Dae K. Kima, Jonathan Kaufmanb, Zhonghong Guanc, Pradeep Tyagid, Naoki Yoshimuraa, Kim A. Killingerd, Kenneth M. Petersd and Michael B. Chancellord,
aDepartment of Urology, Eulji University, Daejeon, Korea
bLipella Pharmaceuticals, Inc., Pittsburgh, PA, USA
cDepartment of Urology, State University of New York Downstate Medical School, New York, NY, USA
dDepartment of Urology, William Beaumont Hospital, Royal Oak, MI, USA
Received 19 September 2008;
revised 22 December 2008;
accepted 26 December 2008.
Available online 10 June 2009.
Abstract
Objective
Acute bladder distension results in pressure ischemia, subsequent reperfusion injury, and ultimately damage to the detrusor. We hypothesize that changes in pressure may be a key factor to damage resulting from over-distension and developed a pressure-guided distension model to evaluate cystometric changes.
Materials and Methods
Three groups of adult female Sprague Dawley rats (250 g) were used: a sham distended control group, a 3-day (3D) and 7-day (7D) follow-up group after pressure-guided distension. Under pentobarbital anesthesia, the urethra was clamped and saline was infused (0.04 mL/min) under continuous intravesical pressure monitoring. After reaching 120 cmH2O pressure, infusion was stopped and clamping was maintained for 30 minutes. For sham distension, all procedures except the saline infusion were done.
Results
There were no bladder ruptures during distension. Distension volumes needed to achieve the fixed pressure were variable (1.68–2.90 mL), but mean distension volumes were similar between the 3D and 7D groups (2.1 ± 0.1 mL vs. 2.2 ± 0.3 mL). After distension, maximal cystometric capacity and residual urine volume were increased at both time points. Voiding efficiencies were decreased significantly in both the 3D and 7D groups (p <>
Conclusion
Our pressure-guided distension model exhibits cystometric characteristics of bladder decompensation. This model for the underactive bladder™ (UAB) may prove useful to further the development of targeted UAB™ treatments.
Keywords: Bladder; Muscle; Retention; Underactive bladder
Last Updated: July 27, 2020 by uabadmin
Cystometric Changes in Pressure-guided Acute Distension Rat Model of the Underactive Bladder™
Volume 21, Issue 2, June 2009, Pages 136-139
Copyright © 2009 Buddhist Compassion Relief Tzu Chi Foundation Published by Elsevier B.V.
Dae K. Kima, Jonathan Kaufmanb, Zhonghong Guanc, Pradeep Tyagid, Naoki Yoshimuraa, Kim A. Killingerd, Kenneth M. Petersd and Michael B. Chancellord,
aDepartment of Urology, Eulji University, Daejeon, Korea
bLipella Pharmaceuticals, Inc., Pittsburgh, PA, USA
cDepartment of Urology, State University of New York Downstate Medical School, New York, NY, USA
dDepartment of Urology, William Beaumont Hospital, Royal Oak, MI, USA
Abstract
Objective
Acute bladder distension results in pressure ischemia, subsequent reperfusion injury, and ultimately damage to the detrusor. We hypothesize that changes in pressure may be a key factor to damage resulting from over-distension and developed a pressure-guided distension model to evaluate cystometric changes.
Materials and Methods
Three groups of adult female Sprague Dawley rats (250 g) were used: a sham distended control group, a 3-day (3D) and 7-day (7D) follow-up group after pressure-guided distension. Under pentobarbital anesthesia, the urethra was clamped and saline was infused (0.04 mL/min) under continuous intravesical pressure monitoring. After reaching 120 cmH2O pressure, infusion was stopped and clamping was maintained for 30 minutes. For sham distension, all procedures except the saline infusion were done.
Results
There were no bladder ruptures during distension. Distension volumes needed to achieve the fixed pressure were variable (1.68–2.90 mL), but mean distension volumes were similar between the 3D and 7D groups (2.1 ± 0.1 mL vs. 2.2 ± 0.3 mL). After distension, maximal cystometric capacity and residual urine volume were increased at both time points. Voiding efficiencies were decreased significantly in both the 3D and 7D groups (p <>
Conclusion
Our pressure-guided distension model exhibits cystometric characteristics of bladder decompensation. This model for the underactive bladder™ (UAB) may prove useful to further the development of targeted UAB™ treatments.
Keywords: Bladder; Muscle; Retention; Underactive bladder
Category: Research Articles Tags: underactive bladder
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