Ann Rehabil Med.
2011 Aug;35(4):477-484. 10.5535/arm.2011.35.4.477.
Clinical Usefulness of Schedule for Oral-Motor Assessment (SOMA) in Children with Dysphagia
- Affiliations
-
- 1Department of Physical and Rehabilitation Medicine, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul 135-710, Korea. jeongyi.kwon@samsung.com
- 2Department of Physical and Rehabilitation Medicine, Samsung Changwon Hospital, Sungkyunkwan University School of Medicine, Changwon 630-723, Korea.
- KMID: 1971712
- DOI: http://doi.org/10.5535/arm.2011.35.4.477
Abstract
OBJECTIVE
To investigate the clinical usefulness of the Schedule for Oral-Motor Assessment (SOMA) in children with dysphagia by comparing findings of SOMA with those of the videofluoroscopic swallowing study (VFSS). METHOD: Both SOMA and VFSS were performed in 33 children with dysphagia (21 boys and 12 girls; mean age 17.3+/-12.1 months) who were referred for oropharyngeal evaluation. Ratings of oral-motor functions indicated by SOMA were based upon the cutting score of each specific texture of food (puree, semi-solids, solids, cracker, liquid-bottle, and liquid-cup). Abnormalities of either the oral phase, or the pharyngeal phase as indicated by VFSS were assessed by a physician and a speech-language pathologist.
RESULTS
There was significant consistency between the findings of SOMA and the oral phase evaluation by VFSS (Kappa=0.419, p=0.023). SOMA reached 87.5% sensitivity, 66.6% specificity, and 95.4% positive predictive value when compared with the oral phase of the VFSS. We were able to evaluate oral-motor function by using SOMA in 6 children who were unable to complete the oral phase evaluation by VFSS, due to fear and crying during the study. The findings of SOMA failed to show any consistency with the pharyngeal phase evaluation by VFSS (Kappa=-0.105, p=0.509).
CONCLUSION
These results suggest that SOMA is a reliable method for evaluation of oral-motor function in children with dysphagia. In particular, SOMA is recommended for children that were unable to complete the oral phase evaluation by VFSS due to poor cooperation.
Keyword
MeSH Terms
Cited by 1 articles
-
Verification of Reliability and Validity of the Feeding and Swallowing Scale for Premature Infants (FSSPI)
Chang Won Moon, Han geul Jung, Hee Jung Cheon, Su Mi Oh, Young Ok Ki, Jeong-Yi Kwon
Ann Rehabil Med. 2017;41(4):631-637. doi: 10.5535/arm.2017.41.4.631.
Reference
-
1. Matsuo K, Palmer JB. Anatomy and physiology of feeding and swallowing: normal and abnormal. Phys Med Rehabil Clin N Am. 2008; 19:691–707. PMID: 18940636.
Article2. Reilly S, Skuse D, Poblete X. Prevalence of feeding problems and oral motor dysfunction in children with cerebral palsy: a community survey. J Pediatr. 1996; 129:877–882. PMID: 8969730.
Article3. Rogers B, Arvedson J, Buck G, Smart P, Msall M. Characteristics of dysphagia in children with cerebral palsy. Dysphagia. 1994; 9:69–73. PMID: 8131428.
Article4. Gisel EG, Patrick J. Identification of children with cerebral palsy unable to maintain a normal nutritional state. Lancet. 1988; 1:283–286. PMID: 2893092.
Article5. Logemann JA. Swallowing physiology and pathophysiology. Otolaryngol Clin North Am. 1988; 21:613–623. PMID: 3054716.
Article6. Logemann JA. Evaluation and treatment of swallowing disorders. 1998. 2nd ed. San Diego: College Hill Press;p. 168–180.7. Arvedson JC, Brodsky L. Pediatric swallowing and feeding: assessment and management. 1993. 2nd ed. San Diego: Publishing group inc;p. 360–361.8. Reilly S, Skuse D, Mathisen B, Wolke D. The objective rating of oral-motor functions during feeding. Dysphagia. 1995; 10:177–191. PMID: 7614860.
Article9. Skuse D, Stevenson J, Reilly S, Mathisen B. Schedule for oral-motor assessment (SOMA): methods of validation. Dysphagia. 1995; 10:192–202. PMID: 7614861.
Article10. Kim TU, Park WB, Byun SH, Lee MJ, Lee SJ. Videofluoroscopic findings in infants with aspiration symptom. J Korean Acad Rehabil Med. 2009; 33:348–352.11. Jung HY, Kim SA, Lee SH, Kim SJ. Characteristics of dysphagia in children with cerebral palsy via videofluoroscopy. J Korean Acad Rehabil Med. 2000; 24:671–677.12. Kim HS, Choe JJ. Characteristics of swallowing disorder in pediatric patients with central nervous system disorders: comparing to central nervous system intact patients with gastro-intestinal disorders. J Korean Acad Rehabil Med. 1998; 22:506–515.13. Mirrett PL, Riski JE, Glascott J, Johnson V. Videofluoroscopic assessment of dysphagia in children with severe spastic cerebral palsy. Dysphagia. 1994; 9:174–179. PMID: 8082326.
Article14. Wolf LS, Glass RG. Feeding and Swallowing Disorders in infancy: assessment and management. 1992. 1st ed. Arizona: Therapy Skill Builders;p. 85–147.15. Jelm JM. Oral-motor feeding rating scale. 1990. 1st ed. Arizona: Therapy Skill Builders;p. 1–13.16. Selley WG, Ellis RE, Flack FC, Brooks WA. Coordination of sucking, swallowing and breathing in the newborn: its relationship to infant feeding and normal development. Br J Disord Commun. 1990; 25:311–327. PMID: 2095838.
Article17. Kenny DJ, Koheil RM, Greenberg J, Reid D, Milner M, Moran R, Judd PL. Development of a multidisciplinary feeding profile for children who are dependent feeders. Dysphagia. 1989; 4:16–28. PMID: 2534818.
Article18. Morris SE, Klein MD. Pre-feeding skills: a comprehensive resource for feeding development. 2000. 2nd ed. San Antonio: Therapy Skill Builders;p. 72–89.19. Braun MA, Palmer MM. A pilot study of oral-motor dysfunction in "at-risk" infants. Phys Occup Ther Pediatr. 1985; 5:13–26.
Article
- Full Text Links
-
- Actions
-
Cited
- CITED
-
- Close
- Share
-
- Similar articles
-
- Oral Motor Facilitation Technique (OMFT) Affects the Drooling Control Ability of Children with Cerebral Palsy
- Management and Treatment of Drooling: Focus on Non-Invasive Therapy for Children
- Dietary Modification in Dysphagia
- Morphological analysis of developmental changes in soma area of digastric motoneurons in the rat trigeminal motor nuclei
- Assessment and Management of Dysphagia during the COVID-19 Pandemic
