Case Report
 

By Mr. Anthony K Venyo
Corresponding Author Mr. Anthony K Venyo
Urology Department. North Manchester General Hospital, - United Kingdom M8 5RB
Submitting Author Mr. Anthony Kodzo - Grey Venyo
UROLOGY

Hydronephrosis, Renal Failure, Hyperkalaemia, Debris, Long-Term Urethral Catheter, Bladder wash Out.

Venyo AK. Hyperkalaemia, Renal Failure, and Right-Sided Hydro-Uretero-Nephrosis a Sequel of Intravesical Debris in the Presence of an Indwelling Long-Term Urethral Catheter: Case Report and Review of the Literature.. WebmedCentral UROLOGY 2011;2(4):WMC001893
doi: 10.9754/journal.wmc.2011.001893
No
Submitted on: 23 Apr 2011 04:47:17 PM GMT
Published on: 24 Apr 2011 05:57:18 AM GMT

Abstract


Background:
Common complications associated with the use of long-term urethral catheter include bypassing of the catheter, bleeding, catheter blockage, urinary tract infection, and accidental disconnection of the urinary catheter bag from the urethral catheter.
Aims:
To report a case of intravesical debris associated with long-term urethral catheter causing hyperkalemia, hydronephrosis and renal failure.
To review the literature on debris accumulation in renal tract, causing hyperkalaemia and renal failure.
Case Report:
A 78-years old man with a long-term urethral catheter was admitted generally unwell and very little urine draining out of his urethral catheter. Results of his initial renal function test confirmed he was in renal failure and his serum potassium was 6.7 m-mol/L and eGFR 37 mls / minute. He was therefore given insulin/dextrose to bring down the serum potassium level to 5.7 m-mol per Litre.
Ultrasound-scan of his renal tract showed right sided hydro-ureteronephrosis, lots of intra-vesical debris (sediments) causing obstruction of the right ureter. It was agreed that a nephrostomy would help improve the renal failure, but in view of copious amount of debris within the bladder perhaps initial bladder wash outs with removal of the debris may be enough to resolve the hydronephrosis.
Bladder wash outs was done which resulted in complete removal of the debris from the bladder and the renal function returned to normal with serum potassium levels returning to 4.0 mmoles and eGFR to > 90 mls / minute the next day without the need for any other treatment. The hydronephrosis resolved.
Discussion:
Literature review confirmed that there has never been a report of debris in the urinary bladder causing renal failure, hyperkalaemia and hydro-uretero-nephrosis.
Conclusion:
General practitioners should educate their district nurses to provide weekly bladder wash outs for patients with long term urethral catheters in order to avoid the aforementioned complications.


