3D Printing in Health Care-NSF-Arlington VA-17March2016...
Transcript of 3D Printing in Health Care-NSF-Arlington VA-17March2016...
![Page 1: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/1.jpg)
Page 1
Current and Future Uses of Additive Manufacturing in Neurologic, Musculoskeletal,
Spinal, and Oncologic Surgery
Michael J. Yaszemski, M.D., Ph.D.John & Posy Krehbiel Endowed Professor of
Orthopedic Surgery and Biomedical Engineering
Jane Matsumoto, M.D.Professor of Radiology
Mayo Clinic, Rochester, MN
National Science FoundationArlington, VA
March 17, 2016
Disclosure-Yaszemski Mayo Clinic and Dr. Yaszemski hold patents
for various biodegradable polymers for use in musculoskeletal system repair.
Grant support from NIH, DOD, Mayo Foundation, and the Krehbiel Professorship
Associate Editor, Journal of Biomedical Materials Research-Part A
Associate Editor, Techniques in Orthopaedics
Consultant, Medtronic, Inc. & K2M, Inc.
![Page 2: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/2.jpg)
Page 2
Disclosure-Matsumoto
Institutional: Mayo Clinic holds patents for various biodegradable polymers for use in musculoskeletal system repair.
Anatomic Models
Patient Education
Medical Education
Surgical Planning
Custom Cutting Guide
Custom Implant Bioprinting
Cell Scaffolding: Regenerative Medicine
Research: MR, CT, US
Forensic: Pathology
Custom Stent Sizing
Electrospinning
Laser Stereolithography
Selective Laser Sintering
Piezo- or Thermal Ink Jet Printing
Fused DepositionModeling
Injection Moulding
Polymeric & CellularBioprinting
![Page 3: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/3.jpg)
Page 3
Outline
Current uses of additive manufacturing in medicine and surgery
Illustrative examples
Gaps in clinical care that might be addressed by additive technologies
Research needs
Future vision
Tissue Engineering StrategyScaffold Bioactive Molecules
Cells
![Page 4: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/4.jpg)
Page 4
Scaffolds Polymers
• Natural: Silk, chitosan, alginate, collagen, decellularized allograft
• Synthetic: Polyesters, polyphosphazines, polyanhydrides, polyurethanes
Metals
Ceramics
Scaffold 3D Fabrication by Injection Molding
![Page 5: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/5.jpg)
Page 5
Fused Deposition Modeling(Thermoplastic Extrusion)
Fused Deposition Modeling
![Page 6: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/6.jpg)
Page 6
Fiber Electrospinning
Scaffold Fabrication by Stereolithography
Making model and STL file Making support and slicing
Post-processing and curing Photo-crosslinking in SLA
![Page 7: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/7.jpg)
Page 7
Stereolithography (SLA)
Layer-based fabrication technique using UV laser to polymerize resins
Pore morphology (SEM)
670 µm778 µm913 µm 446 µm508 µm582 µm
Top
Side
(* Bar represents 400 µm)
![Page 8: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/8.jpg)
Page 8
Bimodal Porosity in ScaffoldBimodal Porosity in Scaffold
PPF + cross-linker
+ initiator + accelerator
Gelatin microsphere (for small pores: 20 ~ 50 µm)
Gelatin microsphere (for small pores: 20 ~ 50 µm) Solid freeform
fabrication Solid freeform
fabrication
Large pores (from CAD): 600 µm
Leaching out microsphere Leaching out microsphere
Small pores
Scaffold Fabrication by 3D Thermal or Piezo Inkjet Printing
![Page 9: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/9.jpg)
Page 9
Scaffold Fabrication by 3D Thermoplastic Inkjet Printing• One of the solid freeform
fabrication (SFF) techniques
• Allows fabrication using any material that can be injected and then formed in situ
• The process exploits variations in solubility and thermal properties among the build materials
Scaffold Fabrication by 3D Thermoplastic Inkjet Printing
CAD Designof ScaffoldsWith Defined
Interconnectivity
Fabricationof CADDesignedScaffoldsby 3-DMicroprinting
Removal of the Solid Phaseby Solvent Dissolution
Injection ofDegradableCrosslinkableMacromer inthe Scaffold’sSolid Phase
![Page 10: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/10.jpg)
Page 10
BioprintingBio-ink: cells in
aqueous solution for rheologic properties
