Interactive design of dental implant placements through CAD-CAM technologies: from 3D imaging to additive manufacturing

In the field of oral rehabilitation, the combined use of 3D imaging technologies and computer-guided approaches allows the development of reliable tools to be used in preoperative assessment of implant placement. In particular, the accurate transfer of the virtual planning into the operative field through surgical guides represents the main challenge of modern dental implantology. Guided implant positioning allows surgical and prosthetic approaches with minimal trauma by reducing treatment time and decreasing patient’s discomfort. This paper aims at defining a CAD/CAM framework for the accurate planning of flapless dental implant surgery. The system embraces three major applications: (1) freeform modelling, including 3D tissue reconstruction and 2D/3D anatomy visualization, (2) computer-aided surgical planning and customised template modelling, (3) additive manufacturing of guided surgery template. The tissue modelling approach is based on the integration of two maxillofacial imaging techniques: tomographic scanning and surface optical scanning. A 3D virtual maxillofacial model is created by matching radiographic data, captured by a CBCT scanner, and surface anatomical data, acquired by a structured light scanner. The pre-surgical planning process is carried out and controlled within the CAD application by referring to the integrated anatomical model. A surgical guide is then created by solid modelling and manufactured by additive techniques. Two different clinical cases have been approached by inserting 11 different implants. CAD-based planned fixture placements have been transferred into the clinical field by customised surgical guides, made of a biocompatible resin and equipped with drilling sleeves.

[1]  Silvio Mario Meloni,et al.  Implant treatment software planning and guided flapless surgery with immediate provisional prosthesis delivery in the fully edentulous maxilla. A retrospective analysis of 15 consecutively treated patients. , 2010, European journal of oral implantology.

[2]  André Mol,et al.  Interproximal tissue dimensions in relation to adjacent implants in the anterior maxilla: clinical observations and patient aesthetic evaluation. , 2009, Clinical oral implants research.

[3]  Konstantinos X Michalakis,et al.  Immediately loaded maxillary and mandibular dental implants with fixed CAD/CAM prostheses using a flapless surgical approach: a clinical report. , 2011, Journal of prosthodontics : official journal of the American College of Prosthodontists.

[4]  Christopher B Marchack,et al.  An immediately loaded CAD/CAM-guided definitive prosthesis: a clinical report. , 2005, The Journal of prosthetic dentistry.

[5]  Anthony G Sclar,et al.  Guidelines for flapless surgery. , 2007, Journal of oral and maxillofacial surgery : official journal of the American Association of Oral and Maxillofacial Surgeons.

[6]  R Jacobs,et al.  Accuracy of implant placement based on pre-surgical planning of three-dimensional cone-beam images: a pilot study. , 2007, Journal of clinical periodontology.

[7]  J. D'haese,et al.  Accuracy and complications using computer-designed stereolithographic surgical guides for oral rehabilitation by means of dental implants: a review of the literature. , 2012, Clinical implant dentistry and related research.

[8]  G. Swennen,et al.  Cone-beam computerized tomography (CBCT) imaging of the oral and maxillofacial region: a systematic review of the literature. , 2009, International journal of oral and maxillofacial surgery.

[9]  S. Barone,et al.  Computer-aided modelling of three-dimensional maxillofacial tissues through multi-modal imaging , 2013, Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine.

[10]  J Neugebauer,et al.  CAD/CAM-produced surgical guides: Optimizing the treatment workflow. , 2011, International journal of computerized dentistry.

[11]  Sandro Barone,et al.  Integration of 3D anatomical data obtained by CT imaging and 3D optical scanning for computer aided implant surgery , 2011, BMC Medical Imaging.

[12]  R. M. Bentz,et al.  Complete Oral Rehabilitation With Implants Using CAD/CAM Technology, Stereolithography, and Conoscopic Holography , 2012, Implant dentistry.

[13]  Dennis P Tarnow,et al.  The effect of interimplant distance on the height of the interimplant bone crest when using platform-switched implants. , 2009, The International journal of periodontics & restorative dentistry.