Case Report


A 78-years-old man with an indwelling long term urethral catheter who is known to have Parkinsonism was referred by his general practitioner to the physicians as an emergency with a history of being unwell for about a week. Three days prior to his admission he complained of supra-pubic and in view of this he had been taking trimethoprim 200mg orally daily which was prescribed by his general practitioner for a presumed urinary tract infection.
His past medical history include voiding problems related to benign prostatic hypertrophy, type 2 diabetes mellitus. His medications included metformin and gliclazide.
His general examination was unremarkable. He was afebrile with a temperature of 36.6 degrees centigrade; he had tarchycardia with a pulse rate of 110 beats per minute; his blood pressure was 111/68 mm Hg. Examination of his respiratory system and abdominal examination, were unremarkable. The small amount of urine in his catheter bag was cloudy; contained debris; and was foul smelling.
A provisional diagnosis of on-going urinary tract infection with mild dehydration was made. Some of his initial investigations included:
Urinalysis which revealed- nitrites +, leucocytes +++, protein +.
Full blood count with the following results: Haemoglobin 9.1 g/dL (normal range 13 – 18); white blood cell count 6.7x10*9/L (normal range 4.0 – 11.0); platelets 234 x10*9/L; Prothrombine Time [PT] 13.6 (normal range 10-16); INR 1.1 (normal range 01.1-1.1).
Serum urea and electrolytes with the following results: Sodium 137 mmol/L (normal range 136-145); potassium 6.7 mmol/L (normal range 3.5-5.4), creatinine 150 umol/L (normal range 62-115); urea 28.2 mmol/L (normal range 2.5-6.7); estimated glomerular filtration rate 37 mL/minute (normal range > 60 mL/minute)
Liver function test; the results on the whole were generally normal.
Urine for culture and sensitivity. (The specimen was rejected because of spillage).
He was started on intravenous infusion of normal saline on arrival and upon realisation that he had hyperkalaemia with Serum potassium of 6.7 mmol/l, he was given insulin glucose (20 units of Actrapid in 50 ml of 50% dextrose) which brought down the serum potassium to 5.7 mmol/L. Detailed results of the serum urea and electrolytes after the insulin glucose treatment were recorded as follows: (Sodium 140 mmol/L, Potassium 5.7 mmol/L, Creatinine 122 Umol/L, Urea 23.4 mmol/L, eGFR 48 mls/minute). After he had had 1,500 ml of normal saline he had produced 130 mls of cloudy urine which contained a lot of debris and the urine was bypassing. He was also given 1.2 grams of Co-Amoxiclav intravenously.
An ultrasound scan of renal tract was done and this revealed right sided hydronephrosis (see illustration 1), right hydro-ureter, a thick walled urinary bladder with diverticula, a lot of debris / sediments within the urinary bladder which was blocking the right ureteric orifice, the left upper renal tract was normal with no hydronephrosis (see illustrations 2 and 3 which show the debris in the urinary bladder).
In view of the right sided hydronephrosis, renal failure and hyperkalaemia the physicians asked for a urological opinion to see if a right nephrostomy insertion was not indicated to help improve the renal failure.
At a review of the ultrasound scan by the urologist with the radiologists it was felt that the copious amount of debris/sediment in the urinary bladder could possibly be the cause of the renal failure because the catheter was not draining well. It was therefore recommended that: in view of the fact that the serum potassium level had been brought down to 5.7mmol/L, a bladder wash out should be performed to remove all the debris in the urinary bladder to see if the urine out-put as well the renal function would improve without resorting to insertion of a nephrostomy; a repeat ultrasound scan would be performed the next day as well as a repeat serum urea and electrolyte estimation.
A bladder wash out was attempted through the indwelling 16 Fr urethral catheter but it was realised that the catheter was blocked by debris and that normal saline could not flush through. The 16 Fr catheter was removed and a 22 Fr 3-way urethral catheter was inserted through which a thorough bladder wash outs was done removing a lot of debris pursuant to which the urine became clear and the urine output improved with a drainage of clear urine.
A repeat ultrasound scan which was performed the next day (about 15 hours after the bladder wash outs) revealed complete resolution of the hydronephrosis (see illustration 4). The patient had serum urea and electrolytes repeated 1 day and 2 days after the bladder wash outs and the results showed that the renal function had completely returned to normal with all parameters of his renal function being normal including the estimated glomerular filtration rate (eGFR) which had improved to > 90 ml/min. The detailed results of the patients renal function tests after the bladder wash outs were recorded as:
Day 1 post bladder wash-outs- Sodium 136 mmol/L; Potassium 4.0 mmol/L; Creatinine 69 U mol/L; Urea 11.0 mmol/L; eGFR > 90 mls/minute.
Day 2 post bladder wash-outs- Sodium 138 mmol/L; Potassium 4.1 mmol/L; Creatinine 63 U mol/L; Urea 4.7 mmol/L; eGFR > 90 mls / minute.
His serum Prostate Specific Antigen was recorded as 2.06 ug / litre (within normal range).
The patient was subsequently discharged home after the 3-way urethral catheter was replaced with a new 2-way long-term urethral catheter, with recommendations to his general practitioner and the district nurse to perform bladder wash outs for patient once a week to avoid further accumulation of debris in the patients urinary bladder in the future

