Presentation is loading. Please wait.

Presentation is loading. Please wait.

Bobby Chhabra, MD Lillian T. Pratt Distinguished Professor Chair, Department of Orthopaedic Surgery University of Virginia Health System.

Published byAntony Cole Modified over 9 years ago

Similar presentations

Presentation on theme: "Bobby Chhabra, MD Lillian T. Pratt Distinguished Professor Chair, Department of Orthopaedic Surgery University of Virginia Health System."— Presentation transcript:

1 Bobby Chhabra, MD Lillian T. Pratt Distinguished Professor Chair, Department of Orthopaedic Surgery University of Virginia Health System

2 Disclosures Speaker, Miller Orthopaedic Review Course Royalties, W. B. Saunders & Elsevier Publishing Hand Fellowship Support, Depuy/Synthes Inc. No conflicts with this presentation

3 Tendon Healing Tendon repair outcomes are variable Tendon repair outcomes are variable – – Re-rupture – – Restrictive adhesions and scar – – Thinner collagen fibril bundles – – Reduced mechanical properties (Morberg, et al. Scand J Med Sci Sports 1997) (Lilly, et al. JAAOS 2006)

4 Repair PhaseActivity Growth Factor Inflammatory Stimulates the recruitment of fibroblasts and inflammatory cells to the injury site IGF-I Regulation of cell migration TGF-β Expression of other growth factors (e.g. IGF-1) PDGF Induction of angiogenesis VEGF, bFGF Proliferative Cellular proliferation (DNA synthesis) IGF-I & PDGF, TGF-β, bFGF, GDF-5, -6, & -7 Stimulates synthesis of collagen and ECM components IGF-I & PDGF, bFGF Stimulates cell-matrix interactions TGF-β, bFGF Collagen Type III synthesis TGF-β, GDF-5, -6, & -7 Remodeling ECM remodeling IGF-I Termination of cell proliferation TGF-β Collagen Type I synthesis TGF-β, GDF-5, -6, & -7

5 Normal Tendon Healing Haphazard w/ “scar” formation Haphazard w/ “scar” formation Always inferior to pre-injured tendon Always inferior to pre-injured tendon

6 Comparison of Normal and Repaired Tendon Butler et al., Ann Rev Biomed Eng., 2004; 6: 303

7 How Can We Improve Tendon Repair & Regeneration? Driving force: Inability of natural healing and current surgical techniques to truly regenerate native tendon

8 Tissue Engineering Solutions for Tendon Repair Scaffold CellsCytokinesGrowthFactors Mechanical stress Hogan, Katz, Chhabra JAAOS 2011

9 JAAOS 2011

10 Tissue Maturation  Col I/III ↑  Tensile ↑  Fibrocartilage Time after injury Scleraxis Tenomodulin Collagen type I Collagen type III Collagen Cross-linking + Published in: James, R; Chhabra, A Journal of Hand Surgery, 2008 Jan; 33(1): 102-12 JHS 2008

11 Tissue Engineering Solutions for Tendon Repair Scaffold CellsCYTOKINES GROWTH FACTORS Mechanical stress

12 GDF-5 GDF-5, -6, -7

13 GDF-5 up-regulated relevant tendon healing genes early in the repair process (scleraxis, tenomodulin, Collagen type 1) – CAN THIS ACCELERATE HEALING? GDF-5 down-regulated pro-inflammatory genes – CAN THIS DECREASE ADHESIONS ? Hogan, Chhabra et al. JTERM 2011

14 GDF-5 45 male Swiss Webster mice Bilateral mid-substance Achilles tendon tenotomies followed by primary repair Repair sites injected w/ 10 μg rGDF-5 or saline Histology done at 2, 4, 6 weeks Hogan, Chhabra et al. JTERM 2011

15 Tissue Engineering Solutions for Tendon Repair Scaffold CELLSCytokinesGrowthFactors Mechanical stress

16 Stem Cells and Tissue Engineering Hope or Hype? Apligraf™-skin BMT Carticel ™

17 Goal: Investigate the effects of GDF-5 on proliferation and tendinogenic gene expression of rat aMSCs. Park, Chhabra et al. Tiss Eng 2010

18 * (p<0.05) * * * * * * Tenocyte MarkersECM & CAR aMSCs + GDF-5 Concentration Kinetics aMSCs + GDF-5 Concentration Kinetics

19 Tissue Engineering Solutions for Tendon Repair SCAFFOLD CellsCytokines Mechanical stress

20 Tubular Electrospun Scaffold Setup for Fabrication of Tubular Scaffolds

21 Functionally Active Scaffolds

22 Rat Tendon Defect Model Tubular Scaffold ~ 8mm Proximal Tendon Stump Distal Tendon Stump Female Fischer 344 rat (8 week old) – – 8 mm Tubular Scaffold – – Immobilization for 10 – 14 days

23 Increased Scx and Tnmd Expression * * * Without Scaffold P < 0.05

24 4 wks, with scaffold4 wks, no scaffold Gaps Scaffold Lumen Tubular Scaffold ~ 8mm 8 wks, with scaffold8 wks, no scaffold Gaps Improved Orientation

25 * * P < 0.05 Increased Strength of Repair Scaffold In Vitro – – 16 – 22 N Increased Tensile Strength Native Rat Tendon – – 30 – 70 N

26 Next Step: Drug-Scaffold GDF-5 Protein Release  GDF-5 covalently bonded to scaffold  @ 2 weeks ~8ng/mL of GDF-5 is released  Burst release profile is seen in the first 4 days.

