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Publication DateUrolithiasis, ISSN 2194-7228, 4/2018, Volume 46, Issue 2, pp. 137 - 147
Fatty acid (FA) composition of phospholipids in plasma and red blood cells (RBC) can influence calciuria, oxaluria and renal stone formation. In this regard,...
Nephrology | Different race groups | Medicine & Public Health | Medical Biochemistry | Phospholipid fatty acid composition | Kidney stone risk factors | n-6 Fatty acid supplementation | Urology | NEPHROLITHIASIS | HYPERCALCIURIA | URINE | FORMERS | UROLOGY & NEPHROLOGY | MECHANISMS | DIETARY-INTAKE | EXCRETION | Biomarkers - urine | Nephrolithiasis - ethnology | Humans | Arachidonic Acid - blood | Hyperoxaluria - metabolism | Male | Healthy Volunteers | Nephrolithiasis - urine | Young Adult | Nephrolithiasis - metabolism | Hyperoxaluria - ethnology | Adult | Phospholipids - blood | Fatty Acids - blood | Phospholipids - metabolism | Fatty Acids - metabolism | gamma-Linolenic Acid - metabolism | gamma-Linolenic Acid - therapeutic use | Risk Factors | Nephrolithiasis - blood | Biomarkers - blood | Hyperoxaluria - blood | Linoleic Acids - metabolism | Pilot Projects | gamma-Linolenic Acid - blood | Arachidonic Acid - biosynthesis | Erythrocytes - metabolism | gamma-Linolenic Acid - pharmacology | Hyperoxaluria - urine | Linoleic Acids - blood | Metabolic Networks and Pathways - drug effects | Dietary Supplements | Plasma | Fatty acids | Kidney stones
Nephrology | Different race groups | Medicine & Public Health | Medical Biochemistry | Phospholipid fatty acid composition | Kidney stone risk factors | n-6 Fatty acid supplementation | Urology | NEPHROLITHIASIS | HYPERCALCIURIA | URINE | FORMERS | UROLOGY & NEPHROLOGY | MECHANISMS | DIETARY-INTAKE | EXCRETION | Biomarkers - urine | Nephrolithiasis - ethnology | Humans | Arachidonic Acid - blood | Hyperoxaluria - metabolism | Male | Healthy Volunteers | Nephrolithiasis - urine | Young Adult | Nephrolithiasis - metabolism | Hyperoxaluria - ethnology | Adult | Phospholipids - blood | Fatty Acids - blood | Phospholipids - metabolism | Fatty Acids - metabolism | gamma-Linolenic Acid - metabolism | gamma-Linolenic Acid - therapeutic use | Risk Factors | Nephrolithiasis - blood | Biomarkers - blood | Hyperoxaluria - blood | Linoleic Acids - metabolism | Pilot Projects | gamma-Linolenic Acid - blood | Arachidonic Acid - biosynthesis | Erythrocytes - metabolism | gamma-Linolenic Acid - pharmacology | Hyperoxaluria - urine | Linoleic Acids - blood | Metabolic Networks and Pathways - drug effects | Dietary Supplements | Plasma | Fatty acids | Kidney stones
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Loading RightsInflammatory Bowel Diseases, ISSN 1078-0998, 06/2011, Volume 17, Issue 6, pp. 1322 - 1327
Background: Bile acid malabsorption (BAM) is a common feature of Crohn's disease (CD). We aimed to determine whether BAM develops only in patients with a...
bile acid malabsorption | Crohn's disease | 7α‐hydroxycholest‐4‐en‐3‐one | ileal disease | inflammatory bowel disease | 7α-hydroxycholest-4-en-3-one | TRANSPORTER | CHRONIC DIARRHEA | CROHNS-DISEASE | 7 alpha-hydroxycholest-4-en-3-one | 7-ALPHA-HYDROXY-4-CHOLESTEN-3-ONE | THERAPY | HUMAN ILEAL | DIURNAL-VARIATION | HYPEROXALURIA | ABSORPTION | GASTROENTEROLOGY & HEPATOLOGY | EXPRESSION | Cholesterol - blood | Humans | Middle Aged | Crohn Disease - surgery | Male | Chromatography, High Pressure Liquid | Case-Control Studies | Crohn Disease - complications | Malabsorption Syndromes - blood | Adult | Colitis, Ulcerative - surgery | Female | Inflammatory Bowel Diseases - complications | Malabsorption Syndromes - complications | Severity of Illness Index | Colitis, Ulcerative - complications | Enzyme-Linked Immunosorbent Assay | Bile Acids and Salts - metabolism | Inflammatory Bowel Diseases - blood | Biomarkers - blood | Colitis, Ulcerative - blood | Fibroblast Growth Factors - blood | Crohn Disease - blood | Inflammatory Bowel Diseases - surgery | Cholesterol, HDL - blood | Fibroblast growth factor | Inflammatory bowel diseases | Bile acids | Ileitis | Ileum | International organizations | Serum levels | Algorithms | Intestine | Surgery | Malabsorption | Ulcerative colitis
bile acid malabsorption | Crohn's disease | 7α‐hydroxycholest‐4‐en‐3‐one | ileal disease | inflammatory bowel disease | 7α-hydroxycholest-4-en-3-one | TRANSPORTER | CHRONIC DIARRHEA | CROHNS-DISEASE | 7 alpha-hydroxycholest-4-en-3-one | 7-ALPHA-HYDROXY-4-CHOLESTEN-3-ONE | THERAPY | HUMAN ILEAL | DIURNAL-VARIATION | HYPEROXALURIA | ABSORPTION | GASTROENTEROLOGY & HEPATOLOGY | EXPRESSION | Cholesterol - blood | Humans | Middle Aged | Crohn Disease - surgery | Male | Chromatography, High Pressure Liquid | Case-Control Studies | Crohn Disease - complications | Malabsorption Syndromes - blood | Adult | Colitis, Ulcerative - surgery | Female | Inflammatory Bowel Diseases - complications | Malabsorption Syndromes - complications | Severity of Illness Index | Colitis, Ulcerative - complications | Enzyme-Linked Immunosorbent Assay | Bile Acids and Salts - metabolism | Inflammatory Bowel Diseases - blood | Biomarkers - blood | Colitis, Ulcerative - blood | Fibroblast Growth Factors - blood | Crohn Disease - blood | Inflammatory Bowel Diseases - surgery | Cholesterol, HDL - blood | Fibroblast growth factor | Inflammatory bowel diseases | Bile acids | Ileitis | Ileum | International organizations | Serum levels | Algorithms | Intestine | Surgery | Malabsorption | Ulcerative colitis
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Loading RightsClinical Biochemistry, ISSN 0009-9120, 12/2017, Volume 50, Issue 18, pp. 1014 - 1019
Since plasma oxalate (POx) concentrations increase at lower glomerular filtration rate (GFR) levels, even among those without enteric (EH) or primary...
