Cicatrización del tendón rotuliano tras la extracción de su tercio central. Estudio experimental en el conejo | Revista Española de Cirugía Ortopédica y Traumatología

Article information

Objetivo

Estudiar la evolución biomecánica e histológica a 3 y 12 meses del proceso de cicatrización de defectos creados quirúrgicamente en el tendón rotuliano del conejo.

Diseño experimental

Se utilizaron 16 conejos de raza albina New Zealand, con un peso de entre 4.000 y 4.500 g. Se extrajo quirúrgicamente el tercio central del tendón de la rodilla derecha; la izquierda sirvió como control. Ocho animales fueron sacrificados aleatoriamente a los 3 meses y otros 8 a los 12 meses. Tras el sacrificio se extrajeron las unidades rótulatendón rotuliano-tuberosidad anterior de la tibia y se montaron en una máquina Instron® para realizar ensayos de tracción hasta la rotura del espécimen. Dos animales de cada grupo escogidos al azar fueron destinados para estudio histológico.

Resultados

A los 3 meses la fuerza máxima de los tendones operados fue el 71% del control (p < 0,008). No se observaron diferencias significativas en la rigidez y módulo de Young. A los 12 meses la fuerza máxima de los tendones operados fue el 85,5% del control (p < 0,001), la rigidez del 76% (p < 0,015) y el módulo de Young del 92,8% (p < 0,043). La histología mostró una maduración y organización progresiva del neotendón, aunque al año de evolución todavía se encontraba muy alterada.

Conclusiones

Los resultados sugieren que la extracción de un tercio del tendón rotuliano en el conejo provoca alteraciones de las propiedades estructurales y biomecánicas que persisten al año de la cirugía.

Palabras clave:

tendón rotuliano

ligamento cruzado

rodilla

estudio experimental

Objective

To study the biomechanical and histologic evolution at 3 and 12 months in the process of healing surgical defects in the patellar tendon of rabbits.

Experimental design

Sixteen white New Zealand rabbits weighing 4,000 to 4,500 g were used. The central third of the right patellar tendon was removed surgically and the left tendon was kept intact as a control. Eight randomly selected animals were killed at 3 months and 8 animals were killed at 12 months. After death, the patella, patellofemoral tendon and anterior tibial tuberosity were removed as a unit and mounted on an Instron® machine for resistance assays until the specimen ruptured. Two animals chosen randomly from each group were used for histologic study.

Results

At three months the maximum resistance of the operated tendons was 71% of control values (p < 0.008). No significant differences were observed in the rigidity and Young module. At 12 months, the maximum resistance of the operated tendons was 85.5% of control values (p < 0.001), the rigidity was 76% (p < 0.015), and the Young module was 92.8% (p < 0.043). The histologic study showed maturation and progressive organization of the neotendon, but it was still disorganized at one year of follow-up.

Conclusions

The results suggest that the removal of onethird of the patellar tendon in rabbits causes structural and biomechanical disorganization that persists one year after surgery.

Key words:

patellar tendon

anterior cruciate ligament

knee

experimental research

Full text is only aviable in PDF

Bibliografía

[1.]

R.G. Nixon, G.K. SeGall, S.L. Sax, T.E. Cain, H.S. Tullos.

Reconstitution of the patellar tendon donor site after graft harvest.

Clin Orthop, 317 (1995), pp. 162-171

Medline

[2.]

F.R. Noyes, D.L. Butler, E.S. Grood, R.F. Zernicke, M.S. Hefzy.

Biomedical analysis of human ligament grafts used in kneeligament repairs and reconstructions.

J Bone Joint Surg Am, 66A (1984), pp. 344-352

[3.]

C.S. Proctor, D.W. Jackson, T.M. Simon.

Characterization of the repair tissue after removal of the central one-third of the patellar ligament.

J Bone Joint Surg Am, 79A (1997), pp. 997-1006

[4.]

A. Del Corral, J.L. Moreno, F. Forriol, J. Cañadell.

Efectos de la crioconservación sobre el comportamiento mecánico del ligamento rotuliano. Estudio experimental en corderos.

Rev Ortop Traumatol, 42 (1998), pp. 225-230

[5.]

C.B. Frank, D.W. Jackson.

The science of reconstruction of the anterior cruciate ligament.

J Bone Joint Surg Am, 79A (1997), pp. 1556-1576

[6.]

S.J. O'Brien, R.F. Warren, H. Pavlov, R. Panariello, T.L. Wickiewicz.

Reconstruction of the crhonically insufficient anterior cruciate ligament with the central third of the patellar ligament.

