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DRJ Dent Res J Dental Research Journal Dental Research Journal 1735-3327 2008-0255 Medknow Publications Pvt Ltd India DRJ-11-495 10.4103/1735-3327.139425 Original Article Using cone beam computed tomography to detect the relationship between the periodontal bone loss and mucosal thickening of the maxillary sinus Sheikhi Mahnaz Pozve Nasim J Khorrami Ladan Torabinejad Research Center and Department of Oral and Maxillofacial Radiology, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran Dental Implants Research Center and Department of Oral and Maxillofacial Radiology, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran Department of Oral and Maxillofacial Radiology, School of Dentistry, Kermanshah University of Medical Sciences, Kermanshah, Iran Address for correspondence:Nasim Pozve, No. 13, Saghire Esfahani Alloy, Jey Street, Postal Code: 8199635133, Isfahan, Iran nasimjafaripozve@yahoo.com Jul–Aug 2014 11 4 495 501 Copyright: © Dental Research Journal 2014

This is an open-access article distributed under the terms of the Creative Commons Attribution-Noncommercial-Share Alike 3.0 Unported, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Background:

Maxillary sinuses are covered by a 1 mm thick mucous membrane that when this membrane becomes inflamed, the thickness may increase 10-15 times. The common causes of odontogenic sinusitis are dental abscesses and periodontal disease. Computed tomography (CT) is considered the gold standard for sinus diagnosis. Recently, cone beam computed tomography (CBCT) has been introduced for dental and maxillofacial imaging, which has several advantages over traditional CT, including lower radiation dose and chairside process. This study aims to find the association between mucosal thickening (MT) of the sinus and periodontal bone loss (PBL) and pulpoperiapical condition.

Materials and Methods:

A total of 180 CBCT images were reviewed. PBL was assessed in six points under each sinus at the mesial and distal sides of the upper second premolar and first and second molars by measuring the distance from the alveolar crest to the point 2 mm under the cemento-enamel junction (CEJ). The MT was assessed at six points in the floor of the sinus precisely over the mentioned points. To assess the possible role of pulpoperiapical condition on the sinus MT, the existing teeth were classified into five groups due to the probable effect of each condition on the pulp and peri-apex. The statistical association between MT of sinus and PBL and pulpoperiapical condition was assessed using SPSS software (SPSS Inc., version 16.0, Chicago, IL, USA) and bivariate correlation and binary linear regression statistical tests (P < 0.05).

Results:

MT was observed in 39.4% of patients (mean = 4.68 ± 5.25 mm). PBL was seen in 33% of the patients (mean = 1.87 ± 1.63 mm). Linear regression test showed that there is an association between both PBL and pulpoperiapical condition and MT, but the effect of PBL was about 4 times stronger.

Conclusion:

This study showed that MT of the maxillary sinus was common among patients with PBL and MT of the maxillary sinus was significantly associated with PBL.

Maxillary sinus mucosal thickening periodontal bone loss
</sec> <sec> <title>Introduction

The maxillary sinuses are air cavities that communicate with the nasal cavity by ostium. 1 The sinuses are covered by a thin respiratory mucous membrane, which adheres to the periosteum and is normally about 1 mm thick. The normal sinus mucosa is not visualized on a radiograph. However, when the mucosa becomes inflamed from either an infectious or allergic process, it may increase by 10-15 times in thickness and may be seen radiographically. Mucosal thickening (MT) greater than 3 mm is most likely pathological. The radiographic image of thickened mucosa is as a non-corticated radiopaque band, paralleling the bony wall of the sinus. 2

