Summary
Satisfactory results following knee surgery can be obtained only through the combined efforts of the surgeon, patient and therapist. A rehabilitative plan is based upon consideration of the effects of disuse and immobility on musculoskeletal tissues, and knowledge of the healing requirements following injury and specific surgical procedures. A balance must be made between simultaneous demands for protection against undue stress to facilitate healing and the need for stress to retard atrophy of musculoskeletal tissue. A thorough review of these concepts forms the basis for a rational approach to rehabilitation after specific surgical procedures.
The phasic approach to knee rehabilitation is based upon progression in a logical fashion through the chronology of immobility, range of motion, progressive weight bearing and strengthening exercises. The latter category can be subdivided into its own progression from isometrics, isotonics, functional exercises through isokinetics. The ultimate goal and final phase is a safe return to full activity.
By integrating a thorough knowledge of the healing parameters of musculoskeletal tissues and the simultaneous coexisting needs for protection and controlled stress, specific rehabilitative programmes can then be designed for the most common surgical procedures including: anterior and posterior cruciate ligament reconstruction, meniscal repair and meniscectomy, lateral release and hyaline cartilage procedures.
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References
Akeson WH, Amiel D, Abel MF, et al. Effects of immobilization on joints. Clinical Orthopedics and Related Research 219: 28–37, 1987
Akeson WH, Amiel D, LaViolette D. The connective tissue response to immobility: a study of chondroitin-4 and -6 sulfate and dermatan sulfate changes in periarticular connective tissue of control and immobilized knees of dogs. Clinical Orthopedics and Related Research 51: 183–197, 1967
Akeson WH, Amiel D, Mechanic GL, et al. Collagen cross-linking alterations in joint contractions: changes in the reducible crosslinks in periarticular connective tissue collagen after nine weeks of immobilization. Connective Tissue Research 5(1): 15, 1977
Akeson WH, Woo SL, Amiel D, et al. The connective tissue response to immobility: biomechanical changes in periarticular connective tissue of the immobilized rabbit knee. Clinical Orthopedics and Related Research 93: 356–362, 1973
Alm A, Ekstrom H, Gillquist J, et al. The anterior cruciate ligament — a clinical and experimental study on tensile strength, morphology and replacement by patellar ligament. Acta Chirurgica Scandinavica (Suppl) 445: 15–24, 1974
Andriacchi T, Sabiston P, Dehaven K, et al. Ligament injury and repair. In Woo SL & Buckwalter JA (Eds) Injury and repair of the musculoskeletal soft tissues, American Academy of Orthopedic Surgeons Symposium, Savannah, GA, 1987
Arms SW, Pope MH, Johnson RJ, et al. The biomechanics of anterior cruciate ligament rehabilitation and reconstruction. American Journal of Sports Medicine 12: 8–18, 1984
Arnoczky SP, McDevitt CA, Warren RF, et al. Meniscal repair using an exogenous fibrin clot — an experimental study in the dog. Presented at the 32nd Annual Meeting of the Orthopedic Research Society: New Orleans, Louisiana, February, 1986a
Arnoczky SP, O’Brien SF, Dicarlo EF, et al. Cellular repopulation of deep-frozen meniscal autografts: an experimental study in the dog. Presented at the 34th Annual Meeting of the Orthopedic Research Society, Atlanta, February 1988
Arnoczky SP, Warren RF. The microvasculature of the meniscus and its response to injury: an experimental study in the dog. American Journal of Sports Medicine 11: 131–141, 1983