J Bone Joint Surg Am, 73A (1991), pp. 278-286

[7.]

R.A. Rubinstein, K.D. Shelbourne, C.D. Van Meter, J.C. McCarroll, A.C. Rettig.

Isolated autogenous bone-patellar tendon-bone graft site morbidity.

Am J Sports Med, 22 (1994), pp. 324-327

Medline

[8.]

K.P. Benedeto, G. Sperner, W. Gloetzer, D. Fritschy, R. Gautard.

Ultrasonographic study of patellar tendon following graft dissection for ACL-replacement.

Am J Sports Med, 17 (1989), pp. 709

[9.]

B.D. Beynnon, D. Proffer, D.J. Drez, C.J. Stankewich, R.J. Johnson.

Biomechanical assessment of the healing response of the rabbit patellar tendon after removal of its central third.

Am J Sports Med, 23 (1995), pp. 452-457

Medline

[10.]

R.T. Burks, R.C. Haut, R.L. Lancaster.

Biomechanical and histological observations on the dog patellar tendon after removal of its central one third.

Am J Sports Med, 18 (1990), pp. 146-153

Medline

[11.]

B.S. Kamps, L.H. Linder, C.E. De Camp, R.C. Haut.

The influence of immobilization vs exercise on scar formation in the rabbitt patellar tendon after excision of the central third.

Am J Sports Med, 22 (1994), pp. 803-811

Medline

[12.]

R.C. Meisterling, T. Wadsworth, R. Ardill, H. Griffiths, L. Lane-Larsen.

Morphologic changes in the human patellar tendon after Bone-Tendon-Bone anterior cruciate ligament reconstruction.

Clin Orthop, 289 (1993), pp. 208-212

Medline

[13.]

T.J. Bonatus, A.H. Alexander.

Patellar fracture and avulsion of the patellar ligament complicating arthroscopic anterior cruciate ligament reconstruction.

Orthop Rev, 20 (1991), pp. 770-774

Medline

[14.]

R.A. Sachs, D.M. Daniel, M.L. Stone, R.F. Garfein.

Patellofemoral problems after anterior cruciate ligament reconstruction.

Am J Sports Med, 17 (1989), pp. 760-765

Medline

[15.]

J.L. Bonamo, R.M. Krinick, A.A. Sporn.

Rupture of the patellar ligament after use of its central third for anterior cruciate ligament reconstruction. A report of two cases.

J Bone Joint Surg Am, 66A (1984), pp. 1294-1297

[16.]

P. Langan, A.P. Fontanetta.

Rupture of the patellar tendon after use of its central third.

Orthop Rev, 16 (1987), pp. 61-65

[17.]

J.M. Marumoto, M.M. Mitsunaga, A.B. Richardson, R.J. Medoff, G.W. Mayfield.

Late patellar tendon ruptures after removal of the central third for anterior cruciate ligament reconstruction. A report of two cases.

Am J Sports Med, 4 (1996), pp. 698-701

[18.]

J.C. Monllau.

Estudio biomecánico e histológico de un modelo de reparación del tendón rotuliano en animal de experimentación. Tesis Doctoral.

Universitat Autónoma de Barcelona, Barcelona, (1999),

[19.]

S.H. Liu, D.W. Hang, A. Gentili, G.A.M. Finerman.

MRI and morphology of the insertion of the patellar tendon after graft harvesting.

J Bone Joint Surg Br, 78B (1996), pp. 823-826

[20.]

J.C. Monllau, J.C. Cugat, F. Alameda, J. Ballester.

Elongación del tendón rotuliano tras la extracción de su tercio central.

Cuadernos de Artroscopia, 8 (2001), pp. 33-36

[21.]

E. Gómez Barrena, N. Fernández-Baillo, J.M. Ordóñez, E. Martínez.

La rodilla en el animal de experimentación. Morfología y cinemática comparadas y su aplicación a los modelos experimentales de rodilla.

Rev Ortop Traumatol, 35 (1991), pp. 100-112

[22.]

S.L.Y. Woo, E.P. Young.

Structure and function of tendons and ligaments.

Basic Orthopaedic Biomechanics,

[23.]

G. Milano, A. Gigante, A. Schiavonne-Panni, P.D. Mulas, C. Fabbriciani.

Patellar tendon healing after removal of its central third. A morphologic evaluation in rabbits.

Knee Surg Sports Med Traumatol Arthrosc, 9 (2001), pp. 92-101

Indexed in:

Follow us:

Indexed in:

Follow us:

Subscribe to our newsletter