It is estimated that 10-12% of maxillary sinusitis cases has a dental etiology. 3 The most common causes of odontogenic sinusitis are dental abscesses and periodontal disease that perforates the Schneiderian membrane. Some of the previous studies have shown a relationship between periodontitis and periapical lesions and MT. 3 , 4 , 5 , 6 , 7 The floor of the sinus is composed of dense cortical bone. Therefore, sinus infections from a dental source were thought to be uncommon, but they can occur particularly in the case of a pneumatized sinus in which the schneidarian membrane can be easily penetrated by pathogens. 8 The porous maxillary bone can directly contribute to the diffusion of pathogens and their products to the sinus floor. 9 The most common pathogens in the cases of non-odontogenic sinusitis are aerobic, whereas in the cases of odontogenic sinusitis, pathogens are commonly anaerobic that don′t respond to antibiotic therapies which is prescribed for common non-odontogenic origins, 10 so recognizing the accurate source of infection is essential for proper treatment planning. In the cases of MT of sinus due to periodontal disease, treatment of periodontal problems to reduce the pathogens and their products result in reduction of MT. 5 , 6 , 7 Many previous studies have applied conventional radiographic techniques that have not allowed accurate detection and measurement of MT. 1 , 4 , 9 , 11

Computed tomography (CT) is considered the gold standard for sinus diagnosis. 12 Recently, cone beam computed tomography (CBCT) has been introduced for dental and maxillofacial imaging, which has several advantages over traditional CT, including lower radiation dose and chairside process. 13 Therefore, the aim of the present study was to find the association between MT of the maxillary sinus and periodontal bone loss (PBL) and considering the possible contribution of tooth pulpoperiapical condition by using CBCT.

Materials and Methods

The CBCT images that were taken using the Gallileos unit (Sirona dental systems GmbH, Bensheim, Hessen, Germany), at the Department Of Radiology, Dental School, Isfahan University of Medical Sciences, from October 2011 to November 2012 were retrospectively examined. CBCT prescriptions were due to different purposes including developmental disorders, paranasal sinus diseases and trauma and most often, implant treatment planning. The inclusion criteria were:

Good quality of the images;

Existence of at least one of the first and second molar or second premolar in each left or right sides;

No sign of acute non-odontogenic sinusitis, including air-fluid level and thickening of all the sinus walls;

No prescription of CBCT due to the developmental problems or trauma.

260 CBCT images were examined and finally 180 images (51% males and 49% females), aged 13-81 years (mean age: 44.1 ± 15.7 years) were included for the analysis. The majority of images was excluded due to the absence of second premolar and first and second molar teeth below the sinus.

The Sidexis X-G software (Sirona Dental X-ray Imaging System next Generation, Sirona Dental Systems GmbH, Bensheim, Hessen, Germany), was used for the image analysis.

Panoramic, tangential and cross-sectional views of the maxilla were considered for evaluation and measurements. All images were evaluated by one trained post-graduate student of oral and maxillofacial radiology. To evaluate the intraexaminer reliability, 20 CBCT images were measured 10 days later again. The intraclass correlation coefficient was 0.93 for PBL measurements and 0.95 for MT of sinus measurements.

Assessment of PBL

All erupted maxillary second premolar and first and second molar teeth were examined. PBL was assessed from the panoramic and tangential views. The normal situation of the alveolar crest was assumed to be 2 mm under the cemento-enamel junction (CEJ). 13 To calculate the amount of PBL, the distance between the point 2 mm under the CEJ and the crest of the alveolar bone was measured at the mesial and distal sides of each tooth (totally 12 points in each patient). Furthermore, we classified the amount of the PBL as follows:

Normal;

Mild, <25% bone loss;

Moderate, 25-50% bone loss and

Severe, >50% bone loss. 14

Assessment of pulpoperiapical condition

To assess the possible role of pulpoperiapical condition of teeth on the sinus MT, we classified the existing teeth into six groups:

Normal;

Teeth with prosthetic crown;

Teeth with root canal therapy;

Teeth with both root canal therapy and crown;

Teeth with severe carries that proceed more than half of dentin and

Teeth with periapical lesion. The code number of each group (0-5), indicates the probable effect of each tooth pulp and peri-apex condition (from the least effect to the most effect).

