The Role of Strength Training in Speech Sound Disorders

 

 Buy Article Permissions and Reprints

ABSTRACT

Strengthening of the articulators is commonly used to help children improve sound production accuracy, even though the relationship between weakness and speech function remains unclear. Clinicians considering the use of strength training must weigh both the theoretical foundations and the evidence supporting this practice. Widely accepted principles of strength training are available to guide the evaluation of strength training programs. Training specificity requires that exercises closely match the targeted functional outcome. The exercises must overload the muscles beyond their typical use, and this overload must be systematically progressed over time. Finally, the strength training program must incorporate adequate time between exercise sessions to allow for recovery. The available research does not support the position that nonspeech oral motor exercises (NSOMEs) targeting increased strength is beneficial for improving speech accuracy. An example of a speech-based strengthening program is provided to illustrate how appropriate training principles could lead to more positive outcomes. A much larger body of research is needed to determine the conditions under which strength training is most appropriately applied in the treatment of childhood speech disorders.

REFERENCES

• 1 Lof G, Watson M. A nation-wide survey of non-speech oral motor exercise use: implications for evidence-based practice.  Lang Speech Hear Serv Sch. 2008;  39 392-407
  CrossrefPubMedGoogle Scholar
• 2 DePaul R, Brooks B R. Multiple orofacial indices in amyotrophic lateral sclerosis.  J Speech Hear Res. 1993;  36(6) 1158-1167
  PubMedGoogle Scholar
• 3 Solomon N P, Robin D A, Luschei E S. Strength, endurance, and stability of the tongue and hand in Parkinson disease.  J Speech Lang Hear Res. 2000;  43(1) 256-267
  PubMedGoogle Scholar
• 4 Chigara A, Omoto K, Mukai Y, Kaneko Y. Lip closing pressure in disabled children: a comparison with normal children.  Dysphagia. 1994;  9 193-198
  CrossrefPubMedGoogle Scholar
• 5 Rosenfeld-Johnson S. Oral Motor Exercises for Speech Clarity. Tuscon, AZ; Ravenhawk 2001
  Google Scholar
• 6 Gangale D C. The Source for Oral-Facial Exercises. East Moline, IL; LinguiSystems 2001
  Google Scholar
• 7 Kuehn D P, Moon J B. Induced fatigue effects on velopharyngeal closure force.  J Speech Lang Hear Res. 2000;  43 486-500
  PubMedGoogle Scholar
• 8 Barlow S M. Handbook of Clinical Speech Physiology. San Diego, CA; Singular Thomson Learning 1999
  Google Scholar
• 9 Solomon N P, Clark H M, Makashay M J, Newman L A. Orofacial strength and speech in normal and disordered adults. Paper presented at: Conference on Motor Speech Monterey, CA; 2008
  Google Scholar
• 10 Sudberry A, Wilson E, Broaddus T, Potter N. Tongue strength in preschool children: measures, implications, and revelations. Paper presented at: Annual Convention of the American Speech-Language-Hearing Association Miami Beach, FL; 2006
  Google Scholar
• 11 Luschei E S. Development of objective standards of nonspeech oral strength and performance. In: Moore CA, Yorkston KM, Beukelman DR Dysarthria and Apraxia of Speech. Baltimore, MD; Paul H. Brookes 1991: 3-13
  Google Scholar
• 12 Solomon N P. Assessment of tongue weakness and fatigue.  Int J Orofacial Myology. 2004;  30 8-19
  PubMedGoogle Scholar
• 13 Clark H M, Solomon N P, O'Brien K, Calleja A, Newcomb S. Lingual and buccal strength: innovations in clinical assessment. Paper presented at: Conference on Motor Speech Monterey, CA; 2008
  Google Scholar
• 14 Robin D A, Somodi L B, Luschei E S. Measurement of tongue strength and endurance in normal and articulation disordered subjects. In: Moore C, Yorkston K, Beukelman D Dysarthria and Apraxia of Speech: Perspectives on Management. Baltimore, MD; Paul H. Brookes 1991
  Google Scholar
