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Probe System (probe + system)

Distribution by Scientific Domains
Medical Sciences75%

Selected Abstracts

Direction sensitive sensor probe for the evaluation of voluntary and reflex pelvic floor contractions,

NEUROUROLOGY AND URODYNAMICS, Issue 3 2007
Christos E. Constantinou
Abstract Aims The development of a vaginal probe for the evaluation of the dynamics of pelvic floor function is described. Fundamental criteria in the design of this probe involves the incorporation of a means of assessing whether the isotonic forces closing the vagina are equally distributed or whether they are greater in some directions than others. The aim of this study is to present the design of directionally sensitive multi-sensor probe, having circumferential spatial resolution, constructed to identify the distribution of anisotropic forces acting on the vagina following voluntary and reflex pelvic floor contractions. Materials and Methods Probe system consists of four pairs of force/displacement sensors mounted on leaf springs enabling isotonic measurements of voluntary and reflex contractions. Assembly is retractable to 23 mm for insertion, and expandable to 60 mm for measurement. Simultaneous measurements were made of force and displacement with the sensors oriented in the anterior/posterior and left/right orientation of the vagina. Using this probe, measurements were carried out to identify the temporal and spatial characteristic response of the vaginal wall. Data were analyzed with respect to voluntary pelvic floor and cough-induced contractions of nine subjects having a mean age of 64 years. Results A robust probe system was developed and measurements were successfully made. Initial results show that the maximum force and displacement occurs during reflex contractions in the anterior aspect of the vagina validating the anisotropic nature of the forces acting on the vaginal wall. The data also show that both the force and displacement produced by the cough-induced has a higher magnitude than voluntary pelvic floor contraction. Conclusions A directional multi-sensor vaginal probe has been developed to evaluate the force and displacement produced during isotonic pelvic floor contractions. Analysis of the results provided new biomechanical data demonstrating the anisotropic nature of vaginal closure as a consequence of pelvic floor contractions. Neurourol. Urodynam. 26:386,391, 2007. © 2007 Wiley-Liss, Inc. [source]

The accuracy of the Vivacare true pressure-sensitive periodontal probe system in terms of probing force

JOURNAL OF CLINICAL PERIODONTOLOGY, Issue 2 2000
Axel Bergenholtz
Abstract Background: The Hunter TPS Vivacare periodontal probe was invented to perform consistent, accurate and reliable periodontal examinations "with controlled pressures". Aims: The aims of the present investigation are 3: (1) what is the accuracy of the probing force when various probe heads are used in a correct operation position; (2) what is the effect of over- and under-reading of the operation position on the probing force; (3) what is the accuracy of the probing force when different probe handles are used. The Hunter TPS probe consists of a tip connected to a special spring mechanism, which controls the pressure extended to the probe tip. According to the manufacturer, the force indicator lines coincide at approximately 20 g force. Method: The test apparatus consisted of an electronic balance, and an electronic caliper. 12 TPS probes tips and 3 handles were selected to test whether there were differences in force between probes. Each probe tip was adapted to the same handle and tested 10 times. In a 2nd test, the TPS-handles and over-, accurate-, and under-readings were analyzed as to how they affect the probing force. The 12 TPS probe tips were connected to each of the 3 handles and tested 10× for each of 3 handles and levels. Results: The range in force between TPS probe tips was 8.4 g (p<0.001). For the handles as well as for each of the readings of the operating positions, the differences were small and non-significant. However, between over- and under-readings, there were statistical significant differences. Conclusions: The conclusion is that the variation in force between probe tips is high and always above the manufacturer's "approximately" 20 g. As long as the same handle and the same probe tip are used together, and the examiner is reading the markings correct, the. TPS probe is adequate. [source]

Direction sensitive sensor probe for the evaluation of voluntary and reflex pelvic floor contractions,

NEUROUROLOGY AND URODYNAMICS, Issue 3 2007
Christos E. Constantinou
Abstract Aims The development of a vaginal probe for the evaluation of the dynamics of pelvic floor function is described. Fundamental criteria in the design of this probe involves the incorporation of a means of assessing whether the isotonic forces closing the vagina are equally distributed or whether they are greater in some directions than others. The aim of this study is to present the design of directionally sensitive multi-sensor probe, having circumferential spatial resolution, constructed to identify the distribution of anisotropic forces acting on the vagina following voluntary and reflex pelvic floor contractions. Materials and Methods Probe system consists of four pairs of force/displacement sensors mounted on leaf springs enabling isotonic measurements of voluntary and reflex contractions. Assembly is retractable to 23 mm for insertion, and expandable to 60 mm for measurement. Simultaneous measurements were made of force and displacement with the sensors oriented in the anterior/posterior and left/right orientation of the vagina. Using this probe, measurements were carried out to identify the temporal and spatial characteristic response of the vaginal wall. Data were analyzed with respect to voluntary pelvic floor and cough-induced contractions of nine subjects having a mean age of 64 years. Results A robust probe system was developed and measurements were successfully made. Initial results show that the maximum force and displacement occurs during reflex contractions in the anterior aspect of the vagina validating the anisotropic nature of the forces acting on the vaginal wall. The data also show that both the force and displacement produced by the cough-induced has a higher magnitude than voluntary pelvic floor contraction. Conclusions A directional multi-sensor vaginal probe has been developed to evaluate the force and displacement produced during isotonic pelvic floor contractions. Analysis of the results provided new biomechanical data demonstrating the anisotropic nature of vaginal closure as a consequence of pelvic floor contractions. Neurourol. Urodynam. 26:386,391, 2007. © 2007 Wiley-Liss, Inc. [source]

Integration of a Chemical-Responsive Hydrogel into a Porous Silicon Photonic Sensor for Visual Colorimetric Readout

ADVANCED FUNCTIONAL MATERIALS, Issue 4 2010
Lisa M. Bonanno
Abstract The incorporation of a chemo-responsive hydrogel into a 1D photonic porous silicon (PSi) transducer is demonstrated. A versatile hydrogel backbone is designed via the synthesis of an amine-functionalized polyacrylamide copolymer where further amine-specific biochemical reactions can enable control of cross-links between copolymer chains based on complementary target,probe systems. As an initial demonstration, the incorporation of disulfide chemistry to control cross-linking of this hydrogel system within a PSi Bragg mirror sensor is reported. Direct optical monitoring of a characteristic peak in the white light reflectivity spectrum of the incorporated PSi Bragg mirror facilitates real-time detection of the hydrogel dissolution in response to the target analyte (reducing agent) over a timescale of minutes. The hybrid sensor response characteristics are shown to systematically depend on hydrogel cross-linking density and applied target analyte concentration. Additionally, effects due to responsive hydrogel confinement in a porous template are shown to depend on pore size and architecture of the PSi transducer substrate. Sufficient copolymer and water is removed from the PSi transducer upon dissolution and drying of the hydrogel to induce color changes that can be detected by the unaided eye. This highlights the potential for future development for point-of-care diagnostic biosensing. [source]