27 Where We’re Going MSC + PLAGA + GDF-5 construct optimization and in vivo application Manipulation of scaffold to minimize adhesions Mechanical stress of scaffold/cell/growth factor construct to enhance healing and improve biomechanical strength Translation to larger animal model

28 Conclusions Further study is needed to determine the ideal tissue engineered construct for tendon regeneration + GDF-5

29 Acknowledgements UVA Orthopaedic Laboratories UVA Department of Orthopaedic Surgery OREFNIH-NIAMSNSF

Download ppt "Bobby Chhabra, MD Lillian T. Pratt Distinguished Professor Chair, Department of Orthopaedic Surgery University of Virginia Health System."

Similar presentations

Junior Basic Science 1/25/2011

Junior Basic Science 1/25/2011
Chapter 4 Cell Proliferation, Tissue Regeneration and Repair

Chapter 4 Cell Proliferation, Tissue Regeneration and Repair
The effects of pore architecture in silk fibroin scaffolds on the growth and differentiation of BMP7-expressing mesenchymal stem cells Yufeng. Zhang Ph.D.

The effects of pore architecture in silk fibroin scaffolds on the growth and differentiation of BMP7-expressing mesenchymal stem cells Yufeng. Zhang Ph.D.
Viscoelastic and Growth Mechanics in Engineered and Native Tendons S.C. Calve 1, H. Narayanan 2, K. Garikipati 2, K. Grosh 2,3 and E.M. Arruda 1,2 1 Macromolecular.

Viscoelastic and Growth Mechanics in Engineered and Native Tendons S.C. Calve 1, H. Narayanan 2, K. Garikipati 2, K. Grosh 2,3 and E.M. Arruda 1,2 1 Macromolecular.
Regeneration. Wound healing October 10, 2006. Wound healing is a natural restorative response to tissue injury. Healing is the interaction of a complex.

Regeneration. Wound healing October 10, Wound healing is a natural restorative response to tissue injury. Healing is the interaction of a complex.
Wound healing November 4, 2004.

Wound healing November 4, 2004.
Platelet Rich Plasma Therapy (PRPT)

Platelet Rich Plasma Therapy (PRPT)
Algae-Derived Omega-7 Accelerates Wound Healing R. Connelly, M. Montoya, D. Schmid, R. Pearsall, M. Werst, R. Hebner University of Texas at Austin, Center.

Algae-Derived Omega-7 Accelerates Wound Healing R. Connelly, M. Montoya, D. Schmid, R. Pearsall, M. Werst, R. Hebner University of Texas at Austin, Center.
Francine Goulet, Ph.D., pht Nanomedical Biological Device in Development for Torn ACL Replacement.

Francine Goulet, Ph.D., pht Nanomedical Biological Device in Development for Torn ACL Replacement.
Tissue Repair Jan Laco, MD, PhD. Tissue Repair may start early after tissue damage regeneration – by parenchymal cells of the same type reparation – replacement.

Tissue Repair Jan Laco, MD, PhD. Tissue Repair may start early after tissue damage regeneration – by parenchymal cells of the same type reparation – replacement.
Cardiovascular Tissue Engineering Devin Nelson July 2010 Department of Bioengineering, University of Pittsburgh McGowan Institute for Regenerative Medicine.

Cardiovascular Tissue Engineering Devin Nelson July 2010 Department of Bioengineering, University of Pittsburgh McGowan Institute for Regenerative Medicine.
2 Concepts of Healing. Healing By secondary intention: Separation is large Tissue must fill space More scar, longer healing time By primary intention:

2 Concepts of Healing. Healing By secondary intention: Separation is large Tissue must fill space More scar, longer healing time By primary intention:
Wound Healing Dr Ahmad Alamadi FRCS Consultant Otolaryngologist Al Baraha Hospital.

Wound Healing Dr Ahmad Alamadi FRCS Consultant Otolaryngologist Al Baraha Hospital.
Using modified collagen scaffolds to promote angiogenesis for tissue engineering applications Julie M. Etheridge Tissue Engineering and Biomaterials Laboratory.

Using modified collagen scaffolds to promote angiogenesis for tissue engineering applications Julie M. Etheridge Tissue Engineering and Biomaterials Laboratory.
Tendon structure and healing Paul Baker Freeman Hospital Hand Term.

Tendon structure and healing Paul Baker Freeman Hospital Hand Term.
Achilles Tendon Injury Peter J Briggs, BSc, MD, FRCS Newcastle upon Tyne.

Achilles Tendon Injury Peter J Briggs, BSc, MD, FRCS Newcastle upon Tyne.
Tissue Repair Dr. Raid Jastania. What is Repair? When does regeneration occur? When does fibrosis occur? What are the consequences of fibrosis?

Tissue Repair Dr. Raid Jastania. What is Repair? When does regeneration occur? When does fibrosis occur? What are the consequences of fibrosis?
Wound Healing and Repair

Wound Healing and Repair
Cellular Responses. 1111 2222 3333 4444 5555 What are the four components of repair? Angiogenesis Migration and proliferation of fibroblasts Deposition.

Cellular Responses What are the four components of repair? Angiogenesis Migration and proliferation of fibroblasts Deposition.
1 Dr. Maha Arafah Assistant Professor Department of Pathology King Khalid University Hospital and King Saud University marafah.

1 Dr. Maha Arafah Assistant Professor Department of Pathology King Khalid University Hospital and King Saud University marafah.

Similar presentations

Ads by Google