Comparison of periodontal parameters in individuals with syndromic craniosynostosis

Múfalo, Paula Simões; Kaizer, Rosane de Oliveira Fortes; Dalben, Gisele da Silva; Almeida, Ana Lúcia Pompéia Fraga de

doi:10.1590/S1678-77572009000100004

Abstract

Craniosynostosis syndromes are characterized by premature closure of one or more cranial sutures, associated with other malformations, the most frequent of which are the Crouzon and Apert syndromes. Few studies in the literature have addressed the oral health of these individuals. The purpose of this study was to compare the periodontal status of individuals with Apert, Crouzon, Pfeiffer and Saethre-Chotzen syndromes before toothbrushing and compare the efficiency of plaque removal before and after mechanical toothbrushing. The probing depth, plaque index (according to Löe and O'Leary), clinical attachment level, gingival index (according to Silness and Löe) and amount of keratinized mucosa were evaluated before toothbrushing, and the O'Leary plaque index was assessed before and immediately after toothbrushing, on the same day, in 27 individuals aged 11 to 36 years. There was statistically significant difference in the mean probing depth and clinical attachment level among regions (p=0.00; p=0.01, respectively). The gingival index did not reveal statistically significant differences. With regard to the plaque index, the left region exhibited higher plaque index values than the right and anterior regions. No significant results were found in the analysis of keratinized mucosa. Comparison of the O'Leary plaque index before and after toothbrushing revealed statistically significant difference for all syndromes except for the Pfeiffer syndrome (p<0.05). In conclusion, there was no difference in the periodontal status among individuals with syndromic craniosynostosis. The posterior region was more affected than the anterior region as to the presence of plaque, loss of insertion and probing depth. Individuals with Pfeiffer syndrome exhibited greater toothbrushing efficiency than individuals with the other craniosynostosis syndromes.

Craniosynostosis; Craniostenosis; Periodontal index; Epidemiology

ORIGINAL ARTICLES

Comparison of periodontal parameters in individuals with syndromic craniosynostosis

Paula Simões Múfalo^I; Rosane de Oliveira Fortes Kaizer^I; Gisele da Silva Dalben^II; Ana Lúcia Pompéia Fraga de Almeida^III

^IDDS, Specialists in Periodontics, Hospital for Rehabilitation of Craniofacial Anomalies, University of São Paulo, Bauru, SP, Brazil

^IIDDS, MSc, PhD in Oral Pathology, Pediatric Dentist, Hospital for Rehabilitation of Craniofacial Anomalies, University of São Paulo, Bauru, SP, Brazil

^IIIPhD in Oral Rehabilitation, Periodontist, Hospital for Rehabilitation of Craniofacial Anomalies, University of São Paulo, Bauru, SP, Brazil

^{Corresponding address} Corresponding address: Dra. Ana Lúcia Pompéia Fraga de Almeida Setor de Periodontia/ HRAC-USP Rua Silvio Marchione, 3-20 - Vila Universitária 17043-900 - Bauru, SP - Brasil Phone: +55-14-3235-8081 e-mail: analmeida@usp.br

ABSTRACT

Craniosynostosis syndromes are characterized by premature closure of one or more cranial sutures, associated with other malformations, the most frequent of which are the Crouzon and Apert syndromes. Few studies in the literature have addressed the oral health of these individuals. The purpose of this study was to compare the periodontal status of individuals with Apert, Crouzon, Pfeiffer and Saethre-Chotzen syndromes before toothbrushing and compare the efficiency of plaque removal before and after mechanical toothbrushing. The probing depth, plaque index (according to Löe and O'Leary), clinical attachment level, gingival index (according to Silness and Löe) and amount of keratinized mucosa were evaluated before toothbrushing, and the O'Leary plaque index was assessed before and immediately after toothbrushing, on the same day, in 27 individuals aged 11 to 36 years. There was statistically significant difference in the mean probing depth and clinical attachment level among regions (p=0.00; p=0.01, respectively). The gingival index did not reveal statistically significant differences. With regard to the plaque index, the left region exhibited higher plaque index values than the right and anterior regions. No significant results were found in the analysis of keratinized mucosa. Comparison of the O'Leary plaque index before and after toothbrushing revealed statistically significant difference for all syndromes except for the Pfeiffer syndrome (p<0.05). In conclusion, there was no difference in the periodontal status among individuals with syndromic craniosynostosis. The posterior region was more affected than the anterior region as to the presence of plaque, loss of insertion and probing depth. Individuals with Pfeiffer syndrome exhibited greater toothbrushing efficiency than individuals with the other craniosynostosis syndromes.