Assessment of MT

The presence or absence of MT in the floor of the maxillary sinus was evaluated from the cross-sectional, tangential and panoramic views. In each sinus, the MT is measured in six points precisely located over the mesial and distal sides of second premolar and first and second molar teeth of the sinus floor to the highest bidder of the mucosa. For each point, MT was considered to be when there was a thickness of >1 mm. The amount of MT was also classified into five groups:

MT less than 1 mm;

1-3 mm;

3-6 mm;

6-10 mm and

More than 10 mm. 2 , 3

Statistical analysis

All data were analyzed using SPSS statistical software (version 16) (Statistical Package for Social Sciences, SPSS Inc., Chicago, IL, USA) was used to analyze the data. Bivariate correlation was used to determine any correlation between age and sex with PBL and MT. Binary linear regression analysis was used to determine the relationship between the PBL and pulpoperiapical condition on the maxillary sinus MT independently. Statistical differences with a P < 0.05 and confidence intervals of 95% were considered to be significant.

Results

The CBCT images of 358 maxillary sinuses and 2142 teeth of 180 individuals (51% males and 49% females), aged 13-81 years; (mean age: 44.1 ± 15.7) were examined. MT was observed in 39.4% of patients, which 46.6% were 1-3 mm, 26.4% were 3-6 mm, 15.1% were 6-10 mm and 3% were more than 10 mm. The mean mucosal thickness was 4.68 ± 5.25 Table 1.{Table 1}

PBL was seen in 33% of the patients, of whom 70.5% were mild, 28.5% were moderate and 3% were severe. The mean PBL was 1.87 mm ± 1. 63 mm Table 2.{Table 2}

There is a significant correlation between age and both PBL and MT of maxillary sinus (r = 0.38, P < 0.001 and r = 0.245, P < 0.005 respectively).

The independent t-test showed a higher prevalence of PBL in men than women (P < 0.05), whereas the difference between the mean bone loss was not significant (P > 0.05). Furthermore, the prevalence of sinus MT and the mean MT were significantly higher in men than women (P < 0.05).

The independent t-test showed a significant difference between the mean sinus MT in individuals with PBL and without it (P < 0.01) Table 3.{Table 3}

Bivariate correlation revealed a significant association between the PBL and MT (r = 0. 620, P < 0.01) Figure 1.

Cone beam computed tomography, tangential views condition of three patients (a) without any thickening of sinus mucosa (b) mucosal thickening (MT) of sinus floor in addition to severe periodontal bone loss (c) MT of sinus floor in addition to bone loss in the distal of second molar tooth

Figure 1

To assess the probable effect of pulpoperiapical condition on the MT, the teeth were classified into six groups, the code number which is referred to each group indicates the probable effect of each tooth pulp and peri-apex condition (minimum code number = 0, maximum = 5, mean = 0.79, standard deviation = 1.47). The distribution of the teeth due to their pulpoperiapical conditions are shown in Figure 2.

Distribution of the teeth due to the pulpoperiapical

Figure 2

The mean MT of the sinus in the different pulpoperiapical conditions are shown in Table 4.{Table 4}

Bivariate correlation revealed a significant association between the pulpoperiapical condition and MT (r = 0.27 P < 0.01).

Linear regression test was used to detect the pure effect of pulpoperiapical condition and PBL on the MT of the maxillary sinus. Linear regression test showed that there is an association between both PBL and pulpoperiapical condition and MT, but the effect of PBL was stronger. The relationship was as follows:

MT = 0.684 + 0.329 × (pulpoperiapical condition) + 1.379 × (PBL), P < 0.01.

Discussion

The aim of the present study was to clarify the possible association between PBL and MT of maxillary sinus.

