Biologic Augmentation of Rotator Cuff Tendon-Healing with Use of a Mixture of Osteoinductive Growth Factors
Clinical studies have demonstrated a high rate of incomplete healing of rotator cuff tendon repair. Since healing of such a repair is dependent on bone ingrowth into the repaired tendon, we hypothesized that osteoinductive growth factors would improve rotator cuff tendon-healing. Seventy-two skeleta...
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| Published in: | Journal of bone and joint surgery. American volume Vol. 89A; no. 11; pp. 2485 - 2497 |
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Boston, MA
Journal of Bone and Joint Surgery Incorporated
01-11-2007
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| Abstract | Clinical studies have demonstrated a high rate of incomplete healing of rotator cuff tendon repair. Since healing of such a repair is dependent on bone ingrowth into the repaired tendon, we hypothesized that osteoinductive growth factors would improve rotator cuff tendon-healing.
Seventy-two skeletally mature sheep underwent detachment of the infraspinatus tendon followed by immediate repair. The animals received one of three treatments at the tendon-bone interface: (1) an osteoinductive bone protein extract on a Type-I collagen sponge carrier, (2) the collagen sponge carrier alone, and (3) no implant. The animals were killed at six and twelve weeks, and the repaired rotator cuff was evaluated with use of magnetic resonance imaging, plain radiographs, histologic analysis, and biomechanical testing.
A gap consistently formed between the end of the repaired tendon and bone in this model, with reparative scar tissue and new bone spanning the gap. Magnetic resonance imaging showed that the volume of newly formed bone (p < 0.05) and soft tissue (p < 0.05) in the tendon-bone gap were greater in the growth factor-treated animals compared with the collagen sponge control group at both time-points. Histologic analysis showed a fibrovascular tissue in the interface between tendon and bone, with a more robust fibrocartilage zone between the bone and the tendon in the growth factor-treated animals. The repairs that were treated with the osteoinductive growth factors had significantly greater failure loads at six weeks and twelve weeks (p < 0.05); however, when the data were normalized by tissue volume, there were no differences between the groups, suggesting that the treatment with growth factor results in the formation of poor-quality scar tissue rather than true tissue regeneration. The repairs that were treated with the collagen sponge carrier alone had significantly greater stiffness than the growth factor-treated group at twelve weeks (p = 0.005).
This model tests the effects of growth factors on scar tissue formation in a gap between tendon and bone. The administration of osteoinductive growth factors resulted in greater formation of new bone, fibrocartilage, and soft tissue, with a concomitant increase in tendon attachment strength but less stiffness than repairs treated with the collagen sponge carrier alone. |
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| AbstractList | BACKGROUNDClinical studies have demonstrated a high rate of incomplete healing of rotator cuff tendon repair. Since healing of such a repair is dependent on bone ingrowth into the repaired tendon, we hypothesized that osteoinductive growth factors would improve rotator cuff tendon-healing.METHODSSeventy-two skeletally mature sheep underwent detachment of the infraspinatus tendon followed by immediate repair. The animals received one of three treatments at the tendon-bone interface: (1) an osteoinductive bone protein extract on a Type-I collagen sponge carrier, (2) the collagen sponge carrier alone, and (3) no implant. The animals were killed at six and twelve weeks, and the repaired rotator cuff was evaluated with use of magnetic resonance imaging, plain radiographs, histologic analysis, and biomechanical testing.RESULTSA gap consistently formed between the end of the repaired tendon and bone in this model, with reparative scar tissue and new bone spanning the gap. Magnetic resonance imaging showed that the volume of newly formed bone (p < 0.05) and soft tissue (p < 0.05) in the tendon-bone gap were greater in the growth factor-treated animals compared with the collagen sponge control group at both time-points. Histologic analysis showed a fibrovascular tissue in the interface between tendon and bone, with a more robust fibrocartilage zone between the bone and the tendon in the growth factor-treated animals. The repairs that were treated with the osteoinductive growth factors had significantly greater failure loads at six weeks and twelve weeks (p < 0.05); however, when the data were normalized by tissue volume, there were no differences between the groups, suggesting that the treatment with growth factor results in the formation of poor-quality scar tissue rather than true tissue regeneration. The repairs that were treated with the collagen sponge carrier alone had significantly greater stiffness than the growth factor-treated group at twelve weeks (p = 0.005).CONCLUSIONSThis model tests the effects of growth factors on scar tissue formation in a gap between tendon and bone. The administration of osteoinductive growth factors resulted in greater formation of new bone, fibrocartilage, and