Impaired bladder function in aging male rats.

PURPOSE: The prevalence of bladder dysfunctions increases with age. In humans it is difficult to separate changes related to exogenous factors from those directly related to the aging process. Some confounding variables can be avoided by studying age related changes in an animal model. We evaluated the impact of age on bladder function in vivo and in vitro, and characterized the corresponding morphological changes. MATERIALS AND METHODS: Young (4 to 6 months old) and old (older than 28 to 30 months) male Fischer/Brown Norway rats were used in the study. Cystometric studies were done in conscious, freely moving rats. After cystometry tissue strips from the bladder body were used in in vitro studies of muscarinic receptor activation and electrical field stimulation, and histological examination. RESULTS: Old rats had higher bladder weight than young rats but the bladder-to-body weight ratio did not change. We noted significant age related differences in 8 of 10 cystometric parameters. Old rats had increased bladder capacity, post-void residual volume, micturition volume and frequency, baseline and intermicturition pressure, and spontaneous activity but decreased micturition pressure. Bladder strip responses to carbachol and electrical field stimulation were significantly lower in old than in young rats. Histological examination revealed urothelial thinning, lower muscle mass and higher collagen content in the bladders of old vs young rats. CONCLUSIONS: Physiological aging alters bladder function in male rats even when external factors remain constant. Thus, in old rats bladder capacity, post-void residual urine and spontaneous activity are higher, and responses to muscarinic receptor stimulation and electrical field stimulation are lower than in young rats. Such changes correspond to findings in aging human bladders, supporting the view that the Fischer/Brown Norway rat is a useful model in which to study age related bladder function changes.

Alterations in bladder function associated with urothelial defects in uroplakin II and IIIa knockout mice.

AIMS: The effects of deleting genes encoding uroplakins II (UPII) and III (UPIIIa) on mouse bladder physiology/dysfunction were studied in male and female wild type and knockout (KO) mice. METHODS: UPII, UPIIIa, and WT mice were catheterized using previously described techniques. Continuous cystometry was conducted in conscious, freely moving animals. Bladder strips were harvested after animal sacrifice and pharmacological studies and EFS were conducted in an organ chamber. Histological studies were also carried on with H&E staining to identify differences among the three mouse types. RESULTS: These studies have revealed numerous alterations, some of which were apparently gender-specific. Nonvoiding contractions were common in both UPII and UPIIIa KO mice, although more severe in the former. In particular, the increased bladder capacity, micturition pressure and demonstrable nonvoiding contractions observed in the male UPII KO's, were reminiscent of an obstruction-like syndrome accompanied by evidence of emerging bladder decompensation, as reflected by an increased residual volume. Pharmacological studies revealed a modest, gender-specific reduction in sensitivity of isolated detrusor strips from UPII KO female mice to carbachol-induced contractions. A similar reduction was observed in UPIIIa KO female mice. Histological investigation showed urothelial hyperplasia in both UPII KO and UPIIIa KO mice, although again, apparently more severe in the former. CONCLUSIONS: These results confirm and extend previous work to indicate that urothelial defects due to uroplakin deficiency are associated with significant alterations in bladder function and further highlight the importance of the urothelium to bladder physiology/dysfunction.

Voiding pattern analysis as a surrogate for cystometric evaluation in uroplakin II knockout mice.

PURPOSE: Previous study has shown that the absence of uroplakin II can cause urinary tract dysfunction, including vesicoureteral reflux and renal abnormalities, as well as micturition pattern changes. We developed a simple surrogate measure of bladder function using ultraviolet visualization of urinary voiding patterns in a uroplakin II knockout mouse animal model. MATERIALS AND METHODS: Three male and 3 female WT mice, and 3 male and 3 female uroplakin II knockout mice were evaluated by cystometric analysis and voiding pattern markings. Voiding pattern markings were graded by independent observers on a scale of 1 to 5 according to the degree of dispersion of voided urine. Statistical analysis was then used to correlate voiding dispersion grades with cystometric parameters in the same mice. RESULTS: The degree of dispersion of voiding pattern markings correlated with several measures of bladder function. Specifically the Pearson correlation coefficients for the observed voiding patterns highly correlated with baseline pressure, threshold pressure and intermicturition pressure measurements made during conscious cystometry in these mice (p <0.05). CONCLUSIONS: Ultraviolet visualization of urinary voiding patterns of mice correlated well with certain measures of standard cystometric evaluations. As such, this method provides a simple, noninvasive method of evaluating mouse bladder function. Implementation of this methodology, which can potentially be automated for high throughput analysis, can accelerate the development of novel therapy for certain important aspects of bladder disease/dysfunction.