Hypernasal speech
Encyclopedia
Rhinolalia aperta = open, is the medical term for hypernasal speech. The other terms are hyperrhinolalia and open nasality. Hypernasality is a disorder of nasal speech when the sound of the voice is different, an abnormal resonance. There is an increased airflow through the nose during speech caused by open and nasal cavity due to incomplete closure of the soft palate and/or velopharyngeal sphincter.
exists of two components, the hard palate, palatum durum and the soft palate, palatum molle. The uvula is connected with the soft palate. This is the little thing in the back of the throat that comes up when one says ‘a’. The uvula can be lifted against the back throat wall to close the nasal cavity. This happens when you swallow or speak. In nasal sounds (‘m’, ‘n’ and ‘ng’) the uvula remains relaxed, thereby enabling the air to go through the nose.
The movements of the soft palate and the uvula are made possible by a sphincter: the velopharyngeal sphincter. Most children control this muscle around the age of three.
Close to this velopharyngeal sphincter is the exit of the Eustachian tube. The Eustachian tube
connects the middle ear and nasal pharynx. In a normal situation the tube ensures aeration and secretions drainage of the middle ear. The tube is very narrow and closed at rest. It opens in swallowing and yawning, controlled by the muscles of the soft palate, the tensor veli palatini and the levator veli palatini
. Children with a cleft palate have difficulties to control these muscles en with that their Eustachian tube. They are unable to open their Eustachian tube. The secretions of the ear will accumulate in the middle ear when the tube is dysfunctional for a longer time. This can cause hearing loss and middle ear infections. Ultimately, a hearing loss can lead to impaired speech and language development.
Velopharyngeal insufficiency can be caused by an abnormality of the structures or anatomy of the throat. It occurs in children with a history of cleft palate or a submucous cleft. They have a short or abnormal velum. VPI can also be seen after adenoidectomy
.
Velopharyngeal incompetence is a defective closure of the velopharyngeal valve due to a neurologic disorder or injury. This can be a cerebral palsy
or traumatic brain injury. Some neurologic diseases have problems with the velopharyngeal sphincter. The sphincter does not work quickly and exactly enough.
Sometimes children seem to have no abnormalities but do have a hypernasal speech. A velopharyngeal mislearning indicates that the child has been imitating or has never learned how to use the valve correctly.
For proper treatment a proper diagnosis is essential.
The mirror test is non-invasive and can easily evince the nasal air escape. The mirror is held beneath the nose while the child pronounces the vowels. The test is positive if the mirror is fogging.
A pressure-flow technique is an objective information for measuring velopharyngeal orifice area during the speech.
Another technique is a video nasopharyngeal endoscopy, which observes the velopharyngeal function, the movement of the soft palate and the back, both sides of the pharyngeal walls. It is a very small scope which will be placed in the back of the nasal cavity. The doctor will ask the child to say a few words. The patient has to be at least three or four years of age to undergo this last two techniques, as id needs a certain amount of co-operation.
The cinefluoroscopy gives dynamic visualisation and can easier be applied to younger children, but a great disadvantage is the radiation exposure.
The nasometer is an objective test. The patient wears a headset, where the oral and nasal cavities are separated by a plate. On both sides of the plate are microphones and give signals. With this technique the ration of the nasality can be calculated. It determines the size of the nasality. The higher the percentage the more nasality.
For good intelligibility it is necessary that the nasal cavity can be closed. All sounds, except for the ‘m’, ‘n’ and ‘ng’ sounds have an airflow only through the mouth. The muscles of the soft palate can raise it to close the nasal cavity. Normally a child can control these movements from the age of three. Children with a cleft palate often have difficulties with the muscles (not fully constructed or controllable) and are therefore unable to close the nasal cavity (completely).
Sucking
This treatment is only useful if the deviations are small. Severe deviations should be treated surgically.
Posterior pharyngeal flap
This technique 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 little square of tissue. This flap remains attached on one side, usually the upper side. The other side is attached to the (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 because of the narrowing of the throat caused by the muscle movements necessary for speaking. In relaxed state, the openings allow breathing through the nose.
