Stereolithography & its Application in Medical Science

Slides:



Advertisements
Similar presentations
Forefront Researches of Computational Material Science Monday, 10/28/2002 Tissue Engineering Self-Assembly.
Advertisements

Artificial Heart Valves By: Brian Volpe. What is it? An artificial heart valve is a mechanism that mimics the function of a human heart valve It’s used.
Tissue Engineering: a new healthcare technology. Biomaterials Biomaterials science may be the most multidisciplinary of all the sciences which encompasses.
Tissue Mechanics Tissue Mechanics Presentation, Tissue Mechanics lesson, TeachEngineering.org.
Bone Fracture. Recall: Three types of Stress: Three types of Stress: Tension Tension Compression Compression Shear Shear.
Biomedical Engineering- What is it? 9/10/14. Announcements  CBSA Mentoring program is still looking for Juniors and Seniors.
Tissue Engineering By: Cassie Kuchta & Tim Rohman.
University of Medicine and Dentistry of New Jersey John L. Ricci, Ph.D., Department of Orthopaedics History and Scope of Biomaterials J. L. Ricci, Ph.D.
Unbreak My Heart: Bioengineering Copyright © 2009 Youth Take Heart.
Biomedical Engineering By Jacob Carpenter and Brandon Lurie.
CRICOS: 00116K Biomedical Engineer: Design products and procedures that solve medical problems. These include artificial organs, prostheses, instrumentation,
What is 3-D printing?  3D printing is a form of additive manufacturing technology where a three dimensional object is created by successive layers of.
Biomedical Engineering Overview
Mariana Manova Mihail Dyulgerski Denis Chorbadzhiyski
3D Printing Based on Imaging Data: Medical Applications Michael Twardowski 6 Nov 2013 Michael Twardowski 6 Nov 2013.
ENGINEERING ORIENTATION Information on Bioengineering Curriculum and Area Electives Dr. A. Saterbak Dr. K.-Y. San.
3D Desktop Printing (printer) By G.Seshu Kumar (10A25A0503)
Chapter 24, Future Design Issues Paul King. Biomedical Engineering Handbook Bioelectric Phenomena Biomaterials Biomedical Sensors/Instrumentation Biomedical.
Medical Technology. Medical imaging Medical imaging is used to produce images of organs and tissues within the body for use in diagnosis and treatment.
Biomodeling By, Michael Lovrity. What is a Biomodel? The process of constructing, designing and analyzing complex 3D models of body parts through a computer.
Bioengineering – Scope and History of the Profession 11EGS.
Bone Repair and Biomedical Engineering. Repairing Bones: Overview Some serious breaks need the aid of engineers because: – Need to restore function and.
Introduction Surgical training environments as well as pre- and intra-operative planning environments require physics-based simulation systems to achieve.
Pre-Class Monday What do you think a biomedical engineer does?
Biomedical Engineering
Tanya Wang URI Department of Biomedical Engineering April 28 th, 2010 Professor Ying Sun.
Senior MESA Day.  Application of engineering technology to fields of medicine and biology.  Combines design and problem solving skills of engineering.
Bone Repair Challenge ~Biomedical Engineering~. Bone Fractures Many types of fractures, three common types are: Image source: US National Library of Medicine,
By: Dan Tamayo.  Electrospun Nanofibers are polymer solutions that are pumped through a syringe  They form an ultrafine fiber that are layered on top.
New Polyester Biomaterials: Design of Shape Memory Surfaces and Particles Valerie S. Ashby, University of North Carolina at Chapel Hill, DMR Present.
CRICOS: 00116K Biomedical Engineer: Design products and procedures that solve medical problems. These include artificial organs, prostheses, instrumentation,
Steve Tennyson Alyse Waldhorn Alex Wong BE 1200, Section 001, Team #3 Quiz #4: Engineering Disciplines Biomedical Engineering.
PROSTHETIC AND ARTIFICIAL ORGANS SESSION: 12BME SEMESTER: 7 TH (FINAL YEAR) SUBJECT TEACHER: HIBA PERVAIZ 1.
Tissue engineering uses an artificially stimulated cell proliferation by using suitable supports made of nanomaterials, and growth factors. As an example,
Rapid Prototyping in Perioperative Planning JESSE ZHAN.
A SEMINAR ON 1. CONTENTS Prototyping Rapid prototyping process Stereo lithography  Machine  Process  Material used Benefits Application Problems with.
School of Mechanical, Materials and Manufacturing Engineering About this course Biomedical industries provide a rich diversity.
Surgical and Laboratory Instruments and Devices. Ward Engineering is a provider of quality medical device design, development, and manufacturing services.
Biomedical Engineering University of Wisconsin-Madison Eric Lee, John Harrison, Albert Kwansa, Jacqueline Wong, Miguel Benson.
ADDITIVE MANUFACTURING PROJECT CLUSTER MEETING AM for Polymers, ceramics and biomaterials Fundació CIM C/Llorens i Artigas, 12 Parc Tecnològic de Barcelona.
BIOMEDICAL ENGINEERING
Biomedical Engineering
© 2016 Global Market Insights, Inc. USA. All Rights Reserved Fuel Cell Market size worth $25.5bn by D Printing in Healthcare Market.
JRN 302: Introduction to Graphics and Visual Communication - 3d models, 3d printing Thursday, 12/10/15.
Biomedical design: Biomaterials and Prosthetics
SEMINAR 1. Title :Introduction of flow lithography and versatile applications 2. Speaker :Jiseok Lee 3. Time : 16:00~17:00 4. Place :: e+ Lecture Hall.
Chapter 24, Future Design Issues
Regenerative Medicine
Biomedical Engineering
ORGAN TRANSPLANTATION
Biomedical Engineering
Mrs. Wharton’s Science Class
Tissue Engineering.
See what the future has in store for you!
Specializations Materials Management e-Procurement Strategy
by C. Sun, N. Fang, D.M. Wu, X. Zhang∗
Regenerative Medicine
Bone Repair Challenge ~Biomedical Engineering~
Statistical Analysis of the Tensile Properties and Effect of Fill Density in Various Polymers Processed through 3D Printing Luke Buckner YSP Student CURENT.
Design a novel 3-layered nanofibrous mat for wound healing
Jason A. Burdick, PhD, Department of Bioengineering,
REGENERATIVE MEDICINE
Chapter-6 : Biomaterials
Forefront Researches of Computational Material Science
© 2018 Global Market Insights, Inc. USA. All Rights Reserved Drug Integrated Polymer Fibers Market report for 2025 – Companies, applications,
3D Printing. Is it Ethical ?
Biomaterials Dr. Ahmed Moro.
Biomaterials Dr. Ahmed Moro.
Presentation transcript:

