmol/24 h) as well as lower levels of creatinine clearance (89.0+/-23.0 versus 135.0+/-30.0 ml/min) and normal levels of potassium and sodium were observed. Serum creatinine and uric acid concentrations were elevated (86.6+/-7.07 versus 66.3+/-4.42 micromol/l and 32.1+/-8.3 versus 19.0+/-3.57 micromol/l). Diurnal urine volume was lower in patients with cholestasis than in the control group (995+/-313 versus 1264+/-426 ml/24 h). Disturbances of biochemical functions of kidney glomeruli and tubules, regarding creatinine metabolism and deamination of amino acids, and dissociation of carbonic acid, were seen in patients with cholestasis during pregnancy.

Published

2000

49. Calcium phosphate supersaturation regulates stone formation in genetic hypercalciuric stone-forming rats.

Author

Bushinsky DA, Parker WR, and Asplin JR

Subjects

Animals, Calcium Oxalate urine, Citric Acid urine, Diet, Female, Hydrogen-Ion Concentration, Kidney diagnostic imaging, Kidney Calculi diet therapy, Male, Phosphorus, Dietary metabolism, Phosphorus, Dietary pharmacology, Quaternary Ammonium Compounds urine, Radiography, Rats, Rats, Sprague-Dawley, Solubility, Calcium Phosphates urine, Kidney Calculi genetics, Kidney Calculi metabolism

Abstract

Background: Hypercalciuria is the most common metabolic abnormality observed in patients with nephrolithiasis. Hypercalciuria raises urine supersaturation with respect to the solid phases of calcium oxalate and calcium phosphate, leading to an enhanced probability for nucleation and growth of crystals into clinically significant stones. However, there is little direct proof that supersaturation itself regulates stone formation. Through successive inbreeding of the most hypercalciuric progeny of hypercalciuric Sprague-Dawley rats, we have established a strain of rats, each of which excrete abnormally large amounts of urinary calcium and each of which forms calcium phosphate kidney stones. We used these hypercalciuric (GHS) rats to test the hypothesis that an isolated reduction in urine supersaturation, achieved by decreasing urine phosphorus excretion, would decrease stone formation in these rats., Methods: Thirty 44th-generation female GHS rats were randomly divided into three groups. Ten rats received a high-phosphorus diet (0.565% phosphorus), 10 a medium-phosphorus diet (0.395% phosphorus), and 10 a low-phosphorus diet (0.225% phosphorus) for a total of 18 weeks. The lowered dietary phosphorus would be expected to result in a decrease in urine phosphorus excretion and a decrease in urinary supersaturation with respect to the calcium phosphate solid phase. Every two weeks, 24-hour urine collections were obtained. All relevant ions were measured, and supersaturation with respect to calcium oxalate and calcium hydrogen phosphate were determined. At the conclusion of the experiment, each rat was killed, and the kidneys, ureters, and bladder were dissected en block and x-rayed to determine whether any stones formed. A decrease in stone formation with a reduction in urinary supersaturation would support the hypothesis that supersaturation alone can regulate stone formation., Results: Decreasing the dietary phosphorus intake led to a progressive decrease in urine phosphorus excretion and an increase in urine calcium excretion, the latter presumably caused by decreased intestinal calcium phosphate binding and increased calcium absorption. With decreasing dietary phosphorus intake, there was a progressive decrease in saturation with respect to the calcium phosphate solid phase. Fifteen of the 20 kidneys from the 10 rats fed the high-phosphorus diet had radiographic evidence of kidney stone formation, whereas no kidneys from the rats fed either the medium- or low-phosphorus diet developed kidney stones., Conclusions: A decrease in urine phosphorus excretion not only led to a decrease in urine supersaturation with respect to the calcium phosphate solid phase but to an elimination of renal stone formation. The results of this study support the hypothesis that variation in supersaturation alone can regulate renal stone formation. Whether a reduction of dietary phosphorus will alter stone formation in humans with calcium phosphate nephrolithiasis remains to be determined.

Published

2000

50. NaHCO(3) and KHCO(3) ingestion rapidly increases renal electrolyte excretion in humans.

Author

Lindinger MI, Franklin TW, Lands LC, Pedersen PK, Welsh DG, and Heigenhauser GJ

Subjects

Acid-Base Equilibrium drug effects, Acids blood, Acids urine, Administration, Oral, Adult, Aldosterone blood, Alkalies blood, Bicarbonates administration & dosage, Calcium urine, Electrolytes urine, Glomerular Filtration Rate drug effects, Humans, Hydrogen-Ion Concentration, Kidney physiology, Lactates urine, Male, Potassium urine, Potassium Compounds administration & dosage, Quaternary Ammonium Compounds urine, Sodium urine, Sodium Bicarbonate administration & dosage, Urination drug effects, Urodynamics drug effects, Water-Electrolyte Balance drug effects, Bicarbonates pharmacology, Kidney drug effects, Potassium Compounds pharmacology, Sodium Bicarbonate pharmacology

Abstract

This paper describes and quantifies acute responses of the kidneys in correcting plasma volume, acid-base, and ion disturbances resulting from NaHCO(3) and KHCO(3) ingestion. Renal excretion of ions and water was studied in five men after ingestion of 3.57 mmol/kg body mass of sodium bicarbonate (NaHCO(3)) and, in a separate trial, potassium bicarbonate (KHCO(3)). Subjects had a Foley catheter inserted into the bladder and indwelling catheters placed into an antecubital vein and a brachial artery. Blood and urine were sampled in the 30-min period before, the 60-min period during, and the 210-min period after ingestion of the solutions. NaHCO(3) ingestion resulted in a rapid, transient diuresis and natriuresis. Cumulative urine output was 44 +/- 11% of ingested volume, resulting in a 555 +/- 119 ml increase in total body water at the end of the experiment. The cumulative increase (above basal levels) in renal Na(+) excretion accounted for 24 +/- 2% of ingested Na(+). In the KHCO(3) trial, arterial plasma K(+) concentration rapidly increased from 4.25 +/- 0.10 to a peak of 7.17 +/- 0.13 meq/l 140 min after the beginning of ingestion. This increase resulted in a pronounced, transient diuresis, with cumulative urine output at 270 min similar to the volume ingested, natriuresis, and a pronounced kaliuresis that was maintained until the end of the experiment. Cumulative (above basal) renal K(+) excretion at 270 min accounted for 26 +/- 5% of ingested K(+). The kidneys were important in mediating rapid corrections of substantial portions of the fluid and electrolyte disturbances resulting from ingestion of KHCO(3) and NaHCO(3) solutions.

Published

2000