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versión On-line ISSN 0717-9502
Int. J. Morphol. vol.30 no.2 Temuco jun. 2012
Int. J. Morphol., 30(2):757-760, 2012.
The Prevalence of Fifth Cusp (Cusp of Carabelli) in the Upper Molars in Saudi Arabian School Students
Prevalencia de la Cúspide Mesiopalatina de los Molares Superiores (Tubérculo de Carabelli) en Estudiantes Secundarios de Arabia Saudita
*Syed Sadatullah; **Stephen A. Odusanya; ***Abdelbagi Mustafa; ****Prevez Abdul Razak; ****Mohammad Abdul Wahab & ****Zakirulla Meer
* Assistant Professor, Department of Maxillofacial Surgery & Diagnostic Sciences, College of Dentistry, King Khalid University, Abha, Saudi Arabia.
** Professor, Department of Maxillofacial Surgery & Diagnostic Sciences, College of Dentistry, King Khalid University, Abha, Saudi Arabia.
*** Associate Professor, Department of Maxillofacial Surgery & Diagnostic Sciences, College of Dentistry, King Khalid University, Abha, Saudi Arabia.
**** Assistant Professor, Department of Preventive Dental Sciences, College of Dentistry, King Khalid University, Abha, Saudi Arabia.
SUMMARY: The cusp of Carabelli trait was first described by Carabelli in 1842. If present, it is seen on the mesial aspect of the mesiopalatal cusp of the deciduous maxillary second molar or permanent maxillary first, second and third molar. The level of expression varies from a mere pit or groove to a well developed cusp. The objective of this study was to assess the prevalence of this trait in Abha Secondary School boys in the age range of 15-20 years. 917 subjects without caries or fillings (or missing) in permanent upper first (16/26) and second molars (17/27) were selected out of the 3408 students examined. The trait was recorded as present or absent in 16/26 and 17/27 only as most of the students had erupted premolars and unerupted third molars. The trait was present in 41.7% of the population out of which 82.2% were seen on 16/26 bilaterally. It showed more predilection to permanent maxillary right first molar 39.4% than permanent maxillary left first molar 35.8%. Only 3.1% of the population had the trait on 17/27. These results are in contrast with the prevalence studies carried out in Riyadh - 57.6% and Jeddah - 58.7%. Nevertheless, it places the Saudi population in moderate CT prevalence group.
KEY WORDS: Carabelli Trait; Dental cusp; Accesory cusp; Prevalence; Secondary school boys.
RESUMEN: La cúspide o tubérculo de Carabelli, fue descrita por primera vez por Carabelli en 1842. Si está presente, se observa en la cara mesial de la cúspide mesio-palatina del segundo molar superior permanente o temporal, segundo y tercer molar permanentes. El nivel de expresión varía desde una simple fosa a una cúspide bien desarrollada. El objetivo de este estudio fue evaluar la prevalencia de este tubérculo en los alumnos de escuelas secundarias de Abha en el rango de edad entre 15-20 años. 917 sujetos sin caries ni obturaciones (o extracción) en los primeros (16/26) y segundos (17/27) molares maxilares permanentes fueron seleccionados entre 3408 alumnos examinados. El tubérculo se registró como presente o ausente en 16/26 y 17/27 de los molares, la mayoría de los estudiantes tenían erupcionados los premolares y no erupcionados los terceros molares. El tubérculo estuvo presente en el 41,7% de la población estudiada, fuera de la cual se observó en el 82,2% sobre 16/26 bilateralmente. Hubo mayor predilección por el primer molar permanente del lado derecho, un 39,4%, en comparación al lado izquierdo, 35,8%. Sólo el 3,1% de la población tuvo el tubérculo sobre 17/27. Estos resultados contrastan con los estudios de prevalencia realizados en Riyadh con 57,6% y Jeddah con 58,7%. Sin embargo, coloca a la población de Arabia Saudita en el grupo de moderada prevalencia del tubérculo de Carabelli.
