Metabolic evaluation and recurrence prevention for urinary stone patients: EAU guidelines.

CONTEXT: An optimum metabolic evaluation strategy for urinary stone patients has not been clearly defined. OBJECTIVE: To evaluate the optimum strategy for metabolic stone evaluation and management to prevent recurrent urinary stones. EVIDENCE ACQUISITION: Several databases were searched to identify studies on the metabolic evaluation and prevention of stone recurrence in urolithiasis patients. Special interest was given to the level of evidence in the existing literature. EVIDENCE SYNTHESIS: Reliable stone analysis and basic metabolic evaluation are highly recommended in all patients after stone passage (grade A). Every patient should be assigned to a low- or high-risk group for stone formation. It is highly recommended that low-risk stone formers follow general fluid and nutritional intake guidelines, as well as lifestyle-related preventative measures to reduce stone recurrences (grade A). High-risk stone formers should undergo specific metabolic evaluation with 24-h urine collection (grade A). More specifically, there is strong evidence to recommend pharmacological treatment of calcium oxalate stones in patients with specific abnormalities in urine composition (grades A and B). Treatment of calcium phosphate stones using thiazides is only highly recommended when hypercalciuria is present (grade A). In the presence of renal tubular acidosis (RTA), potassium citrate and/or thiazide are highly recommended based on the relative urinary risk factor (grade A or B). Recommendations for therapeutic measures for the remaining stone types are based on low evidence (grade C or B following panel consensus). Diagnostic and therapeutic algorithms are presented for all stone types based on the best level of existing evidence. CONCLUSION: Metabolic stone evaluation is highly recommended to prevent stone recurrences. PATIENT SUMMARY: In this report, we looked at how patients with urolithiasis should be evaluated and treated in order to prevent new stone formation. Stone type determination and specific blood and urine analysis are needed to guide patient treatment.

[Stress-related alteration of urine compositions: idiopathic CaOx stone formers, patients with chronic inflammatory bowel disease (CIBD) and healthy controls]. / Stressbedingte Alteration der Harnzusammensetzungen : Untersuchung von idiopathischen CaOx-Steinbildnern, Patienten mit chronisch entzündlicher Darmerkrankung und gesunden Probanden.

BACKGROUND: Increased emotional stress in everyday life influences the way of living and metabolism of people living in developed countries. Contemporaneously, the incidence and prevalence of urolithiasis rises. Does a pathogenetically relevant relationship exist between chronic stress burden and permanently altered urinary composition? PATIENTS AND METHODS: The influence of chronic stress burden on urine composition and risk of urinary calcium oxalate (CaOx) stone formation was, for the first time, comprehensively investigated in 29 healthy controls (CG), 29 idiopathic CaOx stone formers (SF) and 28 patients suffering from chronic inflammatory bowel disease (CIBD). After 4 days with standardized nutrition, 24-h urine was collected. Extensive urinalysis was performed and APCaOx index calculated. Evaluation of subjective stress level was carried out by using the standardized and well-established questionnaire Trierer Inventar zur Beurteilung von chronischem Stress (TICS). The concentration values of the urinary parameters as well as the APCaOx values were linearly correlated with the stress scores obtained from the different items of the TICS. A significance level p≤0.05 was considered to indicate statistical significance. RESULTS: The mean APCaOx indices amounted to 0.8±0.3 in CG, 1.2±0.7 in SF and 1.9±1.2 in CIBD. The increased APCaOx in SF mainly results from relatively increased Ca and oxalate excretions, whereas in CIBD this also results from reduced urinary excretions of citrate and Mg as well as reduced 24-h urinary volumes. The calculation of linear correlation coefficients between a TICS stress dimension and a concentration value of a urinary parameter or APCaOx results in r values not exceeding 0.600. However, some of these correlations are statistically highly significant. In SF only one combination with Ca was observed, while in CIBD in contrast a number of combinations, in particular including Na, was obtained. In CG direct statistical relationships between stress burden and citrate as well as Mg exist. In this group, increased stress burden is associated with increased inhibitory potential to prevent CaOx stone formation. CONCLUSION: In the investigated study groups, differently complex relationships between amount of stress burden and risk of CaOx stone formation were observed, however, without obvious physicochemical principle(s). In some individuals, stress can be associated with a significantly stress-related alteration of urinary composition towards increased CaOx stone formation risk. The results obtained from the CIBD group allow for the first time a conclusive link between emotional stress and inflammatory activity on the one hand and inflammatory activity and metabolic risk constellation of CaOx stone formation on the other hand.

[Metabolic bone disease in premature infants and genetic polymorphisms]. / Koraszülöttek csontanyagcsere-betegsége és genetikai polimorfizmusok.

