Evaluation of maxillary sinus volumes and pathologies in children with and without cleft lip and palate using cone beam computed tomography.

OBJECTIVE: The aim of this study is to evaluate the maxillary sinus (MS) volume and pathologies, nasal septum (NS) deviation, and MS septa formation in children with and without cleft lip and palate (CLP); also to investigate the possible causes of MS pathologies. MATERIALS AND METHODS: Cone Beam Computed Tomography (CBCT) images of 200 (100 CLP, 100 control) children (5-18 years old) were evaluated from the computer database of Marmara University Faculty of Dentistry. Children with a history of maxillofacial trauma, diseases that affect bone metabolism, orthognathic surgery, extrinsic pathologies of the MS, and accompanying syndromes were excluded. NS deviation, MS septa formation, volume, and pathologies evaluated using Mimics® software. In statistical evaluations; Student t test, paired sample t test, Chi-Square test, Fisher's Exact Chi-Square test, Continuity Correction, Chi-square analysis in one-eyed layout, McNemar test, and logistic regression analysis were used. RESULTS: Total MS volume was smaller in the CLP group (21 232 mm3 ) than in control children (23 763 mm3 ) (P:0.026). NS deviation and MS pathology were more frequent in the CLP. In logistic regression analysis, there was no significant relation between the presence of NS deviation and pathology in MS. The presence of CLP increased the risk of MS pathology by 2.6 times. CONCLUSION: We found that children with CLP have less MS volume and an increased rate of NS deviation and MS pathology compared to the control group. Further radiological and clinical studies are needed to explain the predisposing factors of MS pathology in children with CLP.

Prevalence of Incidental Findings and Assessment of Maxillary Sinus Pathologies and Dental Diseases Using Cone-Beam Computed Tomography (CBCT) in the Tamil Nadu Population: A Retrospective Study.

Background Cone-beam computed tomography (CBCT), a cross-sectional imaging technique, is valuable for clinical diagnosis and creating effective treatment plans. CBCT can precisely examine the connection between the maxillary sinuses and the maxillary root apices. Oral radiologists must be aware of all potential incidental findings and should be diligent in thoroughly identifying and assessing possible underlying diseases. Aim To determine the prevalence of incidental maxillary sinus pathologies and their relationship to dental diseases. Materials and methods In the present retrospective study, CBCT scans from 300 subjects (encompassing 600 right and left maxillary sinuses), aged 18 to 70, were gathered from various CBCT centers to represent the Tamil Nadu population. The CBCT images were analyzed using proprietary software, which provided both a panoramic reconstruction view and multiplanar reformation modules, including axial, sagittal, and coronal slices. The entire sample size was classified as follows: Group 1, age groups of 18 to 25 years; Group 2, age groups of 26 to 35 years; Group 3, age groups of 36 to 45 years; Group 4, age groups of 46 to 55 years; Group 5, age groups of 56 to 65 years; Group 6, age groups of 66 to 70 years. The prevalence of incidental maxillary sinus findings was analyzed, and their relationship with periapical abscess, periapical granuloma, periapical cyst, and breach was assessed. Results There was a prevalence of 52.05% of cases that had incidental maxillary sinus findings. Among them, 53.43% were males and 50.65% were females. Maxillary sinus pathologies were more common in individuals between 46 and 55 years, i.e., Group 4. In 300 datasets, the frequency of incidental maxillary sinus findings on the right is 21.33%, on the left is 24%, in both is 6.67%, and absent in 48% of the cases. Mucosal thickening was observed in 30% of cases with a periapical abscess, 19.52% with a periapical granuloma, 25% with a periapical cyst, and 51.79% with a breach. Polypoidal mucosal thickening was present in 32.50% of cases with a periapical abscess, 13.79% with a periapical granuloma, 50% with a periapical cyst, and 23.21% with a breach. Opacification occurred in 37.50% of cases with a periapical abscess, 20.69% with a periapical granuloma, 25% with a periapical cyst, and 25% with a breach. Conclusion Dental professionals should have a bird's-eye view in treating chronic odontogenic infections close to the maxillary sinus. Early diagnosis and prompt treatment of odontogenic infections help prevent maxillary sinus pathologies.

Proposal for a Paradigm Shift in Personalized Medicine for Patients with a Maxillary Edentulous Jaw by ENT Specialist and Dentist Cooperation.