Primary hyperoxaluria | Calcium oxalate | Enteric hyperoxaluria | Plasma oxalate | Glomerular filtration rate | ASSAY | MEDICAL LABORATORY TECHNOLOGY | Urinary Calculi - blood | Kidney Diseases | Humans | Middle Aged | Metabolic Diseases | Hyperoxaluria - metabolism | Male | Glomerular Filtration Rate - physiology | Oxalates - urine | Kidney Failure, Chronic - blood | Hyperoxaluria, Primary - blood | Hyperoxaluria, Primary - metabolism | Calcium Oxalate | Adult | Female | Oxalates - blood | Urinary Calculi - metabolism | Medical research | Care and treatment | Oxalic acid | Analysis | Physiological aspects | Medicine, Experimental | Oxalates | Kidney stones | primary hyperoxaluria | calcium oxalate | glomerular filtration rate | enteric hyperoxaluria | plasma oxalate
Primary hyperoxaluria | Calcium oxalate | Enteric hyperoxaluria | Plasma oxalate | Glomerular filtration rate | ASSAY | MEDICAL LABORATORY TECHNOLOGY | Urinary Calculi - blood | Kidney Diseases | Humans | Middle Aged | Metabolic Diseases | Hyperoxaluria - metabolism | Male | Glomerular Filtration Rate - physiology | Oxalates - urine | Kidney Failure, Chronic - blood | Hyperoxaluria, Primary - blood | Hyperoxaluria, Primary - metabolism | Calcium Oxalate | Adult | Female | Oxalates - blood | Urinary Calculi - metabolism | Medical research | Care and treatment | Oxalic acid | Analysis | Physiological aspects | Medicine, Experimental | Oxalates | Kidney stones | primary hyperoxaluria | calcium oxalate | glomerular filtration rate | enteric hyperoxaluria | plasma oxalate
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Loading RightsUrology, ISSN 0090-4295, 2013, Volume 81, Issue 1, pp. 17 - 24
Objective To investigate the determinants of urinary stone formation in patients with fat malabsorption, because, although the prevalence of urolithiasis is...
Urology | OXALATE | INFLAMMATORY-BOWEL-DISEASE | CHRONIC-PANCREATITIS | UROLOGY & NEPHROLOGY | RISK | STONE FORMATION | CYSTIC-FIBROSIS | KIDNEY-STONES | PREVALENCE | BILE-ACID MALABSORPTION | ENTERIC HYPEROXALURIA | Dietary Fats - metabolism | Humans | Middle Aged | Calcium Oxalate - urine | Male | Malabsorption Syndromes - metabolism | Case-Control Studies | Intestinal Absorption | Young Adult | Urolithiasis - blood | Urolithiasis - urine | Adult | Cholesterol, LDL - blood | Female | Retrospective Studies | Colectomy - adverse effects | Odds Ratio | Malabsorption Syndromes - complications | Pancreatectomy - adverse effects | beta Carotene - blood | Risk Factors | Vitamin E - blood | Logistic Models | Urolithiasis - etiology | Citric Acid - urine | Aspartate Aminotransferases - blood | Ileum - surgery | Cholesterol, HDL - blood | Oxalic Acid - urine | Aged | Care and treatment | Gastrointestinal diseases | Calculi, Urinary
Urology | OXALATE | INFLAMMATORY-BOWEL-DISEASE | CHRONIC-PANCREATITIS | UROLOGY & NEPHROLOGY | RISK | STONE FORMATION | CYSTIC-FIBROSIS | KIDNEY-STONES | PREVALENCE | BILE-ACID MALABSORPTION | ENTERIC HYPEROXALURIA | Dietary Fats - metabolism | Humans | Middle Aged | Calcium Oxalate - urine | Male | Malabsorption Syndromes - metabolism | Case-Control Studies | Intestinal Absorption | Young Adult | Urolithiasis - blood | Urolithiasis - urine | Adult | Cholesterol, LDL - blood | Female | Retrospective Studies | Colectomy - adverse effects | Odds Ratio | Malabsorption Syndromes - complications | Pancreatectomy - adverse effects | beta Carotene - blood | Risk Factors | Vitamin E - blood | Logistic Models | Urolithiasis - etiology | Citric Acid - urine | Aspartate Aminotransferases - blood | Ileum - surgery | Cholesterol, HDL - blood | Oxalic Acid - urine | Aged | Care and treatment | Gastrointestinal diseases | Calculi, Urinary
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Loading RightsAmerican Journal of Kidney Diseases, ISSN 0272-6386, 2011, Volume 58, Issue 3, pp. 453 - 455
The spectrum of primary hyperoxaluria type I is extremely heterogeneous, ranging from singular to recurrent urolithiasis and early end-stage renal disease...
