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Aspects of spinal deformity in familial dysautonomia (Riley-Day syndrome)

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Abstract

Familial dysautonomia (FD) is a rare autosomal recessive disease occurring in Jews of Ashkenazi descent, with only some 500 recognized cases. The causative gene was identified on chromosome 9. FD is of considerable orthopedic interest, because of the prevalence of skeletal deformity. About 90% of surviving dysautonomic children will develop a spinal curvature, commonly a scoliliotis. The scoliotic curve is usually kyphotic rather than lordotic, and appears during the first decade of life. Fifty-one of the 90 reported cases of familial dysautonomia in Israel involved patients who were seen at the scoliliotis clinic for assessment and treatment of their spinal deformities. Most of the patients presented with a scoliotic deformity associated in 37 cases with an increased thoracic kyphosis. In our series orthotic treatment and physiotherapy were found to be minimally successful at best. Surgical treatment of the spine was performed in 13 of 51 patients in this series. A retrospective review of these patients' charts and radiographs was carried out. Six years of follow-up are reported. The primary indication for surgery was progression of the spinal curve. Only posterior spinal fusions were performed. Anterior transthoracic procedures were avoided in spite of the significance of the kyphotic deformity, because of the frequency of pulmonary complications. Harrington distraction and compression instrumentation was used. Three-millimeter compression rods were used in a distraction mode in thin, young children. “Harri-Luque” segmental sublaminar wiring technique and Wisconsin spinous process segmental wiring was used in some. In all cases, the spine fusion was supplemented by bank bone only, to avoid the additional trauma of graft removal. We believe that surgical intervention is advantageous, if done early in the evolution of spinal deformity. Greater technical difficulties and a higher complication rate were encountered in this series relative to the problems usually seen after spinal deformity surgery in children; this is all the more important in a disease in which general anesthesia is an additional major complicating factor. It is hoped that the improved physical condition now seen after early gastrostomy and fundoplication will aid in reducing this high complication rate. Only a small degree (about 25%) of correction was achieved in the majority of patients. Some of this apparent rigidity derived from the inability to apply sufficient instrumental corrective force because of the friable osteoporotic bone. After surgery, there was a marked decrease in the frequency of pneumonia and an improvement in the degree of ataxia, for reasons not understood, which led to an obvious improvement in the quality of life.

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References

  1. Aguayo AT, Nair CPV, Bray GM (1971) Peripheral nerve abnormalities in the Riley-Day syndrome. Arch Neurol 24:106–116

    Google Scholar 

  2. Albanese SA, Bobechko WP (1987) Spine deformity in familial dysautonomia (Riley-Day syndrome). J Pediatr Orthop 7:174–183

    Google Scholar 

  3. Axelrod FB, Iyer K, Fish I, Pearson J, Sein ME, Spielholz N (1981) Progressive sensory loss in familial dysautonomia. Pediatrics 67:517–522

    Google Scholar 

  4. Axelrod FB, Donenfeld RF, Danziger F, Turndorf H (1988) Anesthesia in familial dysautonomia. Anesthesiology 68:631–635

    Google Scholar 

  5. Bethea JS III, Doherty JH (1970) Scoliosis in dysautonomia. J Bone Joint Surg [Am] 52:409

    Google Scholar 

  6. Blumenfeld A, Slaugenhaupt SA, Axelrod FB, Lucente DE, Maayan C, Liebert CB, Ozelius LJ, Trofatter JA, Haines JL, Breakefield XO, et al (1993) Localization of the gene for familial dysautonomia on chromosome 9 and definition of DNA markers for genetic diagnosis. Nat Genet 4: 160–164

    Google Scholar 

  7. Clayson D, Welton W, Axelrod FB (1980) Personality development and familial dysautonomia. Pediatrics 65 269–274

    Google Scholar 

  8. Filler J, Smith AA, Stone S, Dancis J (1965) Respiratory control in familial dysautonomia. J Pediatr 66:509–516

    Google Scholar 

  9. Ganz SB, Kahanowitz N, Levine D, Axelrod F (1982) Comprehensive rehabilitation of the patient with dysautonomia. Orthop Trans 6:116