Key words: Craniosynostosis. Craniostenosis. Periodontal index. Epidemiology.

INTRODUCTION

The term craniosynostosis or craniostenosis is characterized by the premature closure of one or more cranial sutures²⁹. This closure causes a reduction in bone synthesis, leading to craniofacial deformities. The craniosynostoses may be classified according to the number of sutures affected (simple or multiple), cause (primary or of unknown cause and secondary or of known cause), or according to the association with other malformations (non-syndromic and syndromic). Simple, primary and non-syndromic craniosynostoses are the most common¹².

The appearance of craniosynostosis may be related with both environmental and genetic factors. During the last decade, it has been observed that mutations in four genes may lead to the occurrence of syndromic craniosynostoses, such as Apert, Pfeiffer, Crouzon and Saethre-Chotzen syndromes. The most frequent craniosynostosis syndromes are the Crouzon and Apert syndromes, which are usually hereditary; with rare exceptions, the diagnosis is established at birth¹³. Apert, Crouzon, Pfeiffer and Saethre-Chotzen syndromes exhibit similar systemic and oral changes in addition to some changes inherent to each syndrome (Figure 1).

One of the few studies in the literature addressing the oral health of these individuals was conducted by Mustafa, et al.²⁷ (2001), who examined 57 children with craniosynostosis (11 Apert, 21 Crouzon, 5 Pfeiffer, 3 Saethre-Chotzen and 17 non-syndromic), aged 3 to 16 years, compared to a control group matched to gender, age and ethnic group. Both groups were examined as to the caries index, amount of dental plaque, gingivitis, enamel defects and microbiological evaluation. The results revealed higher frequency of caries-free children in the study group. Children with craniosynostosis presented a greater amount of dental plaque, which the authors assigned to the difficult oral hygiene control due to tooth crowding, leading them to highlight the importance of regular professional dental prophylaxis. The study group presented higher frequency of gingivitis in permanent teeth. Both groups presented similar results as to the enamel defects and microbiological evaluation.

According to Wagaiyu and Ashley⁴ (1991), gingival inflammation seems to be more severe in mouth breathers, regardless of the accumulation of plaque³⁷. Previous studies have also demonstrated that tooth crowding may predispose to gingivitis, regardless of the amount of plaque⁴ and only in mouth breathers, providing another explanation for the greater gingival inflammation at the anterior region, where tooth crowding is more intense. Thus, there may be a combination of factors, namely mouth breathing and tooth crowding, influencing the greater gingival inflammation at the anterior region¹³.

However, most studies in the literature address the periodontal parameters of non-syndromic populations, such as the studies by Anerud, et al.³ (1983), Ashley, et al.⁴ (1998) and Baelum, et al.⁵ (1986). Brown, et al.⁸ (1989) evaluated the role played by periodontal disease on tooth loss and observed that only 15% of the American population did not present any sign of periodontitis. Gingivitis was found in 50% of the population, moderate periodontal pockets in 33%, and severe periodontitis in 8% of the population. The molars were the teeth most frequently affected by periodontal disease and the incisors were the least affected, especially the maxillary central incisors. The authors further analyzed the symmetry of distribution of diseases among quadrants, comparing the right and left sides of maxillary and mandibular dental arches. Bilateral symmetry was more significant in young individuals. Elderly individuals exhibited less symmetry, probably due to the higher percentage of missing teeth.

Studies on the Brazilian population reveal diverse results as to the prevalence of periodontal disease. Susin, et al.^34,35 (2004, 2005) evaluated adult individuals and observed high prevalence of moderate to severe pockets and attachment loss. Almeida, et al.^1,2 (2007, 2008) evaluated the periodontal status of young and adult individuals with congenital malformations (clefts) and observed that the attachment loss is similar compared to individuals without clefts.

The concern to investigate the periodontal status of individuals with syndromes is present in the world literature, yet the publications are scarce and usually include only few cases^7,38.

