Primary Hyperoxaluria and Renal Cortical Nephrocalcinosis – as a Cause of Renal Failure

Case Report

Austin J Urol. 2015;2(2): 1023.

Primary Hyperoxaluria and Renal Cortical Nephrocalcinosis – as a Cause of Renal Failure

Sriram K¹*, Ramesh Chinnasamy², Prabha Senguttavan² and Shroff S¹

¹Department of Urology, Sri Ramachandra University, India

²Department of Nephrology, Sri Ramachandra University, India

*Corresponding author: Sriram K, Department of Urology, Sri Ramachandra University, Ramachandra Nagar, Porur, Chennai, India

Received: January 27, 2015; Accepted: February 25, 2015; Published: March 03, 2015

Abstract

A nine year old male child presented with end stage renal disease, needing emergency haemodialysis. During evaluation, he was diagnosed to have primary hyperoxaluria. The need for transplantation and the problems associated with an isolated renal transplantation were discussed with the patient. His parents subsequently opted for continuous ambulatory peritoneal dialysis.

The Primary Hyperoxalurias (PH) are inborn errors of metabolism of Glyoxylate and oxalate resulting in an increase in the endogenous production of oxalate that in turn results in an excessive excretion of oxalates in urine.

As a result of a high urinary oxalate excretion, the urine becomes supersaturated with calcium oxalate crystals, resulting in formation of crystals within the tubular lumen. PH therefore, manifests either as severe Nephrocalcinosis and/or urolithiasis.

Transplantation in these patients with renal failure has to be done with extreme caution. It is sensible to combine Renal and liver transplantation in order to prevent recurrence of symptoms.

The latency time between the presentation of symptoms and the time a diagnosis is made is too wide and protracted. Hence it is imperative to have a high index of suspicion in making a diagnosis of hyperoxaluria. Early diagnosis and appropriate treatment are obligatory to prevent this potentially devastating clinical condition.

Keywords: Hyperoxaluria, Renal transplantation, Nephrocalcinosis

Introduction

Primary Hyperoxaluria (PH) is an inborn error of metabolism, where there is an excessive production and urinary excretion of oxalates. The natural history of PH is such that this problem presents early in childhood as calcium oxalate stones and nephrocalcinosis with recurrent urinary tract infection and progresses with increase in time to full blown renal failure and death. The main hallmark of this particular disease is that there are no obvious biochemical abnormalities, except an increased urinary oxalate excretion [1]. In most of the patients, the disease takes a fatal course, as they develop terminal renal failure before the end of third decade of life [2]. Demonstration of an increased urinary oxalate excretion is necessary to distinguish this condition from Calcium oxalate urolithiasis without hyperoxaluria.

Case Report

A nine year old male child presented with fatiguability, recurrent episodes of vague bilateral loin pain, puffiness of face, pedal edema and recurrent vomiting episodes.

On evaluation, he was diagnosed to have abnormal renal function. Ultrasound abdomen revealed parenchymal calcifications of both the kidneys. The serum creatinine level was 11.8 mg/dl and serum potassium was 5.6 mEq/L. The serum uric acid levels were 12 mg/ dl; serum calcium was 7 mg/dl. He initially underwent haemodialysis through right jugular access and was subsequently worked up for a possible renal transplantation on a later date.

The 24 hour urine volume was about 800 ml on an average. The urinary excretion of calcium was 180mg/24 hours; uric acid excretion of 480 mg per 24 hours and phosphates being 450 mg. The urinary oxalate levels were 148 mg per 24 hours. Plain Computed Tomography (CT) scan of the abdomen revealed an extensive parenchymal calcification involving both the kidneys. The upper calyx of the right kidney also harbored a 2 centimeter sized stone occupying the entire dilated upper calyx, extending onto and occluding the infundibulum of the right upper calyx, measuring 1200 Houndsfield (HU) units. The pelvi-calyceal system and the ureters were not dilated.

Based on the available clinical and biochemical findings, a diagnosis of primary hyperoxaluria was considered. The diagnosis of hyperoxaluria needs either a liver biopsy to measure the AGT catalytic activity or genetic analysis to study the gene mutations. As these facilities were not available in our centre, based on the clinical, radiological and biochemical findings, a diagnosis of primary hyperoxaluria was made. The condition of the patient was discussed in detail with his parents and also the need for combined liver and renal transplantation and a very high possibility of disease recurrence after isolated renal transplantation. The patient subsequently opted for continuous ambulatory peritoneal dialysis.

Discussion

Renal cortical nephrocalcinosis is one of the rare conditions encountered in urological practice. Calcifications in the kidney may either be within the renal parenchyma or within the collecting system. The former is called as Nephrocalcinosis, which may either be cortical or medullary depending on the location of the calcification, and the latter is termed Nephrolithiasis [3].

The primary hyperoxalurias are inborn errors of metabolism of Glyoxylate and oxalate resulting in an increase in the endogenous production of oxalate that in turn results in an excessive excretion of oxalates in urine.

Owing to a high urinary oxalate excretion, the urine becomes supersaturated with calcium oxalate crystals, resulting in formation of crystals within the tubular lumen. PH therefore, manifests either as severe Nephrocalcinosis and/or urolithiasis.

Progressive renal parenchymal inflammation and interstitial fibrosis due to Nephrocalcinosis cause renal impairment, which progresses to an end stage renal disease status over a period of time [4].

The various causes of hyperoxaluria are:

Primary hyperoxaluria -- disorders in biosynthetic pathways.

Enteric hyperoxaluria – intestinal malabsorptive states associated with inflammatory bowel disease, celiac sprue, or intestinal resection.

Dietary hyperoxaluria-- excessive dietary intake or high substrate levels vitamin C.

PH is a rare metabolic disorder, transmitted as an Autosomal recessive disease. The primary pathology is a defect of the peroxysmal hepatic enzyme L-alanine: Glyoxylate Amino Transferase (AGT), an enzyme that helps in the conversion of Glyoxylate to Glycine that in turn results in the increase of Glyoxylate pool, which gets converted to oxalate [5]. In these patients, both the kidneys show an extensive calcification of the renal parenchyma. (Figure 1 &2).

Citation: Sriram K, Chinnasamy R, Senguttavan P and Shroff S. Primary Hyperoxaluria and Renal Cortical Nephrocalcinosis – as a Cause of Renal Failure. Austin J Urol. 2015;2(2): 1023. ISSN:2472-3606