Nephrology | Oxalobacter formigenes | treatment | Primary hyperoxaluria | infantile oxalosis | GASTROINTESTINAL-TRACT | ELIMINATION | COLONIZATION | DIALYSIS | CHILDREN | TRANSPORT | ENZYME | UROLOGY & NEPHROLOGY | PRIMARY HYPEROXALURIAS | Hyperoxaluria - therapy | Administration, Oral | Transaminases - genetics | Humans | Hyperoxaluria, Primary | Infant | Hyperoxaluria - complications | Kidney Transplantation | Mutation, Missense | Hyperoxaluria - blood | Nephrocalcinosis - etiology | Oxalobacter formigenes - isolation & purification | Feces - microbiology | Renal Insufficiency | Female | Transaminases - blood | Oxalates - blood | Hyperoxaluria - genetics | Transaminases - deficiency
Nephrology | Oxalobacter formigenes | treatment | Primary hyperoxaluria | infantile oxalosis | GASTROINTESTINAL-TRACT | ELIMINATION | COLONIZATION | DIALYSIS | CHILDREN | TRANSPORT | ENZYME | UROLOGY & NEPHROLOGY | PRIMARY HYPEROXALURIAS | Hyperoxaluria - therapy | Administration, Oral | Transaminases - genetics | Humans | Hyperoxaluria, Primary | Infant | Hyperoxaluria - complications | Kidney Transplantation | Mutation, Missense | Hyperoxaluria - blood | Nephrocalcinosis - etiology | Oxalobacter formigenes - isolation & purification | Feces - microbiology | Renal Insufficiency | Female | Transaminases - blood | Oxalates - blood | Hyperoxaluria - genetics | Transaminases - deficiency
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Loading RightsHemodialysis International, ISSN 1492-7535, 10/2011, Volume 15, Issue 4, pp. 573 - 576
Primary hyperoxaluria (PH) is a rare genetic disorder characterized by overproduction of oxalate due to specific enzyme deficiencies in glyoxylate metabolism....
hypercalcemia | urolithiasis | Primary hyperoxaluria | hypothyroidism | nephrocalcinosis | Hypercalcemia | Nephrocalcinosis | Urolithiasis | Hypothyroidism | UROLOGY & NEPHROLOGY | TYPE-1 | Hepatomegaly - pathology | Hypothyroidism - pathology | Hyperoxaluria, Primary - complications | Hyperoxaluria, Primary - diagnosis | Humans | Middle Aged | Male | Ascites - diagnosis | Nephrocalcinosis - complications | Urolithiasis - blood | Urolithiasis - pathology | Hyperoxaluria, Primary - pathology | Kidney Failure, Chronic - pathology | Bone Marrow - metabolism | Hypercalcemia - blood | Hyperoxaluria, Primary - blood | Ascites - blood | Granuloma - etiology | Hepatomegaly - blood | Ascites - etiology | Hypercalcemia - pathology | Urolithiasis - complications | Hypothyroidism - diagnosis | Nephrocalcinosis - therapy | Hypothyroidism - etiology | Kidney Failure, Chronic - therapy | Oxalates - metabolism | Granuloma - pathology | Urolithiasis - therapy | Nephrocalcinosis - pathology | Hypercalcemia - diagnosis | Bone Marrow - pathology | Hypercalcemia - etiology | Hepatomegaly - diagnosis | Kidney Failure, Chronic - complications | Nephrocalcinosis - blood | Granuloma - blood | Hypothyroidism - blood | Granuloma - diagnosis | Nephrocalcinosis - diagnosis | Ascites - pathology | Hepatomegaly - etiology | Renal Dialysis
hypercalcemia | urolithiasis | Primary hyperoxaluria | hypothyroidism | nephrocalcinosis | Hypercalcemia | Nephrocalcinosis | Urolithiasis | Hypothyroidism | UROLOGY & NEPHROLOGY | TYPE-1 | Hepatomegaly - pathology | Hypothyroidism - pathology | Hyperoxaluria, Primary - complications | Hyperoxaluria, Primary - diagnosis | Humans | Middle Aged | Male | Ascites - diagnosis | Nephrocalcinosis - complications | Urolithiasis - blood | Urolithiasis - pathology | Hyperoxaluria, Primary - pathology | Kidney Failure, Chronic - pathology | Bone Marrow - metabolism | Hypercalcemia - blood | Hyperoxaluria, Primary - blood | Ascites - blood | Granuloma - etiology | Hepatomegaly - blood | Ascites - etiology | Hypercalcemia - pathology | Urolithiasis - complications | Hypothyroidism - diagnosis | Nephrocalcinosis - therapy | Hypothyroidism - etiology | Kidney Failure, Chronic - therapy | Oxalates - metabolism | Granuloma - pathology | Urolithiasis - therapy | Nephrocalcinosis - pathology | Hypercalcemia - diagnosis | Bone Marrow - pathology | Hypercalcemia - etiology | Hepatomegaly - diagnosis | Kidney Failure, Chronic - complications | Nephrocalcinosis - blood | Granuloma - blood | Hypothyroidism - blood | Granuloma - diagnosis | Nephrocalcinosis - diagnosis | Ascites - pathology | Hepatomegaly - etiology | Renal Dialysis
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Rapid Oxalate Determination in Blood and Synthetic Urine Using a Newly Developed Oxometer
Journal of Endourology, ISSN 0892-7790, 02/2013, Volume 27, Issue 2, pp. 145 - 148
Blood and urine oxalate determinations have been limited to the laboratory setting because of complex sample storage and processing methods as well as the need...