Due to the rare occurrence of these syndromes^16,17,24, few studies on the oral health status of these individuals are available in the literature. For the same reason, most publications available so far are limited to case reports¹⁶, or include small sample sizes^13,14. Conversely, investigations on reasonably large samples include broad, heterogeneous age ranges^21,24,27,33.

The periodontal status of individuals with syndromic craniosynostosis is even more obscure, with lack of data in the literature. Thus, this study analyzed the periodontal health status of individuals with Apert, Crouzon, Pfeiffer and Saethre-Chotzen syndromes before and after toothbrushing, in addition to the efficiency of plaque removal by comparison before and after toothbrushing.

MATERIAL AND METHODS

This study was conducted at the Hospital for Rehabilitation of Craniofacial Anomalies (HRAC/USP) of the University of São Paulo, in Bauru, Brazil, following the guidelines of the Hospital's Institutional Review Board and was conducted in accordance with the World Medical Association Declaration of Helsinki. Searching a database with over 56,000 patients registered at the Hospital, 136 patients were found with a diagnosis of craniosynostosis syndromes (Table 1).

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The sample was composed of 27 individuals of both genders aged 11 to 36 years, being 9 with Crouzon syndrome, 9 with Apert syndrome, 4 with Pfeiffer syndrome and 5 with Saethre-Chotzen syndrome. The inclusion criteria comprised patients registered and treated at HRAC/USP. Individuals previously submitted to orthodontic or orthognathic treatment, serial tooth extraction or presenting with delayed neuropsychomotor development were excluded.

Clinical examinations were performed by a single examiner. Ten individuals treated at the hospital were examined twice at a one-week interval, revealing an intra-examiner agreement higher than 89% (kappa test).

The study was conducted in a two-year period. Each individual was examined only once, without further sessions for comparative evaluation. Individuals with some syndromes, such as the Apert syndrome, attend the hospital every 6 months, while individuals with other syndromes attend the hospital less frequently.

All periodontal parameters were evaluated using a periodontal probe model COLOR CODED PROBE CP-ISUNC-PCPUNC 15 (Hu-Friedy, USA), as follows:

a) Probing depth at 6 sites in each tooth (mesial, center and distal of the buccal and lingual aspects) with aid of periodontal probes. The gingival margin was taken as reference point for reading of values during probing³⁰.

b) Periodontal clinical attachment level evaluated at 6 sites in each tooth (mesial, center and distal of the buccal and lingual aspects) with aid of periodontal probes. The cementoenamel junction was taken as reference point for reading of values during probing³⁰.

c) Gingival index according to Löe²⁵(1967).

d) Plaque index, described by Silness and Löe³²(1964), which comprises visual clinical evaluation of each tooth on the mesial, distal, buccal and lingual aspects.

e) Amount of keratinized mucosa. The reference point was taken at the central region of the buccal aspect of all teeth, considering a keratinized mucosa width of = 2mm as adequate²².

f) O'Leary plaque index according to O'Leary²⁸ was evaluated before and after non-supervised manual toothbrushing, on the same day, by assessment of the presence of soft debris on tooth surfaces and dento-gingival junction as well as toothbrushing efficacy. Plaque disclosure was performed with a chewable tablet (Replasul "C", Iodontosul, Porto Alegre, Brazil). This index was evaluated twice, before and after toothbrushing as routinely performed by the patients, in order to verify if the technique employed by them was effective for plaque removal. If the plaque index remained high after toothbrushing, the patient received oral hygiene instructions by the examiner.

The periodontal parameters were evaluated before toothbrushing. The plaque index was assessed before and immediately after toothbrushing, on the same day. The patients performed toothbrushing as they routinely do, followed by oral hygiene instructions and supervised toothbrushing when required.

Comparison among syndromes as to the probing depth, attachment level, gingival index, plaque index of Silness and Löe³² and keratinized mucosa was performed by three-way analysis of variance with repeated measurements³⁹, for the following three factors: syndrome (Apert, Crouzon, Pfeiffer and Saethre-Chotzen), dental arch (maxillary and mandibular) and region (maxillary and mandibular posterior right, maxillary and mandibular anterior, and maxillary and mandibular posterior left). Comparison of the O'Leary plaque index²⁸ was performed by the same model, yet with addition of the factor period (before and after toothbrushing), at a significance level of 5%.

