A palatal lift prosthesis is a prosthesis that addresses a condition referred to as palatopharyngeal incompetence. Palatopharyngeal incompetence broadly refers to a muscular inability to sufficiently close the port between the nasopharynx and oropharynx during speech and/or swallowing. An inability to adequately close the palatopharyngeal port during speech results in hypernasalance that, depending upon its severity, can render speakers difficult to understand or unintelligible. [1] The potential for compromised intelligibility secondary to hypernasalance is underscored when consideration is given to the fact that only three English language phonemes – /m/, /n/, and /ng/ – are pronounced with an open palatopharyngeal port. [2] Furthermore, an impaired ability to effect a closure of the palatopharyngeal port while swallowing can result in the nasopharyngeal regurgitation of liquid or solid boluses.
Palatopharyngeal incompetence should not be confused with palatopharyngeal insufficiency. While palatopharyngeal incompetence and palatopharyngeal insufficiency contribute to similar symptomatology as they relate to speech and swallowing, the former results from a hypomobility or paralysis of intact anatomy that is normally responsible for effecting palatopharyngeal closure while the latter results from a congenital or acquired absence of that anatomy. Palatal lift prostheses are designed to address palatopharyngeal incompetence. Although structurally similar to palatal lift prostheses, technically distinct soft palatal obturator prostheses or speech aid prostheses are used to address palatopharyngeal insufficiency.
A palatal lift prosthesis addresses palatopharyngeal incompetence by physically displacing the dysfunctional soft palate in the hope of closing the palatopharyngeal port enough to mitigate hypernasal speech and/or prevent nasopharyngeal regurgitation of liquids or solids during the pharyngeal phase of swallowing. A palatal lift prosthesis consists of an oral component that stabilizes and secures the prosthesis and an oropharyngeal extension that superiorly and posteriorly displaces the impaired soft palate. Palatal lift prostheses are classified as interim or definitive prostheses. [3]
An interim palatal lift prosthesis generally consists of two or more stainless steel wire retentive clasps embedded in polymethylmethacrylate that adapts to the hard palatal and soft palatal mucosal surfaces and the lingual aspects of the maxillary teeth. An interim palatal lift prosthesis carries a current dental terminology code number of D5958. A definitive palatal lift prosthesis generally consists of a thin cast metallic alloy lamina that covers the hard palatal mucosa and the lingual aspects of the maxillary teeth and incorporates retentive clasps that strategically engage undercut dental surfaces to enhance the retentive capacity of the prosthesis. The cast metallic portion of a definitive palatal lift prosthesis typically harbors a posterior cast metal lattice that retains a polymethylmethacrylate oropharyngeal section of the prosthesis responsible for elevating the soft palate. A definitive palatal lift prosthesis carries a current dental terminology code number of D5955. Definitive and interim palatal lift prostheses both carry current procedural terminology code numbers of 21083.
Because a mechanically displaced soft palate imparts enough force upon a palatal lift prosthesis to dislodge it, dentoalveolar anatomy must be considered prior to the fabrication of a palatal lift prosthesis. Although no algorithm regarding a requisite number of teeth exists for the retention of a palatal lift prosthesis, the possession of a full complement of healthy maxillary teeth offers more assurance of adequate retention than any other factor. While palatal lift prostheses can be retained by patients exhibiting maxillary partial edentulism, partially edentulous patients without posterior maxillary teeth suitable for the receipt of prosthetic clasps also known as direct retainers enjoy less retentive predictability than patients with maxillary posterior teeth. Similarly, partially edentulous patients missing anterior maxillary teeth lack the stability and retention afforded by anterior portions of the palatal lift prosthesis called indirect retainers that appose the lingual aspects of anterior maxillary teeth. Alternatively, patients missing enough teeth to compromise the predictable retention of a palatal lift prosthesis may become candidates for the fabrication of a palatal lift prosthesis with the placement of endosseous titanium implants and abutments designed to serve as retentive elements in partially edentulous and edentulous patients.
