OrtogOnBlender
Introdução
O OrtogOnBlender é um add-on gratuito e de código aberto para o Blender, projetado principalmente para o planejamento digital de cirurgias ortognáticas, que corrigem deformidades maxilofaciais. Desenvolvido por Cicero Moraes, Everton da Rosa e Rodrigo Dornelles (com suporte técnico de Issam Dakir e Bartoz Startek), o add-on permite simulações virtuais precisas de procedimentos, manipulando ossos, tecidos moles e reconstruções baseadas em tomografias computadorizadas (TC). Suas ferramentas integradas incluem visualização de imagens de TC, fotogrametria nativa e simulações de movimentos ósseos, democratizando o acesso para profissionais de saúde sem depender de softwares pagos de elevado valor. Validado por estudos científicos quanto à fidelidade dos planejamentos, é adotado em 33 países e 4 continentes, por cirurgiões em diversos hospitais e clínicas.
Além de ortognática, aplica-se a rinoplastias, fraturas mandibulares, expansores para bebês, documentação urológica, próteses veterinárias e faciais, além de aproximações faciais forenses e outras áreas. A seguir, dados sobre sua distribuição geográfica, impacto acadêmico e cobertura midiática.
Países
Para levantar o número de países foi efetuada uma análise no grupo de usuários e alunos do WhatsApp, onde parte da interação e suporte técnico do add-on é feito.
ID |
Código |
País |
|---|---|---|
1 |
1 |
United States |
2 |
33 |
France |
3 |
34 |
Spain |
4 |
39 |
Italy |
5 |
41 |
Switzerland |
6 |
45 |
Denmark |
7 |
48 |
Poland |
8 |
49 |
Germany |
9 |
51 |
Peru |
10 |
52 |
Mexico |
11 |
54 |
Argentina |
12 |
55 |
Brazil |
13 |
56 |
Chile |
14 |
57 |
Colombia |
15 |
60 |
Malaysia |
16 |
84 |
Vietnam |
17 |
90 |
Türkiye |
18 |
91 |
India |
19 |
212 |
Morocco |
20 |
255 |
Tanzania |
21 |
351 |
Portugal |
22 |
373 |
Moldova |
23 |
504 |
Honduras |
24 |
593 |
Ecuador |
25 |
598 |
Uruguay |
26 |
962 |
Jordan |
27 |
964 |
Iraq |
28 |
972 |
Israel |
29 |
998 |
Uzbekistan |
30 |
66 |
Thailand |
31 |
420 |
Czech Republic |
32 |
380 |
Ukraine |
33 |
31 |
Netherlands |
34 |
381 |
Serbia |
35 |
32 |
Belgium |
36 |
355 |
Albania |
Hospitais e Clínicas
Os nomes dos hospitais e clínicas foram fornecidos voluntariamente pelos usuários do OrtogOnBlender.
Nome do Hospital/Clínica |
País |
Cidade |
|---|---|---|
ADN Hospital in Andijan City |
Uzbekistan |
Andijan City |
Alalwya Specialized Dental Centre |
Iraq |
|
Alliance Hospital |
Brazil |
|
Armed Forces Hospital |
Brazil |
Brasília |
Avisenna Specialist Hospital |
Malaysia |
|
Base hospital of the Federal District |
Brazil |
Brasília |
Basic Hospital of San Marcos Ocotepeque |
Honduras |
San Marcos Ocotepeque |
Beneficência Portuguesa Hospital |
Brazil |
São Paulo |
Cajuru University Hospital |
Brazil |
Curitiba |
Cardiopulmonary Hospital |
Brazil |
|
CEMA São Paulo Hospital |
Brazil |
São Paulo |
Dental Polyclinic of the Military Fire Department of the Federal District |
Brazil |
Brasília |
Erasto Gaertner Hospital - Cancer Center |
Brazil |
Curitiba |
Hospital Bom Jesus Vilhena-RO |
Brazil |
Vilhena |
Hospital Check Up |
Brazil |
Manaus |
Hospital Coopera UNIMED Vilhena-RO |
Brazil |
Vilhena |
Hospital das Clínicas (HCFMUSP) |
Brazil |
São Paulo |
Hospital das Nações |
Brazil |
Curitiba |
Hospital Erasto Gaertner - Câncer Center |
Brazil |
Curitiba |
Hospital Regional de Vilhena-RO |
Brazil |
Vilhena |
Hospital Santiago Oriente – Dr. Luis Tisné Brousse |
Chile |
Santiago |
Hospital Universitário da Universidade Estadual de Londrina |
Brazil |
Londrina |
IMSP Institutul de Medicină Urgentă |
Moldova |
|
Itaigara Memorial Hospital |
Brazil |
|
Jorge Valente Hospital |
Brazil |
|
Manaus Adventist Hospital |
Brazil |
Manaus |
Marcelino Champagnat Hospital |
Brazil |
Curitiba |
Mato Grosso Cancer Hospital |