• 15 Murdoch B E, Attard M D, Ozanne A E, Stokes P D. Impaired tongue strength and endurance in developmental verbal dyspraxia: a physiological analysis.  Eur J Disord Comm. 1995;  30 51-64
  CrossrefPubMedGoogle Scholar
• 16 Neel A, Palmer P, Gass C. Can the IOPI be used to measure tongue pressure for speech sounds? Paper presented at: Conference on Motor Speech Monterey, CA; 2008
• 17 Arnold P, Gentry M. Strength training: what the team physician needs to know.  Curr Sports Med Rep. 2005;  4(6) 305-308
  PubMedGoogle Scholar
• 18 Kisner C, Colby L A. Therapeutic Exercise: Foundations and Techniques. 3rd ed. Philadelphia, PA; FA Davis 1996
  Google Scholar
• 19 Cerny F, Sapienza C, Lof G, Robbins J. Muscle training principles and resulting changes to speech and swallowing. Paper presented at: Annual Convention of the American Speech-Language-Hearing Association Boston, MA; 2007
  Google Scholar
• 20 Bennett R L. Principles of therapeutic exercise. In: Licht S Therapeutic Exercise. 2nd ed. New Haven, CT; Licht & Johnson 1961: 472-485
  Google Scholar
• 21 Bunton K. Speech vs nonspeech: Different tasks, different neural organization.  Semin Speech Lang. 2008;  29 267-275
  Article in Thieme ConnectPubMedGoogle Scholar
• 22 Jones N L, McCartney M, McComas A J. Human Muscle Power. Champaign, IL; Human Kinetics 1986
  Google Scholar
• 23 Schmidt R A, Wrisberg C A. Motor Learning and Performance: A Problem Based Learning Approach. 2nd ed. Champaign, IL; Human Kinetics 2000
  Google Scholar
• 24 Schmidt R A, Lee T D. Motor Control and Learning: A Behavioral Emphasis. 3rd ed. Champaign, IL; Human Kinetics 1998
  Google Scholar
• 25 Fontani G, Migliorini S, Benocci R et al.. Effect of mental imagery on the development of skilled motor actions.  Percept Mot Skills. 2007;  105(3 Pt 1) 803-826
  CrossrefPubMedGoogle Scholar
• 26 Gabriel D A, Kamen G, Frost G. Neural adaptations to resistive exercise: mechanisms and recommendations for training practices.  Sports Med. 2006;  36(2) 133-149
  CrossrefPubMedGoogle Scholar
• 27 Ranganathan V K, Siemionow V, Liu J Z, Sahgal V, Yue G H. From mental power to muscle power—gaining strength by using the mind.  Neuropsychologia. 2004;  42(7) 944-956
  CrossrefPubMedGoogle Scholar
• 28 Hakkinen K, Newton R U, Gordon S E et al.. Changes in muscle morphology, electromyographic activity, and force production characteristics during progressive strength training in young and older men.  J Gerontol A Biol Sci Med Sci. 1998;  53(6) B415-B423
  PubMedGoogle Scholar
• 29 Hiatt W R, Regensteiner J G, Wolfel E E, Carry M R, Brass E P. Effect of exercise training on skeletal muscle histology and metabolism in peripheral arterial disease.  J Appl Physiol. 1996;  81(2) 780-788
  PubMedGoogle Scholar
• 30 Barlow S M, Burton M K. Ramp-and-hold force control in the upper and lower lips: developing new neuromotor assessment applications in traumatically brain injured adults.  J Speech Hear Res. 1990;  33 660-675
  PubMedGoogle Scholar
• 31 DeLorme T L. Progressive Resistance Exercise. Norwalk, CT; Appleton-Century-Crofts 1951
  Google Scholar
• 32 Clark H M, Barber W D, Irwin W. Specificity of training in the lingual musculature. Paper presented at: Conference on Motor Speech 2004 Albuquerque, NM;
  Google Scholar
• 33a Kisner C, Colby L A. Resistance exercises. In: Kisner C, Colby LA Therapeutic Exercise Foundations and Techniques. 3rd ed. Philadelphia, PA; FA Davis 1996: 56-110
  Google Scholar
• 33b Clark H M, O'Brien K, Calleja A, Newcomb S. Effects of directional exercise on lingual strength.  J Speech Lang Hear Res. 2009;  , in press
  PubMedGoogle Scholar
• 34 Robbins J, Kays S A, Gangnon R E et al.. The effects of lingual exercise in stroke patients with dysphagia.  Arch Phys Med Rehabil. 2007;  88(2) 150-158
  CrossrefPubMedGoogle Scholar
• 35 Robbins J, Gangnon R E, Theis S M et al.. The effects of lingual exercise on swallowing in older adults.  J Am Geriatr Soc. 2005;  53(9) 1483-1489