UNLABELLED: Metabolic bone disease is an important complication among infants very-low-birth-weight (< 1500 g). In adults, osteoporosis has been shown to be associated with polymorphisms of vitamin D receptor, estrogen receptor, and collagen Ialpha1 receptor genes. AIM: The primary goal of the study was to investigate the possible association between metabolic bone disease and the allelic polymorphisms of these three genes. METHOD: 104 infants very-low-birth-weight were enrolled to the study. Bone formation (serum alkaline phosphatase, osteocalcin) and bone resorption (urinary excretion of calcium and pyridinium crosslink) markers were determined and x-rays of the chest and wrist (together with the distal portions of associated long bones) were obtained. RESULTS: Thirty infants (28,8%) were diagnosed with metabolic bone disease based on high activity of bone formation, bone resorption markers, and positive radiologic signs. Statistically significant correlation between thymine-adenine repeat [(TA) n ] allelic variant of estrogen receptor gene and bone disease was observed. Infants with metabolic bone disease more often carried low number of repeats [(TA) n < 19] [odds ratio (OR): 5.82, 95% confidence interval (CI): 2.26-14.98]. Significantly higher number of repeats [(TA)n > 18] was found more frequently in the control group (OR: 0.20, 95% CI: 0.05-0.82). Furthermore significant interaction between vitamin D receptor and collagen Ialpha1 receptor genotypes ( p = 0.023) was observed. In a forward stepwise logistic regression model, bone disorder of preterms correlated with male gender ( p = 0.001), duration of hospitalization ( p = 0.007), homozygous allelic variants of high number of (TA) n repeats ( p = 0.025) and interaction between vitamin D receptor (Tt) and estrogen receptor (homozygous allelic variants of low number of repeats) genotype ( p = 0.037). CONCLUSION: The results suggest that the development of metabolic bone disease in infants very-low-birth-weight may be associated with genetic polymorphisms.

[Hypercalciuria with severe hypocalcaemia in association with distal renal tubular acidosis--case report and differential diagnostics]. / Hiperkalcjuria z ciezka hipokalcemia w przebiegu kwasicy cewkowej dystalnej--opis przypadku i diagnostyka róznicowa.

Neither severe distal renal tubular acidosis nor hypercalciuria have been recognized to cause severe hypocalcaemia. We describe a 53 years old woman with distal renal tubular acidosis and hypercalciuria who demonstrated severe hypocalcemia, normalized after calcium and vitamin D supplementation and treatment with thiazide.

[Differential diagnosis of urinary findings]. / Was hinter dem pathologischen Urinbefund steckt.

Classical urinalysis is extremely useful in the differential diagnosis of diseases of the kidneys and lower urinary tract. Although dipsticks are suitable for orientational purposes, when pathology is indicated, and when renal disease presents, they must be supplemented by urine microscopy or quantitative and qualitative protein electrophoresis to establish the diagnosis. Phase-contrast microscopy can distinguish glomerular from nonglomerular hematuria and thus guide the further diagnosis, and the detection of leukocytes and bacteria confirms the diagnosis of urinary tract infection. In asymptomatic patients microhematuria or proteinuria is detected more frequently with increasing age. A differentiated diagnostic strategy must be adapted to the individual risk of the patient, and must avoid overdiagnosis while not missing potentially serious pathology.

[Pathophysiology, diagnosis and conservative therapy in calcium kidney calculi]. / Pathophysiologie, Diagnostik und konservative Therapie bei Kalzium-Nierensteinen.

Annual incidences of kidney stones are about 0.1-0.4% of the population, and lifetime prevalences in the USA and Europe range between 8 and 15%. Kidney stones occur more frequently with increasing age and among men. Within ten years, the disease usually recurs in more than 50% of patients. Nowadays, about 85% of all kidney stones contain calcium salts (calcium oxalate and/or calcium phosphate) as their main crystalline components. Because human urine is commonly supersaturated with respect to calcium salts as well as to uric acid, crystalluria is very common, i.e. healthy people excrete up to ten millions of microcrystals every day. Recurrent stone formers appear to excrete lower amounts or structurally defective forms of crystallization inhibitors which allows for the formation of large crystal aggregates as precursors of stones. Alternatively, crystal adhesion to urothelial surfaces may be enhanced in stone formers. Medical treatment of renal colic is based on nonsteroidal antiinflammatory drugs, because prostaglandins appear to play a crucial role in the pathophysiology of pain during ureteral obstruction. In addition, centrally acting analgesics such as pethidine-HCl may be required in many cases. The administration of high amounts (3-4 liters/day) of intravenous fluids should be abandoned, since it may raise intraureteral pressure whereby pain increases and kidney pelvis or fornices may rupture. All first-stone formers should undergo a simple basic evaluation, including stone analysis (x-ray diffraction or infrared spectrometry), serum values of ionized calcium (alternatively: total calcium and albumin) and creatinine, urinalysis and repeated measurements of fasting urine pH in order to detect urinary acidification disorders or low urine pH. In high-risk patients with as first stone episode (i.e. strongly positive family history, inflammatory bowel disease, short-bowel syndrome, nephrocalcinosis, bilateral stones, hypercalcemia, renal tubular acidosis, airline pilots) as well as in all recurrent stone formers, an extended metabolic evaluation should be performed. Two 24-hurines should be collected on free-choice diet not prior to three months after stone passage or urological intervention. Analysis includes measurements of volume, creatinine, calcium, oxalate, uric acid and citrate; sodium and urea as markers of salt and protein consumption are optional but clinically very helpful. Since hypercalciuria is of much less importance than increases in urinary oxalate, therapeutic efforts should primarily focus on lowering urinary oxalate excretion. Sufficient calcium intake, i.e. 1200 mg per day, is crucial, because it allows for binding of oxalate at the intestinal level whereby increases of urinary oxalate (reciprocal hyperoxaluria) can be avoided. Excess intake of flesh protein (meat, fish, poultry) is lithogenic since it increases urinary calcium, oxalate and uric acid, and lower citrate. On the other hand, a diet rich in alkali (vegetables, fruit) is associated with a lower risk of stone formation. A "common sense diet" containing sufficient amounts of fluids, 1200 mg of calcium per day and reduced amounts of flesh protein as well as salt is able to reduce the 5-year stone recurrence rate in calcium stone formers by 50%. The scientific evidence for drug treatment (thiazides, alkali citrate) is rather poor: the most widely quoted randomized thiazide trial included only 42 patients of whom 36% left the protocol prematurely, whereas 36-48% of patients included in three randomized studies with alkali citrate suffered from undesirable side-effects; nevertheless, citrate therapy reduced the stone recurrence rate by 38%, compared with 22% in patients on placebo treatment (p < 0.0005).

