Hypernasal speech explained

Hypernasality
Synonyms:Hyperrhinolalia, open nasality, rhinolalia aperta

Hypernasal speech is a disorder that causes abnormal resonance in a human's voice due to increased airflow through the nose during speech. It is caused by an open nasal cavity resulting from an incomplete closure of the soft palate and/or velopharyngeal sphincter (velopharyngeal insufficiency). In normal speech, nasality is referred to as nasalization and is a linguistic category that can apply to vowels or consonants in a specific language. The primary underlying physical variable determining the degree of nasality in normal speech is the opening and closing of a velopharyngeal passageway between the oral vocal tract and the nasal vocal tract. In the normal vocal tract anatomy, this opening is controlled by lowering and raising the velum or soft palate, to open or close, respectively, the velopharyngeal passageway.

Anatomy

The palate comprises two parts, the hard palate (palatum durum) and the soft palate (palatum molle), which is connected to the uvula. The movements of the soft palate and the uvula are made possible by the velopharyngeal sphincter. During speech or swallowing, the soft palate lifts against the back throat wall to close the nasal cavity. When producing nasal consonants (such as "m", "n", and "ng"), the soft palate remains relaxed, thereby enabling the air to go through the nose.

The Eustachian tube, which opens near the velopharyngeal sphincter, connects the middle ear and nasal pharynx. Normally, the tube ensures aeration and drainage (of secretions) of the middle ear. Narrow and closed at rest, it opens during swallowing and yawning, controlled by the tensor veli palatini and the levator veli palatini (muscles of the soft palate). Children with a cleft palate have difficulties controlling these muscles and thus are unable to open the Eustachian tube. Secretions accumulate in the middle ear when the tube remains dysfunctional over a long period of time, which cause hearing loss and middle ear infections. Ultimately, hearing loss can lead to impaired speech and language development.[1] [2]

Causes

The general term for disorders of the velopharyngeal valve is velopharyngeal dysfunction (VPD). It includes three subterms: velopharyngeal insufficiency, velopharyngeal inadequacy, and velopharyngeal mislearning.

Diagnosis

There are several methods for diagnosing hypernasality.

Effects on speech

See also: Velopharyngeal consonant. Hypernasality is generally segmented into so-called 'resonance' effects in vowels and some voiced or sonorant consonants and the effects of excess nasal airflow during those consonants requiring a buildup of oral air pressure, such as stop consonants (as /p/) or sibilants (as /s/). The latter nasal airflow problem is termed 'nasal emission',[9] and acts to prevent the buildup of air pressure and thus prevent the normal production of the consonant. In testing for resonance effects without the aid of technology, speech pathologists are asked to rate the speech by listening to a recorded sentence or paragraph, though there is much variability in such subjective ratings, for at least two reasons. First, the acoustic effect of a given velopharyngeal opening varies greatly depending on the degree of occlusion of the nasal passageways. (This is the reason why a stuffy nose from an allergy or cold will sound more nasal than when the nose is clear.) Secondly, for many persons with hypernasal speech, especially hearing impaired, there are also mispronunciations of the articulation of the vowels. It is extremely difficult to separate the acoustic effects of hypernasality from the acoustic effects of mispronounced vowels (examples). Of course, in speech training of the hearing impaired, there is little possibility of making nasality judgments aurally, and holding a finger to the side of the nose, to feel voice frequency vibration, is sometimes recommended.

Treatment

Speech therapy

In cases of muscle weakness or cleft palate, special exercises can help to strengthen the soft palate muscles with the ultimate aim of decreasing airflow through the nose and thereby increasing intelligibility. Intelligibility requires the ability to close the nasal cavity, as all English sounds, except the nasal sounds "m" [{{IPAlink|m}}], "n" [{{IPAlink|n}}], and "ng" [{{IPAlink|ŋ}}], have airflow only through the mouth. Normally, by age three, a child can raise the muscles of the soft palate to close the nasal cavity.