RESULTS

Probing depth

Table 2 reveals that only the factors dental arch and region were significant (p=0.004 and p<0.001, respectively). Application of the multiple-comparison test for each factor demonstrated that the mandibular dental arch presented significantly lower probing depth than the maxillary dental arch, and that the anterior region presented significantly lower probing depth than the right and left regions (p<0.001 in both).

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Attachment level

Table 3 demonstrates that only the factor region was statistically significant (p <0.001). The mean attachment level was significantly lower at the anterior region compared to the right and left sides (p=0.001 and p=0.007, respectively).

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Gingival index

The severity of gingival inflammation was evaluated by the gingival index. Table 4 shows an interaction effect between the factors dental arch and syndrome (p=0.037), thus requiring two types of comparison. The first presents the comparison of the types of syndromes for each region, and the second displays the comparison of the dental arches for each syndrome. The result revealed that there was no statistically significant difference between the syndromes, yet there was difference between the dental arches for the group with Apert syndrome: the mandibular dental arch presented lower mean gingival index than the maxillary dental arch (p=0.003) and mean difference of 0.25 with confidence interval between 0.10 and 0.41.

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Plaque index of Silness and Löe

Only the factor region was statistically significant (p=0.001) for the variable plaque index. Application of multiple-comparison test revealed statistically significant difference between the left side and the other regions. In both cases, the left region presented higher plaque index than the right and anterior regions (p=0.001 and p=0.005, respectively) (Table 5).

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Keratinized mucosa

Analysis of variance demonstrated that only the factor dental arch was statistically significant (p=0.006). Table 6 shows that the mean amount of keratinized mucosa was statistically greater in the maxillary dental arch (p=0.006).

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O'Leary plaque index

Analysis of variance (Table 7) revealed the presence of statistically significant interaction between the factors period, dental arch and syndrome, as well as between the factors dental arch and region. Therefore, we preferred to perform post-hoc comparisons between the syndromes by fixating the other values (Table 6 and Table 7) and comparisons between periods by fixating the other values (Table 7). These comparisons allowed the following statements:

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· Before toothbrushing, in the mandibular dental arch, in the right and anterior regions, the Pfeiffer syndrome presented significantly lower mean than all other syndromes. In the left side, the Pfeiffer syndrome presented significantly lower mean than all other syndromes except for Apert syndrome (p=0.092, Table 8);

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· Before toothbrushing, in the maxillary dental arch, the group with Pfeiffer syndrome demonstrated significantly lower mean than all other groups only at the anterior region (Table 8). In the right side, there was difference only between the Pfeiffer and Crouzon syndromes, with mean 0.62 units lower for the Pfeiffer group compared to the Crouzon group (p=0.017);

· After toothbrushing, there was no statistically significant difference between the syndromes;

· Comparison of periods, fixating the other factors, revealed statistically significant differences for all syndromes, except for Pfeiffer syndrome (Table 8).

DISCUSSION

Knowledge on the inherent oral changes of individuals with syndromic craniosynostosis is very important for oral health maintenance of these individuals because some of their structural characteristics may influence the homeostasis of oral tissues.

Analysis of results according to the region aimed to verify if some oral characteristics of these individuals, such as tooth crowding, maxillary hypoplasia, and others, might influence the periodontal health. The mean probing depths and clinical attachment levels were higher for the posterior sextants for all syndromes. This greater severity in posterior teeth is also observed in non-syndromic individuals^15,18.

The difficult access to the posterior teeth may have been worsened by the presence of gingival hyperplasia, inherent to these individuals, especially on the lingual aspects^17,24,33.

Gingival inflammation was uniformly distributed among regions and syndromes. Some factors, such as gingival hyperplasia and mouth breathing, may influence as well. Mouth breathers may present greater inflammation at the anterior region, regardless of plaque accumulation^19,37. Tooth crowding should also be considered as a factor that may predispose to gingivitis⁴.