Arnoczky SP, Warren RF, Ashlock MA. Replacement of the anterior cruciate ligament using a patella tendon allograft — an experimental study. Journal of Bone and Joint Surgery, 68A: 376–385, 1986
Arnoczky SP, Warren RF, Kaplan N. Meniscal remodeling following partial meniscectomy — an experimental study in the dog. Journal of Arthroscopic and Related Surgery 1(4): 247–252, 1985
Bassett II FH, Beck JL, Weiker G. A modified cast brace: its use in nonoperative and postoperative management of serious knee ligament injuries. American Journal of Sports Medicine 8: 63–69, 1980
Buckwalter J, Rosenberg L, Coutts R, et al. Articular cartilage: injury and repair. In Woo SL & Buckwalter JA (Eds) Injury and repair of the musculoskeletal soft tissues. American Academy of Orthopedic Surgeons Symposium, Savannah, GA, 1987
Cabaud HE, Rodkey WG, Feagin JA. Experimental studies of acute anterior cruciate ligament injury and repair. American Journal of Sports Medicine 7: 18–22, 1979
Cabaud HE, Rodkey WG, Fitzwater JE. Medial meniscus repairs: an experimental and morphologic study. American Journal of Sports Medicine 9: 129–134, 1981
Clancy Jr WG, Narechania RG, Rosenberg TD, et al. Anterior and posterior cruciate ligament reconstruction in Rhesus monkeys: a histological, micronangiographic, and biomechanical analysis. Journal of Bone and Joint Surgery 63A: 1270–1284, 1981
Clancy Jr WG, Ray JM. Anterior cruciate ligament autografts. In Jackson DW & Drez Jr D (Eds) The anterior cruciate deficient knee — new concepts in ligament repair, CV Mosby Company, St. Louis, MO, 1987
Coutts RD (moderator). Symposium: the diagnosis and treatment of articular cartilage injuries. Contemporary Orthopedics 19: 401–431, 1989
Daniel DM, Robertson DB, Flood DL, Biden EN. Fixation of soft tissue. In Jackson DW & Drez Jr D (Eds) The anterior cruciate deficient knee, CV Mosby Company, St. Louis, MO, 1987
Deandrade JR, Grant C, Dixon A. Joint distension and reflex inhibition in the knee. Journal of Bone and Joint Surgery 47A: 313–322, 1965
Dickinson A, Bennett KM. Therapeutic exercise. Clinics in Sports Medicine 4(3): 417–430, 1985
Eriksson G, Haggmark T. Comparison of isometric muscle training and electrical stimulation supplementing isometric muscle training in the recovery after major knee ligament surgery. American Journal of Sports Medicine 7: 169–171, 1979
Evans EB, Eggers GWN, Butler JK, Blumel J. Experimental immobilization and remobilization of rat knee joints. Journal of Bone and Joint Surgery 42A: 737–758, 1960
Finsterbush A, Friedman B. Early changes in immobilized rabbits knee joints: a light and electron microscopy study. Clinical Orthopedics and Related Research 92: 305–319, 1973
Finsterbush A, Friedman B. Reversibility of joint changes produced by immobilization in rabbits. Clinical Orthopedics and Related Research 111: 290–298, 1975
Forward AD, Cowan RJ. Tendon suture to bone: an experimental investigation in rabbits. Journal of Bone and Joint Surgery, 45A: 807–823, 1963
France EP, Paulo LE, Rosenberg TD, Harner CD. The biome-chanics of anterior cruciate allografts. In Friedman M & Ferkel R (Eds) Prosthetic ligament reconstruction of the knee, WB Saunders Company, Philadelphia, 1988
Fu FH, Paul JJ, Irrgang JJ, et al. Loss of knee motion following arthroscopic anterior cruciate ligament reconstruction. Presented at the 9th Annual Meeting of the Arthroscopy Association of North America Orlando, FL, April, 1990
Furukawa T, Eyre DR, Koide S, Gilmcher MJ. Biomechanical studies on repair cartilage resurfacing, experimental defects in the rabbit knee. Journal of Bone and Joint Surgery 62A: 79–89, 1980
