Accuracy of Computer-Assisted Template-Based Implant Placement Using Two Different Surgical Templates Designed with or without Metallic Sleeves: A Randomized Controlled Trial

Purpose: To compare virtual planning accuracy of novel computer-assisted, template-based implant placement techniques, which make use of CAD/CAM stereolithographic surgical templates with or without metallic sleeves. Furthermore, to compare open versus closed sleeves for templates without metallic sleeves. Materials and methods: Any partially edentulous patients requiring at least one implant to be placed according to a computer-assisted template-based protocol were enrolled. Patients were randomized according to a parallel group design into two arms: Surgical template with or without metallic sleeves. Three deviation parameters (angular, horizontal, vertical) were defined to evaluate the discrepancy between the planned and placed implant positions. Results: No implants failed, and no complications were experienced. Forty-one implants were placed using surgical templates with metallic sleeves while 49 implants were placed with a surgical template without metallic sleeves. Of these, 16 implants were placed through open sleeves and 33 through closed sleeves. There was a statistically significant difference in angle (p = 0.0212) and in the vertical plan (p = 0.0073) with lower values for implants placed with a surgical template without metallic sleeves. In the test group, close sleeves were more accurate compared with open sleeves in angle (p = 0.0268) and in horizontal plan (p = 0.0477). Conclusion: With the limitations of the present study, surgical templates without metallic sleeves were more accurate in the vertical plan and angle compared to the conventional template with metallic sleeves. Open sleeves should be used with caution in the molar region only in case of reduced interarch space. Further research is needed to confirm these preliminary results.

[1]  M. Tallarico,et al.  Accuracy of newly developed sleeve‐designed templates for insertion of dental implants: A prospective multicenters clinical trial , 2018, Clinical implant dentistry and related research.

[2]  M. Tallarico,et al.  Retrospective Analysis on Survival Rate, Template-Related Complications, and Prevalence of Peri-implantitis of 694 Anodized Implants Placed Using Computer-Guided Surgery: Results Between 1 and 10 Years of Follow-Up. , 2017, The International journal of oral & maxillofacial implants.

[3]  M. Esposito,et al.  Computer-guided vs freehand placement of immediately loaded dental implants: 5-year postloading results of a randomised controlled trial. , 2018, European journal of oral implantology.

[4]  André Gahleitner,et al.  Computed tomography-based evaluation of template (NobelGuide™)-guided implant positions: a prospective radiological study. , 2011, Clinical oral implants research.

[5]  Mijin Choi,et al.  Effects of varied dimensions of surgical guides on implant angulations. , 2004, The Journal of prosthetic dentistry.

[6]  David Schneider,et al.  In-vitro evaluation of the tolerance of surgical instruments in templates for computer-assisted guided implantology produced by 3-D printing. , 2015, Clinical oral implants research.

[7]  S. Logozzo,et al.  Intraoral scanners in dentistry: a review of the current literature , 2017, BMC oral health.

[8]  M. Tallarico,et al.  Immediate Loading of Fixed Complete Denture Prosthesis Supported by 4–8 Implants Placed Using Guided Surgery: A 5‐Year Prospective Study on 66 Patients with 356 Implants , 2017, Clinical implant dentistry and related research.

[9]  Daniel Wismeijer,et al.  Computer technology applications in surgical implant dentistry: a systematic review. , 2014, The International journal of oral & maxillofacial implants.

[10]  Accuracy of computer-assisted template- based implant placement using a conventional impression and scan model or digital impression: A preliminary report from a randomized controlled trial , 2017 .

[11]  C. Mangano,et al.  Clinical applications and effectiveness of guided implant surgery: a critical review based on randomized controlled trials , 2017, BMC Oral Health.

[12]  F. Thieringer,et al.  Evaluation of Two 3D Printers for Guided Implant Surgery. , 2018, The International journal of oral & maxillofacial implants.

[13]  M. Esposito,et al.  Computer-guided versus free-hand placement of immediately loaded dental implants: 1-year post-loading results of a multicentre randomised controlled trial. , 2014, European journal of oral implantology.

[14]  A. Buj-Bello,et al.  The glossary of prosthodontic terms. , 2005, The Journal of prosthetic dentistry.