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Literature DB >> 7399773

Experimental scoliosis by epiphysiodesis in pigs.

J L Beguiristain, J De Salis, A Oriaifo, J Cañadell.

Abstract

Using two-month-old pigs selective epiphysiodesis of the neurocentral cartilage was performed using cancellous screws inserted to achieve effective compression. The operation was performed on eight experimental animals, on the right side, involving four or five vertebrae at the mid thoracic level. The procedure consistently caused structural scoliosis, convex on the side of operation. The radiographic, macroscopic and microscopic findings in the experimental animals are described. In other animals so treated at ages when the neurocentral cartilage is not active rotational deformity did not occur.

Entities: Disease Species

Mesh：

Year: 1980 PMID： 7399773 DOI： 10.1007/bf00266028

Source DB: PubMed Journal: Int Orthop ISSN： 0341-2695 Impact factor: 3.075

6 in total

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Authors: J Cañadell; J L Beguiristain; J Glez Iturri; B Reparaz; J R Gili
Journal: Rev Med Univ Navarra Date: 1974 Sep-Dec

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Authors: H Piggott
Journal: J Bone Joint Surg Br Date: 1971-11

6. The development of spinal deformity in experimental scoliosis.

Authors: J E Michelsson
Journal: Acta Orthop Scand Suppl Date: 1965

6 in total

12 in total

1. Vertebral deformities and scoliosis.

Authors: C Coillard; C H Rivard
Journal: Eur Spine J Date: 1996 Impact factor: 3.134

2. Porcine spine finite element model: a complementary tool to experimental scoliosis fusionless instrumentation.

Authors: Bahe Hachem; Carl-Eric Aubin; Stefan Parent
Journal: Eur Spine J Date: 2017-01-09 Impact factor: 3.134

3. Prospective study of the effect of pedicle screw placement on development of the immature vertebra in an in vivo porcine model.

Authors: Tamás Fülöp Fekete; Frank S Kleinstück; Anne F Mannion; Zsolt S Kendik; Dezso J Jeszenszky
Journal: Eur Spine J Date: 2011-07-16 Impact factor: 3.134

Experimental scoliosis by epiphysiodesis in pigs.

1. The pathogenesis of experimental progressive scoliosis.

2. Experimental progressive scoliosis in the rabbit.

3. Bipedal rats and mice; laboratory animals for orthopaedic research.

4. [Experimental scoliosis].

5. Posterior rib resection in scoliosis. A preliminary report.

6. The development of spinal deformity in experimental scoliosis.

1. Vertebral deformities and scoliosis.

2. Porcine spine finite element model: a complementary tool to experimental scoliosis fusionless instrumentation.

3. Prospective study of the effect of pedicle screw placement on development of the immature vertebra in an in vivo porcine model.

4. The neurocentral vertebral cartilage: anatomy, physiology and physiopathology.

5. Pedicle growth asymmetry as a cause of adolescent idiopathic scoliosis: a biomechanical study.

6. Neurocentral synchondrosis screws to create and correct experimental deformity: a pilot study.

7. Vertebral growth modulation by hemicircumferential electrocoagulation: an experimental study in pigs.

Review 8. Animal models for scoliosis research: state of the art, current concepts and future perspective applications.

9. Numerical simulation of asymmetrically altered growth as initiation mechanism of scoliosis.

10. Growth modulation in the management of growing spine deformities.