New Technologies in Endourology | PLASMA OXALATE | UROLOGY & NEPHROLOGY | ASSAY | HYPEROXALURIA | PREVALENCE | CHROMATOGRAPHY | Chemistry, Clinical - methods | Oxalates - urine | Glucose Oxidase - metabolism | Animals | Oxidoreductases - metabolism | Humans | Chemistry, Clinical - instrumentation | Glucose - metabolism | Rats | Oxalates - blood | Rats, Sprague-Dawley | Measurement | Usage | Oxalates | Diagnostic equipment (Medical) | Analysis
New Technologies in Endourology | PLASMA OXALATE | UROLOGY & NEPHROLOGY | ASSAY | HYPEROXALURIA | PREVALENCE | CHROMATOGRAPHY | Chemistry, Clinical - methods | Oxalates - urine | Glucose Oxidase - metabolism | Animals | Oxidoreductases - metabolism | Humans | Chemistry, Clinical - instrumentation | Glucose - metabolism | Rats | Oxalates - blood | Rats, Sprague-Dawley | Measurement | Usage | Oxalates | Diagnostic equipment (Medical) | Analysis
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Loading RightsAmerican Journal of Physiology - Renal Physiology, ISSN 0363-6127, 12/2013, Volume 305, Issue 11, pp. F1574 - F1584
The sequence of events by which primary hyperoxaluria type 1 (PH1) causes renal failure is unclear. We hypothesize that proximal tubule (PT) is vulnerable...
Renal histopathology | Proximal tubule | Primary hyperoxaluria | Calcium oxalate | PLASMA OXALATE | NEPHROLITHIASIS | SODIUM | PHYSIOLOGY | renal histopathology | STONE-FORMING PATIENTS | ANION-EXCHANGERS | calcium oxalate | HUMAN-KIDNEY | CHRONIC GLOMERULONEPHRITIS | RENAL-FAILURE | UROLOGY & NEPHROLOGY | primary hyperoxaluria | RANDALLS PLAQUE | proximal tubule | LITHIUM REABSORPTION | Biopsy - methods | Kidney Calculi - etiology | Hyperoxaluria, Primary - complications | Humans | Child, Preschool | Hyperoxaluria - etiology | Infant | Male | Kidney Calculi - pathology | Hyperoxaluria, Primary - pathology | Calcium Oxalate - blood | Renal Insufficiency - pathology | Adolescent | Hyperoxaluria, Primary - metabolism | Adult | Female | Oxalates - blood | Kidney Calculi - blood | Physiological aspects | Causes of | Medicine, Experimental | Medical research | Kidney failure | Oxaluria
Renal histopathology | Proximal tubule | Primary hyperoxaluria | Calcium oxalate | PLASMA OXALATE | NEPHROLITHIASIS | SODIUM | PHYSIOLOGY | renal histopathology | STONE-FORMING PATIENTS | ANION-EXCHANGERS | calcium oxalate | HUMAN-KIDNEY | CHRONIC GLOMERULONEPHRITIS | RENAL-FAILURE | UROLOGY & NEPHROLOGY | primary hyperoxaluria | RANDALLS PLAQUE | proximal tubule | LITHIUM REABSORPTION | Biopsy - methods | Kidney Calculi - etiology | Hyperoxaluria, Primary - complications | Humans | Child, Preschool | Hyperoxaluria - etiology | Infant | Male | Kidney Calculi - pathology | Hyperoxaluria, Primary - pathology | Calcium Oxalate - blood | Renal Insufficiency - pathology | Adolescent | Hyperoxaluria, Primary - metabolism | Adult | Female | Oxalates - blood | Kidney Calculi - blood | Physiological aspects | Causes of | Medicine, Experimental | Medical research | Kidney failure | Oxaluria
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Loading RightsNephrology, dialysis, transplantation, ISSN 0931-0509, 2011, Volume 26, Issue 11, pp. 3609 - 3615
Primary hyperoxaluria (PH) is a rare genetic disease, in which high urinary oxalate (Uox) cause recurrent kidney stones and/or progressive nephrocalcinosis,...