In the present study, the use of CBCT sections without super imposition seen in conventional radiographs and high resolution capability allows more accurate investigation of MT of maxillary sinus as well as PBL. 15 , 16 , 17 In most of the previous studies 1 , 4 conventional radiographic techniques have been used in which differentiation between MT of infectious disease, maxillary sinus cysts and neoplasms 18 can be difficult. Since the normal thickness of the maxillary sinus mucosa (Schneiderian membrane) is about 1 mm, 2 , 19 the mucosal thickness of >1 mm was selected as evidence of MT. In the present study, MT was found in 39.4% of patients. The prevalence of the MT can change in accordance with the definition of normal mucosal thickenss. Soikkonen and Ainamo and Vallo et al. used panoramic radiographs in which accurate measurements of sinus mucosal thickness may not have been obtained. 1 , 4 In the study of Vallo et al., MT was found in 12% of cases when a 3-6 mm-thick radiopaque band along the wall of the sinus was seen. 4 Soikkonen and Ainamo did not define a baseline for MT of sinus; their assumption was the existence of diffuse radio-opacity along the sinus walls and they found the prevalence of 70% for sinus MT. 1 Savolainen et al. defined abnormal thickness as a measure of more than 6 mm. 20 Phothikhun et al. and Janner et al. both used CBCT to evaluate the sinomucosal thickness. 3 , 21 Janner et al. defined the presence of MT when it was more than 2 mm and found MT in 37% of patients. 21 Similar to our study, Phothikhun et al. defined the mucousal thickening when it was >1 mm and found MT in 42% of patients. 3

Periodontitis is regarded as the second most common disease world-wide after dental decay. In the United States has a prevalence of 30-50% of the population, but only about 10% have the severe forms. 22 In the present study, the prevalence of PBL was 33% and most of the patients (70%) had mild PBL. Due to the present study findings, a higher prevalence of MT and PBL was seen among males (P < 0.05), which was consistent with the results of Vallo et al. study. 4 Furthermore, there was a significant correlation between both the PBL and MT of the maxillary sinus and age, which was consistent with the previous studies. 3 , 4 , 11

Due to the findings of the present study, PBL and pulpoperiapical condition are significantly associated with MT (P < 0.01), but the linear regression analysis showed that the coefficient of effect of PBL was much more than pulpoperiapical condition (coefficient of 1.379 for PBL and 0.329 for pulpoperiapical condition).

Similar to the results of the present study, Vallo et al. found that MT was associated with vertical and horizontal bone loss. 4 Janner et al. also found that there is an association between the MT of the maxillary sinus and PBL. 21 Phothikhun et al. found that MT of maxillary sinus was associated with PBL, especially in severe PBL 3 . The similarity of the results of these studies with the present study can be due to the similar methods of research.

The local increased level of the pathogenic bacteria, their products and also inflammatory cytokines can diffuse directly to the sinus mucosa from maxillary bone and they can reach indirectly through blood and lymphatic vessels. Both direct and indirect ways causing thickening of sinus can be retrieved by proper periodontal therapy. 23

Similar to the present study, Vallo et al. and Nenzén and Welander 4 , 7 found that there was an association between periapical lesions and root canal fillings and MT of sinus and their findings were in contrast with results of Phothikhun et al. and Janner et al. 3 , 21 This difference can be due to the different classification of teeth. In the present study, classification of the teeth according to pulpoperiapical condition is more comprehensive and the results could be more accurate. Yoo et al. found that in the areas of tooth extraction due to the pulpal problems, thickening of sinus mucosa was much higher than the areas in which tooth were extracted due to the PBL. 24 In the present study, use of linear regression allowed the accurate measurement of pure effect of both the PBL and pulpoperiapical condition on MT. Due to the findings of the present study, both the PBL and pulpoperiapical conditions were associated with thickening, but the association between PBL and MT was about 4 times stronger. Phothikhun et al. 3 measured the PBL and MT in the both sides of the teeth and then selected the upper measurment for statistical analysis, whereas in the present study both the mesial and distal sides of each tooth were analyzed, which could be more accurate.