Analysis of the plaque index revealed statistically significant difference between the left side and the other regions. This might be explained by the fact that most individuals are right-handed, which would impair the access to and visibility of the opposite side. In both cases, the left region exhibited higher plaque index than the right and anterior regions. Even though dental plaque is the cause of periodontal disease, populations of developing countries do not necessarily exhibit higher prevalence and severity of periodontal disease, despite the greater presence of plaque and gingivitis^5,6,23,26,31. The progression of gingivitis to periodontitis does not occur in a linear manner. In some cases, the lesions are restricted to the gingival tissues, without loss of connective attachment or alveolar bone. In other cases, they progress rapidly to destructive periodontitis, with loss of supporting periodontal tissue.

Gingival hyperplasia, especially at the palatal region, is inherent to some syndromes. This study evaluated the keratinized mucosa width on the buccal aspect to check if such change also affected this region. There were no significant differences between the keratinized mucosa width and region or syndrome, which indicates that gingival hyperplasia probably does not affect the buccal aspect.

Considering that the results observed by assessment of the O'Leary plaque index were significantly lower for patients with Pfeiffer syndrome, these individuals may present milder syndromic characteristics than the other individuals, with greater manual dexterity and minor oral changes, such as lateral palatal swellings and tooth crowding.

CONCLUSIONS

Within the limitations of the present study due to the small sample size, the periodontal status of individuals with Apert, Crouzon, Pfeiffer and Saethre-Chotzen syndrome seems to be similar for most variables analyzed. The posterior region was the most affected by tissue changes for all syndromes. Individuals with Pfeiffer syndrome presented greater toothbrushing efficiency those with the other syndromes evaluated in this study.

Further studies on larger and randomized samples should be conducted. These patients should be followed longitudinally to check the evolution or not of periodontal disease.

