References
- Peacock EE (1966). Some biochemical and biophysical aspects of joint stiffness: role of collagen synthesis as opposed to altered molecular bonding. Aim Surg 164:1–12.
- Damron TA, Greenwald TA, Breed A (1994). Chronological outcome of surgical tendoachilles length-ing and natural history of gastro-soleus contracture in cerebral palsy. Clin Orthop 301:249–255.
- Trudel G (1997). Differentiating the myogenic and arthrogenic components of joint contractures. An experimental study on the rat knee joint. hit J Rehabil Res 20: 397–404.
- Trudel G, Uhtoff (2000). Contractures secondary to immobility: is the restriction articular or mus-cular? An experimental longitudinal study in the rat knee. Arch Phys Med Rehabil 81:6–13.
- Evans BE, Eggers GWN, Butler JK, Blumel J (1960). Experimental immobilization and remobiliza-tion of rat knee joints. J Bone Joint Surg 42A:737–758.
- Peacock EE. Some biochemical and biophysical aspects of joint stiffness: Role of collagen synthesis as opposed to altered molecular bonding. Ann Surg.1966;164:1–12.
- Amiel D, Akeson WH, Harwood FL, Mechanic GL (1980). The effects of immobilization on the types of collagen synthesized in periarticular connective tissue. Connect Tissue Res 8:27–32.
- Enneking WF, Horowits M (1972). The intra-articular effects of immobilization on the human knee. J Bone Joint Surg 54A:973–985.
- Wilson PD (1944). Capsulectomy for the relief of flexion contractures of the elbow following fracture. J Bone Joint Surg 26A:71–86.
- Trudel G, Seki M, Uhthoff HK (2000). Synovial adhesions are more important than pannus prolifera-tion in the pathogenesis of knee joint contracture after immobilization: an experimental investigation in the rat J Rheumatol 27:351–357.
- Hagiwara Y, Saijyo Y, Chimoto E, Akita A, Sasano Y, Matsumoto F, Kokubun S (2006). Increased elasticity of synovial membrane after immobilization in a rat knee experimental model assessed by scanning acoustic microscopy. Ups J Med Sci 111:303–313.
- Moriyama H, Yoshimura 0, Sunahiro H, Tobimatsu Y (2006). Comparison of muscular and articular factors in the progression of contractures after spinal cord injury in rats. Spinal Cord 44:174–181.
- Trudel G, Uhthoff HK, Brown M (1999). Extent and direction of joint motion limitation after pro-longed immobility: an experimental study in the rat. Arch Phys Med Rehabil 80:1542–1547.
- Woo SL, Matthews JV, Akeson WH, Amiel D, Convery FR (1975). Connective tissue response to im-mobility: Correlative study of biomechanical measurements of normal and immobilized rabbit knees. Arthritis Rheum 18:257–264.
- Hozumi N, Yamashita R, Lee CK, Nagao M, Kobayashi K, Saijo Y, Tanaka M, Tanaka N, Ohtsuki S (2004). Time-frequency analysis driven ultrasonic microscopy for biological tissue characterization. Ultrasonics 42:717–722.
- Saijo Y, Jorgensen S, Mondek P, Sefranek V, Paaske W (2002). Acoustic inhomogeneity of carotid arterial plaques determined by GHz frequency range microscopy. Ultrasound Med Biol 28:933–937.
- Hildebrand KA, Holmberg M, Shrive N (2003). A New Method to Measure Post-Traumatic Joint Contractures in the Rabbit Knee. J Biomech Eng 125:887–892.
- Trudel G, Kilborn SH, Uhthoff (2001). Bone Growth Increases the Knee Flexion: A study usingrats. Arch Phys Med Rehabil 82:583–588.