  CrossrefPubMedGoogle Scholar
• 36 Lazarus C, Logemann J A, Huang C F, Rademaker A W. Effects of two types of tongue strengthening exercises in young normals.  Folia Phoniatr Logop. 2003;  55(4) 199-205
  CrossrefPubMedGoogle Scholar
• 37 American Speech-Language-Hearing Association .Evidence-based practice in communication disorders [Position statement]. 2005 http://www.asha.org/members/deskref-journals/deskref/default
  Google Scholar
• 38 Arvedson J C, Clark H M, Lazarus C et al.. The effectiveness of oral-motor exercises: an evidence-based systematic review. Paper presented at: Annual Convention of the American Speech-Language-Hearing Association Boston, MA; 2007
• 39 Guisti Braislin M A, Cascella P W. A preliminary investigation of the efficacy of oral motor exercises for children with mild articulation disorders.  Int J Rehabil Res. 2005;  28(3) 263-266
  CrossrefPubMedGoogle Scholar
• 40 Strode R, Chamberlain C. Easy Does It for Articulation: An Oral Motor Approach. East Moline, IL; LinguiSystems 1997
  Google Scholar
• 41 Colone E, Forrest K. Comparison of treatment efficacy for persistent speech sound disorders. Paper presented at: Annual Convention of the American Speech-Language-Hearing Association Washington, DC; 2000
  Google Scholar
• 42 Occhino C, McCane J. Do oral motor exercises affect articulation?. Paper presented at: Annual Convention of the American Speech-Language-Hearing Association New Orleans, LA; 2001
  Google Scholar
• 43 Abrahamsen E, Flack L. Do sensory and motor techniques improve accurate phoneme production?. Paper presented at: Annual Convention of the American Speech-Language-Hearing Association Atlanta, GA; 2002
  Google Scholar
• 44 Bush C, Steger M, Mann-Kahris S, Insalaco D. Equivocal results of oral motor treatment of a child's articulation. Paper presented at: Annual Convention of the American Speech-Language-Hearing Association Philadelphia, PA; 2004
  Google Scholar
• 45 Fields D, Polmanteer K. Effectiveness of oral motor techniques in articulation and phonology treatment. Paper presented at: Annual Convention of the American Speech-Language-Hearing Association Atlanta, GA; 2002
  Google Scholar
• 46 Lass N J, Pannbacker M. The application of evidence-based practice to nonspeech oral motor treatments.  Lang Speech Hear Serv Sch. 2008;  39(3) 408-421
  CrossrefPubMedGoogle Scholar
• 47 Ruscello D M. An examination of non-speech oral motor exercises for children with velopharyngeal incompetence (VPI).  Semin Speech Lang. 2008;  29 294-303
  Article in Thieme ConnectPubMedGoogle Scholar
• 48 Clark H M. Neuromuscular treatments for speech and swallowing: a tutorial.  Am J Speech Lang Pathol. 2003;  12 400-415
  CrossrefPubMedGoogle Scholar
• 49 Ballard K J. Principles of motor learning and treatment for AOS.  Perspectives on Neurophysiology and Neurogenic Speech and Language Disorders. 2001;  11(4) 13-18
  PubMedGoogle Scholar
• 50 Marshalla P. Oral motor treatment vs. non-speech oral motor exercises.  Oral Motor Institute. 2008;  2(2)
  PubMedGoogle Scholar
• 51 Kuehn D P. New therapy for treating hypernasal speech using continuous positive airway pressure (CPAP).  Plast Reconstr Surg. 1991;  88 959-966
  PubMedGoogle Scholar
• 52 Kuehn D P, Imrey P B, Tomes L et al.. Efficacy of continuous positive airway pressure for treatment of hypernasality.  Cleft Palate Craniofac J. 2002;  39 267-276
  PubMedGoogle Scholar
• 53 American Speech-Language-Hearing Association .Code of ethics. 2003. http://Available at: www.asha.org/policy Accessed November 10, 2008
  Google Scholar
• 54 Gonnella C. Single-subject experimental paradigm as a clinical decision tool.  Phys Ther. 1989;  69(7) 601-609
  PubMedGoogle Scholar

Heather M Clark

Department of Language, Reading, and Exceptionalities, Appalachian State University

Boone, NC 28608

Email: clarkhm@appstate.edu