Abstract
The maintenance of urinary bladder elasticity is essential to its functions, including the storage and voiding phases of the micturition cycle. The bladder stiffness can be changed by various pathophysiological conditions. Quantitative measurement of bladder elasticity is an essential step toward understanding various urinary bladder disease processes and improving patient care. As a nondestructive, and noncontact method, laser-induced surface acoustic waves (SAWs) can accurately characterize the elastic properties of different layers of organs such as the urinary bladder. This initial investigation evaluates the feasibility of a noncontact, all-optical method of generating and measuring the elasticity of the urinary bladder. Quantitative elasticity measurements of ex vivo porcine urinary bladder were made using the laser-induced SAW technique. A pulsed laser was used to excite SAWs that propagated on the bladder wall surface. A dedicated phase-sensitive optical coherence tomography (PhS-OCT) system remotely recorded the SAWs, from which the elasticity properties of different layers of the bladder were estimated. During the experiments, series of measurements were performed under five precisely controlled bladder volumes using water to estimate changes in the elasticity in relation to various urinary bladder contents. The results, validated by optical coherence elastography, show that the laser-induced SAW technique combined with PhS-OCT can be a feasible method of quantitative estimation of biomechanical properties.
Highlights
The elasticity of the urinary bladder ensures its proper functioning during various phases of the micturition cycle [1, 2]
The results, validated by optical coherence elastography, show that the laser-induced surface acoustic waves (SAWs) technique combined with phase-sensitive optical coherence tomography (PhS-optical coherence tomography (OCT)) can be a feasible method of quantitative estimation of biomechanical properties
This paper explores the utility of phase-sensitive OCT (PhS-OCT) and the laser-induced SAW method for measuring bladder elasticity
Summary
The elasticity of the urinary bladder ensures its proper functioning during various phases of the micturition cycle [1, 2]. As the amount of connective tissue increases compared to that of smooth muscle, the bladder becomes more rigid and is less able to expand during filling Cystometry is a functional measurement technique that provides no information on structural alterations in the urinary bladder. It is difficult for these methods to image the bladder diseases in early stage, e.g. early bladder cancer which is usually developing inside of the mucosa layer; 2) they require physical contact or a coupling material for stimulation and detection, which may not be desirable in clinical or surgical situations; 3) the techniques are generally designed assuming shear wave propagation in the bulk tissue and cannot reveal information on different layers in the bladder
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