Received: January 31, 2008

Modification: June 9, 2008

Accepted: August 30, 2008

1- Almeida AL, Madeira LC, Freitas KC, Greghi SL, Pegoraro LF. Cross-sectional evaluation of the presence of gingival recession in individuals with cleft lip and palate. J. Periodontol. 2007;78:29-36.
2- Al-Wahadni A, Alhaija EB, Al-Omari MA. Oral disease status of a sample of Jordanian people ages 10 to 28 with cleft lip and palate. Cleft Palate J. 2005;42:304-8.
3- Anerud KE, Robertson PB, Loe H, Anerud LA, Boysen HM, Patters MR. Periodontal disease in three young adult populations. J Periodontal Res. 1983;18(6):655-68.
4- Ashley FP, Usiskin LA, Wilson RF, Wagaiyu E. The relationship between irregularity of the incisor teeth, plaque and gingitivis: a study in a group of schoolchildren aged 11-14 years. Eur J Orthod. 1998;20:65-72.
5- Baelum V, Fejerskov O, Karring T. Oral hygiene, gingivitis and periodontal breakdown in adult Tanzanians. J Periodontal Res.1986;21(3):221-32.
6- Baelum V, Fejerskov O. Tooth loss as related to dental caries and periodontal breakdown in adult Tanzanians. Community Dent Oral Epidemiol. 1986;14(6):353-7.
7- Bhansali RS, Yetiwar RK, Agrawal AA. Periodontal management of gingiva enlargment associated with Sturge-Weber syndrome. J Periodontol. 2007;78:1159-6
8- Brown LJ, Oliver RC, Loe H. Periodontal diseases in the U.S. in 1981: prevalence, severity, extent, and role in tooth mortality. J Periodontol. 1989;60(7):363-70.
9- Carincini F, Avantaggiato A, Curioni C. Crouzon syndrome: cephalometric analysis and evaluation of pathogenesis. Cleft Palate Craniofac J. 1994;31:201-9.
10- Cohen MM Jr., R.E. MacLean, Craniosynostosis: diagnosis, evaluation and management. 2nd ed. New York : Oxford University Press; 2000. p. 112-275.
11- Costaras-Volarich M, Pruzansky S. Is the mandible intrinsically different in Apert and Crouzon syndromes. Am J Orthod. 1984;84:475-87.
12- Cranioestenose [text in the internet]. In: Neuro PUC-PR. Curitiba: PUC-PR; 2002 [cited 2008 Nov 19]. Available from URL: <http://www.neuro.pucpr.br/ >
13- Dalben GS, Costa B, Gomide MR. Oral health status of children with syndromic craniosynostosis. Oral Health Prev Dent. 2006;4:173-9.
14- Dalben GS, Neves LT, Gomide MR. Oral findings in patients with Apert syndrome. J Appl Oral Sci. 2006;14:465-9.
15- Dowsett SA, Archila L, Segreto VA, Eckert GJ, Kowolik MJ. Periodontal disease status of an indigenous population of Guatemala, Central America. J Clin Periodontol. 2001;28(7):663-71.
16- Goho C. Dental findings in Saethre-Chotzen syndrome (acrocephalosyndactyly type III): report of case. ASDC J Dent Child. 1998;65:136-7.
17- Gorlin RJ, Cohen MM Jr, Levin LS. Syndromes with craniosynostosis: general aspects and well-known syndromes. In: Syndromes of the head and neck. 3rd ed. New York: Oxford; 1990. p.520.
18- Hohlfeld M, Bernimoulin JP. Application of the community periodontal index of treatment needs (CPITN) in a group of 45-54-year-old German factory workers. J Clin Periodontol. 1993;20(8):551-6.
19- Jacobson L. Mouthbreathing and gingivitis 1: gingival conditions in children with epipharyngeal adenoids. J Periodontal Res. 1973;8:269-77.
20- Kaloust S, Ishii K, Vargervik K. Dental development in Apet syndrome. Cleft Palate Craniofacial J. 1997;34:117-21.
21- Kreiborg S, Cohen Junior MM. The oral manifestations of Apert syndrome. J Craniofac Genet Dev Biol. 1992;12:41-8.
22- Lang NP, Loe H.The relationship between the width of keratinized gingiva and gingival health. J Periodontol. 1972;43(10):623-7.
23- Lembariti BS, Frencken JE, Pilot T. Prevalence and severity of periodontal conditions among adults in urban and rural Morogoro, Tanzania Community. Dent Oral Epidemiol. 1988;16(4):240-3.
24- Letra A, Almeida ALPF, Kaizer R; Esper LA; Sgarbosa S; Granjeiro JM. Intraoral features in Apert's Syndrome. Oral surg oral med oral path oral rad and endodontics. 2007;103(5):38-41.
25- Loe H. The gingival index, the plaque index and retention index system. J Periodontol. 1967; 38:610-6.
26- Mullally BH, Linden GJ. The periodontal condition of regular dental attenders in Northern Ireland. J Clin Periodontol. 1992;19(3):174-81.
27- Mustafa D, Lucas VS, Junod P, Evans R, Mason C, Roberts GJ. The dental health and caries- related microflora in children with craniosynostosis. Cleft Palate Craniofac J. 2001;38:629-35.
28- O'Leary TJ, Drake RB, Naylor JE. The plaque control record. J Periodontol. 1972;43(1):38.
29- Pilger TW. The craniofacial hereditary syndrome of Crouzon. Int J Orthod. 1974;12:25-9.
30- Ramfjord SP. Indices for prevalence of periodontal disease. J Periodontol. 1959;30:51-9.
31- Ronderos M, Pihlstrom BL, Hodges JS. Periodontal disease among indigenous people in the Amazon rain forest. J Clin Periodontol. 2001;28(11):995-1003.
32- Silness J, Löe H. Periodontal disease in pregnancy. II. Correlation between oral hygiene and periodontal condition. Acta Odontol Scand. 1964;22:112-35.
33- Solomon LM, Medenica M, Pruzansky S, Kreiborg S. Apert syndrome and palatal mucopolysaccharides. Teratology. 1973;287-92.
34- Susin C, Vecchia CFD, Opperman R, Haugejorden O, Albandar JM. Periodontal attachment loss in an urban population of brazilian adults: effect of demographic, behavioral and environmental risk. J Periodontol. 2004;75:1033-41.
35- Susin C, Valle P, Opperman R, Haugejorden O, Albandar JM. Occurrence and risk indicators of increase probing depth in an adult Brazilian populations. J Clin Periodontal. 2005,32:123-9.
36- Turvey TA, Long RE Jr, Hall DJ. Multidisciplinary management of Crouzon syndrome. J Am Dent Assoc. 1979;99:205-9.
37- Wagaiyu EG, Ashley FP. Mouthbreathing, lip seal and upper lip coverage and their relationship with gingival inflammation in 11-14 year-old. J Clin Periodontol. 1991;18:698-702.
38- Wiebe CB, Petricca G, Häkkinen L, Jiang G, Wu C, Larjara HS. Kindler syndrome and periodontal disease: review of the literature and a 12-year follow-up case. J Periodontol. 2008;79:549-55.
39- Winer BJ, Brown DR, Michels KM. Statistical principles in experimental design 3^rd ed. New York: McGraw-Hill; 1991. 1057p.