Interim Palatal Lift Prostheses Retentive Clasp Assembly
Retentive clasp assemblies responsible for securing interim palatal lift prostheses often benefit from the development of exaggerated retentive undercuts. Such undercuts can be bilaterally added to the most posterior dental abutments by bonding a bulk of composite resin to the buccal surface of the proposed retainers if they are adult teeth and the surfaces to which the composite resin is to be added are not restored with metallic or ceramic restorative material. When providing supplemental retentive undercuts for interim palatal lift prostheses to be retained by primary teeth or teeth whose buccal surfaces have been replaced by metallic or ceramic restorative material, the placement of orthodontic bands that harbor large buccal orthodontic brackets can serve as an alternative to the placement of composite resin.
Interim palatal lift prostheses retentive clasps that engage undercuts formed with composite resin or orthodontic brackets are fashioned from custom bent orthodontic wire that is embedded in the polymethylmethacrylate component of the prosthesis. The orthodontic wire extends from the polymethylmethacrylate to engage the gingival aspect of the composite resin or orthodontic bracket serving to provide the prosthesis' retentive undercut. If the orthodontic wire clasp terminated at its approximation with the dental abutment undercut it engages as do conventional removable partial denture clasps, the interim palatal lift prosthesis could be difficult to insert and remove. Thus, the orthodontic wire clasps used to retain interim palatal lift prostheses are sometimes extended in a mesial direction up to two mesiodistal tooth diameters. Clasps designed in this fashion can be flexed laterally by patients or their caregivers to facilitate the insertion and removal of the interim palatal lift prosthesis.
Definitive Palatal Lift Prostheses Retentive Clasp Assembly
Definitive palatal lift prosthesis clasp assemblies are not unlike those designed for the retention of removable partial dentures. The clasps arise as extensions of a cast metallic alloy prosthetic component termed a major connector that engages the hard palatal mucosa and the lingual surfaces of some or all of the maxillary teeth. Cast definitive palatal lift prosthesis clasps engage dental abutment surfaces harboring what typically represent 0.01 or 0.02 inch undercuts responsible for prosthetic retention. Alternatively, custom bent wrought wire clasps can be soldered to the cast metallic alloy component of the definitive palatal lift prosthesis from which they extend to engage the undercuts responsible for prosthetic retention. Wrought wire definitive palatal lift prosthesis clasps have an advantage over cast metallic definitive palatal lift prosthesis clasps by virtue of their relative resistance to work hardening that can contribute to the fracturing of cast clasps.
Several scenarios serve to contraindicate the fabrication of palatal lift prostheses or discourage their use. The physical management of palatopharyngeal incompetence by way of a palatal lift prosthesis might not be well tolerated by patients with strong gag reflexes. Edentulous patients or partially edentulous patients without a sufficient number of dental abutments cannot predictably retain palatal lift prostheses. Dentoalveolar growth and development, pediatric dental exfoliation, and exodontia secondary to periodontitis, carious lesions, other pathoses, or trauma can necessitate the fabrication of successive palatal lift prostheses that may be deemed too costly and/or time-consuming. As such, surgical tactics aimed at mitigating palatopharyngeal incompetence can be employed as a substitute to its prosthetic management. Conversely, prosthetic palatopharyngeal incompetence management can offer a favorable substitute to surgical management when surgical contraindications are encountered.
Pharyngeal Flap Surgery
The superiorly based or inferiorly based pharyngeal flap surgical procedure offers an alternative to the fabrication of a palatal lift prosthesis. A pharyngeal flap surgery unites the posterior pharyngeal wall and the soft palate to definitively occlude the midsagittal aspect of the palatopharyngeal port while bilaterally maintaining patencies between the nasopharynx and oropharynx to facilitate nasal respiration and resonance during the production of nasal phonemes. Since surgical management generally eliminates the need for a palatal lift prosthesis and its incumbent disadvantages, the pharyngeal flap surgical procedure is often favored as a first option for addressing palatopharyngeal incompetence. Nevertheless, patients with minimal lateral pharyngeal wall adduction may be incapable of closing their surgically preserved palatopharyngeal ports following a pharyngeal flap surgical procedure. Such patients can develop residual palatopharyngeal incompetence that could necessitate the fabrication of palatal lift prostheses that occlude the offending nasopharyngeal ports.