Gelberman RH, Menon J, Gonsalves M, et al. The effects of mobilization on the vascularization of healing flexor tendons in dogs. Clinical Orthopedics and Related Research 153: 283–289, 1980
Grood ES, Suntay WJ, Noyes FR, et al. Biomechanics of the knee-extension exercise. Journal of Bone and Joint Surgery 66A: 725–734, 1984
Haggmark T, Erikson E. Cylinder or mobile cast brace after knee ligament surgery: a clinical analysis and morphologic and enzymatic studies of changes in the quadriceps muscle. American Journal of Sports Medicine 7: 48–56, 1979
Halkjaer-Kristensen J, Ingemann-Hansen T. Wasting of the human quadriceps muscle after knee ligament injuries: muscle fiber morphology; oxidative and glycolytic enzyme activity; dynamic and static muscle function. Scandinavian Journal of Rehabilitative Medicine (Suppl.) 13: 5–20, 1985
Hall MC. Cartilage changes after experimental immobilization of the knee joint in the young rat. Journal of Bone and Joint Surgery 45A: 36–44, 1963
Hallebrandt FA, Houtz SJ, Kirkorian AM. Influence of bimanual exercise on unilateral work capacity. Journal of Applied Physiology 2: 452–466, 1950
Hallebrandt FA, Waterland JC. Indirect learning: the influence of uni-manual exercise on related muscle groups of the same and the opposite side. American Journal of Physiologic Medicine 41: 45–55, 1962
Heatley FW. The meniscus — can it be repaired? An experimental investigation in rabbits. Journal of Bone and Joint Surgery 62B: 397–402, 1980
Hirsch EF, Morgan RH. Causal significance to traumatic ossification in tendon insertions. Archives of Surgery 39: 824–837, 1939
Hurson DJ, Sheehan JM. The use of spike plastic washers in the repair of avulsed ligaments. Acta Orthopaedics Scandinavica 53: 23–26, 1981
Kennedy JC, Weinberg HW, Wilson AS. Anatomy and function of the anterior cruciate ligament. Journal of Bone and Joint Surgery 56A: 223–235, 1974
King D. The healing of semilunar cartilages. Journal of Bone and Joint Surgery 18: 1069–1076, 1936
Kurosaka M, Yoshiya S, Andrish JT. A biomechanical comparison of different surgical techniques of graft fixation in anterior cruciate ligament reconstruction. American Journal of Sports Medicine 15: 225–229, 1987
Lambert KL. Vascularized patellar tendon graft with rigid internal fixation for anterior cruciate ligament insufficiency. Clinical Orthopedics and Related Research 172: 85–89, 1983
Laros GS, Tipton CM, Cooper RR. Influence of physical activity on ligament insertions in the knees of dogs. Journal of Bone and Joint Surgery 53A: 275–286, 1971
Mitchell H, Shepard N. Effect of patellar shaving in the rabbit. Journal of Orthopedic Research 5: 388–392, 1987
Morrissey MC, Brewster CE, Shields CL, et al. The effects of electrical stimulation on the quadriceps during postoperative knee immobilization. American Journal of Sports Medicine 13: 40–45, 1985
Noyes FR, Butler DL, Grood ES, et al. Biomechanical analysis of human ligament grafts used in knee ligament repairs and reconstructions. Journal of Bone and Jotnt Surgery 66A: 344–352, 1984
Noyes FR, Butler DL, Paulos LE, Grood ES. Intraarticular cruciate reconstruction. I: Perspectives on graft strength, vascularization and immediate motion after replacement. Clinical Orthopedics and Related Research 172: 71–77, 1983
Noyes FR, Mangine RE, Barber S. Early knee motion after open and arthroscopic anterior cruciate ligament reconstruction. American Journal of Sports Medicine 15: 149–160, 1987
Noyes FR, Torvik PJ, Hyde WB, DeLucas JL. Biomechanics of ligament failure: analysis of immobilization, exercise and reconditioning effects in primates. Journal of Bone and Joint Surgery 56A: 1406–1418, 1974