Oxalobacter formigenes | treatment | primary hyperoxaluria | safety | efficacy | PLASMA OXALATE | PYRIDOXINE | GASTROINTESTINAL-TRACT | COLONIZATION | EXCRETION | TRANSPLANTATION | GLOMERULAR-FILTRATION-RATE | TRANSPORT | ENZYME | CREATININE | UROLOGY & NEPHROLOGY | TYPE-1 | Kidney Calculi - etiology | Glomerular Filtration Rate | Prognosis | Double-Blind Method | Follow-Up Studies | Administration, Oral | Hyperoxaluria - prevention & control | Humans | Male | Hyperoxaluria, Primary - urine | Kidney Calculi - metabolism | Creatinine - urine | Hyperoxaluria, Primary - therapy | Kidney Failure, Chronic - metabolism | Oxalates - urine | Kidney Failure, Chronic - prevention & control | Hyperoxaluria, Primary - blood | Female | Aged | Oxalates - blood | Kidney Calculi - prevention & control | Kidney Failure, Chronic - etiology
Oxalobacter formigenes | treatment | primary hyperoxaluria | safety | efficacy | PLASMA OXALATE | PYRIDOXINE | GASTROINTESTINAL-TRACT | COLONIZATION | EXCRETION | TRANSPLANTATION | GLOMERULAR-FILTRATION-RATE | TRANSPORT | ENZYME | CREATININE | UROLOGY & NEPHROLOGY | TYPE-1 | Kidney Calculi - etiology | Glomerular Filtration Rate | Prognosis | Double-Blind Method | Follow-Up Studies | Administration, Oral | Hyperoxaluria - prevention & control | Humans | Male | Hyperoxaluria, Primary - urine | Kidney Calculi - metabolism | Creatinine - urine | Hyperoxaluria, Primary - therapy | Kidney Failure, Chronic - metabolism | Oxalates - urine | Kidney Failure, Chronic - prevention & control | Hyperoxaluria, Primary - blood | Female | Aged | Oxalates - blood | Kidney Calculi - prevention & control | Kidney Failure, Chronic - etiology
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Oxalobacter formigenes: a potential tool for the treatment of primary hyperoxaluria type 1
Kidney International, ISSN 0085-2538, 10/2006, Volume 70, Issue 7, pp. 1305 - 1311
Primary hyperoxaluria is characterized by severe urolithiasis, nephrocalcinosis, and early renal failure. As treatment options are scarce, we aimed for a new...
oxalobacter formigenes | treatment | primary hyperoxaluria | Oxalobacter formigenes | Primary hyperoxaluria | Treatment | GASTROINTESTINAL-TRACT | COLONIZATION | CHILDREN | POLYMERASE-CHAIN-REACTION | OXALATE ELIMINATION | CLONING | UROLOGY & NEPHROLOGY | HEMODIALYSIS | ABSENCE | STONE DISEASE | EXPRESSION | Kidney - physiology | Follow-Up Studies | Hyperoxaluria, Primary - complications | Humans | Middle Aged | Child, Preschool | Male | Kidney Diseases - diagnostic imaging | Chromatography, Gas | Hyperoxaluria, Primary - urine | Hyperoxaluria, Primary - therapy | Kidney Function Tests | Oxalobacter formigenes - isolation & purification | Feces - microbiology | Oxalates - urine | Capsules | Time Factors | Flame Ionization | Hyperoxaluria, Primary - blood | Ultrasonography | Adult | Female | Kidney Diseases - complications | Oxalates - blood | Child | Administration, Oral | Treatment Outcome | Kidney Transplantation | Creatinine - urine | Hyperoxaluria, Primary - classification | Adolescent | Kidney Failure, Chronic - complications
oxalobacter formigenes | treatment | primary hyperoxaluria | Oxalobacter formigenes | Primary hyperoxaluria | Treatment | GASTROINTESTINAL-TRACT | COLONIZATION | CHILDREN | POLYMERASE-CHAIN-REACTION | OXALATE ELIMINATION | CLONING | UROLOGY & NEPHROLOGY | HEMODIALYSIS | ABSENCE | STONE DISEASE | EXPRESSION | Kidney - physiology | Follow-Up Studies | Hyperoxaluria, Primary - complications | Humans | Middle Aged | Child, Preschool | Male | Kidney Diseases - diagnostic imaging | Chromatography, Gas | Hyperoxaluria, Primary - urine | Hyperoxaluria, Primary - therapy | Kidney Function Tests | Oxalobacter formigenes - isolation & purification | Feces - microbiology | Oxalates - urine | Capsules | Time Factors | Flame Ionization | Hyperoxaluria, Primary - blood | Ultrasonography | Adult | Female | Kidney Diseases - complications | Oxalates - blood | Child | Administration, Oral | Treatment Outcome | Kidney Transplantation | Creatinine - urine | Hyperoxaluria, Primary - classification | Adolescent | Kidney Failure, Chronic - complications
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Loading RightsBJU International, ISSN 1464-4096, 06/2002, Volume 89, Issue 9, pp. 835 - 841
Objective To correlate renal calculi and other clinical factors with urinary biochemical analytes in patients with inflammatory bowel disease, and to...