Discussion


There are number of well known and common causes of hydro-ureteronephrosis however, intra-vesical or intra-ureteric debris is not one of them. Gordon and associates [1] reported a 9-years-old girl who presented with apparent meningococcal septicaemia and developed acute renal failure after 48 hours of treatment with antibiotics and analgesics. Early ultra-sound scanning, demonstrated mild bilateral hydro-uretero-nephrosis and no contrast entering the urinary bladder. Repeat ultra-sonography revealed bilateral papillary irregularity and echogenic debris in the distal ureter. Bilateral double –J stents were inserted cystoscopically, resulting in prompt polyuria and return of normal renal function. Gordon and associates [1] concluded that although rare, recognition of slough papilla in papillary necrosis causing ureteral obstruction can lead to early management with no long term sequelae.
Broadis and associates [2] reported a 2-year-old male who was brought to hospital with a 5 day history of vomiting and pyrexia. He was initially treated with non-steroidal medication as an antipyretic. Initial investigations demonstrated raised serum urea and creatinine and he was treated with intravenous fluids. Within 24 hours he became anuric with progressive renal insufficiency. Ultra-sound scan demonstrated minimal bilateral hydronephrosis with debris in the lower pole calyces. The urinary bladder was empty. Cystoscopy and retrograde contrast imaging revealed bilateral ureteric obstruction. Double J stents were inserted and his renal function returned to normal within 4 days. Broadis and associates [2] stipulated that the aetiology to the renal papillary necrosis and bilateral ureteric obstruction was secondary to the administration of ibuprofen in association with dehydration.
Kamath and associates [3] reported an unusual case of a sloughed papilla causing hydronephrosis of a transplant kidney and its successful percutaneous removal. They stated that the recognition of renal papillary necrosis is important, not only because it can lead to obstruction, infection, and potentially the loss of the transplant. They also stated that papillary necrosis as a cause of obstruction in a transplant patient is extremely rare with only one reported case prior to their report.
Amuluru and associates [4] reported a case of a patient who developed bilateral hydro-uretero-nephrosis from papillary necrosis secondary to ingestion of commercial toilet bowel cleaner eight days after her ingestion. Acute renal failure prompted a renal ultrasound which showed bilateral hydro-uretero-nephrosis. Emergent bilateral per-cutaneous nephrostomy tubes were placed and subsequent ureteroscopy revealed a large amount of obstructing necrotic material consistent with papillary necrosis. Ureteroscopic removal of the material and bilateral ureteral stents improved the patient’s renal function. They stated that:
The aetiology of the patient’s papillary necrosis was likely due to a combination of hypovolaemia, systemic acidosis from the ingestion, and direct toxicity of the substance on the renal vasculature.
This case demonstrates the importance of early recognition of renal insults and the extra intestinal manisfestation of toxic household ingestions.
Debris building up within the urinary bladder is one of the main problems encountered by patients undergoing long-term catheterization. Common problems that have been reported by patients with long-term urethral catheter in the urinary bladder associated with debris include: by passing of urie around the catheter; intermittent blockage of the catheter requiring more frequent changes of the urinary catheter, a single episode of acute retention of urine and no drainage from the catheter requiring admission to hospital for change of catheter and bladder wash outs; recurrent urinary tract infections and smelly urine associated with bypassing of urine around the catheter; observation of lots of debris in the urinary catheter requiring a request to the district nurse and general practitioner for more frequent bladder wash outs; frequent bypassing of urine around the catheter and debris in the urine but the district nurse only comes to change the catheter without wash outs and the catheter blocks again. When patients are discharged from Urology units arrangements are usually made with the district nurses working with the patients’ general practitioners to do bladder wash outs for the patients once a week and in cases of excessive debris within the bladder to do bladder wash outs twice a week; and the urinary catheters should be changed every 12 to 13 weeks. Occasionally patients come back to say that they have not been having bladder wash outs as advised.
There is evidence in the literature [1, 2, 3, 4], to suggest that debris from renal papillary necrosis can cause ureteric obstruction and renal failure. To the author’s knowledge there is no report of debris in the urinary bladder accumulating to the extent of causing hydro-uretero-nephrosis associated with renal failure and hyperkalemia requiring treatment with insulin glucose to bring the serum potassium levels down to normal range and to warrant consideration for insertion of per-cutaneous nephrostomy. This is the first reported case of significant debris in the urinary bladder in association with an indwelling blocked urethral catheter causing ureteric obstruction, renal failure and severe hyperkalaemia. Recognition of the debris in the bladder which was considered to be the cause of the obstruction enabled the patient’s doctors to change the urethral catheter to a 3-way 22 French catheter which made it easy for a thorough bladder wash outs to be provided and this management was enough to ensure complete removal of all the debris from the urinary bladder as well as resolution of the hydronephrosis in less than 24 hours with resolution of the renal failure (thus avoiding the need for insertion of nephrostomy)..

