Team 19 Kaitlyn Clarke Brittany DePoi Andrew Reynolds Adarsha Selvachandran Client: Dr. Wei Sun.

Slides:

Advertisements

Similar presentations

Cardiovascular System

Advertisements

Bioengineering: One-Way Fluid-Structure Interaction in a Blood Vessel Network.

Measurement of Left Ventricular Performance in Mice Mouse Physiology Core Department of Molecular and Cellular Physiology University of Cincinnati College.

Introduction to Cardiovascular System

LVAD is a battery-operated, mechanical pump-type device that's surgically implanted. Goal of LVAD: providing the patient with as close to a normal lifestyle.

The Cardiovascular System Unit 3 (Ch.15). Structure of the Heart About as big as your fist. Located within your thoracic cavity. –In the mediastinum –Sits.

Katie Dellaquila Jeremy Nelson Khiem Tong.  Project Overview [KED]  Multidisciplinary Aspects [KED]  Motivation (Similar Products) [KED]  System Schematic.

Is there a pressure difference? Is there an open valve? Where will blood flow? *atrium →ventricle *ventricle →atrium *ventricle →aorta *aorta →ventricle.

Ventricle Chamber Valve Imaging Chamber ECG Machine Aortic Compliance Chamber Buffer Chamber Secondary Compliance Chamber Flow Meter Pressure Sensors DAQ.

HEART MODEL I Anterior View

Biology 2.  pxk pxk  How does this video relate to the heart?  What.

Valvular Heart Disease. Normal heart valves function to maintain the direction of blood flow through the atria and ventricles to the rest of the body.

Ultrasonic Probe Manipulator Group:Chris Weisheim Tim Pommer Rishi Govalakrishnan Alan Koers Mentor: Dr. Jie Chen Sponsor: IU Medical School Department.

Cardiovascular System heart and blood vessels. Systemic Circulation – delivers blood to all body cells and carries away waste Pulmonary Circulation –

3-Point Bending Device to Measure Transmural Strains for Multilayer Soft Tissue Composite Jennifer Olson Sarah Rivest Brian Schmidtberg Sponsor: Dr. Wei.

Structures of the Heart. Valves Valves are structures that allow blood to flow through only one way (in one direction) when the heart contracts. They.

General Features of the Heart Created by: Sydney, Damon, and Jordy.

How many chambers does the heart have?

Cardiovascular System.  Main function: Transportation  Blood = transport vehicle  Heart = pump  Blood vessels = network of tubes.

Cardiovascular System

Where Is Your Heart?. Circulation of blood Pulmonary circulation - Blood from heart to lungs and back again Systemic circulation – blood from heart to.

3-Point Bending Device to Measure Transmural Strains for Multilayer Soft Tissue Composite Week 1 Weekly Report Jennifer Olson Sarah Rivest Brian Schmidtberg.

Copyright © 2009 Pearson Education, Inc. Figure 8.1 The structures of blood vessels in the human body.

Biology 322 Human Anatomy I Heart. Heart: Mass: Located All vessels, nerves, etc. enter or leave.

Warm-Up 4/29 What is the function of the sinoatrial node?

Copyright 2010, John Wiley & Sons, Inc. Chapter 15 The Cardiovascular System: The Heart.

Cardiovascular System

3-Point Bending Device to Measure Transmural Strains for Multilayer Soft Tissue Composite Team 6 Jen Olson Sarah Rivest Brian Schmidtberg Sponsor: Dr.

Cardiovascular System. Functions of Cardiovascular System 1. generate blood pressure 2. send oxygenated blood to organs 3. insure one-way blood flow 4.

Cardiovascular System AKA Circulatory System. Purpose of the Cardiovascular System Gets needed materials from one part of the body to another, such as.

The Cardiovascular System: The Heart

Cardiovascular System. Function: Uses blood to transport oxygen, nutrients, cell wastes, hormones, etc. Force to move blood around body is provided by.

The Heart GR 12 A General functions of the cardiovascular system 1. Transports nutrients and oxygen to the cells 2. Removes carbon dioxide and waste.

The Circulatory System

VIRTUAL SIMULATION OF TRANSCATHETER AORTIC VALVE IMPLANTATION Jenna Smetana and Jessica Sider, Swanson School of Engineering THE TAVI PROCEDURE IS FEASIBLE.

Circulatory System heart and blood vessels. Systemic Circulation – delivers blood to all body cells and carries away waste Pulmonary Circulation – eliminates.

Left Atrium Left Ventricle Aorta Pulmonary Veins Mitral Valve Aortic Valve Body FLOWOFBLOODFLOWOFBLOOD Oxygenated blood from the lungs returns to the heart.

Adult Echocardiography Lesson Two Anatomy Review Harry H. Holdorf.

The tissues and structures of the heart make it an efficient pump.

© 2009 Delmar, Cengage Learning Chapter 13 Heart.

