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- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging abstract "Since the invention of the stethoscope by René-Théophile-Hyacinthe Laennec France in 1816, physicians have been utilizing lung sounds to diagnose various chest conditions. Today auscultation provides physicians with extensive information on the examination of the patient. The skills of the examiner however, vary, as seen in a clinical study that was conducted on the diagnosis of pneumonia in 2004.Vibration response Imaging (VRI), a novelty computer-based technology takes the concept of the stethoscope to a more progressive level. The technology is based on the physiologic vibration generated during the breathing process when flow of air distributing through the bronchial tree creates vibration of the bronchial tree walls and the lung parenchyma itself. Emitted vibration energy propagating through the lung parenchyma and the chest wall reaches the body surface where is captured and recorded by a set of acoustic sensors. The sensors are positioned over the lung areas on the back that allows for the simultaneous reception of these signals from both lungs. These signals are then transformed by a complex algorithm to display the spatial changes in energy intensity during the breathing cycle. The intensity changes follow changes of airflow through the breathing cycle - i.e.: flow increases and decreases during inspiration and expiration. The VRI technology represents these changes as a grey scale-based dynamic image. The darker the higher the vibration intensity and the lighter the lower the vibration intensity is.".
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageID "25572054".
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageLength "8345".
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageOutDegree "5".
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageRevisionID "705343982".
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageWikiLink Auscultation.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageWikiLink Category:Respiratory_system_imaging.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageWikiLink Chronic_obstructive_pulmonary_disease.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageWikiLink René_Laennec.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageWikiLink Respiratory_sounds.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageUsesTemplate Template:Orphan.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageUsesTemplate Template:Reflist.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wikiPageUsesTemplate Template:Use_dmy_dates.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging subject Category:Respiratory_system_imaging.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging comment "Since the invention of the stethoscope by René-Théophile-Hyacinthe Laennec France in 1816, physicians have been utilizing lung sounds to diagnose various chest conditions. Today auscultation provides physicians with extensive information on the examination of the patient.".
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging label "Imaging Lung Sound Behavior with Vibration Response Imaging".
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging sameAs Q6002826.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging sameAs m.09rtvzj.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging sameAs Q6002826.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging wasDerivedFrom Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging?oldid=705343982.
- Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging isPrimaryTopicOf Imaging_Lung_Sound_Behavior_with_Vibration_Response_Imaging.