magnesium | calculi | Crohn's disease | ulcerative colitis | hyperoxaluria | Hyperoxaluria | Magnesium | Calculi | Ulcerative colitis | CROHNS-DISEASE | CITRATE | UROLOGY & NEPHROLOGY | UROLITHIASIS | ENTERIC HYPEROXALURIA | Colitis, Ulcerative - complications | Kidney Calculi - etiology | Humans | Middle Aged | Risk Factors | Hyperoxaluria - etiology | Male | Colitis, Ulcerative - blood | Serum Albumin - analysis | Crohn Disease - complications | Citrates - blood | Crohn Disease - blood | Creatinine - blood | Magnesium - urine | Adult | Female | Acute-Phase Proteins - analysis | Aged | Oxalates - blood | C-Reactive Protein - analysis | Magnesium - blood | Malabsorption Syndromes - complications | Kidney Calculi - blood
magnesium | calculi | Crohn's disease | ulcerative colitis | hyperoxaluria | Hyperoxaluria | Magnesium | Calculi | Ulcerative colitis | CROHNS-DISEASE | CITRATE | UROLOGY & NEPHROLOGY | UROLITHIASIS | ENTERIC HYPEROXALURIA | Colitis, Ulcerative - complications | Kidney Calculi - etiology | Humans | Middle Aged | Risk Factors | Hyperoxaluria - etiology | Male | Colitis, Ulcerative - blood | Serum Albumin - analysis | Crohn Disease - complications | Citrates - blood | Crohn Disease - blood | Creatinine - blood | Magnesium - urine | Adult | Female | Acute-Phase Proteins - analysis | Aged | Oxalates - blood | C-Reactive Protein - analysis | Magnesium - blood | Malabsorption Syndromes - complications | Kidney Calculi - blood
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Loading RightsAmerican Journal of Kidney Diseases, ISSN 0272-6386, 2013, Volume 62, Issue 6, pp. 1155 - 1159
Type 1 primary hyperoxaluria is a genetic disorder caused by deficiency of the liver-specific peroxisomal enzyme alanine-glyoxylate aminotransferase. This...
Nephrology | dialysis | Primary hyperoxaluria | oxalate | home hemodialysis | CLEARANCE | OXALOSIS | PERITONEAL-DIALYSIS | CHILDREN | REMOVAL | PLASMA | RENAL-FAILURE | DYNAMICS | UROLOGY & NEPHROLOGY | CALCIUM-OXALATE SATURATION | Glycine - genetics | Transaminases - genetics | Humans | Exons - genetics | Combined Modality Therapy | Hemodialysis, Home | Circadian Rhythm | Hyperoxaluria, Primary - therapy | Hyperoxaluria, Primary - genetics | Kidney Failure, Chronic - genetics | Kidney Failure, Chronic - therapy | Kidney Failure, Chronic - blood | DNA Mutational Analysis | Arginine - genetics | Hyperoxaluria, Primary - blood | Pyridoxine - therapeutic use | Adult | Amino Acid Substitution - genetics | Female | Oxalates - blood | Transaminases - deficiency
Nephrology | dialysis | Primary hyperoxaluria | oxalate | home hemodialysis | CLEARANCE | OXALOSIS | PERITONEAL-DIALYSIS | CHILDREN | REMOVAL | PLASMA | RENAL-FAILURE | DYNAMICS | UROLOGY & NEPHROLOGY | CALCIUM-OXALATE SATURATION | Glycine - genetics | Transaminases - genetics | Humans | Exons - genetics | Combined Modality Therapy | Hemodialysis, Home | Circadian Rhythm | Hyperoxaluria, Primary - therapy | Hyperoxaluria, Primary - genetics | Kidney Failure, Chronic - genetics | Kidney Failure, Chronic - therapy | Kidney Failure, Chronic - blood | DNA Mutational Analysis | Arginine - genetics | Hyperoxaluria, Primary - blood | Pyridoxine - therapeutic use | Adult | Amino Acid Substitution - genetics | Female | Oxalates - blood | Transaminases - deficiency
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Loading RightsNephrology Dialysis Transplantation, ISSN 0931-0509, 08/2006, Volume 21, Issue 8, pp. 2292 - 2295
Background. Primary hyperoxaluria type 2 (PH2) is a rare monogenic disorder characterized by an elevated urinary excretion of oxalate. Increased oxalate...
Glyoxylate reductase | Blood mononuclear cells | D-glycerate dehydrogenase | Primary hyperoxaluria type 2 | OXIDATION | GRHPR GENE | UROLOGY & NEPHROLOGY | L-GLYCERIC ACIDURIA | blood mononuclear cells | MUTATIONS | glyoxylate reductase | DEHYDROGENASE | primary hyperoxaluria type 2 | PIG | TRANSPLANTATION | Reproducibility of Results | Hyperoxaluria, Primary - diagnosis | Clinical Enzyme Tests | Humans | Middle Aged | Male | Reference Values | Alcohol Oxidoreductases - blood | Blotting, Western | Alcohol Oxidoreductases - genetics | Hyperoxaluria, Primary - genetics | Hyperoxaluria, Primary - classification | Carbohydrate Dehydrogenases - blood | Adult | Female | Leukocytes, Mononuclear - enzymology | Spectrophotometry | Alcohol Oxidoreductases - deficiency
Glyoxylate reductase | Blood mononuclear cells | D-glycerate dehydrogenase | Primary hyperoxaluria type 2 | OXIDATION | GRHPR GENE | UROLOGY & NEPHROLOGY | L-GLYCERIC ACIDURIA | blood mononuclear cells | MUTATIONS | glyoxylate reductase | DEHYDROGENASE | primary hyperoxaluria type 2 | PIG | TRANSPLANTATION | Reproducibility of Results | Hyperoxaluria, Primary - diagnosis | Clinical Enzyme Tests | Humans | Middle Aged | Male | Reference Values | Alcohol Oxidoreductases - blood | Blotting, Western | Alcohol Oxidoreductases - genetics | Hyperoxaluria, Primary - genetics | Hyperoxaluria, Primary - classification | Carbohydrate Dehydrogenases - blood | Adult | Female | Leukocytes, Mononuclear - enzymology | Spectrophotometry | Alcohol Oxidoreductases - deficiency
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Loading RightsKidney International, ISSN 0085-2538, 11/2006, Volume 70, Issue 9, pp. 1642 - 1648
Patients with end-stage renal failure owing to primary hyperoxaluria type 1 (PH1) receive dialysis while waiting for transplantation. So far, dialysis has not...