Bioscaffold (or “bio-paper”): surface for cell attachment and expression of matrix secretion
Hydrogel for controlled delivery of cells & biomolecules
3D Printed Models for Surgical Planning and Intraoperative Guidance
![Page 11: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/11.jpg)
Page 11
Charcot Arthropathy with Spinopelvic Dissociation
30 year old man with thoracic level paralysis and developmental delay
6 inch diameter ulcer with purulence at lumbosacral junction
Poor sitting balance and further ulcer risk based on spinopelvic dissociation
Charcot Arthropathy with Spinopelvic Dissociation
![Page 12: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/12.jpg)
Page 12
POEMS Syndrome
POEMS Syndrome
Polyneuropathy
Organomegaly
Endocrinopathy
Monoclonal Gammopathy
Skin Changes
![Page 13: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/13.jpg)
Page 13
POEMS Myeloma with Resorption of Skull Base and Upper Cervical Spine
POEMS Myeloma with Resorption of Skull Base and Upper Cervical Spine
C1 and C2 Foramen Magnum
Skull Base
![Page 14: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/14.jpg)
Page 14
Touch adds to comprehension
Three-dimensional printing permits greater understanding of complicated anatomy allowing surgeons to treat complex patients with greater safety & better outcomes.
![Page 15: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/15.jpg)
Page 15
Patient Counselling: One model is worth a thousand words
Teaching Anatomic Pathology: Supplement to cadavers
![Page 16: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/16.jpg)
Page 16
The Future: Gaps
Composite Tissue Regeneration
Brain-Computer Interface linked to Tissue & Organ Regeneration
Cells and Biomaterials in Single additive Manufacturing Implant
The Future: Research Questions
What are the pertinent biologic processes at the junctions between different tissue types, and how can we engineer them in 3D?
Do we manufacture and implant a 3D tissue or organ, or do we manufacture and implant a bioreactor to induce the formation of the new tissue/organ in vivo?
![Page 17: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/17.jpg)
Page 17
Tendon and Ligament Tissue Engineering
Clinical Needs:• Degenerative tendon tears
• Traumatic tendon and ligament injuries
Clinical Issues:• Musculotendinous junction
• Enthesis: tendon/ligament to bone junction
• Intrasynovial Environment
Composite Tissue Regeneration
Tendon and Ligament Tissue Engineering
Current Treatment Options• Direct repair to bone (e.g. rotator
cuff repair)
• Direct repair to muscle (e.g. tendo achilles repair to gastrocsoleus)
• Substitution (e.g. anterior cruciate ligament reconstruction via bone-tendon-bone patellar graft or semitendinosus graft
![Page 18: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/18.jpg)
Page 18
Tendon and Ligament Tissue Engineering
Create scaffolds that resist tensile load
Culture fibroblasts on scaffolds
Deliver signaling molecules to fibroblasts that have attached to scaffolds
Assess engineered tendon or ligament by collagen production and tensile mechanical strength
Self-Assembled Block Copolymer Transmission Electron Microscopy
Low Magnification
High Magnification
PCLF-co-PMMA, 82% PCLF
![Page 19: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/19.jpg)
Page 19
Tendon/Ligament Scaffold SEM
Collagen I Production on Fibroblast-Seeded Tendon/Ligament Scaffolds at 4 Weeks in Culture with
Platelet Lysate and Fibroblast Growth Factor
![Page 20: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/20.jpg)
Page 20
Acknowledgements
Armed Forces Institute of Regenerative Medicine
![Page 21: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/21.jpg)
Page 21
Acknowledgements
Funding
Mayo Foundation
National Institutes of Health (R01 AR45871, R01 EB03060, R01 EB02390
Department of Defense
Hulman-George Foundation
The Team
![Page 22: 3D Printing in Health Care-NSF-Arlington VA-17March2016 ...nsfam.mae.ufl.edu/AM4Health/Presentations/MichaelYaszemski.pdf · Orthopaedics Consultant ... Cells and Biomaterials in](https://reader034.fdocuments.us/reader034/viewer/2022042312/5edb2facd96bc859bd1d6ade/html5/thumbnails/22.jpg)
Page 22