Brazil |
Cuiabá |
Mechnikov Hospital Dnipro |
Ukraine |
Dnipro |
National Hospital of Odonto-Stomatology in Hanoi |
Vietnam |
Hanoi |
National Institute of Neoplastic Diseases |
Peru |
|
National Niño Institute of San Borja |
Peru |
San Borja |
Paraná Institute of Otorhinolaryngology |
Brazil |
Curitiba |
Policlinico di Bari |
Italy |
Bari |
Portuguese Hospital of Bahia |
Brazil |
|
Santa Casa de Alfenas |
Brazil |
Alfenas |
Santa Casa de Misericórdia de Araçatuba and Unesp |
Brazil |
Araçatuba |
Santa Isabel Hospital |
Brazil |
|
Santa Julia Hospital |
Brazil |
Manaus |
Santo Amaro Hospital |
Brazil |
|
Santo Antônio Hospital - Sister Dulce Social Works |
Brazil |
|
Scientific University of the South |
Peru |
|
State Medical University of Medicine and Pharmacy “Nicolae Testemițanu” |
Moldova |
Chișinău |
University Clinical Hospital in Opole |
Poland |
Opole |
Valencia University Clinical Hospital |
Spain |
Valencia |
Wolfson Medical Center |
Israel |
Holon |
České Budějovice Hospital |
Czech Republic |
České Budějovice |
Referências Acadêmicas
Bertazzo, T. L., & D’Ornellas, M. C. (2023). Protocol for capturing 3D facial meshes for rhinoseptoplasty planning. In Brazilian Journal of Otorhinolaryngology (Vol. 89, Issue 5, p. 101289). Elsevier BV. https://doi.org/10.1016/j.bjorl.2023.101289
Cunha, H. S., da Costa Moraes, C. A., de Faria Valle Dornelles, R., & da Rosa, E. L. S. (2020). Accuracy of three-dimensional virtual simulation of the soft tissues of the face in OrtogOnBlender for correction of class II dentofacial deformities: an uncontrolled experimental case-series study. In Oral and Maxillofacial Surgery (Vol. 25, Issue 3, pp. 319–335). Springer Science and Business Media LLC. https://doi.org/10.1007/s10006-020-00920-0
Dallazen, E., Baccaro, G. C., Santos, A. M. de S., Queiroz, M. E., Santiago Junior, J. F., Hochuli-Vieira, E., & Faverani, L. (2023). Comparison of Manual (2D) and Digital (3D) Methods in the Assessment of Simulated Facial Edema. In Journal of Oral and Maxillofacial Surgery (Vol. 81, Issue 9, pp. 1146–1154). Elsevier BV. https://doi.org/10.1016/j.joms.2023.05.009
Façanha de Carvalho, E., Alkmin Paiva, G. L., Yonezaki, F., & Machado, G. G. (2021). Computer-Aided Surgical Simulation in Severe Atrophic Mandibular Fractures: A New Method for Guided Reduction and Temporary Stabilization Before Fixation. In Journal of Oral and Maxillofacial Surgery (Vol. 79, Issue 4, p. 892.e1-892.e7). Elsevier BV. https://doi.org/10.1016/j.joms.2020.11.011
Falih, M. R., Abed, F. M., Salazar-Gamarra, R., & Dib, L. L. (2021). Efficiency of +IDonBlender Photogrammetric Tool in Facial Prosthetics Rehabilitation – An Evaluation Study. In Karbala International Journal of Modern Science (Vol. 7, Issue 4). University of Kerbala - KIJOMS. https://doi.org/10.33640/2405-609x.3167
Kurniawan, A., Hamdani, J., Chusida, A., Utomo, H., Rizky, B. N., Prakoeswa, B. F. W. R., Yuniar, A. R., Salazar-Gamarra, R., Alias, A., Yusof, M. Y. P. M., & Marya, A. (2024). Exploring the feasibility of smartphone cameras for 3D modelling of bite patterns in forensic dental identification. In Legal Medicine (Vol. 67, p. 102399). Elsevier BV. https://doi.org/10.1016/j.legalmed.2024.102399
Lobo, F., Filho, L. I., Sigua-Rodriguez, E. A., da Silva, B. G., Tolentino, E. de S., Borges, Y. M., da Silva, M. C., Tonin, R. H., & Iwaki, L. C. V. (2022). Evaluation of ortogonblender software bone movement tools in bimaxillary orthognatic surgeries performed in dolphin software. In Journal of Stomatology, Oral and Maxillofacial Surgery (Vol. 123, Issue 4, pp. 417–421). Elsevier BV. https://doi.org/10.1016/j.jormas.2021.10.001