Conclusion


The experience gained by the knowledge that accumulation of significant debris in the urinary bladder can lead to hydronephrosis, infection, renal failure and hyperkalaemia should be enough for all general practitioners to educate their district nurses to provide weekly bladder wash outs to their patients with long term catheters to avoid the aforementioned complications.    

References


1. Gordon M, Cervellione R M, Postlewaite R, Shabani A, Hennayake S. Acute Renal Papillary Necrosis With Complete Ureteral Obstruction In a Child. Urology 2007 March; 69(3):575 e1 1-2
2. Broadis E, Barbour L, O’Toole S, Fyfe A, Fleu M, Irwin G, Ramage I J. Bilateral ureteric obstruction secondary to renal papillary necrosis.  Pediatr Surg Int. 2010 Aug; 26(8): 867-869 Epub 2010 Apr 27 
3. Kamath S, Moody M P, Hammond J C. Papillary necrosis causing hydronephrosis in renal allograft treated by percutaneous retrieval of sloughed papilla. Br J Radiol. 2005 Apr; 78(928): 346-348
4. Amuluru K, Erickson B A, Okotie O, Nadler R B. Bilateral ureteral obstruction from papillary necrosis secondary to household cleaner ingestion. Can J Urol. 2009 Jun; 16(3): 4701-4703

Source(s) of Funding


None

Competing Interests


None

Disclaimer


This article has been downloaded from WebmedCentral. With our unique author driven post publication peer review, contents posted on this web portal do not undergo any prepublication peer or editorial review. It is completely the responsibility of the authors to ensure not only scientific and ethical standards of the manuscript but also its grammatical accuracy. Authors must ensure that they obtain all the necessary permissions before submitting any information that requires obtaining a consent or approval from a third party. Authors should also ensure not to submit any information which they do not have the copyright of or of which they have transferred the copyrights to a third party.
Contents on WebmedCentral are purely for biomedical researchers and scientists. They are not meant to cater to the needs of an individual patient. The web portal or any content(s) therein is neither designed to support, nor replace, the relationship that exists between a patient/site visitor and his/her physician. Your use of the WebmedCentral site and its contents is entirely at your own risk. We do not take any responsibility for any harm that you may suffer or inflict on a third person by following the contents of this website.

Comments
0 comments posted so far

Please use this functionality to flag objectionable, inappropriate, inaccurate, and offensive content to WebmedCentral Team and the authors.

 

Author Comments
0 comments posted so far

 

What is article Popularity?

Article popularity is calculated by considering the scores: age of the article
Popularity = (P - 1) / (T + 2)^1.5
Where
P : points is the sum of individual scores, which includes article Views, Downloads, Reviews, Comments and their weightage

Scores   Weightage
Views Points X 1
Download Points X 2
Comment Points X 5
Review Points X 10
Points= sum(Views Points + Download Points + Comment Points + Review Points)
T : time since submission in hours.
P is subtracted by 1 to negate submitter's vote.
Age factor is (time since submission in hours plus two) to the power of 1.5.factor.

How Article Quality Works?

For each article Authors/Readers, Reviewers and WMC Editors can review/rate the articles. These ratings are used to determine Feedback Scores.

In most cases, article receive ratings in the range of 0 to 10. We calculate average of all the ratings and consider it as article quality.

Quality=Average(Authors/Readers Ratings + Reviewers Ratings + WMC Editor Ratings)