International Journal of Orthodontic Rehabilitation

ORIGINAL ARTICLE
Year
: 2021  |  Volume : 12  |  Issue : 3  |  Page : 103--107

Correlation of soft palate shape with skeletal malocclusion


Harsha J Kaurani, Tarvade (Daokar) Suchita 
 Department of Orthodontics and Dentofacial Orthopaedics, Chatrapati Shahu Maharaj Shikshan Sanstha Dental College, Aurangabad, Maharashtra, India

Correspondence Address:
Dr. Harsha J Kaurani
Chatrapati Shahu Maharaj Shikshan Sanstha Dental College, Aurangabad, Maharashtra
India

Abstract

Introduction: Soft palate is a fibromuscular organ essential for phonation, deglutition, respiration, and velopharyngeal competence. It exists in various shapes including rat tail type, leaf type, butt type, straight line, crooked type, and S shaped. There have been studies in the literature that has compared the morphological variation of soft palate in genders and subjects of different age groups. However, the literature is limited regarding the correlation of soft palate shape with different skeletal patterns. Hence, this study was undertaken. Aims: To study various shape of soft palate on lateral cephalogram in patients with skeletal Class I, Class II, and Class III malocclusions. Settings and Design: A retrospective study. Subjects and Methods: Total 90 lateral cephalograms of skeletal Class I (30), Class II (30), and Class III (30) were classified on the basis of W angle into skeletal pattern as Class I, Class II, and Class III. Their soft palates were traced and compared for the shape variation. Statistical Analysis Used: Pearson's Chi-square test. Results: The result showed that crooked shape soft palate is more frequent type among the population. In skeletal Class I malocclusion, crooked was most frequent shape of palate followed by leaf shape. In skeletal Class II malocclusion, crooked was most common followed by rat tail type and in Class III malocclusion, butt shape was most common followed by leaf type. Conclusions: Significant correlation exists between the variants of soft palate and skeletal malocclusion



How to cite this article:
Kaurani HJ, Suchita T. Correlation of soft palate shape with skeletal malocclusion.Int J Orthod Rehabil 2021;12:103-107


How to cite this URL:
Kaurani HJ, Suchita T. Correlation of soft palate shape with skeletal malocclusion. Int J Orthod Rehabil [serial online] 2021 [cited 2024 Mar 28 ];12:103-107
Available from: https://www.orthodrehab.org/text.asp?2021/12/3/103/330339


Full Text



 Introduction



The roof of the mouth anatomically separates the nasal cavity from the oral cavity and structurally is composed of anterior bony component, i.e., hard palate and posterior fibromuscular component, i.e., soft palate (also known as velum).[1]

The soft palate is a mobile flap suspended from the posterior border of the hard palate, sloping down and back between the oral and nasal parts of the pharynx. It is a thick fold of mucosa enclosing an aponeurosis, muscular tissue, vessels, nerves, lymphoid tissue, and mucus glands. It participates in most of the oral functions, especially velopharyngeal closure which is related to the normal functions of sucking, swallowing, blowing, and pronunciation. Soft palate dysfunctions are frequently seen in cleft lip and palate patients, enlarged adenoids, obstructive sleep apnea syndrome (OSAS), snoring, poorly retained maxillary denture, and skeletal craniofacial malocclusion.

The palate is formed by the fusion of three components – two palatal processes and the frontonasal process. In the later stage, the mesoderm in the palate undergoes intramembranous ossification to form the hard palate whereas the posterior part does not undergo ossification and remains as soft palate. The hard and soft palate is easily palpable and identified by change in color. The most important muscle for velopharyngeal closure is the levator veli palatini. Often, the normal anatomy and any other anomaly of soft palate help in the diagnosis and successful treatment of many intricate cases.[2]

Numerous studies have been done in past toward the dimensional analysis of soft palate and its surrounding structures, but little attention has been paid toward the morphological variants of soft palate and configuration. You et al. classified the soft palate into six morphological types by observing the image of soft palate on lateral cephalograms:

Type 1: Leaf shaped/lanceolate shapedType 2: Rat tail shapedType 3: Butt-like shapedType 4: Straight line shapedType 5: S-shaped/distorted soft palate; andType 6: Crooked shaped.[3]

Pépin et al. observed that the “hooked or S shaped” appearance of the soft palate in awake patients indicated a high risk of OSAS.[4]

As variation in morphology of soft palate plays an important role in the assessment of velopharyngeal closure and in diagnosing obstructive sleep apnea individuals. There have been studies in the literature that has compared the morphological variation of soft palate in genders and subjects of different age groups. However, the literature search to study the variation of soft palate morphology in the subjects with different skeletal patterns was found to be insufficient. The purpose of our study was to investigate correlation between various shape of soft palate with skeletal Class I, Class II, and Class III malocclusions using lateral cephalograms of patient seeking orthodontic treatment.