soft tissue, with a concomitant increase in tendon attachment strength but less stiffness than repairs treated with the collagen sponge carrier alone. Clinical studies have demonstrated a high rate of incomplete healing of rotator cuff tendon repair. Since healing of such a repair is dependent on bone ingrowth into the repaired tendon, we hypothesized that osteoinductive growth factors would improve rotator cuff tendon-healing. Seventy-two skeletally mature sheep underwent detachment of the infraspinatus tendon followed by immediate repair. The animals received one of three treatments at the tendon-bone interface: (1) an osteoinductive bone protein extract on a Type-I collagen sponge carrier, (2) the collagen sponge carrier alone, and (3) no implant. The animals were killed at six and twelve weeks, and the repaired rotator cuff was evaluated with use of magnetic resonance imaging, plain radiographs, histologic analysis, and biomechanical testing. A gap consistently formed between the end of the repaired tendon and bone in this model, with reparative scar tissue and new bone spanning the gap. Magnetic resonance imaging showed that the volume of newly formed bone (p < 0.05) and soft tissue (p < 0.05) in the tendon-bone gap were greater in the growth factor-treated animals compared with the collagen sponge control group at both time-points. Histologic analysis showed a fibrovascular tissue in the interface between tendon and bone, with a more robust fibrocartilage zone between the bone and the tendon in the growth factor-treated animals. The repairs that were treated with the osteoinductive growth factors had significantly greater failure loads at six weeks and twelve weeks (p < 0.05); however, when the data were normalized by tissue volume, there were no differences between the groups, suggesting that the treatment with growth factor results in the formation of poor-quality scar tissue rather than true tissue regeneration. The repairs that were treated with the collagen sponge carrier alone had significantly greater stiffness than the growth factor-treated group at twelve weeks (p = 0.005). This model tests the effects of growth factors on scar tissue formation in a gap between tendon and bone. The administration of osteoinductive growth factors resulted in greater formation of new bone, fibrocartilage, and soft tissue, with a concomitant increase in tendon attachment strength but less stiffness than repairs treated with the collagen sponge carrier alone. |
| Author | HYON JEONG KIM ATKINSON, Brent L RODEO, Scott A POTTER, Hollis G TURNER, A. Simon KAWAMURA, Sumito |
| Author_xml | – sequence: 1 givenname: Scott A surname: RODEO fullname: RODEO, Scott A organization: The Laboratory for Soft Tissue Research and the Sports Medicine and Shoulder Service, The Hospital for Special Surgery, New York, NY, United States – sequence: 2 givenname: Hollis G surname: POTTER fullname: POTTER, Hollis G organization: The Laboratory for Soft Tissue Research and the Sports Medicine and Shoulder Service, The Hospital for Special Surgery, New York, NY, United States – sequence: 3 givenname: Sumito surname: KAWAMURA fullname: KAWAMURA, Sumito organization: The Laboratory for Soft Tissue Research and the Sports Medicine and Shoulder Service, The Hospital for Special Surgery, New York, NY, United States – sequence: 4 givenname: A. Simon surname: TURNER fullname: TURNER, A. Simon organization: The Laboratory for Soft Tissue Research and the Sports Medicine and Shoulder Service, The Hospital for Special Surgery, New York, NY, United States – sequence: 5 surname: HYON JEONG KIM fullname: HYON JEONG KIM organization: The Laboratory for Soft Tissue Research and the Sports Medicine and Shoulder Service, The Hospital for Special Surgery, New York, NY, United States – sequence: 6 givenname: Brent L surname: ATKINSON fullname: ATKINSON, Brent L organization: The Laboratory for Soft Tissue Research and the Sports Medicine and Shoulder Service, The Hospital for Special Surgery, New York, NY, United States |
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| Keywords | Plain film Radiodiagnosis Nuclear magnetic resonance imaging Symptomatology Orthopedic surgery Treatment Animal Medical imagery Soft tissue Bone Cicatrization Rotator cuff Growth factor Tendon |
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| Snippet | Clinical studies have demonstrated a high rate of incomplete healing of rotator cuff tendon repair. Since healing of such a repair is dependent on bone... BACKGROUNDClinical studies have demonstrated a high rate of incomplete healing of rotator cuff tendon repair. Since healing of such a repair is dependent on... |
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| SubjectTerms | Animals Biological and medical sciences Biomechanical Phenomena Digestive system Female Intercellular Signaling Peptides and Proteins - therapeutic use Investigative techniques, diagnostic techniques (general aspects) Medical sciences Orthopedic surgery Radiodiagnosis. Nmr imagery. Nmr spectrometry Rotator Cuff - anatomy & histology Rotator Cuff - physiology Rotator Cuff Injuries Sheep Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases Wound Healing - drug effects |
| Title | Biologic Augmentation of Rotator Cuff Tendon-Healing with Use of a Mixture of Osteoinductive Growth Factors |
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