Contraindications to pharyngeal flap surgical procedures, thus, include nominal measures of lateral pharyngeal wall adduction. Patients whose lateral pharyngeal walls negligibly adduct necessitate pharyngeal flaps that are wider in a mediolateral direction than patients with dramatic lateral pharyngeal wall adduction. As such, midsagittal pharyngeal flaps designed to be wide enough to mitigate palatopharyngeal incompetence in patients with minimal lateral pharyngeal wall adduction run the risk of being so wide they fail to allow the preservation of bilateral palatopharyngeal ports large enough to safeguard the capacity for nasal respiration. Patients with diminutive bilateral palatopharyngeal ports can postoperatively develop obstructive sleep apnea. With this in mind, pharyngeal flap surgical candidates should undertake a preoperative nasoendoscopic examination by an otolaryngologist, plastic surgeon, or speech language pathologist to assess the degree of lateral pharyngeal wall adduction. A preoperative assessment of such adduction can serve as a surgical guide to how wide a pharyngeal flap must be to be efficacious. Nasoendoscopic evaluations prior to surgery can also diminish the possibility of iatrogenically precipitating obstructive sleep apnea.
Additionally, aberrant pharyngeal vascular anatomy can serve as a contraindication to the pharyngeal flap surgical procedure. Internal carotid arteries within the pharyngeal walls can take an atypical medial course through the posterior aspect of the pharyngeal wall, particularly in patients with velocardiofacial syndrome. Since such anomalies raise the risk of dangerous intraoperative hemorrhaging, contrast enhanced computed tomography and/or magnetic resonance angiography should be obtained in the interest of evaluating pharyngeal vascular anatomy prior to a pharyngeal flap surgical procedure.
Pharyngoplasty
In contrast to the pharyngeal flap surgical procedure that optimally serves patients with ample lateral pharyngeal wall adduction, the pharyngoplasty represents a surgical technique more suitable for patients with soft palatal elevation that is unaccompanied by enough lateral pharyngeal wall adduction to affect palatopharyngeal closure. During a pharyngoplasty, incisions are made into the lateral and posterior pharyngeal walls in an effort to elevate strips of native tissue away from its normal position. These elevated tissues are called flaps and remain pedicled to their native pharyngeal structures as a means of maintaining their blood flow. The flaps are strategically sutured into recipient sites where they provide postoperative tissue volume in areas of the lateral oropharynx and nasopharynx believed not to preoperatively adduct enough to realize palatopharyngeal closure. Pharyngoplasty contraindications and complications are not unlike those considered when preparing for pharyngeal flap surgical procedures. Vascular anatomy must be preoperatively assessed and the provision of lateral pharyngeal wall bulkiness carries the risk of inducing obstructive sleep apnea.
Amyotrophic lateral sclerosis |
Benign or malignant tumors affecting the 9th, 10th, or 11th cranial nerves |
Myasthenia gravis |
Cerebrovascular accident |
Submucous cleft palate |
Cleft palate |
Bulbar poliomyelitis |
Cerebral palsy |
Iatrogenesis secondary to tonsillectomy or adenoidectomy |
Traumatic brain injury |
Multiple sclerosis |
Oculopharyngeal muscular dystrophy |
Apraxia |
784.49 | Hypernasal speech |
787.2 | Dysphagia |
784.5 | Dysarthria or dysphasia unrelated to a cerebrovascular accident |
438.12 | Dysphasia associated with a cerebrovascular accident |
Dentures are prosthetic devices constructed to replace missing teeth, supported by the surrounding soft and hard tissues of the oral cavity. Conventional dentures are removable. However, there are many denture designs, some of which rely on bonding or clasping onto teeth or dental implants. There are two main categories of dentures, the distinction being whether they fit onto the mandibular arch or on the maxillary arch.
