1. Graham WC. Transplantation of joints to replace diseased or damaged articulations in hand. Am J Surg, 1954; 88:136-141.

2. Wenger HL. Transplantation of epiphyseal cartilage. Arch Surg 1954; 50:148-151.

3. Wilson JN. Epiphyseal transplantation. A clinical study. J Bone Joint Surg 1966; 48A:245-256.

4. Bowen CVA, O'Brien BM. Experimental study of the microsurgical transfer of growth plates. Can J Surg 1984; 27:446.

5. Bowen CVA. Experimental free vascularized epiphyseal transplants. Orthopaedics 1986; 9:893-8.

6. Bowen CVA, Ethridge CP, O'Brien BMcC et al. Experimental microvascular growth plate transfers. Part 1—Investigation of vascularity. J Bone Joint Surg 1988; 70B:305-10.

7. Bowen CVA, O'Brien BMcC, Gumley GJ. Experimental microvascular growth plate transfers. Part 2 — Investigation of feasibility. J Bone Joint Surg 1988; 70B:311-14.

8. Donski PK, Carwell GR, Sharzer LA. Growth in revascularized bone grafts in young puppies. Plast Reconstr Surg 1979; 64:239-243.

9. Donski PK, O'Brien BMcC. Free microvascular epiphiseal transplantation: An experimental study in dogs. Br J Plast Surg 1980; 33:169-78.

10. Manfrini M, Randolph MA, Andrisano A et al. Orthotopic knee grafts in rats: a model for growth plate transplantation. Microsurgery 1988; 9:242-5.

11. Nettelblad H, Randolph MA, Weiland AJ. Physiologic isolation of the canine proximal fibular epiphysis on a vascular pedicle. Microsurgery 1984; 5:98-101.

12. Nettelblad H, Randolph MA, Weiland AJ. Free microvascular epiphyseal plate transplantation. An experimental study in dogs. J Bone Joint Surg (Am.) 1984; 66:1421-1430.

13. Trueta J. The role of the vessels in osteogenesis. J Bone Joint Surg 1963; 45B:402-17.

14. Weiland A, Daniel R. Microvascular anastomoses for bone grafts in treatment of massive defects in bone. J Bone Joint Surg 1979; 61 (A):98-104.

15. Teot L, Bossé JP, Pous JG. Vascularized bone transfer, including epiphyseal plate. In: Brunelli G ed. Textbook of microsurgery. Milan: Masson 1988:381-390.

16. Pho RW, Patterson MH, Kour AK et al. Free vascularized epiphyseal transplantation in upper extremity reconstruction. J Hand Surg (Am) 1988; 13:440-47.

17. Zhong-Wei C, Guang-Jian Z. Epiphyseal transplantation. In: Pho RW ed. Microsurgical technique in orthopaedics. London: Butterworths 1988:121-127.

18. Wood MB, Gilbert A eds. Microvascular bone reconstruction. London: Martin Dunitz 1997:85-89.

19. Bonnel F, Lesire M, Gomis R et al. Arterial vascularization of the fibula microsur-gical transplant techniques. Anatomia Clinica 1981; 3:13-23.

20. Restrepo J, Katz D, Gilbert A. Arterial vascularization of the proximal epiphysis and the diaphysis of the fibula. Int J Microsurg 1980; 2:48-51.

21. Taylor GI, Wilson KR, Rees MD et al. The anterior tibial vessels and their role in epiphyseal and diaphyseal transfer of the fibula: Experimental study and clinical applications. Br J Plast Surg 1988; 41:451-69.

22. Innocenti M, Ceruso M, Manfrini M. et al. Free vascularized growth plate transfer after bone tumor resection in children. J Reconstr Microsurgery 1998; 14:137-143.

23. Glasser DB, Duane K, Lane JM et al. Alteration in skeletal growth in prepuberal children on adjuvant chemotherapy for osteosarcoma: implications for planning limb saLVAge abstract from 5th International Symposium on Limb SaLVAge (I.S.O.L.S.) Saint Malo 1989.

24. Tsai TM, Ludwig L, Tonkin M. Vascularized fibular epiphyseal transfer: A clinical study. Clin Orthop 1986; 210:228-34.

Was this article helpful?

0 0
Diabetes 2

Diabetes 2

Diabetes is a disease that affects the way your body uses food. Normally, your body converts sugars, starches and other foods into a form of sugar called glucose. Your body uses glucose for fuel. The cells receive the glucose through the bloodstream. They then use insulin a hormone made by the pancreas to absorb the glucose, convert it into energy, and either use it or store it for later use. Learn more...

Get My Free Ebook

Post a comment