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Query: UMLS:C0020438 (
hypercalciuria
)
2,502
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nephrolithiasis is a heterogeneous disorder, with varying chemical composition and pathophysiologic background. Although kidney stones are generally composed of calcium oxalate or calcium phosphate, they may also consist of uric acid, magnesium-ammonium phosphate, or cystine. Stones develop from a wide variety of metabolic or environmental disturbances, including varying forms of
hypercalciuria
, hypocitraturia, undue urinary acidity, hyperuricosuria, hyperoxaluria, infection with
urease
-producing organisms, and cystinuria. The cause of stone formation may be ascertained in most patients using the reliable diagnostic protocols that are available for the identification of these disturbances. Effective medical treatments, capable of correcting underlying derangements, have been formulated. They include sodium cellulose phosphate, thiazide, and orthophosphate for hypercalciuric nephrolithiasis; potassium citrate for hypocitraturic calcium nephrolithiasis; acetohydroxamic acid for infection stones; and D-penicillamine and alpha-mercaptopropionylglycine for cystinuria. Using these treatments, new stone formation can now be prevented in most patients.
...
PMID:Etiology and treatment of urolithiasis. 196 46
This study is presented as a debate on nephrolithiasis by a urologist and an internist. The reason is that in 1986 the urologist has become successful at desintegrating almost any stone without open surgery, whereas the internist's approach to the same problem is entirely based upon an understanding of pathophysiological mechanisms. After having reviewed the major risk factors for renal stone disease, i.e. small urine volume,
hypercalciuria
, hyperoxaluria, hyperuricosuria, very high or very low urine pH and hypocitraturia, the author shows that now it is not only possible to selectively correct each of these disorders, but that in doing so the internist does change the natural history of the disease. For instance, definite remissions have been obtained by advising patients to increase water intake, by administering thiazides to hypercalciurics, pyridoxine to some hyperoxalurics, allopurinol to hyperuricosurics,
urease
inhibitors to struvite stone formers and citrate to hypocitraturics. Therefore, the author concludes that the role of the urologist and that of the internist are complementary: although the former now desintegrates the stone without open surgery, the latter, who takes care of the same patient next, is now largely able to prevent relapse of nephrolithiasis after determining the cause of the disease.
...
PMID:[Renal lithiasis: the internist's viewpoint 1986]. 373 61
Kidney stones have an overall incidence of two to three percent in western countries. In many patients, the disease process is difficult to control and recurrence rates are high: 20 to 50 percent over the subsequent ten years. The pathogenesis and standard methods of treatment for the five major types of stones (i.e., calcium oxalate, struvite, calcium phosphate, uric acid, and cystine) are reviewed. Three new drugs are reviewed in the context of their roles in the selective treatment of kidney stones. Cellulose sodium phosphate (Calcibind) is a nonabsorbable ion-exchange resin with a limited indication for the treatment of calcium stones associated with absorptive
hypercalciuria
Type I. Acetohydroxamic acid (Lithostat) is an
urease
-inhibitor that is indicated as adjunctive therapy in patients with chronic urea-splitting urinary tract infections and struvite stones. Potassium citrate (Urocit) is an investigational agent that has clinical efficacy in patients with calcium oxalate and calcium phosphate stones who are hypocitraturic. In addition, potassium citrate is an alkalinizing agent that can be used in patients with uric acid stones.
...
PMID:New drug therapy for kidney stones: a review of cellulose sodium phosphate, acetohydroxamic acid, and potassium citrate. 389 14
The analysed material includes 100 children with urolithiasis treated in the Pediatric Clinic of the National Research Institute of Mother and Child in Warsaw between 1976 and 1978. Patients' age was from 3 months to 18 years. The analysed group included 51 boys and 49 girls. Urinary tract infection was found in 54 cases, i.e. 57,4% of the analysed material. The most common bacterial strains were those producing
urease
. They were detected in 48 children i.e. 88,9% of cases with urinary tract infection. Mostly these were bacteria of Proteus group--sporadically Pseudomonas aeruginosa and Staphylococcus albus. In the analysed patients urinary tract obstruction was observed in 36 children, i.e. 36% of cases. In 77% of the analysed material, localization of concrements was in upper urinary tract in 19% in the ureters and in 4% in the lover urinary tract. While in adult patients the most common compound of urinary stones was calcium oxalate, in children the most common stone compounds were phosphates (found in 38 cases i.e. 58,4% of the analysed material). The second frequent compound was oxalate found in 20 cases (30,7%). Less frequent compounds were uric acid and cystine. Performed study allowed to establish the cause of urolithiasis in 93 out of 100 examined children. Metabolic reasons of urolithiasis were found in 26 cases, i.e. 26% of the analysed material. They were as follows: idiopathic
hypercalciuria
--12 cases, uric acid urolithiasis--8 cases, primary hyperoxaluria--3 cases, cystinuria--2 cases, and incomplete acidosis of distal renal tubuli--1 case. Urolithiasis of probably metabolic origin was detected in 13 children (13%). Other reasons of urolithiasis in children were: infection (31%), idiopathic urolithiasis (17%) and others (6%). In 7 cases the reason of urolithiasis was not established.
...
PMID:[Metabolic etiology of urinary calculi in children]. 717 91
We present a case of urinary stone originated in the upper urinary tract and impacted within the ureteroileal anastomosis, in a patient with ileal conduit urinary diversion. Extracorporeal shock wave lithotripsy (ESWL) showed itself resolutive. Patients with urinary diversion have multiple risk factor for calculi formation (acidosis with concomitant
hypercalciuria
, upper urinary tract infections with
urease
producing bacteria, urostasis due to ureterointestinal anastomosis or ureteral narrowing), as well as predisposing conditions for stones to impact along the ureter or within the ureterointestinal anastomosis. Follow-up of these patients has to be very careful in order to avoid obliterative pyeloureteritis, the major complication of stone disease in patients with urinary conduit diversion.