Stereolithography & its Application in Medical Science Seminar Presentation on Stereolithography & its Application in Medical Science Submitted in Partial Completion of Bachelors of Technology from Department of Mechanical Engineering Swami Keshvanand Institute of Technology, Jaipur Presented By: Hitesh Sharma FY, Dept. of Mechanical Engineering (SKIT), 13ESKME036

Mr. Dheeraj Joshi Seminar Mentor: Seminar Coordinator: Reader and Deputy Head, Department of Mechanical Engineering, Swami Keshvanand Institute of Technology, Jaipur Seminar Coordinator: Mr. Ankit Agarwal Mr. Dinesh Sharma Senior Lecturer Stereo lithography & its Application in Medical Science - 13ESKME036

Stereo lithography & its Application in Medical Science - 13ESKME036 Outline Stereolithography How it works Its uses Medical Applications Stereolithography vs. other methods Stereo lithography & its Application in Medical Science - 13ESKME036

Stereo lithography & its Application in Medical Science - 13ESKME036 Stereolithography  is a form of 3-D printing technology used for creating models, prototypes, patterns, and production parts in a layer by layer fashion using photo polymerization, a process by which light causes chains of molecules to link together, forming polymers.  Charles W. Hull in 1986 was the first to use the technique to create a 3D Figure. Stereo lithography & its Application in Medical Science - 13ESKME036

How it works??? Fig: Steriolithography Working Fixture Stereo lithography & its Application in Medical Science - 13ESKME036

How it works??? (Cont.) Fig: Left: Bottoms Up system Right: Top-Down System Stereo lithography & its Application in Medical Science - 13ESKME036

How it work??? (cont.) Fig: Mechanism of Steriolithography Stereo lithography & its Application in Medical Science - 13ESKME036

Stereo lithography & its Application in Medical Science - 13ESKME036 How it works??? (Cont..) Stereo lithography & its Application in Medical Science - 13ESKME036

Stereo lithography & its Application in Medical Science - 13ESKME036

Stereo lithography & its Application in Medical Science - 13ESKME036 Uses Medical Modeling Used to create various part of body for study purpose, or for replacing damaged ones. Stereo lithographic models are used as an aid to diagnosis, preoperative planning and implant design and manufacture. Prototyping It is used to create testing models, because of low cost and less time consumption Stereo lithography & its Application in Medical Science - 13ESKME036

Stereo lithography & its Application in Medical Science - 13ESKME036 Medical Application Bio printing of Tissues and Organs Customized Implants and Prostheses Anatomical Models for Surgical Preparation Custom 3D-Printed Dosage Forms and Drug Delivery Devices Stereo lithography & its Application in Medical Science - 13ESKME036

Bio printing of Tissues and Organs By the application of Steriolithography, following types of Tissues and Organs can be formed: Heart Human Skin Kidneys Intestines Stereo lithography & its Application in Medical Science - 13ESKME036

Customized Implants and Prostheses Customized implant includes: Synthetic Bones Support for Fractures and Dislocation Specially designed Parts like Legs, Hands, etc. for disabled person Stereo lithography & its Application in Medical Science - 13ESKME036

Anatomical Models for Surgical Preparation It is used for: Preparing new Doctors for surgery To understand patents internal structure after causality To prepare operation strategy To reduce possible chances of risk in an operation Stereo lithography & its Application in Medical Science - 13ESKME036

Stereo lithography & its Application in Medical Science - 13ESKME036 Fig: Images of biodegradable structures built by stereolithography intended for application in tissue engineering. Left: structures prepared from p(TMC-co-CL)-coumarin macromers. Right: (A) before and (B) after 1 month of implantation. Stereo lithography & its Application in Medical Science - 13ESKME036

Steriolithography vs. Other Methods Stereo lithography & its Application in Medical Science - 13ESKME036

Stereo lithography & its Application in Medical Science - 13ESKME036 References F. Melchels, J. Feijen and D. Grijpma, "A review on stereolithography and its applications in biomedical engineering," Biomaterials, pp. 6121-6130, 2010. "Application of 3D printing in Biomedical," [Online]. Available: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4189697/. [Accessed 21 Feb 2017]. Stereo lithography & its Application in Medical Science - 13ESKME036

Stereo lithography & its Application in Medical Science - 13ESKME036 Thank You For any queries, I will be glad to provide the answers. Stereo lithography & its Application in Medical Science - 13ESKME036

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.