Abstract
PurposeWe propose a novel method to monitor bladder wall mechanical properties as a function of filling volume, with the potential application to bladder compliance assessment. The proposed ultrasound bladder vibrometry (UBV) method uses ultrasound to excite and track Lamb waves on the bladder wall from which its mechanical properties are derived by fitting measurements to an analytical model. Of particular interest is the shear modulus of bladder wall at different volumes, which we hypothesize, is similar to measuring the compliance characteristics of the bladder.Materials and MethodsThree experimental models were used: 1) an ex vivo porcine model where normal and aberrant (stiffened by formalin) bladders underwent evaluation by UBV; 2) an in vivo study to evaluate the performance of UBV on patients with clinically documented compliant and noncompliant bladders undergoing UDS; and 3) a noninvasive UBV protocol to assess bladder compliance using oral hydration and fractionated voiding on three healthy volunteers.ResultsThe ex vivo studies showed a high correlation between the UBV parameters and direct pressure measurement (R2 = 0.84–0.99). A similar correlation was observed for 2 patients with compliant and noncompliant bladders (R2 = 0.89–0.99) undergoing UDS detrusor pressure-volume measurements. The results of UBV on healthy volunteers, performed without catheterization, were comparable to a compliant bladder patient.ConclusionThe utility of UBV as a method to monitor changes in bladder wall mechanical properties is validated by the high correlation with pressure measurements in ex vivo and in vivo patient studies. High correlation UBV and UDS in vivo studies demonstrated the potential of UBV as a bladder compliance assessment tool. Results of studies on healthy volunteers with normal bladders demonstrated that UBV could be performed noninvasively. Further studies on a larger cohort are needed to fully validate the use of UBV as a clinical tool for bladder compliance assessment.
Highlights
The normal urinary bladder is a highly compliant elastic organ capable of storing urine at low pressures [1]
The ex vivo studies showed a high correlation between the ultrasound bladder vibrometry (UBV) parameters and direct pressure measurement (R2 = 0.84–0.99)
The utility of UBV as a method to monitor changes in bladder wall mechanical properties is validated by the high correlation with pressure measurements in ex vivo and in vivo patient studies
Summary
The normal urinary bladder is a highly compliant elastic organ capable of storing urine at low pressures [1]. In the presence of neurologic injuries, chronic infection, or urinary outlet obstruction there is an increase in the percent of connective tissue in the bladder interstitium compared to smooth muscle. This increase in connective tissue can result in the bladder becoming more rigid and reducing its ability to store urine with low pressure. This pathologic might lead to both urinary incontinence and upper tract deterioration [2,3,4]. The unique and variable time-course of many of these conditions require repeated assessments of the bladder compliance to properly manage these disorders and limit the negative effects on renal function over time
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