According to the results of the present study, the mean MT was 4.68 mm and the majority of patients were referred for CBCT for implant treatment and not for sinus problems. Therefore, MT can be asymptomatic even in measurements up to 4-5 mm and the patient may not be aware of this pathology. This fact causes some authors to define high measures of thickening as a normal. 1 , 3 , 4 , 20 , 21 , 25

Rak et al. showed that MT up to 3 mm can be clinically asymptomatic and dosen′t need complementary considerations. 26 In the Phothikhun et al. study the mean MT was 5 mm and most of the patients were asymptomatic. 3 Although most of the MTs in the sinus can be asymptomatic, but detection of this pathology is important in some conditions including sinus augmentation. This procedure is recommended in the cases in which there is a lack of enough height in the maxillary bone to insert the implant. 27 Carmeli et al. showed that there is an increased risk of sinus obstruction that may result in impaired drainage of sinus and cause acute sinusitis in patients especially if thickening is more than 5 mm. 28 As was seen in the present study, the prevalence of MT was increased in correlation with increase in age and the majority of patients who were referred for CBCT, are partially or completely edentulous patients that needed implant treatment. It is estimated that 10-12% of maxillary sinusitis cases have an odontogenic origins. 12 The most common pathogens in the cases of non-odontogenic sinusitis are aerobic and in the cases of odontogenic sinusitis pathogens are commonly anaerobic, which don′t respond to antibiotic therapies prescribed for common non-odontogenic pathogens. 10 Hence, recognizing the accurate source of infection is essential for proper treatment planning. In the cases of MT of sinus due to periodontal disease, treatment of periodontal problems to reduce the pathogens and pathogenic products result in reduction of MT. 5 , 6 , 7

Since in the present study the archival CBCT images were used, there was the lack of clinical examination and accurate history about the periodontal and sinus problems. Furthermore, cases with the signs of acute sinusitis including air-fluid level and complete thickening in all the sinus walls were excluded, so there is a need for additional researches to clarify the accurate association between the PBL and MT of maxillary sinus with regards to the clinical symptoms.

Conclusion

Within the limitations of this study, it was shown that there was an association between both PBL and pulpoperiapical condition and MT, but the effect of PBL was stronger.

This study was performed under the support of the Isfahan University of Medical Sciences, School of Dentistry and Torabinejad Research Center.