Without the use of a technological aid, nasal emission is sometimes judged by listening for any turbulence that may be produced by the nasal airflow, as when there is a small velopharyngeal opening and there is some degree of mucous in the opening. More directly, methods recommended include looking for the fogging of a mirror held near the nares or listening through a tube, the other end of which is held in or near a nares opening.[10]

There have been many attempts to use technological augmentation more than a mirror or tube to aid the speech pathologist or provide meaningful feedback to the person attempting to correct their hypernasality. Among the more successful of these attempts, the incompleteness of velopharyngeal closure during vowels and sonorants that causes nasal resonance can be estimated and displayed for evaluation or biofeedback in speech training through the nasalance of the voice, with nasalance defined as a ratio of acoustic energy at the nostrils to that at the mouth, with some form of acoustic separation present between the mouth and nose.[11]

Exercises

If a child finds it difficult to blow, pinching the nose can help regulate airflow. The child should then practice speech sounds without pinching the nose.These exercises only work as treatments if hypernasality is small. Severe deviations should be treated surgically.[12]

CPAP

There is insufficient evidence to support the use of traditional non-speech oral motor exercises can reduce hypernasality. Velopharyngeal closure patterns and their underlying neuromotor control may differ for speech and nonspeech activities. Therefore, the increase in velar movement through blowing, sucking, and swallowing may not transfer to speech tasks. Thus, hypernasality remains while individual speak. Kuehn proposed a new way of treatment by using a CPAP machine during speech tasks. The positive pressure provided by a CPAP machine provides resistance to strengthen velopharyngeal muscles. With nasal mask in place, an individual is asked to produce VNCV syllables and short sentences. It is believed that CPAP therapy can increase both muscle endurance as well as strength because it overloads the levator veli palatini muscle and involves a regimen with a large number of repetitions of velar elevation. Research findings proved that patients with hypernasality due to flaccid dysarthria, TBI or cleft palate do eliminate hypernasality after receiving this training program.[13] [14] [15]

Surgery

The two main surgical techniques for correcting the aberrations the soft palate present in hypernasality are the posterior pharyngeal flap and the sphincter pharyngoplasty. After surgical interventions, speech therapy is necessary to learn how to control the newly constructed flaps.[16]

Posterior pharyngeal flap

See also: Pharyngeal flap surgery. Posterior pharyngeal flap surgery is mostly used for vertical clefts of the soft palate. The surgeon cuts through the upper layers of the back of the throat, creating a small square of tissue. This flap remains attached on one side (usually at the top). The other side is attached to (parts of) the soft palate. This ensures that the nasal cavity is partially separated from the oral cavity. When the child speaks, the remaining openings close from the side due to the narrowing of the throat caused by the muscle movements necessary for speech. In a relaxed state, the openings allow breathing through the nose.

Sphincter pharyngoplasty

Sphincter pharyngoplasty is mostly used for horizontal clefts of the soft palate. Two small flaps are made on the left and right side of the entrance to the nasal cavity, attached to the back of the throat. For good results, the patient must have good palatal motion, as the occlusion of the nasal cavity is mainly carried out by muscles already existing and functioning.

Complications

The most common complications of the posterior pharyngeal wall flap are hyponasality, nasal obstruction, snoring, and sleep apnea. Rarer complications include flap separation, sinusitis, postoperative bleeding, and aspiration pneumonia. Possible complications of the sphincter pharyngoplasty are snoring, nasal obstruction, difficulty blowing the nose.

Some researches suggest that sphincter pharyngoplasty introduces less hyponasality and obstructive sleep symptoms than the posterior pharyngeal wall flap. Both surgeries have a favourable effect on the function of the Eustachian tube.[17] [18]