...
PMID:[ESWL for urolithiasis in a patient with transileal ureterocutaneostomy]. 918 11
Urinary catheters tend to block when biofilm from
urease
-producing organisms build up on the catheter surface. This is a locally-occurring process that influences and influenced by the composition of the urine. In this work we relate urine pH and calcium to catheter blockage and suggest how to reduce the rate of encrustation. Sixty patients with indwelling urinary catheters were studied, 26 of them being troubled by frequent blockage of their catheters, 34 of them not. A series of small urine samples were collected during a 24 h period. Urinary pH and calcium concentration were combined into discriminant functions designed to separate Blockers from Non-blockers and achieved a 95% correct classification. The results indicate that a high and uniform rate of fluid intake is mandatory for the patient with a tendency for catheter blockage. Excessive total fluid intake may be avoided by attention to uniformity. Other avoidable risk factors include: excess dietary calcium from certain protein supplements and antacids; excess dietary magnesium from certain beverages and antacids; alkali from effervescent tablets; excess dietary citrate from some fruit juices and cordials; intermittent dehydration from alcohol ingestion. Less tractable risk factors include infection of the urinary tract with
urease
-positive organisms,
hypercalciuria
of immobilisation, hyperhydrosis and postural oliguria. The processes involved in catheter encrustation and blockage provide a model for the formation of calculi in spinal cord injured patients. Therefore the above considerations may also be relevant to the management of stone disease in paraplegic and tetraplegic patients.
...
PMID:Urinary catheter blockage depends on urine pH, calcium and rate of flow. 926 17
Nephrolithiasis is a common condition affecting nearly 5 percent of U.S. men and women during their lifetimes. Recurrent calculi can be prevented in most patients by the use of a simplified evaluation, reasonable dietary and fluid recommendations, and directed pharmacologic intervention. Serum studies and 24-hour urine collections are the mainstays of metabolic investigation and usually are warranted in patients with recurrent calculi. Although some stones are the result of inherited conditions, most result from a complex interaction between diet, fluid habits, and genetic predisposition. Calcium-sparing diuretics such as thiazides often are used to treat
hypercalciuria
. Citrate medications increase levels of this naturally occurring stone inhibitor. Allopurinol can be helpful in patients with hyperuricosuria, and
urease
inhibitors can help break the cycle of infectious calculi. Aggressive fluid intake and moderated intake of salt, calcium, and meat are recommended for most patients.
...
PMID:Medical management of common urinary calculi. 1684 82
Although urolithiasis is common in spinal cord injury patients, it is presumed that the predisposing factors for urinary stones in spinal cord injury patients are immobilization-induced
hypercalciuria
in the initial period after spinal injury and, in later stages, urine infection by
urease
-producing micro-organisms, e.g., Proteus sp., which cause struvite stones. We describe a patient who sustained C-7 complete tetraplegia in a road traffic accident in 1970, when he was 16 years old. Left ureterolithotomy was performed in 1971 followed by left nephrectomy in 1972. Probably due to adhesions, this patient developed volvulus of the intestine in 1974. As he had complete tetraplegia, he did not feel pain in the abdomen and there was a delay in the diagnosis of volvulus, which led to ischemia of a large segment of the small bowel. All but 1 ft of jejunum and 1 ft of ileum were resected leaving the large bowel intact. In 1998, suprapubic cystostomy was performed. In 2004, this patient developed calculus in the solitary right kidney. Complete stone clearance was achieved by extracorporeal shock wave lithotripsy. Stone analysis: calcium oxalate 60% and calcium phosphate 40%. Metabolic evaluation revealed hyperoxaluria, hypocitraturia, and hypomagnesiuria. Since this patient had hyperoxaluria, the stool was tested for Oxalobacter formigenes, a specific oxalate-degrading, anerobic bacterium inhabiting the gastrointestinal tracts of humans; absence of this bacterium appears to be a risk factor for development of hyperoxaluria and, subsequently, calcium oxalate kidney stone disease. DNA from the stool was extracted using the QIAamp DNA stool Mini Kit (Qiagen, Chatsworth, CA). The genomic DNA was amplified by polymerase chain reaction using specific primers for oxc gene (developed by Sidhu and associates). The stool sample tested negative for O. formigenes. The patient was prescribed potassium citrate mixture; he was advised to avoid oxalate-rich food, maintain recommended levels of calcium in his diet, and take live bio-yogurt. Two months later, 24-h urinary oxalate decreased from 0.618 to 0.411 mmol/day; 24-h urine citrate increased from 0.58 to 1.10 mmol/day. Six months later, an oxalate absorption test was performed. The patient swallowed a capsule, soluble in gastric juice, containing 50 mg (0.37 mmol) sodium [13C2]oxalate corresponding to 33.8 mg of [13C2]oxalic acid. The amount of labeled oxalate, excreted in urine, was measured by a gas chromatographic-mass spectrometric assay. Oxalate absorption, expressed as the percentage of the labeled dose recovered in the 24-h urine after dosing, was 8.3% (reference range: 2.3-17.5%). In addition to other conventional measures, oral administration of O. formigenes or lactic acid bacteria mixture to promote bacterial degradation of oxalate in the gut, and thus combat hyperoxaluria, may play a role in prevention of calcium oxalate kidney stones.
...
PMID:Hyperoxaluria, hypocitraturia, hypomagnesiuria, and lack of intestinal colonization by Oxalobacter formigenes in a cervical spinal cord injury patient with suprapubic cystostomy, short bowel, and nephrolithiasis. 1761 9