Soikkonen K Ainamo A Radiographic maxillary sinus findings in the elderly Oral Surg Oral Med Oral Pathol Oral Radiol Endod 1995 80 487 91 White SC Pharoah MJ.Oral Radiology th ed 6 th Pharoah MJ Oral Radiology 6 th ed St Louis: Mosby Elsevier; 2009 p 506-12 Phothikhun S Suphanantachat S Chuenchompoonut V Nisapakultorn K Cone-beam computed tomographic evidence of the association between periodontal bone loss and mucosal thickening of the maxillary sinus J Periodontol 2012 83 557 64 Vallo J Suominen-Taipale L Huumonen S Soikkonen K Norblad A Prevalence of mucosal abnormalities of the maxillary sinus and their relationship to dental disease in panoramic radiography: Results from the health 2000 health examination survey Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2010 109 E80 7 Engström H Chamberlain D Kiger R Egelberg J Radiographic evaluation of the effect of initial periodontal therapy on thickness of the maxillary sinus mucosa J Periodontol 1988 59 604 8 Falk H Ericson S Hugoson A The effects of periodontal treatment on mucous membrane thickening in the maxillary sinus J Clin Periodontol 1986 13 217 22 Nenzén B Welander U The effect of conservative root canal therapy on local mucosal hyperplasia in the maxillary sinus Odontol Revy 1967 18 295 302 Bhattacharyya N Do maxillary sinus retention cysts reflect obstructive sinus phenomena? Arch Otolaryngol Head Neck Surg 2000 126 1369 71 Havas TE Motbey JA Gullane PJ Prevalence of incidental abnormalities on computed tomographic scans of the paranasal sinuses Arch Otolaryngol Head Neck Surg 1988 114 856 9 Puglisi S Privitera S Maiolino L Serra A Garotta M Blandino G Bacteriological findings and antimicrobial resistance in odontogenic and non-odontogenic chronic maxillary sinusitis J Med Microbiol 2011 60 1353 9 Iwabuchi Y Hanamure Y Ueno K Fukuda K Furuta S Clinical significance of asymptomatic sinus abnormalities on magnetic resonance imaging Arch Otolaryngol Head Neck Surg 1997 123 602 4 Mafee MF Tran BH Chapa AR Imaging of rhinosinusitis and its complications: Plain film, CT, and MRI Clin Rev Allergy Immunol 2006 30 165 86 Scarfe WC Farman AG Sukovic P Clinical applications of cone-beam computed tomography in dental practice J Can Dent Assoc 2006 72 75 80 Newman MG Takei HH Klokkevold PR Carranza FA Clinical Periodontology.11 th ed St Clinical Periodontology 11 th ed St Louis: Elsevier Saunders; 2012 p 160-1 Sheikhi M Mosavat F Ahmadi A Assessing the anatomical variations of lingual foramen and its bony canals with CBCT taken from 102 patients in Isfahan Dent Res J (Isfahan) 2012 9 S45 51 Dalili Z Mahjoub P Sigaroudi AK Comparison between cone beam computed tomography and panoramic radiography in the assessment of the relationship between the mandibular canal and impacted class C mandibular third molars Dent Res J (Isfahan) 2011 8 203 10 Dalili Z Khaki N Kia SJ Salamat F Assessing joint space and condylar position in the people with normal function of temporomandibular joint with cone-beam computed tomography Dent Res J (Isfahan) 2012 9 607 12 Baykara M Erdoúan N Ozturk M Erkan M Maxillary sinus aplasia Turk J Med Sci 2002 32 273 5 Misch CE Resnik RR Misch-Dietsh F Maxillary sinus anatomy, pathology, and graft surgery.In: Misch CE, editor Contemporary Implant Dentistry Maxillary sinus anatomy, pathology, and graft surgery In: Misch CE, editor Contemporary Implant Dentistry St Louis: Mosby; 2008 p 912-22 Savolainen S Eskelin M Jousimies-Somer H Ylikoski J Radiological findings in the maxillary sinuses of symptomless young men Acta Otolaryngol Suppl 1997 529 153 7 Janner SF Caversaccio MD Dubach P Sendi P Buser D Bornstein MM Characteristics and dimensions of the Schneiderian membrane: A radiographic analysis using cone beam computed tomography in patients referred for dental implant surgery in the posterior maxilla Clin Oral Implants Res 2011 22 1446 53 Shao MY Huang P Cheng R Hu T Interleukin-6 polymorphisms modify the risk of periodontitis: A systematic review and meta-analysis J Zhejiang Univ Sci B 2009 10 920 7 Feng Z Weinberg A Role of bacteria in health and disease of periodontal tissues Periodontol 2000 2006;40 50 76 Yoo JY Pi SH Kim YS Jeong SN You HK Healing pattern of the mucous membrane after tooth extraction in the maxillary sinus J Periodontal Implant Sci 2011 41 23 9 Thiagarajan B Narashiman S Hypoplasia of all paranasal sinuses A case series and literature review Otolaryngol Online J ; 2 Hypoplasia of all paranasal sinuses A case series and literature review Otolaryngol Online J 2012;2 Rak KM Newell JD 2 n nd Yakes WF Damiano MA Luethke JM Paranasal sinuses on MR images of the brain 1991 :381 4 Pal US Sharma NK Singh RK Mahammad S Mehrotra D Singh N Direct vs.indirect sinus lift procedure: A comparison Natl J Maxillofac Surg 2012 3 31 7 Carmeli G Artzi Z Kozlovsky A Segev Y Landsberg R Antral computerized tomography pre-operative evaluation: Relationship between mucosal thickening and maxillary sinus function Clin Oral Implants Res 2011 22 78 82