References
- Aho H J, Aro H, Juntunen S, Strengell L, Michelsson J E. Bone formation in experimental myositis ossificans: light and electron microscopic study. APMIS 1988; 96: 933–40
- Carlson W O, Klassen R A. Myositis ossificans of the upper extremity: a long-term follow-up. J Pedriatr Orthop 1984; 4: 693–6
- Hait G, Boswick J A, Jr, Stone N H. Heterotopic bone formation secondary to trauma (myositis ossificans traumatica): an unusual case and a review of current concepts. J Trauma 1970; 10: 405–11
- Huss C D, Puhl J J. Myositis ossificans of the upper arm. Am J Sports Med 1980; 8: 419–24
- Ivey M. Myositis ossificans of the thigh following manipulation of the knee. Clin Orthop 1985; 198: 102–5
- Kim H KW, Moran M E, Salter R B. The potential for regeneration of articular cartilage in defects created by chondral shaving and subchondral abrasion: an experimental investigation in rabbits. J Bone Joint Surg (Am) 1991; 73: 1301–15
- Michelsson J E, Riska E B. The effect of temporary exercising of a joint during an immobilization period: an experimental study on rabbits. Clin Orthop 1979; 144: 321–5
- Michelsson J E, Granroth G, Andersson L C. Myositis ossificans following forcible manipulation of the leg. J Bone Joint Surg (Am) 1980; 62: 811–5
- Michelsson J E, Rauschning W. Pathogenesis of experimental heterotopic bone formation following temporary forcible excercising of immobilized limbs. Clin Orthop 1983; 176: 265–72
- Moed B R, Resnick R B, Fakhouri A J, Nallamothu B, Wagner R A. Effect of two antiinflammatory drugs on heterotopic bone formation in a rabbit model. J Arthroplasty 1994; 9: 81–7
- Moran M E, Kim H KW, Salter R B. Biological resurfacing of full-thickness defects in patellar articular cartilage of the rabbit. J Bone Joint Surg (Br) 1992; 74: 659–67
- Nalley J, Jay S M, Durant R H. Myositis ossificans in an adolescent following sports injury. J Adolesct Health 1985; 6: 460–2
- O'Driscoll S W, Salter R B. The repair of major osteochondral defects in joint surfaces by neochondrogenesis with autogenous osteoperiosteal grafts stimulated by continuous passive motion. An experimental investigation in the rabbit. Clin Orthop 1986; 208: 131–40
- Salter R B. Continuous passive motion; a biological concept for the healing and regeneration of articular cartilage, ligaments and tendons. Williams and Wilkins, Baltimore, Maryland 1993
- Salter R B, Simmonds D F, Malcolm B W, Rumble E J, Mac-Michael D, Clements N D. The biological effect of continuous passive motion on the healing of full thickness defects in articular cartilage. An experimental investigation in the rabbit. J Bone Joint Surg (Am) 1980; 62: 1232–51
- Scott A C, Wong S, Ang K, Traina J F. The relative effects of indomethacin, diphosphonates and low-dose radiation for the prevention of heterotopic ossification. Proceedings of the 33rd Annual Meeting of the Orthopaedic Research Society, San Francisco, CAUSA, 1987; 309