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Leg Ergometer for Blood Flow Studies. Amy Weaver, Cali Roen, Lacey Halfen, Hyungjin Kim BME 201 March 9, 2007. Client: William Schrage Dept. of Kinesiology Advisor: Paul Thompson Dept. of Biological Systems Engineering. Overview. Problem statement Background
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Leg Ergometer for Blood Flow Studies Amy Weaver, Cali Roen, Lacey Halfen, Hyungjin Kim BME 201 March 9, 2007
Client: William Schrage Dept. of Kinesiology Advisor: Paul Thompson Dept. of Biological Systems Engineering
Overview • Problem statement • Background • Design requirements • Design alternatives • Proposed Design • Future work
Problem Statement • Test subject will use the ergometer to maintain a constant kicking motion • Leg must passively return to original position • Femoral artery is imaged using an ultrasound • Used to determine blood flow to the leg during exercise
Background: Blood Flow Research • Measure blood flow in femoral artery • Examine how smaller blood vessels regulate upstream (femoral) blood flow • Infuse drugs into the femoral artery
Background Blood Flow Research Two research questions: • What are the neural, metabolic, and vascular signals controlling blood flow at rest and exercise? • How do conditions like aging and cardiovascular diseases (obesity, high blood pressure, etc) alter the regulation of blood flow Wider implications • understanding blood pressure control • correlated with obesity, diabetics, and high blood pressure
Background: Existing Devices • Current device in use at Mayo Clinic • Used part of an exercise bike and a car seat • Boot is a rollerblade boot with the toe cut out • Device was unreliable, and had variable forces
Background: Existing Devices Cont. http://www.rehab.research.va.gov/jour/01/38/1/chin.html
Design Requirements • Streamlined and compact with minimal loose parts • Minimum lifespan of five years • Easily portable (with wheels) • 5’ long x 3’ wide • Chair positioned at various angles from vertical and 3’ above ground • Adjust for people of heights 5’4” to 6’4” • Flexible range of motion for full leg extension while kicking
Design Requirements • Passive return to rest position of the leg after kicking • Set up for right leg testing • Wattage (0-100 W) and kick rate (30-60 KPM) output to a laptop through an A/D converter • Maintain a constant wattage throughout testing • Adjustable force between tests • Under $2,000
Design Alternatives: • Seat for pateint • Reclining • Adjustable height • “Boot” for foot • Straps to hold shoe • Adjustable force • Wheels for movement • Sensors • Wattage • Kicking rate
Design Alternatives: Gas Spring Shock • Force from compression of gas in a cylinder • Function of velocity • Can be purchased in various sizes with variable force • Use a cable, allowing for full range of kicking motion Disadvantages • Springs back to initial position http://www.globalspec.com/FeaturedProducts/Detail/IndustrialGasSprings/Stainless_Steel_Gas_Springs_/34982/0?fromSpotlight=1
Design Alternatives: One Way Clutch • Allows rotation in only one direction • When clutch locks, friction device is engaged • When foot is returning, clutch freely rotates • Clutch attached to boot by a bar with ball joints http://www.mie.utoronto.ca/staff/projects/cleghorn/Textbook/DataFiles/Appendix-B/Appendix-B.html http://adcats.et.byu.edu/WWW/Publication/94-1/Paper1-12_6.html
Design Alternatives: with Drum Brake • Shoes push out against drum providing friction • Force is constant • Adjustable by altering force normal to drum Disadvantages • Properties change with heat • Brake pedals need to be replaced http://www.howstuffworks.com/drum-brake.htm/printable
Rotating Axle Proposed Design: with Viscous Friction • Viscous friction for force against kick • Two pieces of metal with liquid between • Force = μ*A*v / t • Force altered by changing area • Force remains constant through minor temperature changes http://galileo.phys.virginia.edu/classes/152.mf1i.spring02/Viscosity.htm
Future Work • Finalize design • Order components • Construct design • Test and modify
References • Maximal Perfusion of Skeletal Muscle in Man (Per Andersen and Bengt Saltin) 1984 • Professor Fronczak • ADCATS at Brigham Young University http://adcats.et.byu.edu/WWW/Publication/94-1/Paper1-12_6.html