Effects of Ageing and X-lrradiation on the Diurnal Rhythm of Mouse Urinary Bladder Capacity

Dörr, Wolfgang; Kraft, Michael B

doi:10.1159/000282973

Cited by 6 publications

(2 citation statements)

References 16 publications

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“…Two previous studies of the circadian profile of bladder capacity from anesthetized, chronically-implanted mice differ from the data presented here, showing a lower bladder capacity during the light phase which increases in the early portion of the dark phase [20]–[21]. Because those animals were anesthetized, it remains to be determined how the phase of the normal voiding cycle compares in rat and mouse bladders.…”

Section: Discussioncontrasting

confidence: 69%

Diurnal Variation in Urodynamics of Rat

Herrera¹,

Meredith

2010

PLoS ONE

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In humans, the storage and voiding functions of the urinary bladder have a characteristic diurnal variation, with increased voiding during the day and urine storage during the night. However, in animal models, the daily functional differences in urodynamics have not been well-studied. The goal of this study was to identify key urodynamic parameters that vary between day and night. Rats were chronically instrumented with an intravesical catheter, and bladder pressure, voided volumes, and micturition frequency were measured by continuous filling cystometry during the light (inactive) or dark (active) phases of the circadian cycle. Cage activity was recorded by video during the experiment. We hypothesized that nocturnal rats entrained to a standard 12:12 light:dark cycle would show greater ambulatory activity and more frequent, smaller volume micturitions in the dark compared to the light. Rats studied during the light phase had a bladder capacity of 1.44±0.21 mL and voided every 8.2±1.2 min. Ambulatory activity was lower in the light phase, and rats slept during the recording period, awakening only to urinate. In contrast, rats studied during the dark were more active, had a lower bladder capacities (0.65±0.18 mL), and urinated more often (every 3.7±0.9 min). Average bladder pressures were not significantly different between the light and dark (13.40±2.49 and 12.19±2.85 mmHg, respectively). These results identify a day-night difference in bladder capacity and micturition frequency in chronically-instrumented nocturnal rodents that is phase-locked to the normal circadian locomotor activity rhythm of the animal. Furthermore, since it has generally been assumed that the daily hormonal regulation of renal function is a major driver of the circadian rhythm in urination, and few studies have addressed the involvement of the lower urinary tract, these results establish the bladder itself as a target for circadian regulation.

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Section: Discussioncontrasting

confidence: 69%

Diurnal Variation in Urodynamics of Rat

Herrera¹,

Meredith

2010

PLoS ONE

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“…This is consistent with prior studies that showed a circadian difference in bladder capacity and micturition frequency in rodents with no surgery 16,17 and chronically catheterized animals. 18,19 We do, however, report a difference in diurnal bladder pressure that has not previously been reported. In fact, Herrera et al, 20 observed no difference in the average bladder pressure between light and dark phases.…”

Section: Discussioncontrasting

confidence: 69%

Human primary muscle stem cells regenerate injured urethral sphincter in athymic rats

Bekele

Schöwel‐Wolf

Kieshauer

et al. 2022

Anim Models and Exp Med

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Background:The aim of the study was to demonstrate the efficacy of human muscle stem cells (MuSCs) isolated using innovative technology in restoring internal urinary sphincter function in a preclinical animal model. Methods:Colonies of pure human MuSCs were obtained from muscle biopsy specimens. Athymic rats were subjected to internal urethral sphincter damage by electrocauterization. Five days after injury, 2 × 10 5 muscle stem cells or medium as control were injected into the area of sphincter damage (n = 5 in each group). Peak bladder pressure and rise in pressure were chosen as outcome measures. To repeatedly obtain the necessary pressure values, telemetry sensors had been implanted into the rat bladders 10 days prior to injury.Results: There was a highly significant improvement in the ability to build up peak pressure as well as a pressure rise in animals that had received muscle stem cells as compared to control (p = 0.007) 3 weeks after the cells had been injected. Only minimal histologic evidence of scarring was observed in treated rats. Conclusion:Primary human muscle stem cells obtained using innovative technology functionally restore internal urethral sphincter function after injury. Translation into use in clinical settings is foreseeable.

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