Anatomy of the Heart STD : Explore the anatomy of the heart and the pathway of blood through this organ.

Cardiovascular System Chapter 13 Objectives: 1.Identify structures and functions of the cardiovascular system. 2.Trace the flow of blood through the body.

Cardiovascular System Anatomy And Physiology Chapter 11.

Date of download: 6/7/2016 Copyright © The American College of Cardiology. All rights reserved. From: Procedural and Mid-Term Results in Patients With.

Date of download: 6/22/2016 Copyright © ASME. All rights reserved. From: In Vitro Measurement of the Coaptation Force Distribution in Normal and Functional.

Determine method of rapid prototyping or plastic extrusion to create prototype of true-to-scale catheter Determine optimal slot size without affecting.

Date of download: 7/10/2016 Copyright © The American College of Cardiology. All rights reserved. From: Echocardiography for Percutaneous Heart Pumps J.

Date of download: 9/19/2016 Copyright © ASME. All rights reserved. From: A Novel Method for Optical High Spatiotemporal Strain Analysis for Transcatheter.

ABSTRACT Background: Although 2D strain imaging has shown promise to define myocardial dysfunction, it provides only subjective assessment about the extent.

Do Now 4/12/13 What do you know of the circulatory (a.k.a. cardiovascular) system?

Cardiovascular System

Cardiovascular System

Validation Against Sonomicrometry

Flow of the Blood Through the Heart

Meihua Zhu, MD, PhD; Muhammad Ashraf, MD

The Circulatory System

Cardiovascular System Structure of the Heart

The tissues and structures of the heart make it an efficient pump.

The dynamic cardiac biosimulator: A method for training physicians in beating-heart mitral valve repair procedures Alberto M. Leopaldi, PhD, Krzysztof.

The tissues and structures of the heart make it an efficient pump.

The tissues and structures of the heart make it an efficient pump.

Cardiovascular System

Cardiovascular System

the Cardiovascular System I

Transapical Aortic Valve Implantation Without Angiography: Proof of Concept Enrico Ferrari, MD, Christopher Sulzer, MD, Carlo Marcucci, MD, Elena Rizzo,

Circulatory System Blood Flow DHO 7.8, pg

CIRCULATORY System Structure of the Heart.

The tissues and structures of the heart make it an efficient pump.

The tissues and structures of the heart make it an efficient pump.

Nat. Rev. Cardiol. doi: /nrcardio

Presentation transcript:

Team 19 Kaitlyn Clarke Brittany DePoi Andrew Reynolds Adarsha Selvachandran Client: Dr. Wei Sun

Dr. Sun has requested a testing device that will allow his research team to obtain physical evidence regarding the response of cardiac tissue to implantation of the Percutaneous Mitral Annuloplasty System for the Treatment of Mitral Regurgitation ( aka. stent bridge constriction device) Required project components: o Biological environment regulator o Marker Tracking System o Force Determination System o Ultrasonic Detection Distal Anchor Nitinol Bridge Proximal Anchor

Purpose: support heart and simulate naturally occurring environmental conditions such as temperature, pressure, and blood flow 3 main components: o Water bath o Camera mount and frame o Heart mount

Water Bath o Clear cast acrylic sheets o Two separate baths (inner and outer) Camera Mount o Aluminum o Adjustable

Secure enough to hold heart stable, loose enough to allow heart to move naturally in response to the stent bridge constriction device Aluminum base Small hooks to securely hold heart in place Rigid tube inserted into the ascending aorta, down into the left ventricle o Structural support o Pathway for saline that will control pressure in the mitral valve Base Aorta Tube

Purpose: Understand mechanical changes experienced by heart during stent deployment small graphite markers on mitral annulus plane 2 cameras degrees apart to capture image Calibration Cube in field of view of each camera

Direct linear transformation (DLT) MATLAB code o Recreate image with reference to the three-dimensional plane o Determine the 3-D position of each marker o Keep track of each marker and its movements from frame to frame o Recognize if a marker leaves the frame of view of one of both cameras o Calculate stress, strain, and deformation

Purpose: Determine relationship between force applied on the mitral annulus by stent and the decrease in mitral valve prolapse FlexiForce Sensors o Force measured at specific point as opposed to continuous o Use 6 sensors in an attempt to get more thorough data

Purpose: Capture Image of the coronary sinus before and after stent deployment Ultrasound Machine has 2 probes one probe port Probe attached to machine will be changed between deployment of stents Distal Stent Proximal Stent

Aortic Root Mitral Valve (open) Coronary Sinus

Mitral Valve (closed) Coronary Sinus Distance between coronary sinus and valve

(Weve ordered and received Plexiglas/FlexiForce) Begin to build water bath Obtain computer from Kewei and begin downloading Vision Software Build FlexiForce circuit and experiment with sensors to determine the best way to adhere/use them Test ultrasound to become comfortable with use and to determine the best settings to use