Dental surgery is any of a number of medical procedures that involve artificially modifying dentition; in other words, surgery of the teeth, gums and jaw bones.
A bridge is a fixed dental restoration used to replace one or more missing teeth by joining an artificial tooth definitively to adjacent teeth or dental implants.
A dental technician is a member of the dental team who, upon prescription from a dental clinician, constructs custom-made restorative and dental appliances.
A dental implant is a prosthesis that interfaces with the bone of the jaw or skull to support a dental prosthesis such as a crown, bridge, denture, or facial prosthesis or to act as an orthodontic anchor. The basis for modern dental implants is a biological process called osseointegration, in which materials such as titanium or zirconia form an intimate bond to the bone. The implant fixture is first placed so that it is likely to osseointegrate, then a dental prosthetic is added. A variable amount of healing time is required for osseointegration before either the dental prosthetic is attached to the implant or an abutment is placed which will hold a dental prosthetic/crown.
Prosthodontics, also known as dental prosthetics or prosthetic dentistry, is the area of dentistry that focuses on dental prostheses. It is one of 12 dental specialties recognized by the American Dental Association (ADA), Royal College of Surgeons of England, Royal College of Surgeons of Edinburgh, Royal College of Surgeons of Ireland, Royal College of Surgeons of Glasgow, Royal College of Dentists of Canada, and Royal Australasian College of Dental Surgeons. The ADA defines it as "the dental specialty pertaining to the diagnosis, treatment planning, rehabilitation and maintenance of the oral function, comfort, appearance and health of patients with clinical conditions associated with missing or deficient teeth or oral and maxillofacial tissues using biocompatible substitutes."
Hypodontia is defined as the developmental absence of one or more teeth excluding the third molars. It is one of the most common dental anomalies, and can have a negative impact on function, and also appearance. It rarely occurs in primary teeth and the most commonly affected are the adult second premolars and the upper lateral incisors. It usually occurs as part of a syndrome that involves other abnormalities and requires multidisciplinary treatment.
A removable partial denture (RPD) is a denture for a partially edentulous patient who desires to have replacement teeth for functional or aesthetic reasons and who cannot have a bridge for any reason, such as a lack of required teeth to serve as support for a bridge or financial limitations.
A palatal expander is a device in the field of orthodontics which is used to widen the upper jaw (maxilla) so that the bottom and upper teeth will fit together better. This is a common orthodontic procedure. Although the use of an expander is most common in children and adolescents 8–18 years of age, it can also be used in adults, although expansion is slightly more uncomfortable and takes longer. A patient who would rather not wait several months for the end result by a palatal expander may be able to opt for a surgical separation of the maxilla. Use of a palatal expander is most often followed by braces to then straighten the teeth.
Maxillary sinus floor augmentation is a surgical procedure which aims to increase the amount of bone in the posterior maxilla, in the area of the premolar and molar teeth, by lifting the lower Schneiderian membrane and placing a bone graft.
A palatal obturator is a prosthesis that totally occludes an opening such as an oronasal fistula. They are similar to dental retainers, but without the front wire. Palatal obturators are typically short-term prosthetics used to close defects of the hard/soft palate that may affect speech production or cause nasal regurgitation during feeding. Following surgery, there may remain a residual orinasal opening on the palate, alveolar ridge, or vestibule of the larynx. A palatal obturator may be used to compensate for hypernasality and to aid in speech therapy targeting correction of compensatory articulation caused by the cleft palate. In simpler terms, a palatal obturator covers any fistulas in the roof of the mouth that lead to the nasal cavity, providing the wearer with a plastic/acrylic, removable roof of the mouth, which aids in speech, eating, and proper air flow.
