Cystinuria in Dogs and Cats: What Do We Know after Almost 200 Years?

The purpose of this review is to summarize current knowledge on canine and feline cystinuria from available scientific reports. Cystinuria is an inherited metabolic defect characterized by abnormal intestinal and renal amino acid transport in which cystine and the dibasic amino acids ornithine, lysine, and arginine are involved (COLA). At a normal urine pH, ornithine, lysine, and arginine are soluble, but cysteine forms a dimer, cystine, which is relatively insoluble, resulting in crystal precipitation. Mutations in genes coding COLA transporter and the mode of inheritance were identified only in some canine breeds. Cystinuric dogs may form uroliths (mostly in lower urinary tract) which are associated with typical clinical symptoms. The prevalence of cystine urolithiasis is much higher in European countries (up to 14% according to the recent reports) when compared to North America (United States and Canada) where it is approximately 1–3%. Cystinuria may be diagnosed by the detection of cystine urolithiasis, cystine crystalluria, assessment of amino aciduria, or using genetic tests. The management of cystinuria is aimed at urolith removal or dissolution which may be reached by dietary changes or medical treatment. In dogs with androgen-dependent cystinuria, castration will help. In cats, cystinuria occurs less frequently in comparison with dogs.

Transient generalized proximal tubular dysfunction in an infant with a urinary tract infection: the effect of maternal infliximab therapy?

Objectives Urinary tract infections (UTIs) are common in childhood. Distal tubular dysfunction during a UTI is relatively common, but proximal tubular involvement is a unique feature in humans. Case presentation We present the first case of transient generalized proximal tubular dysfunction (renal Fanconi syndrome) in an infant with an UTI. During pregnancy, his mother was treated for Crohn’s disease with infliximab (last dose at 28 weeks of gestation). He presented at the age of six weeks with a reduced intake, and was found to have amino-aciduria, glucosuria, and urinary loss of potassium, bicarbonate and low-molecular-weight proteins. Within a few weeks after antibiotic treatment for the UTI, no proximal tubular disorder remained and the boy is doing well. Conclusions We hypothesize that the inflammatory response caused by the UTI was more profoundly present due to the maternal infliximab therapy, and thereby included not only the distal but also the proximal tubules.

Acquired Fanconi Syndrome from Ifosfamide

Fanconi syndrome is a renal proximal tubule defect that causes reabsorption defects of electrolytes. The clinical features of Fanconi syndrome are amino aciduria, proteinuria, hypophosphatemia, metabolic acidosis, and glycosuria. In children, it is usually resulting from a genetic defect, such as cystinosis, galactosemia, tyrosinemia, hereditary fructose intolerance, and Wilson disease [1]. However, in adults, it is usually resulting from medications, toxins, and kidney diseases such as light chain proximal tubulopathy and primary amyloidosis [1]. Ifosfamide is a chemotherapy agent that is well known in the literature to cause Fanconi syndrome. Herein, we present a case of a woman with cervical cancer who developed ifosfamide-induced Fanconi syndrome after her fifth cycle of chemotherapy.

Acute Renal Failure Following Accidental Cutaneous Absorption of Phenol: Application of NMR Urinalysis to Monitor the Disease Process

An unusual case of acute renal failure is reported following accidental cutaneous absorption of phenol and exposure to dichloromethane. Renal function during the onset of the nephrotoxic episode and the subsequent recovery period was monitored using a combination of standard clinical biochemical techniques and high resolution 1H-NMR urinalysis. The initial urine biochemical patterns (up to 2 weeks following exposure) showed amino aciduria, glycosuria and lactic aciduria consistent with renal cortical necrosis. There followed a period of polyuria revealing a biochemical pattern (succinic aciduria,dimethylaminuria and N,N-dimethylglycinuria) consistent with renal papillary damage. Haemodialysis was required for a period of 3 weeks and the patient was discharged 42 days after admission to hospital when renal function was normal by standard clinical chemistry criteria (urea, potassium, sodium, creatinine, calcium, phosphate, urine glucose and protein). 1H-NMR spectroscopic urinalysis revealed residual renal biochemical abnormalities consistent with renal papillary damage that were not detected by conventional analytical techniques. One year after the incident the patient is still polyuric, passing up to 3 1 of urine a day.