dialysis | dialysance | removal | clearance | oxalate | primary hyperoxaluria type 1 | Removal | Dialysance | Dialysis | Clearance | Oxalate | Primary hyperoxaluria type 1 | LIVER-TRANSPLANTATION | PERITONEAL-DIALYSIS | DYNAMICS | UROLOGY & NEPHROLOGY | HEMODIALYSIS | CHRONIC-RENAL-FAILURE | Kidney - blood supply | Humans | Renal Dialysis - methods | Renal Replacement Therapy | Child, Preschool | Infant | Male | Kidney Transplantation | Hyperoxaluria, Primary - urine | Hyperoxaluria, Primary - therapy | Kidney Failure, Chronic - therapy | Oxalates - urine | Kidney - metabolism | Time Factors | Hyperoxaluria, Primary - classification | Hyperoxaluria, Primary - blood | Female | Oxalates - blood | Child
dialysis | dialysance | removal | clearance | oxalate | primary hyperoxaluria type 1 | Removal | Dialysance | Dialysis | Clearance | Oxalate | Primary hyperoxaluria type 1 | LIVER-TRANSPLANTATION | PERITONEAL-DIALYSIS | DYNAMICS | UROLOGY & NEPHROLOGY | HEMODIALYSIS | CHRONIC-RENAL-FAILURE | Kidney - blood supply | Humans | Renal Dialysis - methods | Renal Replacement Therapy | Child, Preschool | Infant | Male | Kidney Transplantation | Hyperoxaluria, Primary - urine | Hyperoxaluria, Primary - therapy | Kidney Failure, Chronic - therapy | Oxalates - urine | Kidney - metabolism | Time Factors | Hyperoxaluria, Primary - classification | Hyperoxaluria, Primary - blood | Female | Oxalates - blood | Child
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Loading RightsAmerican Journal of Physiology - Renal Physiology, ISSN 1931-857X, 09/2005, Volume 289, Issue 3, pp. 536 - 543
Ethylene glycol (EG) consumption is commonly employed as an experimental regimen to induce hyperoxaluria in animal models of calcium oxalate nephrolithiasis....
Arterial blood gases | Kidney stone | Chronic renal failure | SPRAGUE-DAWLEY RATS | ALKALI LOAD | DIAGNOSIS | PHYSIOLOGY | chronic renal failure | arterial blood gases | FREE-RADICALS | OSTEOPONTIN | PHARMACOKINETICS | kidney stone | UROLOGY & NEPHROLOGY | KIDNEY | STONE-FORMING RATS | CALCIUM-OXALATE NEPHROLITHIASIS | CHRONIC-RENAL-FAILURE | Ethylene Glycol - pharmacology | Kidney Calculi - chemically induced | Rats | Hyperoxaluria - metabolism | Male | Kidney Calculi - metabolism | Carbon Dioxide - blood | Rats, Sprague-Dawley | Electrolytes - blood | Oxygen - blood | Kidney Failure, Chronic - metabolism | Kidney Function Tests | Oxalates - urine | Animals | Electrolytes - urine | Kidney Failure, Chronic - chemically induced | Hyperoxaluria - chemically induced | Acidosis | Disease Models, Animal
Arterial blood gases | Kidney stone | Chronic renal failure | SPRAGUE-DAWLEY RATS | ALKALI LOAD | DIAGNOSIS | PHYSIOLOGY | chronic renal failure | arterial blood gases | FREE-RADICALS | OSTEOPONTIN | PHARMACOKINETICS | kidney stone | UROLOGY & NEPHROLOGY | KIDNEY | STONE-FORMING RATS | CALCIUM-OXALATE NEPHROLITHIASIS | CHRONIC-RENAL-FAILURE | Ethylene Glycol - pharmacology | Kidney Calculi - chemically induced | Rats | Hyperoxaluria - metabolism | Male | Kidney Calculi - metabolism | Carbon Dioxide - blood | Rats, Sprague-Dawley | Electrolytes - blood | Oxygen - blood | Kidney Failure, Chronic - metabolism | Kidney Function Tests | Oxalates - urine | Animals | Electrolytes - urine | Kidney Failure, Chronic - chemically induced | Hyperoxaluria - chemically induced | Acidosis | Disease Models, Animal
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Loading RightsAmerican Journal of Nephrology, ISSN 0250-8095, 09/2016, Volume 44, Issue 2, pp. 85 - 91
Background: Enteric hyperoxaluria (EH) occurs with a rate of 5-24% in patients with inflammatory bowel disease, ileal resection and modern bariatric surgery....