PALABRAS CLAVE: Tubérculo de Carabelli; Cúspide dental; Cúspide accesoria; Prevalencia; Alumnos de escuela secundaria.
The fifth cusp in the upper molars or Carabelli trait (CT) is the most commonly occurring dental morphological characteristic (Mavrodisz et al., 2007) that is useful in forensic, anthropological and ethnic studies. It has no established etiology, nor known function or clinical importance. However, since its first description in 1842 (Mitchell, 1892), there have been a plethora of studies done on different populations, living and archaeological. The studies involved its prevalence, expression, size, shape, symmetry, dentition predilection, inheritability, morphogenesis and its association with fluoride and nutrients intake. If present, the level of expression of CT varies from a mere pit or groove to a well developed cusp. As minute as it is, CT has been classified into a maximum of eight categories (Cox et al., 1961) and has been given innumerable names; trait of Carabelli, tubercle of Carabelli, molar tubercle, enamel elevation, fifth cusp, accessory cusp, mesiopalatal prominence and tuberculum anomalum.
The phenotypical appearance of the trait is attributed to a dominant Mendelian gene (Dietz, 1944) and also to the intake of fluorides (Cox et al.), vitamins, nutrients (Paynter & Grainger, 1956) and the size of the jaws. Therefore, it is a result of interaction between genetic and environmental factors (Biggerstaff, 1973). If one were to put forward the single most significant aspect of CT it would be its ethnic variation. For example, a distinct contrast in prevalence is accepted in Caucasian and mongoloid races (Dahlberg, 1951). It is a predominant odonto-ethnic marker as was described by Lee & Goose (1972). This vindicates the genetic probability of its etiology and inheritability.
Prior to this study there have been two separate studies reported on prevalence of CT in different Saudi populations. The objective of this study therefore, was to assess the prevalence of the CT in Secondary School boys in Abha region and compare it with the aforementioned studies.
MATERIAL AND METHOD
This study was part of an 'Oral Health Screening program' carried out in all the Secondary Schools in the Southern city of Abha. Twenty Boys Schools were visited over a period of 3 months. 917 Saudi students between the age of 15 and 17 years were selected out of the 3408 examined based upon the following three criteria.
1. All four permanent maxillary first (16/26) and second molars (17/27) were present.
2. The 16/26 and 17/27 did not have dental caries or restorations.
3. All of them were Saudi nationals.
The data was collected from oral examination by seven experienced examiners from King Khalid University, College of Dentistry. All examinations were done in the schools in sufficient lighting conditions. Examination gloves, mouth mask, sterile wooden spatula and a torch light were used for examination. Smooth palatal aspect of mesiopalatal cusp of the above mentioned molars, was recorded as 'trait absent'. The presence of a groove or elevation in the form of a tubercle or cusp was recorded as 'trait present'. Prevalence of CT was calculated as percentage values. Sexual dimorphism was not assessed as the study involved visits to Boys schools only. The maxillary third molars were not used as the school children were less than 17 years of age and primary molars had exfoliated.
To avoid intra observer variance in a huge sample size of 917 subjects this study excluded the assessment of level of expression of the trait. The prevalence of CT was 41.7% of the study population (Table I). Amongst the subjects that had the trait, 16/26 bilateralism was observed in 82.24% (Table III). It occurred more on the permanent maxillary right first molar (39.4%) than permanent maxillary left first molar (35.8%) (Table II). Only 3.1% of the study population had the trait on 17/27 (Table I). Interestingly the occurrence on permanent maxillary right second molar and permanent maxillary left second molar was same - 2.6% respectively (Table II). 17/27 bilateralism was observed in only 58.6% of the subjects (Table 3). Only one subject had the trait on 17/27 (bilaterally) while it was missing on 16/26.
