Validation of Noninvasive MOEMS-Assisted Measurement System Based on CCD Sensor for Radial Pulse Analysis
Examination of wrist radial pulse is a noninvasive diagnostic method, which occupies a very important position in Traditional Chinese Medicine. It is based on manual palpation and therefore relies largely on the practitioner’s subjective technical skills and judgment. Consequently, it lacks reliabil...
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2013-04-01
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| Online Access: | http://www.mdpi.com/1424-8220/13/4/5368 |
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doaj-05e7829d55d54415a795ad1a7eba43002020-11-24T22:21:51ZengMDPI AGSensors1424-82202013-04-011345368538010.3390/s130405368Validation of Noninvasive MOEMS-Assisted Measurement System Based on CCD Sensor for Radial Pulse AnalysisRolanas DaukseviciusVytautas OstaseviciusMinvydas RagulskisKarolis MalinauskasPaulius PaleviciusExamination of wrist radial pulse is a noninvasive diagnostic method, which occupies a very important position in Traditional Chinese Medicine. It is based on manual palpation and therefore relies largely on the practitioner’s subjective technical skills and judgment. Consequently, it lacks reliability and consistency, which limits practical applications in clinical medicine. Thus, quantifiable characterization of the wrist pulse diagnosis method is a prerequisite for its further development and widespread use. This paper reports application of a noninvasive CCD sensor-based hybrid measurement system for radial pulse signal analysis. First, artery wall deformations caused by the blood flow are calibrated with a laser triangulation displacement sensor, following by the measurement of the deformations with projection moiré method. Different input pressures and fluids of various viscosities are used in the assembled artificial blood flow system in order to test the performance of laser triangulation technique with detection sensitivity enhancement through microfabricated retroreflective optical element placed on a synthetic vascular graft. Subsequently, the applicability of double-exposure whole-field projection moiré technique for registration of blood flow pulses is considered: a computational model and representative example are provided, followed by in vitro experiment performed on a vascular graft with artificial skin atop, which validates the suitability of the technique for characterization of skin surface deformations caused by the radial pulsation.http://www.mdpi.com/1424-8220/13/4/5368radial pulselaser triangulationMOEMSCCD sensorprojection moiré |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Rolanas Dauksevicius Vytautas Ostasevicius Minvydas Ragulskis Karolis Malinauskas Paulius Palevicius |
| spellingShingle |
Rolanas Dauksevicius Vytautas Ostasevicius Minvydas Ragulskis Karolis Malinauskas Paulius Palevicius Validation of Noninvasive MOEMS-Assisted Measurement System Based on CCD Sensor for Radial Pulse Analysis Sensors radial pulse laser triangulation MOEMS CCD sensor projection moiré |
| author_facet |
Rolanas Dauksevicius Vytautas Ostasevicius Minvydas Ragulskis Karolis Malinauskas Paulius Palevicius |
| author_sort |
Rolanas Dauksevicius |
| title |
Validation of Noninvasive MOEMS-Assisted Measurement System Based on CCD Sensor for Radial Pulse Analysis |
| title_short |
Validation of Noninvasive MOEMS-Assisted Measurement System Based on CCD Sensor for Radial Pulse Analysis |
| title_full |
Validation of Noninvasive MOEMS-Assisted Measurement System Based on CCD Sensor for Radial Pulse Analysis |
| title_fullStr |
Validation of Noninvasive MOEMS-Assisted Measurement System Based on CCD Sensor for Radial Pulse Analysis |
| title_full_unstemmed |
Validation of Noninvasive MOEMS-Assisted Measurement System Based on CCD Sensor for Radial Pulse Analysis |
| title_sort |
validation of noninvasive moems-assisted measurement system based on ccd sensor for radial pulse analysis |
| publisher |
MDPI AG |
| series |
Sensors |
| issn |
1424-8220 |
| publishDate |
2013-04-01 |
| description |
Examination of wrist radial pulse is a noninvasive diagnostic method, which occupies a very important position in Traditional Chinese Medicine. It is based on manual palpation and therefore relies largely on the practitioner’s subjective technical skills and judgment. Consequently, it lacks reliability and consistency, which limits practical applications in clinical medicine. Thus, quantifiable characterization of the wrist pulse diagnosis method is a prerequisite for its further development and widespread use. This paper reports application of a noninvasive CCD sensor-based hybrid measurement system for radial pulse signal analysis. First, artery wall deformations caused by the blood flow are calibrated with a laser triangulation displacement sensor, following by the measurement of the deformations with projection moiré method. Different input pressures and fluids of various viscosities are used in the assembled artificial blood flow system in order to test the performance of laser triangulation technique with detection sensitivity enhancement through microfabricated retroreflective optical element placed on a synthetic vascular graft. Subsequently, the applicability of double-exposure whole-field projection moiré technique for registration of blood flow pulses is considered: a computational model and representative example are provided, followed by in vitro experiment performed on a vascular graft with artificial skin atop, which validates the suitability of the technique for characterization of skin surface deformations caused by the radial pulsation. |
| topic |
radial pulse laser triangulation MOEMS CCD sensor projection moiré |
| url |
http://www.mdpi.com/1424-8220/13/4/5368 |
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AT rolanasdauksevicius validationofnoninvasivemoemsassistedmeasurementsystembasedonccdsensorforradialpulseanalysis AT vytautasostasevicius validationofnoninvasivemoemsassistedmeasurementsystembasedonccdsensorforradialpulseanalysis AT minvydasragulskis validationofnoninvasivemoemsassistedmeasurementsystembasedonccdsensorforradialpulseanalysis AT karolismalinauskas validationofnoninvasivemoemsassistedmeasurementsystembasedonccdsensorforradialpulseanalysis AT pauliuspalevicius validationofnoninvasivemoemsassistedmeasurementsystembasedonccdsensorforradialpulseanalysis |
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