1 / 10

YOUNG'S MODULUS

YOUNG'S MODULUS EVALUATION FOR BLOOD VESSEL EQUIVALENT PHANTOMS USING OPTICAL COHERENCE ELASTOGRAPHY. Potlov A.Yu, Frolov S.V., Proskurin S.G. Biomedical Engineering, TSTU http://bmt.tstu.ru/ zerner@yandex.ru. Saratov Fall Meeting 201 8. RELEVANCE.

stinnettj
Download Presentation

YOUNG'S MODULUS

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. YOUNG'S MODULUS EVALUATION FOR BLOOD VESSEL EQUIVALENT PHANTOMS USING OPTICAL COHERENCE ELASTOGRAPHY Potlov A.Yu, Frolov S.V., Proskurin S.G. Biomedical Engineering, TSTU http://bmt.tstu.ru/ zerner@yandex.ru Saratov Fall Meeting 2018

  2. RELEVANCE Cerebral aneurysm affects 3-5% of the adult population More than 60% die from aneurysm rupture (stroke) The chances of aneurysm rupture depends on many factors: the patient's lifestyle, the stress-related properties of the patient’s blood vessel walls, the geometric features of the aneurysm, the specific features of the patient’s cardiovascular system, and so on. 2

  3. FLOW-DIVERTER The medical product used in the complex shape cerebral aneurysms treatment. Complex shapemeans spindle-shaped aneurysms, wide-neck aneurysms, etc. The correct selection of the flow-diverter is hampered without using the stress-related propertiesof the patient’s blood vessel wall 3

  4. PROTOTYPE OF THE EXPERIMENTAL SETUP Fiber optic reusable endoscopic probe Optical fiber interferometer with an electro-optical piezo-fiber depth scanning "OCT 1300-E" («Biomedtech», Nizhny Novgorod, Russia) 4

  5. SIMPLIFIED SCHEME OF THE EXPERIMENTAL OCT SYSTEM 1 - light source; 2 - single-mode optical fiber; 3 - optical splitter; 4 - sample arm fiber; 5 - endoscope probe connector; 6 - flexible endoscopic probe; 7 - catheter of the endoscopic probe; 12 - a transparent catheter's shell; 13 - fiber bundle; 19 - focusing lens; 20 - computation and imaging unit; 21 - reference arm single-mode fiber; 22 - focusing lens; 23 - neutral density filter; 24 - optical splitter; 25 - spectrometer. Patent pending, Positive decision 2018 5

  6. SIMPLIFIED SCHEME OF THE ENDOSCOPIC PROBE 8 - optical splitter, 9 - first single-mode optical fiber, 10 - collimator, 11 - focusing lens, 14 - second single-mode optical fiber, 15 - optical trigger, 16 – MEMS gyroscope, 17 – MEMS accelerometer, 18 - digital signal processor, 19 - focusing lens of the sample arm Patent pending, Positive decision 2018 6

  7. ALGORITHM FOR ESTIMATING YOUNG'S MODULUS Biomedical Engineering, 2018, Vol. 51, p. 381-384 7

  8. ALGORITHM FOR FORMATION OF THE BLOOD VESSEL PHANTOM Patent pending, Positive decision 2018 8

  9. OCT IMAGES OF THE BLOOD VESSELWALL PHANTOM Structural OCT images of phantom of optical and stress-related properties of the soft biological tissue before (a) and after (b) deforming impact (a) 9 (b)

  10. PROCESSING OF RECEIVED BIOMEDICAL DATA Displacements of the internal structures of the investigated object Within normal limits Biomedical Engineering, 2018, Vol. 51, p. 381-384 10

More Related