O’Carroll P, Hurson VJ, Sheehan J, et al. A technique of medial ligament repair of the knee with cancellous screws and spiked washers. Injury 15: 99–104, 1983
Paulos LE, Noyes FR, Grood E, Butler DL. Knee rehabilitation after anterior cruciate ligament reconstruction and repair. American Journal of Sports Medicine 9: 140–149, 1981
Paulos LE, Payne III FC, Rosenberg TD. Rehabilitation after anterior cruciate ligament surgery. In Jackson DW & Drez Jr D (Eds) The anterior cruciate ligament deficient knee, CV Mosby Company, St Louis, MO, 1987a
Paulos LE, Rosenberg TD, Drawbert J, et al. Infrapatellar contracture syndrome, an unrecognized cause of knee stiffness with patellar entrapment and patella infera. American Journal of Sports Medicine 15: 331–341, 1987a
Paulos LE, Rosenberg TD, Drawbert J, et al. Infrapatellar contracture syndrome, an unrecognized cause of knee stiffness with patellar entrapment and patella infera. American Journal of Sports Medicine 15: 331–341, 1987a
Paulos LE, Rosenberg TD, Grewe SR, Tearse D. The Gore-Tex anterior cruciate ligament — a long-term follow-up. Presented at the American Academy of Orthopedic Surgeons Annual Meeting, New Orleans, February, 1990b
Paulos LE, Wnorowski DC, Rosenberg TD. Update on patellar entrapment syndrome. Submitted for publication, 1990c
Peacock Jr EE. Comparison of collagenous tissue surrounding normal and immobilized joints. Surgical Forum 14: 440, 1963
Robertson DB, Daniel DM, Biden E. Soft tissue fixation to bone. American Journal of Sports Medicine 14: 398–403, 1986
Salter RB, Simmonds DF, Malcolm BW, et al. The biological effect of continuous passive motion on the healing of full-thickness defects in articular cartilage. Journal of Bone and Joint Surgery 62A: 1232–1251, 1980
Schmid A, Schmid F. Results after cartilage shaving studied by electron microscopy. Abstract. American Journal of Sports Medicine 15: 386–387, 1987
Shino K, Kawasaki T, Hirose H, et al. Replacement of the anterior cruciate ligament by an allogeneic tendon graft: an experimental study in the dog. Journal of Bone and Joint Surgery 66B: 672–681, 1984
Sisk TD, Stralka SW, Deering MB, Griffin JW. Effect of electrical stimulation on quadricpes strength after reconstructive surgery of the anterior cruciate ligament. American Journal of Sports Medicine 15: 215–220, 1987
Stratford P. Electromyography of the quadriceps femoris muscles in subjects with normal knees and acutely effused knees. Physical Therapy 62: 279–283, 1981
Troyer H. The effect of short-term immobilization on the rabbit knee joint cartilage. Clinical Orthopedics and Related Research 107: 249–257, 1975
Webber RJ, Harris M, Hough Jr AJ. Intrinsic repair capabilities of rabbit meniscal fibrocartilage: a cell culture model. Presented at the 30th Annual Meeting of the Orthopedic Research Society, Atlanta, February, 1984
Woo SL-Y, Gomez MA, Seguchi Y, et al. Measurement of mechanical properties of ligament substance from a bone-ligament-bone preparation. Journal of Orthopedic Research 1: 22, 1983
Woo SL-Y, Matthews JV, Akeson WH, et al. The connective tissue response to immobility: a correlative study of biomechanical and biochemical measurements of the normal and immobilized rabbit knee. Arthritis and Rheumatism 18: 257–264, 1975
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Paulos, L.E., Wnorowski, D.C. & Beck, C.L. Rehabilitation Following Knee Surgery. Sports Med 11, 257–275 (1991). https://doi.org/10.2165/00007256-199111040-00005
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DOI: https://doi.org/10.2165/00007256-199111040-00005