Pharyngeal flap surgery is a procedure to correct the airflow during speech. The procedure is common among people with cleft palate and some types of dysarthria.
Velopharyngeal insufficiency is a disorder of structure that causes a failure of the velum to close against the posterior pharyngeal wall during speech in order to close off the nose during oral speech production. This is important because speech requires sound and airflow to be directed into the oral cavity (mouth) for the production of all speech sound with the exception of nasal sounds. If complete closure does not occur during speech, this can cause hypernasality and/or audible nasal emission during speech. In addition, there may be inadequate airflow to produce most consonants, making them sound weak or omitted.
Crossbite is a form of malocclusion where a tooth has a more buccal or lingual position than its corresponding antagonist tooth in the upper or lower dental arch. In other words, crossbite is a lateral misalignment of the dental arches.
A dental prosthesis is an intraoral prosthesis used to restore (reconstruct) intraoral defects such as missing teeth, missing parts of teeth, and missing soft or hard structures of the jaw and palate. Prosthodontics is the dental specialty that focuses on dental prostheses. Such prostheses are used to rehabilitate mastication (chewing), improve aesthetics, and aid speech. A dental prosthesis may be held in place by connecting to teeth or dental implants, by suction, or by being held passively by surrounding muscles. Like other types of prostheses, they can either be fixed permanently or removable; fixed prosthodontics and removable dentures are made in many variations. Permanently fixed dental prostheses use dental adhesive or screws, to attach to teeth or dental implants. Removal prostheses may use friction against parallel hard surfaces and undercuts of adjacent teeth or dental implants, suction using the mucous retention, and by exploiting the surrounding muscles and anatomical contours of the jaw to passively hold in place.
Zygoma implants are different from conventional dental implants in that they anchor in to the zygomatic bone rather than the maxilla. They may be used when maxillary bone quality or quantity is inadequate for the placement of regular dental implants. Inadequate maxillary bone volume may be due to bone resorption as well as to pneumatization of the maxillary sinus or to a combination of both. The minimal bone height for a standard implant placement in the posterior region of the upper jaw should be about 10 mm to ensure acceptable implant survival. When there is inadequate bone available, bone grafting procedures and sinus lift procedures may be carried out to increase the volume of bone. Bone grafting procedures in the jaws have the disadvantage of prolonged treatment time, restriction of denture wear, morbidity of the donor surgical site and graft rejection.
Alveoloplasty is a surgical pre-prosthetic procedure performed to facilitate removal of teeth, and smoothen or reshape the jawbone for prosthetic and cosmetic purposes. In this procedure, the bony edges of the alveolar ridge and its surrounding structures is made smooth, redesigned or recontoured so that a well-fitting, comfortable, and esthetic prosthesis may be fabricated or implants may be surgically inserted. This pre-prosthetic surgery which may include bone grafting prepares the mouth to receive a prosthesis or implants by improving the condition and quality of the supporting structures so they can provide support, better retention and stability to the prosthesis.
A complete denture is a removable appliance used when all teeth within a jaw have been lost and need to be prosthetically replaced. In contrast to a partial denture, a complete denture is constructed when there are no more teeth left in an arch, hence it is an exclusively tissue-supported prosthesis. A complete denture can be opposed by natural dentition, a partial or complete denture, fixed appliances or, sometimes, soft tissues.
An ectopic maxillary canine is a canine which is following abnormal path of eruption in the maxilla. An impacted tooth is one which is blocked from erupting by a physical barrier in the path of eruption. Ectopic eruption may lead to impaction. Previously, it was assumed that 85% of ectopic canines are displaced palatally, however a recent study suggests the true occurrence is closer to 50%. While maxillary canines can also be displaced buccally, it is thought this arises as a result of a lack of space. Most of these cases resolve themselves with the permanent canine erupting without intervention.