 Subjects and Methods



A retrospective study was conducted on patients seeking orthodontic treatment. A total of 90 lateral cephalograms of patients that visited to the Department of Orthodontics and Dentofacial Orthopaedics, Aurangabad, Maharashtra, India, were collected. All the lateral cephalograms were taken with the patients standing upright in a natural head position, and they were instructed to occlude their molars and breathe through their nose, so as to allow the same observation of the mobile sites of the soft palate and the upper airway. This was done using the same digital radiographic machine for all patients [Table 1]. The selected 90 cephalograms were categorized into 3 groups using the W angle.{Table 1}

Their soft palates were traced and compared for the shape variations as given by You et al. [Figure 1], [Figure 2], [Figure 3], [Figure 4], [Figure 5], [Figure 6].[3]{Figure 1}{Figure 2}{Figure 3}{Figure 4}{Figure 5}{Figure 6}

 Results



Statistical analysis

All the data were collected and analyzed, and a crosstab was composed by dividing the subjects based on the type of malocclusion and the shape of soft palate, to compare the correlation between various shapes of soft palate and types of malocclusion [Table 2]. Pearson's Chi-square test was used to evaluate the relationship among variables in the crosstabs [Table 3].{Table 2}{Table 3}

The result of this study showed that crooked shape soft palate is more frequent type among the Marathwada population [Table 4] and [Table 5]. In skeletal Class I malocclusion, it was observed that crooked was most frequent shape of palate followed by leaf shape. In skeletal Class II malocclusion, crooked was most common followed by rat tail type and in Class III malocclusion, butt shaped was most common followed by leaf type.{Table 4}{Table 5}

 Discussion



The lateral cephalogram is the most common diagnostic radiograph used in orthodontics. Cephalometric analysis is a commonly accepted technique for the evaluation of soft palate because of its easy availability, cost effectiveness, and relatively good assessment of soft tissue. The dimensional analysis of the soft palate and its surrounding structures, especially velar length and width, has been discussed in various studies, nevertheless the variation of velar morphology which is the most logic cause of different dimensions of soft palate.

The W angle, which is most commonly used in the determination of anteroposterior dentofacial discrepancy, was used to classify the individuals according to their skeletal configuration. Sharma et al. reported that it is reliable for determining the anteroposterior relationship of the jaws.[5]

In our study, Type VI shaped soft palate was the most frequent type while a previous study by You M. et al.[3] described leaf-shaped soft palate to be the classic velar morphology. This variation may be due to the fact that most of our study cases had malocclusion requiring orthodontic treatment.

In some studies, the most common type of morphological variant of soft palate was reported to be butt shaped and S shaped,[6],[7] and in other studies, Type 2 rat tail shape was most frequent type.[2],[8] These variations in types of soft palate could be population-related trait.

Patients with skeletal Class I malocclusion were most frequently found to be associated with crooked-like morphology of soft palate, Class II with crooked-shaped soft palate, and Class III with butt-shaped soft palate. In a previous study conducted by Subramaniam[9] in skeletal malocclusions' sample, leaf shape was found to be the most frequent in Class I, rat tail type in Class II malocclusions, and leaf type and crooked type in Class III. This difference in result from our study may be due to ethnic variation.

Obstructive sleep apnea is characterized by the recurrent occlusion of the upper airways resulting due to the inspiratory collapse of pharyngeal walls during sleep. Subramaniam et al. found that “S shape” morphology of the velum, indicated a high risk for obstructive sleep apnea. The hooking of the soft palate was defined as an angulation of 30° between the distal part of the uvula and the longitudinal axis of the velum. They hypothesized that soft palate hooking results in a sudden and major reduction in oropharyngeal dimensions, thus increasing the upper airway resistance and the transpharyngeal pressure gradient resulting in a pharyngeal collapse.[9]

Our study concluded that there is a significant correlation between the variants of soft palate and type of skeletal malocclusion in Marathwada population.

The development of soft palate gets completed by the 12th week of intrauterine life[10] and muscles by 16–17th week of intrauterine life.[11] Thus, shape of soft palate is achieved in the intrauterine life itself. However, skeletal development of maxilla and mandible continues throughout the pubertal growth spurt. Moreover, the final malocclusion is established at 16–18 years of life. Our study concluded that there is a significant correlation between the variants of soft palate and type of skeletal malocclusion. Thus, at very early age of the child, we can predict the skeletal malocclusion by viewing the shape of the soft palate.

In Class II, the crooked type was most common that contributes to an abrupt and major reduction in oropharyngeal dimension while in Class III, the most common variant was butt shape type, i.e., length of soft palate was shorter when compared to Class I and Class II cases.

Hence, the soft palate dimension and their functional relationship with the surrounding structure should be examined in the diagnosis and treatment planning of various skeletal problems to avoid posttreatment speech problems. Therefore, treatment planning involving an increase in pharyngeal space should be considered. Clinician should be vigilant when using orthopedic or surgical method that may involve maxillary advancement.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.

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