With the spread of oral implant therapy, serious medical complications related to implant surgery are becoming a social problem. Although the number of complications after implant surgery in the edentulous jaw is decreasing in Japan, maxillary-sinus-related complications (MSRCs) have reached the highest number since 2012. It is essential to identify and eliminate possible predisposing risk factors for MSRCs at an early stage to prevent MSRCs. In this review article, we highlight the causal factors of postoperative complications with or without sinus augmentation for the maxillary molar region to achieve optimal treatment outcomes and reduce complications. In particular, we focus on anatomical variations that can cause the impairment of maxillary sinus drainage. Furthermore, we emphasize that the paradigm for personalized medicine for patients with a maxillary edentulous jaw by ENT specialist and dentist cooperation is shifting from the traditional assessment of maxillary sinus pathologies alone to the new assessment of anatomic variations that can cause the impairment of maxillary sinus drainage in addition to maxillary sinus pathologies.

Imaging technologies for the detection of sinus pathologies of odontogenic origin. A review.

Sinus pathologies of odontogenic origin (SPO) are common in the clinical consultation; however, the dentist has some complications to detect them because their discovery is usually incidental and through imaging studies that, in most cases, are of low quality. The objective of this review is to describe the pertinent imaging resources that allow the detection of the most frequent SPO and, at the same time, carry out an updated review of the scientific literature in order to recognize the imaging of both the maxillary sinus and the dental organs. The scientific literature focused on this topic, published between 2014 and 2020, was consulted. The review showed two important results: the first is that Cone Beam Tomography (CBCT) represents the imaging modality with the best performance for the detection of SPO by what can be considered the gold standard for this purpose. The second is that the most frequent SPO is sinus mucositis, which is related to odontogenic conditions such as periapical lesions and periodontal affectations. Although Cone Beam Computed Tomography (CBCT) is the most appropriate tool to detect SPO compared to images obtained by 2D devices, there are also other alternatives such as magnetic resonance imaging and ultrasonography, which seem to have a promising future.

Las patologías sinusales de origen odontogénico (PSO) son frecuentes en la consulta clínica; sin embargo, el odontólogo tiene algunas complicaciones para detectarlos porque su descubrimiento suele ser incidental y mediante estudios de imagen que, en la mayoría de los casos, son de baja calidad. El objetivo de esta revisión es describir los recursos de imagen pertinentes que permitan la detección de las PSO más frecuentes y, al mismo tiempo, realizar una revisión actualizada de la literatura científica con el fin de reconocer la imagenologia tanto del seno maxilar como de los órganos dentales. Se consultó la literatura científica centrada en este tema, publicada entre 2014 y 2020. La revisión arrojó dos resultados importantes: el primero es que la tomografía de haz cónico (TCHC) representa la modalidad de imagen con mejor desempeño para la detección de PSO, por lo que se puede considerar el estándar de oro para este propósito. La segunda es que la PSO más frecuente es la mucositis sinusal, que se relaciona con afecciones odontogénicas como lesiones periapicales y afectaciones periodontales. Si bien la TCHC es la herramienta más adecuada para detectar la SPO en comparación con las imágenes obtenidas con dispositivos 2D, también existen otras alternativas como la resonancia magnética y la ecografía, que parecen tener un futuro prometedor.

Imaging technologies for the detection of sinus pathologies of odontogenic origin. A review / Herramientas imagenológicas para la detección de patologías sinusales de origen odontogénico. Una revisión

Sinus pathologies of odontogenic origin (SPO) are common in the clinical consultation; however, the dentist has some complications to detect them because their discovery is usually incidental and through imaging studies that, in most cases, are of low quality. The objective of this review is to describe the pertinent imaging resources that allow the detection of the most frequent SPO and, at the same time, carry out an updated review of the scientific literature in order to recognize the imaging of both the maxillary sinus and the dental organs. The scientific literature focused on this topic, published between 2014 and 2020, was consulted. The review showed two important results: the first is that Cone Beam Tomography (CBCT) represents the imaging modality with the best performance for the detection of SPO by what can be considered the gold standard for this purpose. The second is that the most frequent SPO is sinus mucositis, which is related to odontogenic conditions such as periapical lesions and periodontal affectations. Although Cone Beam Computed Tomography (CBCT) is the most appropriate tool to detect SPO compared to images obtained by 2D devices, there are also other alternatives such as magnetic resonance imaging and ultrasonography, which seem to have a promising future. (AU)