Sphincter pharyngoplasty
This technique 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. They are attached to the back of the throat, thereby creating an opening exactly opposite to that of the posterior pharyngeal flap. To get a good result, patients must have a good palatal motion, as the occlusion of the nasal cavity is mainly done by the muscles already existing and functioning.
After surgical interventions, speech therapy is necessary to learn how to control the newly constructed flaps.
and sleep apnea
. Rarer is a flap separation, sinusitis, postoperative bleeding and aspiration pneumonia
. Complications of the sphincter pharyngoplasty are snoring, nasal obstruction, swallowing and difficulty with blowing nose.
Both techniques have complications, however, some researches suggest that sphincter pharyngoplasty develops 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.
Anatomy
The palatePalate
The palate is the roof of the mouth in humans and other mammals. It separates the oral cavity from the nasal cavity. A similar structure is found in crocodilians, but, in most other tetrapods, the oral and nasal cavities are not truly separate. The palate is divided into two parts, the anterior...
exists of two components, the hard palate, palatum durum and the soft palate, palatum molle. The uvula is connected with the soft palate. This is the little thing in the back of the throat that comes up when one says ‘a’. The uvula can be lifted against the back throat wall to close the nasal cavity. This happens when you swallow or speak. In nasal sounds (‘m’, ‘n’ and ‘ng’) the uvula remains relaxed, thereby enabling the air to go through the nose.
The movements of the soft palate and the uvula are made possible by a sphincter: the velopharyngeal sphincter. Most children control this muscle around the age of three.
Close to this velopharyngeal sphincter is the exit of the Eustachian tube. The Eustachian tube
Eustachian tube
The Eustachian tube is a tube that links the nasopharynx to the middle ear. It is a part of the middle ear. In adult humans the Eustachian tube is approximately 35 mm long. It is named after the sixteenth-century anatomist Bartolomeo Eustachi...
connects the middle ear and nasal pharynx. In a normal situation the tube ensures aeration and secretions drainage of the middle ear. The tube is very narrow and closed at rest. It opens in swallowing and yawning, controlled by the muscles of the soft palate, the tensor veli palatini and the levator veli palatini
Levator veli palatini
The levator veli palatini is the elevator muscle of the soft palate in the human body. During swallowing, it contracts, elevating the soft palate to help prevent food from entering the nasopharynx...
. Children with a cleft palate have difficulties to control these muscles en with that their Eustachian tube. They are unable to open their Eustachian tube. The secretions of the ear will accumulate in the middle ear when the tube is dysfunctional for a longer time. This can cause hearing loss and middle ear infections. Ultimately, a hearing loss can lead to impaired speech and language development.
Causes
The general term of the different disorders of the velopharyngeal valve is velopharyngeal dysfunction (VPD). This term includes three subterms:- velopharyngeal insufficiency (VPI)
- velopharyngeal inadequacyVelopharyngeal inadequacyVelopharyngeal inadequacy is a malfunction of a velopharyngeal mechanism.The velopharyngeal mechanism is responsible for directing the transmission of sound energy and air pressure in both the oral cavity and the nasal cavity. When this mechanism is impaired in some way, the valve does not fully...
(VPI) - velopharyngeal mislearning
Velopharyngeal insufficiency can be caused by an abnormality of the structures or anatomy of the throat. It occurs in children with a history of cleft palate or a submucous cleft. They have a short or abnormal velum. VPI can also be seen after adenoidectomy
Adenoidectomy
Adenoidectomy is the surgical removal of the adenoids. They may be removed for several reasons, including impaired breathing through the nose and chronic infections or earaches. The surgery is less common for adults. It is most often done on an outpatient basis under general anesthesia....
.
Velopharyngeal incompetence is a defective closure of the velopharyngeal valve due to a neurologic disorder or injury. This can be a cerebral palsy
Cerebral palsy
Cerebral palsy is an umbrella term encompassing a group of non-progressive, non-contagious motor conditions that cause physical disability in human development, chiefly in the various areas of body movement....
or traumatic brain injury. Some neurologic diseases have problems with the velopharyngeal sphincter. The sphincter does not work quickly and exactly enough.
Sometimes children seem to have no abnormalities but do have a hypernasal speech. A velopharyngeal mislearning indicates that the child has been imitating or has never learned how to use the valve correctly.
For proper treatment a proper diagnosis is essential.