[14]  R Jacobs,et al.  The use of CT scan based planning for oral rehabilitation by means of implants and its transfer to the surgical field: a critical review on accuracy. , 2008, Journal of oral rehabilitation.

[15]  Roberto Rossi,et al.  Planning implants in the esthetic zone using a new implant 3D navigation system. , 2010, The European journal of esthetic dentistry : official journal of the European Academy of Esthetic Dentistry.

[16]  Giuseppe Marzo,et al.  Digital implant planning for a minimally invasive surgery approach: a case letter of a full-arch rehabilitation. , 2015, The Journal of oral implantology.

[17]  Markus B Blatz,et al.  Precision for computer-guided implant placement: using 3D planning software and fixed intraoral reference points. , 2007, Journal of oral and maxillofacial surgery : official journal of the American Association of Oral and Maxillofacial Surgeons.

[18]  S. Mukherji,et al.  Conebeam CT of the Head and Neck, Part 2: Clinical Applications , 2009, American Journal of Neuroradiology.

[19]  Sandro Barone,et al.  Creation of 3D Multi-Body Orthodontic Models by Using Independent Imaging Sensors , 2013, Sensors.

[20]  Jef M. van der Zel Implant planning and placement using optical scanning and cone beam CT technology. , 2008 .

[21]  D P Tarnow,et al.  Preservation of implant esthetics: soft tissue and restorative considerations. , 1996, Journal of esthetic dentistry.

[22]  A Sethi,et al.  Predicting esthetics in implant dentistry using multiplanar angulation: a technical note. , 1995, The International journal of oral & maxillofacial implants.

[23]  S. Mukherji,et al.  Conebeam CT of the Head and Neck, Part 1: Physical Principles , 2009, American Journal of Neuroradiology.

[24]  I. Churchill-Davidson,et al.  Oxygenation in radiotherapy. II. Clinical application. , 1957, The British journal of radiology.

[25]  Abbas Azari,et al.  Custom-made radiographic template, computed tomography, and computer-assisted flapless surgery for treatment planning in partial edentulous patients: a prospective 12-month study. , 2010, Journal of oral and maxillofacial surgery : official journal of the American Association of Oral and Maxillofacial Surgeons.

[26]  Manfred Hesse,et al.  1 Physical Principles , 2008 .

[27]  Wim Teughels,et al.  Critical horizontal dimensions of interproximal and buccal bone around implants for optimal aesthetic outcomes: a systematic review. , 2009, Clinical oral implants research.

[28]  Adriano Piattelli,et al.  The relationship between interimplant distances and vascularization of the interimplant bone. , 2010, Clinical oral implants research.

[29]  Gary Orentlicher,et al.  An open system approach for surgical guide production. , 2011, Journal of oral and maxillofacial surgery : official journal of the American Association of Oral and Maxillofacial Surgeons.

[30]  Reinhilde Jacobs,et al.  State-of-the-art on cone beam CT imaging for preoperative planning of implant placement , 2006, Clinical Oral Investigations.

[31]  Abbas Azari,et al.  Flapless implant surgery: review of the literature and report of 2 cases with computer-guided surgical approach. , 2008, Journal of oral and maxillofacial surgery : official journal of the American Association of Oral and Maxillofacial Surgeons.

[32]  Paulo Malo,et al.  The use of computer-guided flapless implant surgery and four implants placed in immediate function to support a fixed denture: preliminary results after a mean follow-up period of thirteen months. , 2007, The Journal of prosthetic dentistry.

[33]  Alan L Rosenfeld,et al.  Prosthetically directed implant placement using computer software to ensure precise placement and predictable prosthetic outcomes. Part 1: diagnostics, imaging, and collaborative accountability. , 2006, The International journal of periodontics & restorative dentistry.

[34]  N. Van Assche,et al.  Accuracy assessment of computer-assisted flapless implant placement in partial edentulism. , 2010, Journal of clinical periodontology.

[35]  P Ausiello,et al.  Accuracy evaluation of surgical guides in implant dentistry by non-contact reverse engineering techniques. , 2012, Dental materials : official publication of the Academy of Dental Materials.