Corresponding address:

Dra. Ana Lúcia Pompéia Fraga de Almeida

Setor de Periodontia/ HRAC-USP

Rua Silvio Marchione, 3-20 - Vila Universitária

17043-900 - Bauru, SP - Brasil

Phone: +55-14-3235-8081

e-mail:

analmeida@usp.br

Publication Dates

Publication in this collection
12 Jan 2009
Date of issue
Feb 2009

History

Accepted
30 Aug 2008
Reviewed
09 June 2008
Received
31 Jan 2008

This work is licensed under a Creative Commons Attribution 4.0 International License.

[1] 1- Almeida AL, Madeira LC, Freitas KC, Greghi SL, Pegoraro LF. Cross-sectional evaluation of the presence of gingival recession in individuals with cleft lip and palate. J. Periodontol. 2007;78:29-36.

[2] 2- Al-Wahadni A, Alhaija EB, Al-Omari MA. Oral disease status of a sample of Jordanian people ages 10 to 28 with cleft lip and palate. Cleft Palate J. 2005;42:304-8.

[3] 3- Anerud KE, Robertson PB, Loe H, Anerud LA, Boysen HM, Patters MR. Periodontal disease in three young adult populations. J Periodontal Res. 1983;18(6):655-68.

[4] 4- Ashley FP, Usiskin LA, Wilson RF, Wagaiyu E. The relationship between irregularity of the incisor teeth, plaque and gingitivis: a study in a group of schoolchildren aged 11-14 years. Eur J Orthod. 1998;20:65-72.

[5] 5- Baelum V, Fejerskov O, Karring T. Oral hygiene, gingivitis and periodontal breakdown in adult Tanzanians. J Periodontal Res.1986;21(3):221-32.

[6] 6- Baelum V, Fejerskov O. Tooth loss as related to dental caries and periodontal breakdown in adult Tanzanians. Community Dent Oral Epidemiol. 1986;14(6):353-7.

[7] 7- Bhansali RS, Yetiwar RK, Agrawal AA. Periodontal management of gingiva enlargment associated with Sturge-Weber syndrome. J Periodontol. 2007;78:1159-6

[8] 8- Brown LJ, Oliver RC, Loe H. Periodontal diseases in the U.S. in 1981: prevalence, severity, extent, and role in tooth mortality. J Periodontol. 1989;60(7):363-70.

[9] 9- Carincini F, Avantaggiato A, Curioni C. Crouzon syndrome: cephalometric analysis and evaluation of pathogenesis. Cleft Palate Craniofac J. 1994;31:201-9.

[10] 10- Cohen MM Jr., R.E. MacLean, Craniosynostosis: diagnosis, evaluation and management. 2nd ed. New York : Oxford University Press; 2000. p. 112-275.

[11] 11- Costaras-Volarich M, Pruzansky S. Is the mandible intrinsically different in Apert and Crouzon syndromes. Am J Orthod. 1984;84:475-87.

[12] 12- Cranioestenose [text in the internet]. In: Neuro PUC-PR. Curitiba: PUC-PR; 2002 [cited 2008 Nov 19]. Available from URL: <http://www.neuro.pucpr.br/ >

[13] 13- Dalben GS, Costa B, Gomide MR. Oral health status of children with syndromic craniosynostosis. Oral Health Prev Dent. 2006;4:173-9.

[14] 14- Dalben GS, Neves LT, Gomide MR. Oral findings in patients with Apert syndrome. J Appl Oral Sci. 2006;14:465-9.

[15] 15- Dowsett SA, Archila L, Segreto VA, Eckert GJ, Kowolik MJ. Periodontal disease status of an indigenous population of Guatemala, Central America. J Clin Periodontol. 2001;28(7):663-71.

[16] 16- Goho C. Dental findings in Saethre-Chotzen syndrome (acrocephalosyndactyly type III): report of case. ASDC J Dent Child. 1998;65:136-7.