See also

Notes and References

  1. Web site: Specifieke informatie over schisis per type schisis. Nederlandse Vereniging voor Schisis en Craniofaciale Afwijkingen. 20 May 2012. Specific information on each type of cleft lip and palate cleft. nl. 2012. 5 April 2023. https://web.archive.org/web/20230405040843/https://www.schisis.nl/nvsca/pag.php?id=paK&item=pal#palsluit01. dead.
  2. Book: Stegenga. B.. Vissink. A.. Bont. L.G.M. de. Mondziekten en kaakchirurgie. 2000. Van Gorcum. Assen. 9789023235002. 388. Oral and Maxillofacial Surgery. nl.
  3. Web site: Speech Therapy for Cleft Palate or Velopharyngeal Dysfunction (VPD) . Kummer . Ann W. . Cincinnati Children's Hospital Medical Center . dead . https://web.archive.org/web/20120405093506/http://www.cincinnatichildrens.org/assets/0/78/759/781/65e90133-9243-4926-a065-8a97951944fb.pdf . 2012-04-05 .
  4. Velopharyngeal Insufficiency. Biavati. Michael J.. Sie. Kathleen. Wiet. Gregory J.. 2 September 2011. WebMD LLC. Medscape Reference.
  5. Web site: Otolaryngology (Ear, Nose and Throat). Morgan Stanley Children's Hospital. Columbia University Medical Center.
  6. Gelder. van J.. De open neusspraak, pathogenese en diagnostiek. nl. Nederlands Tijdschrift voor Geneeskunde. 1957. 101. 1005–10.
  7. Web site: Hypernasality – Velopharyngeal Insufficiency . Department of Otolarynology/Head and Neck Surgery . Columbia University Medical Center . dead . https://web.archive.org/web/20120403185338/http://www.entcolumbia.org/hypernas.html . 2012-04-03 .
  8. Book: Rudolf . Probst . Gerhard . Grevers . Heinrich . Iro . Telger, Terry . Baum, Karin . Basic Otorhinolaryngology a step-by-step learning guide . 2006 . Thieme . Stuttgart . 9783131324412 . revised. 401.
  9. Baken, R.J. and Orlikoff, Robert F. (2000). Clinical Measurement of Speech and Voice San Diego: Singular
  10. Kummer, A. W. Resonance disorders and nasal emission: Evaluation and treatment using "low tech" and "no tech" procedures. The ASHA Leader (2006 Feb 7) 11(2), pp. 4, 26.
  11. Sep 2005 . Comparison of Nasalance scores obtained with the Nasometer 6200 and the Nasometer II 6400 . Cleft Palate Craniofac. J. . 42 . 5. 574–9 . 16149843 . 10.1597/04-017.1 . 25556563 . Watterson . Thomas . Lewis . Kerry . Brancamp . Tami .
  12. Web site: Spraak en taal. nl. Speech and Language. Nederlandse Vereniging voor Schisis en Craniofaciale Afwijkingen.
  13. Kuehn . D.P. . Proceeding of Fourth International Conference on Spoken Language Processing. ICSLP '96 . Continuous positive airway pressure (CPAP) in the treatment of hypernasality . 1996 . 2 . 761–763 . IEEE . 10.1109/icslp.1996.607474. http://www.asel.udel.edu/icslp/cdrom/vol2/422/a422.pdf . 0-7803-3555-4. 6204005.
  14. Web site: Critical Review: Continuous Positive Airway Pressure as a Treatment for Hypernasality. 2010 . Hartman L. D. .
  15. Book: Freed, D. B. . Motor Speech Disorders: Diagnosis & Treatment . Delmar Cengage Learning . 2nd . 2011 . 978-1111138271.
  16. de Serres. Lianne M.. Deleyiannis. Frederic W.-B.. Eblen. Linda E.. Gruss. Joseph S.. Richardson. Mark A.. Sie. Kathleen C.Y.. Results with sphincter pharyngoplasty and pharyngeal flap. International Journal of Pediatric Otorhinolaryngology. April 1999. 48. 1. 17–25. 10.1016/S0165-5876(99)00006-3. 10365968.
  17. Sloan. GM. Posterior pharyngeal flap and sphincter pharyngoplasty: the state of the art.. The Cleft Palate-Craniofacial Journal. February 2000. 37. 2. 112–22. 10749049. 10.1597/1545-1569(2000)037<0112:PPFASP>2.3.CO;2.
  18. P.H.M. . Spawen . A.J.C. . Huffstadt . H.K. . Schutte . R.J. . Ritsma . De invloed van chirurgische behandeling van open neusspraak op horen en spreken . nl . Nederlands Tijdschrift voor Geneeskunde . 1987 . 131 . 161–6 . dead . https://web.archive.org/web/20140222210521/http://www.ntvg.nl/publicatie/de-invloed-van-chirurgische-behandeling-van-open-neusspraak-op-horen-en-spreken/volledig/print . 2014-02-22 .