Diagnosis
There are several methods to diagnose hypernasality. First of all the speech therapist is listening to the child and analysis the perceptual speech while he/she is recording it. The child cannot say oral sounds, these are the vowels and the consonants. Only the nasal sounds can be said, these are the /m/, the /n/ and /ng/. Sometimes a hearing test is desirable.The mirror test is non-invasive and can easily evince the nasal air escape. The mirror is held beneath the nose while the child pronounces the vowels. The test is positive if the mirror is fogging.
A pressure-flow technique is an objective information for measuring velopharyngeal orifice area during the speech.
Another technique is a video nasopharyngeal endoscopy, which observes the velopharyngeal function, the movement of the soft palate and the back, both sides of the pharyngeal walls. It is a very small scope which will be placed in the back of the nasal cavity. The doctor will ask the child to say a few words. The patient has to be at least three or four years of age to undergo this last two techniques, as id needs a certain amount of co-operation.
The cinefluoroscopy gives dynamic visualisation and can easier be applied to younger children, but a great disadvantage is the radiation exposure.
The nasometer is an objective test. The patient wears a headset, where the oral and nasal cavities are separated by a plate. On both sides of the plate are microphones and give signals. With this technique the ration of the nasality can be calculated. It determines the size of the nasality. The higher the percentage the more nasality.
Treatment
Speech therapist - In case of muscle weakness or cleft palate, special exercises can help to improve the muscle strength of the soft palate. These exercises are aimed at decreasing the airflow through the nose and thereby increasing intelligibility.For good intelligibility it is necessary that the nasal cavity can be closed. All sounds, except for the ‘m’, ‘n’ and ‘ng’ sounds have an airflow only through the mouth. The muscles of the soft palate can raise it to close the nasal cavity. Normally a child can control these movements from the age of three. Children with a cleft palate often have difficulties with the muscles (not fully constructed or controllable) and are therefore unable to close the nasal cavity (completely).
Exercises
Blowing. If a child finds it difficult to blow, pinching the nose can help to regulate the airflow. Encourage the child to practise without pinching the nose.- Blow out a candle
- Blowing away tissues with a drinking straw and with the mouth.
Sucking
- Drink milk with a drinking straw
This treatment is only useful if the deviations are small. Severe deviations should be treated surgically.
Surgery
The two main surgical techniques for correcting the soft palate are the posterior pharyngeal flap and the sphincter pharyngoplasty.Posterior pharyngeal flap
This technique 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 little square of tissue. This flap remains attached on one side, usually the upper side. The other side is attached to the (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 because of the narrowing of the throat caused by the muscle movements necessary for speaking. In relaxed state, the openings allow breathing through the nose.
Sphincter pharyngoplasty
This technique 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. They are attached to the back of the throat, thereby creating an opening exactly opposite to that of the posterior pharyngeal flap. To get a good result, patients must have a good palatal motion, as the occlusion of the nasal cavity is mainly done by the muscles already existing and functioning.
After surgical interventions, speech therapy is necessary to learn how to control the newly constructed flaps.
Complications
The most common complications of the posterior pharyngeal wall flap are hyponasality, nasal obstruction, snoringSnoring
Snoring is the vibration of respiratory structures and the resulting sound, due to obstructed air movement during breathing while sleeping. In some cases the sound may be soft, but in other cases, it can be loud and unpleasant...
and sleep apnea
Sleep apnea
Sleep apnea is a sleep disorder characterized by abnormal pauses in breathing or instances of abnormally low breathing, during sleep. Each pause in breathing, called an apnea, can last from a few seconds to minutes, and may occur 5 to 30 times or more an hour. Similarly, each abnormally low...
. Rarer is a flap separation, sinusitis, postoperative bleeding and aspiration pneumonia
Pneumonia
Pneumonia is an inflammatory condition of the lung—especially affecting the microscopic air sacs —associated with fever, chest symptoms, and a lack of air space on a chest X-ray. Pneumonia is typically caused by an infection but there are a number of other causes...
. Complications of the sphincter pharyngoplasty are snoring, nasal obstruction, swallowing and difficulty with blowing nose.
Both techniques have complications, however, some researches suggest that sphincter pharyngoplasty develops 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.