[17] 17- Gorlin RJ, Cohen MM Jr, Levin LS. Syndromes with craniosynostosis: general aspects and well-known syndromes. In: Syndromes of the head and neck. 3rd ed. New York: Oxford; 1990. p.520.

[18] 18- Hohlfeld M, Bernimoulin JP. Application of the community periodontal index of treatment needs (CPITN) in a group of 45-54-year-old German factory workers. J Clin Periodontol. 1993;20(8):551-6.

[19] 19- Jacobson L. Mouthbreathing and gingivitis 1: gingival conditions in children with epipharyngeal adenoids. J Periodontal Res. 1973;8:269-77.

[20] 20- Kaloust S, Ishii K, Vargervik K. Dental development in Apet syndrome. Cleft Palate Craniofacial J. 1997;34:117-21.

[21] 21- Kreiborg S, Cohen Junior MM. The oral manifestations of Apert syndrome. J Craniofac Genet Dev Biol. 1992;12:41-8.

[22] 22- Lang NP, Loe H.The relationship between the width of keratinized gingiva and gingival health. J Periodontol. 1972;43(10):623-7.

[23] 23- Lembariti BS, Frencken JE, Pilot T. Prevalence and severity of periodontal conditions among adults in urban and rural Morogoro, Tanzania Community. Dent Oral Epidemiol. 1988;16(4):240-3.

[24] 24- Letra A, Almeida ALPF, Kaizer R; Esper LA; Sgarbosa S; Granjeiro JM. Intraoral features in Apert's Syndrome. Oral surg oral med oral path oral rad and endodontics. 2007;103(5):38-41.

[25] 25- Loe H. The gingival index, the plaque index and retention index system. J Periodontol. 1967; 38:610-6.

[26] 26- Mullally BH, Linden GJ. The periodontal condition of regular dental attenders in Northern Ireland. J Clin Periodontol. 1992;19(3):174-81.

[27] 27- Mustafa D, Lucas VS, Junod P, Evans R, Mason C, Roberts GJ. The dental health and caries- related microflora in children with craniosynostosis. Cleft Palate Craniofac J. 2001;38:629-35.

[28] 28- O'Leary TJ, Drake RB, Naylor JE. The plaque control record. J Periodontol. 1972;43(1):38.

[29] 29- Pilger TW. The craniofacial hereditary syndrome of Crouzon. Int J Orthod. 1974;12:25-9.

[30] 30- Ramfjord SP. Indices for prevalence of periodontal disease. J Periodontol. 1959;30:51-9.

[31] 31- Ronderos M, Pihlstrom BL, Hodges JS. Periodontal disease among indigenous people in the Amazon rain forest. J Clin Periodontol. 2001;28(11):995-1003.

[32] 32- Silness J, Löe H. Periodontal disease in pregnancy. II. Correlation between oral hygiene and periodontal condition. Acta Odontol Scand. 1964;22:112-35.

[33] 33- Solomon LM, Medenica M, Pruzansky S, Kreiborg S. Apert syndrome and palatal mucopolysaccharides. Teratology. 1973;287-92.

[34] 34- Susin C, Vecchia CFD, Opperman R, Haugejorden O, Albandar JM. Periodontal attachment loss in an urban population of brazilian adults: effect of demographic, behavioral and environmental risk. J Periodontol. 2004;75:1033-41.

[35] 35- Susin C, Valle P, Opperman R, Haugejorden O, Albandar JM. Occurrence and risk indicators of increase probing depth in an adult Brazilian populations. J Clin Periodontal. 2005,32:123-9.

[36] 36- Turvey TA, Long RE Jr, Hall DJ. Multidisciplinary management of Crouzon syndrome. J Am Dent Assoc. 1979;99:205-9.

[37] 37- Wagaiyu EG, Ashley FP. Mouthbreathing, lip seal and upper lip coverage and their relationship with gingival inflammation in 11-14 year-old. J Clin Periodontol. 1991;18:698-702.

[38] 38- Wiebe CB, Petricca G, Häkkinen L, Jiang G, Wu C, Larjara HS. Kindler syndrome and periodontal disease: review of the literature and a 12-year follow-up case. J Periodontol. 2008;79:549-55.

[39] 39- Winer BJ, Brown DR, Michels KM. Statistical principles in experimental design 3^rd ed. New York: McGraw-Hill; 1991. 1057p.