[Pathophysiology, diagnosis and conservative therapy of non-calcium kidney calculi]. / Pathophysiologie, Diagnostik und konservative Therapie bei nicht-kalziumhaltigen Nierensteinen.

While calcium oxalate and calcium phosphate make up at least 80% of all kidney stones, infection-induced and uric acid stones occur in 10% and 8%, respectively. Although any type of stone may become infected, the term "infection stones" means that stone formation exclusively depends on urease-producing bacteria. The splitting of urea leads to a rise in urinary pH which may induce crystallization of struvite (magnesium-ammonium-phosphate), the major constituent of infection stones, or carbonate apatite. Struvite stones account for the majority of staghorn calculi. They can grow quite large and may fill the entire collecting system. Patients with struvite stones may present with acute flank pain or remain completely asymptomatic. The cure of infection stones requires complete removal of the stone material. For uric acid crystallization and stone formation, low urine pH (below 5.5) is a more important risk factor than increased urinary uric acid excretion. Main causes of low urine pH are tubular disorders (including gout), chronic diarrheal states or severe dehydration. Accordingly, the treatment of uric acid stones consists not only of hydration (urine volume above 2000 ml per day), but mainly of urine alkalinization to pH values between 6.2 and 6.8. Urinary uric acid excretion can be reduced by a low-purine diet as well as--in case of recurrent uric acid stones and/or gout--by allopurinol. Cystinuria is a rare hereditary gene disorders with impaired tubular reabsorption of cystine. Stone formation occurs as a consequence of cystine's relatively low solubility at urine pH levels below 8. Only symptomatic diet and drug treatments are currently available, with urine dilution and urine alkalinization being the most efficient ones. Cystine stones respond poorly to shockwave lithotripsy, so that invasive procedures may regularly be necessary. 2,8-dihydroxy-adenine stones occur as a consequence of an enzyme deficiency that involves purine metabolism. These resulting stones are not visible by fluoroscopy and are therefore often misinterpreted as uric acid stones. Low-purine diet and allopurinol reduce the frequency of stone formation.

Possible application of urinary analysis to estimate dissolution of some man-made vitreous fibers.

A preliminary study at the institut National de l'Environnement Industriel et des Risques (INERIS) examined the dissolution of three man-made vitreous fiber samples (glasswool, rockwool, glass microfibers: JM 100) after intraperitoneal injections in male Wistar rats. The chemical composition of the original fibers was determined by inductively coupled plasma spectrometry (ICP). The urine of the rats was collected at fixed times between day 1 and day 204, and the ICP was used to look for elements known to be present in the original fibers. At day 204, a piece of omentum was removed at autopsy, ashed and analyzed by energy dispersive X-ray analysis (EDXA) to identify the elements remaining in the fibers. Silicon and aluminium were retained in the fibers from all samples at day 204. Losses in calcium, sodium, magnesium, and sulfur were observed, but these elements were not studied in the urine samples because they are naturally present in relatively high concentrations in rat cells and biological fluids. Although there was a loss of zinc from the glass microfibers, no corresponding difference was observed between the zinc levels excreted by the treated animals and by the controls. Similarly, despite the loss of manganese from the rockwool fibers at day 204, none was detectable in the urine samples. Titanium, present at the 0.3% level in rockwool, was not detectable by EDXA at day 204, but small quantities were detected in the first 2 weeks in the urine samples of rats treated with rockwool.(ABSTRACT TRUNCATED AT 250 WORDS)