Design of a Cranial Vascular Mechanics Model - PowerPoint PPT Presentation

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Design of a Cranial Vascular Mechanics Model

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Vascular Mechanics Model Sean S. Kohles, PhD Director, Kohles Bioengineering, Portland, OR; Adjunct Associate Professor, Mechanical Engineering, PSU & OSU, – PowerPoint PPT presentation

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Title: Design of a Cranial Vascular Mechanics Model


1
Design of a Cranial Vascular Mechanics Model
  • Sean S. Kohles, PhD
  • Director, Kohles Bioengineering, Portland, OR
  • Adjunct Associate Professor,
  • Mechanical Engineering, PSU OSU,
  • and Surgery, OHSU

2
Purpose of this Seminar
  • Introduce myself as potential project advisor
  • Describe design objectives and motivation for the
    proposed project
  • Medical issues
  • Biologic and biomimetic materials
  • End users
  • Performance specifications

3
Kohles Training
  • University of Wisconsin
  • Engineering Mechanics (BS, MS)
  • Bioengineering (PhD)
  • Orthopedic Surgery (Postdoc)
  • University of Oregon
  • Exercise Science (Visiting Assistant Professor)

4
Previous PositionWorcester Polytechnic
Institute,Massachusetts
  • Tenure-track faculty in
  • Biomedical Engineering
  • Biomechanics, biomaterials, biotransport, and
    design courses
  • Mechanical Engineering
  • Biology Biotechnology
  • Adjunct appointments
  • Clinical Science (Tufts Univ School of Vet Med)
  • Physiology Orthopedics (Univ of Mass Med School)

5
Kohles Research Foci
  • Biomechanics and biotransport
  • Tissue and implant mechanics
  • Biomaterials and tissue engineering
  • Surgical device design
  • Orthopedic, dental, minimally invasive
  • Biostatistics and mathematical modeling

6
Current Vascular Mechanics Project
  • Collaboration with Biomedical Signal Processing
    (PSU) and Complex Systems (OHSU) Laboratories
  • James McNames, PhD ECE-PSU
  • Brahm Goldstein, MD Pediatrics-OHSU
  • Wayne W. Wakeland, PhD Systems Science-PSU
  • Mark Weislogel, PhD ME-PSU

7
Design Objectives
  • Create a proof-of-concept mechanical model of
    cranial vascular mechanics
  • Flow system with variable control of
  • Fluid pressure and volume
  • Fluid pathways (vessel tubes vs porous media)
  • Head analog which simulates key tissues
    (biomimetics)
  • Hard and soft tissues, fluids
  • Synthetic composite arrangement

8
Brain and CardiovascularBiomechanics
  • The head or cranium is a natural thick-walled
    pressure vessel
  • Cranial tissues contained within the bony
    calvarium
  • Brain and connective tissues (1200 mL), static
  • Cerebral spinal fluid, CSF (150 mL), dynamic
  • Blood (150 mL), dynamic
  • Hydrostatic (buoyancy forces in CSF) and
    hydrodynamic (blood flow) states

9
Brain and Cardiovascular Biomechanics
  • Pulsatile flow driven by the heart
  • Volumetric flow to the brain
  • 750 ml/min
  • Vessel pathway controls mass transport
  • Arteries to arterioles to capillaries to venules
    to veins
  • Normal arterial pressure range
  • 60 to 160 mmHg or 8 to 21.3 kPa
  • fainting to edema
  • Autoregulatory system
  • Heart rate, vessel dilation/constriction, etc.

10
Medical Significance
  • Traumatic brain injury (TBI) due to an external
    physical force such as acquired during an auto
    accident.
  • Leading cause of death and disability in children
    and adolescents in the United States
  • The brain swells as a consequence of the injury,
    the pressure within the calvarium increases
    causing regional or global ischemia
  • Decreased blood supply due to constriction or
    obstruction of the blood vessels.
  • This secondary injury, in turn, causes cell death
    and potentially permanent impairment or brain
    death.

11
Medical Device State of the Art
  • Few technologies other than medical images exist
    to monitor brain, post injury
  • Current devices tap into cranium and vessels to
    measure static/dynamic pressures
  • New devices measure volume change (DV) associated
    with pressure change (DP)
  • Compliance, S DV/DP
  • Combined measure of flow resistance
  • in vessels and compressibility
  • or distensibility of cranial tissues

12
Medical Needs
  • No physical models exist to
  • Judge accuracy of current devices
  • Complement mathematical models which attempt to
    predict autoregulatory system
  • Educate physicians and researchers on the unique
    mechanical dependence of brain function

13
Proposed Project Team
  • 2 or 3 ME students with interests in biomechanics
    and biomaterials
  • Advised by Dr. Kohles and ME Design Faculty
  • 2 ECE students with interests in biosensors and
    controls
  • Advised by Dr. McNames and BSP Lab Faculty
  • Resources Bench space in the Microgravity and
    Surface Tension Lab, 449-SB2, thanks to Dr.
    Weislogel

14
Design Loop Creativity with a Purpose
Practical Problem (Need)
Helps to Solve
Motivates
  • Contributions/Constraints
  • Clients Users
  • Design Performance Specifications

Design Question
Design Solution
Defines
Finds
Design Problem/Goal
15
Nuclear Magnetic Resonance and Computed
Tomographic Images
Thank you for your attention!
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