Moreira, T. R. M. D. R., Abreu, G. B. A., Henriques, R. M., Da Silva, A. F., Oliveira, A., Araujo, F. S., & De Freitas, P. H. L. (2022). USE OF CAD TECHNOLOGY AND 3D CUT GUIDE FOR SURGICAL REMOVAL OF IDIOPATHIC OSTEOSCLEROSIS: CASE REPORT. In Oral Surgery, Oral Medicine, Oral Pathology and Oral Radiology (Vol. 134, Issue 3, pp. e105–e106). Elsevier BV. https://doi.org/10.1016/j.oooo.2022.01.140
Nascimento, B. C. G., Moraes, C. A. D. C., Neto, R. P., Rocha, B. A., Miranda, E. D. P., Bessa, J. D., Nahas, W. C., Hallak, J., Mulhall, J. P., & Gomes, C. M. (2023). (167) 3D Penile Reconstruction Imaging in Complex Peyronie’s Disease (PD): Proof of Concept Study. In The Journal of Sexual Medicine (Vol. 20, Issue Supplement_1). Oxford University Press (OUP). https://doi.org/10.1093/jsxmed/qdad060.162
Pereira, P. G. O., Bellini-Pereira, S. A., Dahás, D., Souza, D. P. e, Freitas, K. M. S., & Janson, G. (2023). Mandibular asymmetry retreatment with minimal presurgical orthodontic preparation and fully customized lingual orthodontics: A case report with new possibilities using blender open-source software. In International Orthodontics (Vol. 21, Issue 1, p. 100724). Elsevier BV. https://doi.org/10.1016/j.ortho.2023.100724
Pierri, R. A. G., Nogueira, L. C., Balan, I., Iwaki, L. C. V., & Filho, L. I. (2019). Bimaxillary orthognatic surgery planned with the software blender, through the addon ortogonblender. In International Journal of Oral and Maxillofacial Surgery (Vol. 48, p. 254). Elsevier BV. https://doi.org/10.1016/j.ijom.2019.03.776
Pierri, R. A. G., Nogueira, L. C., Balan, I., Iwaki, L. C. V., & Filho, L. I. (2019). Bimaxillary orthognatic surgery planned with the software blender, through the addon ortogonblender. International Journal of Oral and Maxillofacial Surgery, 48, 254. https://doi.org/10.1016/j.ijom.2019.03.776
Salazar-Gamarra, R., Cárdenas-Bocanegra, A., Masch, U., Da Costa Moraes, C. A., Seelaus, R., Lopes Da Silva, J. V., & Lauria Dib, L. (2022). Color translation from monoscopic photogrammetry +ID Methodology into a Polyjet final 3D printed facial prosthesis. In F1000Research (Vol. 11, p. 582). F1000 Research Ltd. https://doi.org/10.12688/f1000research.111196.1
Sandre, L. B., de Paula e Silva, E., Izidro, A. E. R., Neto, W. M. P., da Costa Moraes, C. A., & da Rosa, E. L. S. (2022). Observational and descriptive analysis of broken dental needles: a case series. In Oral and Maxillofacial Surgery (Vol. 27, Issue 3, pp. 433–443). Springer Science and Business Media LLC. https://doi.org/10.1007/s10006-022-01078-7
Sobral, D. S., Duarte, D. W., Dornelles, R. F. V., & Moraes, C. A. C. (2021). 3D Virtual Planning for Rhinoplasty Using a Free Add-On for Open-Source Software. In Aesthetic Surgery Journal (Vol. 41, Issue 8, pp. NP1024–NP1032). Oxford University Press (OUP). https://doi.org/10.1093/asj/sjab085
Torres-Carrillo, A. J. S., Assis, H. C., Salazar-Gamarra, R. E., Teodosio, L. M., Silva-Sousa, A. C., Mazzi-Chaves, J. F., Ferreira-Soares, P. B., Sousa-Neto, M. D., & Lopes-Olhê, F. C. (2024). Evaluation of Different Techniques and Materials for Filling in 3-dimensional Printed Teeth Replicas with Perforating Internal Resorption by Means of Micro–Computed Tomography. In Journal of Endodontics (Vol. 50, Issue 2, pp. 205–212). Elsevier BV. https://doi.org/10.1016/j.joen.2023.10.014
Varotto, E., Cafarelli, F. P., Maglietta, F., Moraes, C., Ricci, P., & Galassi, F. M. (2023). Morpho-radiological and brain endocast analysis in the study of Hyperostosis Frontalis Interna (HFI): A combined approach. In D. Caramelli (Ed.), PLOS ONE (Vol. 18, Issue 3, p. e0281727). Public Library of Science (PLoS). https://doi.org/10.1371/journal.pone.0281727
Media Clipping
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Představení programu „OrtogOnBlender“ v Česku https://www.facebook.com/watch/?v=3683582091904782