Kraus (1951) and Alvesalo et al. (1975) described dental characteristics as western (which includes CT) and eastern characteristics. A general perception in this regard is that Caucasians show high frequency than the oriental races (Hsu et al., 1997). To correlate the frequency of CT with different populations the author of this study categorized groups into high CT prevalence (2/3's frequency), moderate CT prevalence (between 1/3 and 2/3 frequency), and low CT prevalence (1/3's frequency) populations. High prevalence was recorded in North West Europe origin Americans (Meredith & Hixon, 1954) while Eastern Greenland Eskimos had no CT at all (Pederson, 1949). Russians (Carbonell, 1960), Brazilians (Ferreira et al., 2010; Sousa et al., 2000), Malaysians (Rusmah, 1992), Saudis (Shethri, 2011; Solako & Bello, 1998) and mixed Europeans (Diamond, 1952) exhibit moderate CT prevalence. Similar to previous Saudi studies (Shethri; Solako & Bello) the prevalence of CT in the current study (41.7%) lies in moderate CT prevalence group. Table IV shows comparison of CT-prevalence on some of the population groups.
Results in this study are in mild contrast with studies carried out on smaller samples in Riyadh - 57.6% in 276 subjects (Shethri), and Jeddah - 58.7% in 250 subjects (Solako & Bello). Both the later and the former studies included subjects that were patients reporting to dental clinics and most likely representing a conglomeration of different ethnic Saudis. The current study screened all the secondary school Boys in Abha region most likely representing a big cross section of the community. It may be fair to say that the difference may have risen because of mixed ethnicity in cities of Riyadh and Jeddah. A unanimous agreement of higher association of CT with 16/26 than 17/27 and bilateralism is evident in the literature including this study.
In conclusion, CT seems to be more common in the city dwellers of Saudi Arabia than in the tourist town of Abha. Modern Saudi society comprises of people of different ethnicity ranging from the Arab world, North Africa, Central, South and South East Asia. Riyadh and Jeddah are modern cosmopolitan cities where a wide spectrum of ethnically diverse Saudi population coexists. Abha on the other hand has uniformity and identicalness in its ethnography. Drawing conclusions from this study it would be interesting to examine the prevalence of CT in the different indigenous tribes, namely: the Qahtani's and the Adnanis of Kingdom of Saudi Arabia.
Alvesalo, L.; Nuutila, M. & Portin, P. The cusps of Carabelli. Occurrence in first upper molars and evaluation of its heritability. Acta Odontol. Scand., 33(4):191-7, 1975. [ Links ]
Batujeff, W. Carabelli's Hockerchen und andere unbestandige Hocker der oberen Mahl-zahne beim Menschen und Affen. Isr. Imp. Akad. Nauk., 5: 93-109, 1896. [ Links ]
Biggerstaff, R. H. Heritability of the Carabelli cusp in twins. J. Dent. Res., 52(1):40-4, 1973. [ Links ]
Carbonell, V. M. The tubercle of Carabelli in the Kish dentition, Mesopotamia, 3000 BC. J. Dent. Res., 39:124-8, 1960. [ Links ]
Cox, G. J.; Finn, S. B. & Ast, D. B. Effect of fluoride ingestion on the size of the cusp of Carabelli during tooth formation. J. Dent. Res., 40(3):393-5,1961. [ Links ]
Dahlberg, A. A. The dentition of the American Indian. In: Laughlin, W. S. (Ed.). The physical anthropology of the American Indian. New York, Viking Fund Inc., 1951. pp.138-76. [ Links ]