Las patologías sinusales de origen odontogénico (PSO) son frecuentes en la consulta clínica; sin embargo, el odontólogo tiene algunas complicaciones para detectarlos porque su descubrimiento suele ser incidental y mediante estudios de imagen que, en la mayoría de los casos, son de baja calidad. El objetivo de esta revisión es describir los recursos de imagen pertinentes que permitan la detección de las PSO más frecuentes y, al mismo tiempo, realizar una revisión actualizada de la literatura científica con el fin de reconocer la imagenologia tanto del seno maxilar como de los órganos dentales. Se consultó la literatura científica centrada en este tema, publicada entre 2014 y 2020. La revisión arrojó dos resultados importantes: el primero es que la tomografía de haz cónico (TCHC) representa la modalidad de imagen con mejor desempeño para la detección de PSO, por lo que se puede considerar el estándar de oro para este propósito. La segunda es que la PSO más frecuente es la mucositis sinusal, que se relaciona con afecciones odontogénicas como lesiones periapicales y afectaciones periodontales. Si bien la TCHC es la herramienta más adecuada para detectar la SPO en comparación con las imágenes obtenidas con dispositivos 2D, también existen otras alternativas como la resonancia magnética y la ecografía, que parecen tener un futuro prometedor. (AU)

Cirugía de elevación del seno asociada con pseudoquiste antral y mucocele / Sinus lifting surgery associated with antral pseudocyst and mucocele

Introducción: pseudoquistes y quistes verdaderos de los maxilares son contraindicaciones para cirugías de aumento de volumen óseo en la región posterior de la maxila. Objetivo: describir dos casos de pacientes con transtornos en los senos maxilares (pseudoquiste y quiste verdadero del maxilar) en senos maxilares neumatizados que necesitaban reconstrucción ósea, para posterior rehabilitacion con implantes oseointegrados. Presentación de casos: se presentan dos casos clínicos en que la planificación quirúrgica consistió en la remoción de la lesión y simultánea elevación del suelo del seno maxilar. En el primer caso, pseudoquiste antral, se procedió a la aspiración del contenido quístico previamente a la elevación de la membrana de Schneider. En el segundo caso, quiste verdadero del seno maxilar, se realizó la remoción completa de la lesión quística. En ambos casos no hubo perforación de la membrana, y el hueso bovino inorgánico fue utilizado como material de relleno. La instalación de los implantes fueron después de 7 meses de la cirugía de elevación de seno. Los controles clínicos y tomográficos mostraron adecuada oseointegración de los implantes y ausencia de recidiva y/o restos de la lesión. Conclusiones: el quiste verdadero del seno maxilar causa la destrucción de las paredes óseas y debe ser removido previamente a las cirugías de elevación sinusal. Ningún tratamiento es indicado para el pseudoquiste antral, teniendo claro que la lesión no representa necesariamente una contraindicación para la elevación de la membrana sinusal y colocación de injerto óseo para implantes. Mientras tanto, la aspiración previa de contenido líquido del pseudoquiste evita posibles complicaciones infecciosas posoperatorias(AU)

Introduction: maxillary pseudocysts and true cysts are contraindications for bone volume augmentation surgery in the posterior maxillary region. Objective: describe two cases of patients with maxillary sinus disorders (pseudocyst and true cyst) in pneumatized maxillary sinuses requiring bone reconstruction with a view to eventual rehabilitation with osseointegrated implants. Case presentation: two clinical cases are presented in which surgical planning consisted in lesion removal and simultaneous maxillary sinus floor elevation. In the first case, antral pseudocyst, aspiration was performed of the cystic content before elevation of the Schneiderian membrane. In the second case, true cyst of the maxillary sinus, total removal of the cystic lesion was performed. Membrane perforation did not occur in either case. Inorganic bovine bone was used as filler in both. Implantation was performed 7 months after sinus lifting surgery. Clinical and tomographic examination showed adequate implant osseointegration and absence of recurrence and/or lesion remnants. Conclusions: true maxillary sinus cysts cause bone wall destruction, and should be removed before performing sinus lifting surgery. No treatment is indicated for antral pseudocyst, for the lesion does not necessarily constitute a contraindication for sinus membrane lifting and bone graft placement for implantation. On the other hand, previous aspiration of the liquid content of the pseudocyst prevents possible postoperative infectious complications(AU)