    Google Scholar 

  10. Gitlow SE, Bertoni LM, Wilk E, Li BL, Dziedzic S (1970) Excretion of catecholine metabolites by children with familial dysautonomia. Paediatrics 46:513–522

    Google Scholar 

  11. Levine DB (1974) Orthopaedic aspects of familial dysautonomia. In: Zorab PA (ed) Scoliosis and muscle. Heinemann, London, pp 143–150

    Google Scholar 

  12. Maayan C, Kaplan E, Shachar S, Peleg Godfrey S (1987) Incidence of familial dysautonomia in Israel. Clin Genet 32:106–108

    Google Scholar 

  13. Moses SW, Rotem Y, Jagoda N, Talmor N, Eichhorn F, Levine S (1967) A clinical, genetic and biochemical study of dysautonomia in Israel. Isr J Med Sci 3:358–371

    Google Scholar 

  14. Pearson J, Axelrod F, Dancis J (1974) Current concepts of dysautonomia: neuropathological defects. Ann NY Acad Sci 228:288–300

    Google Scholar 

  15. Pearson J, Pytel BA, Grove-Johnson N, Axelrod F, Dancis J (1976) Quantitative studies of dorsal root ganglia and neuropathological observations in spinal cords in familial dysautonomia. J Neurol Sci 35:77–82

    Google Scholar 

  16. Perlman M, Benady S, Saggi E (1979) Neonatal diagnosis in familial dysautonomia. Paediatrics 63:238–241

    Google Scholar 

  17. Riley CM, Day RL, Greely DM, Langford WS (1949) Central autonomic dysfunction with defective lachrymation. Paediatrics 3:468–478

    Google Scholar 

  18. Riley CM, Freedman AM, Langford WS (1954) Further observations in familial dysautonomia. Paediatrics 14: 475–480

    Google Scholar 

  19. Robin GC (1984) Scoliosis in familial dysautonomia. Bull Hosp Joint Dis 44:16–26

    Google Scholar 

  20. Rubery PT, Spielman JH, Hester P, Axelrod F, Burke SW, Levine DB (1995) Scoliosis in familial dysautonomia: operative treatment. J Bone Joint Surg[Am] 77:1362–1369

    Google Scholar 

  21. Smith AA, Dancis J (1967) Catecholamine release in familial dysautonomia. N Engl J Med 277:61–64

    Google Scholar 

  22. Yoslow W, Becker MH, Bartels J, Thompson WL (1971) Orthopaedic defects in familial dysautonomia. J Bone Joint Surg [Am] 53:1541–1550

    Google Scholar 

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Authors and Affiliations

  1. Department of Orthopedic Surgery, Hadassah University Hospital and the Alyn Hospital, Jerusalem, Israel

    L. Kaplan, Y. Floman & G. C. Robin

  2. Department of Orthopedic Surgery, Spine Services, Montefiore Medical Center, The University Hospital of the Albert Einstein College of Medicine, 111 East 210th Street, 10467, Bronx, NY, USA

    J. Y. Marguilies

  3. Department of Anesthesiology, Hadassah University Hospital and the Alyn Hospital, Jerusalem, Israel

    A. Kadari

Authors
  1. L. Kaplan
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  2. J. Y. Marguilies
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  3. A. Kadari
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  4. Y. Floman
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  5. G. C. Robin
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Kaplan, L., Marguilies, J.Y., Kadari, A. et al. Aspects of spinal deformity in familial dysautonomia (Riley-Day syndrome). Eur Spine J 6, 33–38 (1997). https://doi.org/10.1007/BF01676572

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  • DOI: https://doi.org/10.1007/BF01676572

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