Diamond, M. Dental Anatomy. 3rd ed. New York, Macmillan Co, 1952. [ Links ]
Dietz, V. H. A. Common dental morphotropic factor: the Carabelli's cusp. J. Am. Dent. Assoc., 31:784-9, 1944. [ Links ]
Ferreira, M. A.; Hespanhol, L. C.; Capote, T. S. O.; Goncalves, M. A. & Campos, J. A. D. B. Presence and morphology of the molar tubercle according to dentition, hemi-arch and sex. Int. J. Morphol., 28(1):121- 5, 2010. [ Links ]
Hassanali, J. Incidence of Carabelli's trait in Kenyan Africans and Asians. Am. J. Phys. Anthropol., 59(3):317-9, 1982. [ Links ]
Hsu, J. W.; Tsai, P. & Ferguson, D. Logistic analysis of shovel and Carabelli's tooth traits in a Caucasoid population. Forensic Sci. Int., 89(1-2):65-74, 1997. [ Links ]
Joshi, M. R. Carabelli's trait on maxillary second deciduous molars and first permanent molars in Hindus. Arch. Oral Biol., 20(10):699-700, 1975. [ Links ]
Kanappan, J. G. & Swaminathan, S. A study on dental morphological variation. Tubercle of Carabelli. Indian J. Dent. Res., 12(3):145-9, 2001. [ Links ]
Keiser, J. A. An analysis of the Carabelli trait in the mixed deciduous and permanent human dentition. Arch. Oral Biol., 29(6):403-6, 1984. [ Links ]
Kraus, B. S. Carabelli's anamoly of the maxillary molar teeth; observations on Mexicans and Papago Indians and an interpretation of the inheritance. Am. J. Hum. Genet., 3(4):348-55, 1951. [ Links ]
Lee, G. T. & Goose, D. H. The dentition of Chinese living in Liverpool. Hum. Biol., 44(3):563-72, 1972. [ Links ]
Mavrodisz, K.; Rozsa, N.; Budai, M.; Soos, A.; Pap, I. & Tarjan, I. Prevalence of accessory tooth cusp in a contemporary and ancestral Hungarian population. Eur. J. Orthod., 29(2):166-9, 2007. [ Links ]
Meredith, H. V. & Hixon, E. H. Frequency, size, and bilateralism of Carabelli's tubercle. J. Dent. Res., 33(3):435-40, 1954. [ Links ]
Mitchell, W. H. Case report. Dental Cosmos, 34:1036, 1892. [ Links ]
Oshima, S. Dental anomalies of the Chinese. J. Orient. Med., 26(6):1149-50, 1949. [ Links ]
Paynter, K. J. & Grainger, R. M. Relation to nutrition to the morphology and size of rat molar teeth. J. Can. Dent. Assoc., 22:519, 1956. [ Links ]
Pederson, P. O. The east Greenland Eskimo dentition. Copenhagen, Blanco Lunos Bogtrykkeri, 1949. pp.95-9. [ Links ]
Rusmah, M. The cusp of Carabelli in Malaysians. Odontostomatol. Trop., 15(1):13-5, 1992. [ Links ]
Salako, N. O. & Bello, L. L. Prevalence of the Carabelli trait in Saudi Arabian children. Odontostomatol. Trop., 21(84):11-4, 1998. [ Links ]
Salako, N. O.; Allen, A. O. & Ashiru, O. A. A study of the Carabelli trait in the Nigerian ethnic population. Ped. Dent. J., 3:31-4, 1993. [ Links ]
Shethri, S. The prevalence of Carabelli cusp in selected Saudi population. J. King Saud. Univ., 2(1-2):13-6, 2011. [ Links ]
Sousa, E. M. D.; Carvalho, L. F. P. C. & Pereira, L. L. Prevalencia do tuberculo de Carabelli no premeiro molar superior. Rev. Fac. Odontol. Odonto. Univ. Fed Bhia, 20:6-10, 2000. [ Links ]
Townsend, G. C. & Brown, T. The Carabelli trait in Australia Aboriginal dentition. Arch. Oral Biol., 26(10):809-14, 1981. [ Links ]
Dr. Syed Sadatullah
Department of Maxillofacial Surgery & Diagnostic Sciences
Division of Oral Biology
College of Dentistry
King Khalid University
Abha, Aseer region
Kingdom of Saudi Arabia
P.O. BOX 3263, Zip Pin- 61471.
Phone numbers: 00966502584456