Original Report: Transplantation | Intestinal transplantation | Enteric hyperoxaluria | Secondary hyperoxaluria | Kidney transplantation | RENAL-FAILURE SECONDARY | MULTIVISCERAL TRANSPLANTATION | EXPANDING INDICATIONS | OXALOSIS | UROLOGY & NEPHROLOGY | OXALATE NEPHROPATHY | IMPROVING OUTCOMES | Recurrence | Postoperative Complications - etiology | Kidney - pathology | Renal Insufficiency, Chronic - etiology | Humans | Middle Aged | Calcium Oxalate - urine | Hyperoxaluria - complications | Intestinal Volvulus - surgery | Allografts - pathology | Anti-Bacterial Agents - therapeutic use | Hyperoxaluria - surgery | Cecum - surgery | Female | Kidney Tubular Necrosis, Acute - etiology | Membrane Transport Proteins - metabolism | Anti-Bacterial Agents - adverse effects | Parenteral Nutrition | Transplantation, Homologous - adverse effects | Vasoconstrictor Agents - therapeutic use | Blood Loss, Surgical - prevention & control | Renal Insufficiency, Chronic - surgery | Glomerular Filtration Rate | Intestines - pathology | Vasoconstrictor Agents - adverse effects | Gastric Bypass - adverse effects | Postoperative Complications - therapy | Delayed Graft Function - etiology | Intestinal Volvulus - etiology | Urinary Tract Infections - drug therapy | Hyperoxaluria - pathology | Renal Insufficiency, Chronic - pathology | Blood Component Transfusion | Calcium Oxalate - pharmacokinetics | Biopsy | Urinary Tract Infections - etiology | Creatinine - blood | Intestines - transplantation | Kidney Transplantation - adverse effects
Original Report: Transplantation | Intestinal transplantation | Enteric hyperoxaluria | Secondary hyperoxaluria | Kidney transplantation | RENAL-FAILURE SECONDARY | MULTIVISCERAL TRANSPLANTATION | EXPANDING INDICATIONS | OXALOSIS | UROLOGY & NEPHROLOGY | OXALATE NEPHROPATHY | IMPROVING OUTCOMES | Recurrence | Postoperative Complications - etiology | Kidney - pathology | Renal Insufficiency, Chronic - etiology | Humans | Middle Aged | Calcium Oxalate - urine | Hyperoxaluria - complications | Intestinal Volvulus - surgery | Allografts - pathology | Anti-Bacterial Agents - therapeutic use | Hyperoxaluria - surgery | Cecum - surgery | Female | Kidney Tubular Necrosis, Acute - etiology | Membrane Transport Proteins - metabolism | Anti-Bacterial Agents - adverse effects | Parenteral Nutrition | Transplantation, Homologous - adverse effects | Vasoconstrictor Agents - therapeutic use | Blood Loss, Surgical - prevention & control | Renal Insufficiency, Chronic - surgery | Glomerular Filtration Rate | Intestines - pathology | Vasoconstrictor Agents - adverse effects | Gastric Bypass - adverse effects | Postoperative Complications - therapy | Delayed Graft Function - etiology | Intestinal Volvulus - etiology | Urinary Tract Infections - drug therapy | Hyperoxaluria - pathology | Renal Insufficiency, Chronic - pathology | Blood Component Transfusion | Calcium Oxalate - pharmacokinetics | Biopsy | Urinary Tract Infections - etiology | Creatinine - blood | Intestines - transplantation | Kidney Transplantation - adverse effects
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Loading RightsAmerican Journal of Veterinary Research, ISSN 0002-9645, 09/2003, Volume 64, Issue 9, pp. 1181 - 1184
Objective-To determine concentrations of calcium (total [tCa], ionized [iCa], protein-bound [pCa], and complexed [cCa]) in dogs with chronic renal failure...
SERUM-CALCIUM | IONIZED CALCIUM | MEMBRANE ULTRAFILTRATION | PRIMARY HYPEROXALURIA | PLASMA | INSUFFICIENCY | HEMODIALYSIS | VETERINARY SCIENCES | VALUES | CHILDREN | Dog Diseases - metabolism | Calcium - metabolism | Blood Urea Nitrogen | Cholesterol - blood | Blood Proteins - metabolism | Carbon Dioxide - blood | Kidney Failure, Chronic - metabolism | Calcium - blood | Animals | Phosphorus - blood | Dogs | Creatinine - blood | Chlorides - blood | Hydrogen-Ion Concentration | Ultrafiltration - veterinary
SERUM-CALCIUM | IONIZED CALCIUM | MEMBRANE ULTRAFILTRATION | PRIMARY HYPEROXALURIA | PLASMA | INSUFFICIENCY | HEMODIALYSIS | VETERINARY SCIENCES | VALUES | CHILDREN | Dog Diseases - metabolism | Calcium - metabolism | Blood Urea Nitrogen | Cholesterol - blood | Blood Proteins - metabolism | Carbon Dioxide - blood | Kidney Failure, Chronic - metabolism | Calcium - blood | Animals | Phosphorus - blood | Dogs | Creatinine - blood | Chlorides - blood | Hydrogen-Ion Concentration | Ultrafiltration - veterinary
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