Effect of microthread design on the preservation of marginal bone around immediately placed implants: a 5-years prospective cohort study

[1]  Qi Zhang,et al.  Marginal Bone Loss around Machined Smooth Neck Implants compared to Rough Threaded Neck Implants: A Systematic Review and Meta-Analysis. , 2021, Journal of prosthodontics : official journal of the American College of Prosthodontists.

[2]  Qing Li,et al.  The effect of implant neck microthread design on stress distribution of peri-implant bone with different level: A finite element analysis , 2019, Journal of dental sciences.

[3]  N. Pandis,et al.  Reporting and handling of incomplete outcome data in implant dentistry: A survey of randomized clinical trials. , 2019, Journal of clinical periodontology.

[4]  Theofilos Koutouzis Implant-abutment connection as contributing factor to peri-implant diseases. , 2019, Periodontology 2000.

[5]  R. Sader,et al.  Influence of implant neck and abutment characteristics on peri-implant tissue health and stability. Oral reconstruction foundation consensus report. , 2019, Clinical oral implants research.

[6]  M Sesha Reddy,et al.  Application of Finite Element Model in Implant Dentistry: A Systematic Review , 2019, Journal of pharmacy & bioallied sciences.

[7]  M. Sanz,et al.  Ridge alterations after implant placement in fresh extraction sockets or in healed crests: An experimental in vivo investigation , 2019, Clinical oral implants research.

[8]  A. Vissink,et al.  Buccal bone thickness at dental implants in the maxillary anterior region with large bony defects at time of immediate implant placement: A 1‐year cohort study , 2018, Clinical implant dentistry and related research.

[9]  P. Nicolau,et al.  Titanium dental implants with different collar design and surface modifications: A systematic review on survival rates and marginal bone levels , 2019, Clinical oral implants research.

[10]  A. Jokstad,et al.  Systematic review of clinical and patient‐reported outcomes following oral rehabilitation on dental implants with a tapered compared to a non‐tapered implant design , 2018, Clinical oral implants research.

[11]  E. Barbato,et al.  Are intraoral radiographs reliable in determining peri-implant marginal bone level changes? The correlation between open surgical measurements and peri-apical radiographs. , 2018, International journal of oral and maxillofacial surgery.

[12]  A. Cucchi,et al.  The influence of implant‐abutment connection to peri‐implant bone loss: A systematic review and meta‐analysis , 2018, Clinical implant dentistry and related research.

[13]  H. De Bruyn,et al.  A randomized controlled clinical trial to assess crestal bone remodeling of four different implant designs , 2018, Clinical implant dentistry and related research.

[14]  P. Trisi,et al.  Correlation Between Implant Geometry, Implant Surface, Insertion Torque, and Primary Stability: In Vitro Biomechanical Analysis. , 2018, The International journal of oral & maxillofacial implants.

[15]  M. Permuy,et al.  Influence of implant neck surface and placement depth on crestal bone changes and soft tissue dimensions around platform‐switched implants: A histologic study in dogs , 2018, Journal of clinical periodontology.

[16]  B. Spies,et al.  Does Oral Implant Design Affect Marginal Bone Loss? Results of a Parallel-Group Randomized Controlled Equivalence Trial , 2018, BioMed research international.

[17]  E. Pellizzer,et al.  Comparison of external and internal implant-abutment connections for implant supported prostheses. A systematic review and meta-analysis. , 2017, Journal of dentistry.

[18]  J. Blanco,et al.  Effect of abutment height on interproximal implant bone level in the early healing: A randomized clinical trial , 2018, Clinical oral implants research.

[19]  D. Zaffe,et al.  Minimum Abutment Height to Eliminate Bone Loss: Influence of Implant Neck Design and Platform Switching. , 2018, The International journal of oral & maxillofacial implants.

[20]  Yanhui Wang,et al.  Radiographic and clinical outcomes of rooted, platform‐switched, microthreaded implants with a sandblasted, large‐grid, and acid‐etched surface: A 5‐year prospective study , 2017, Clinical implant dentistry and related research.

[21]  M. Goiato,et al.  Immediate implant placement into fresh extraction sockets versus delayed implants into healed sockets: A systematic review and meta-analysis. , 2017, International journal of oral and maxillofacial surgery.

[22]  Liang Zhu,et al.  Prevalences of peri-implantitis and peri-implant mucositis: systematic review and meta-analysis. , 2017, Journal of dentistry.

[23]  Su-Hwan Kim,et al.  Effect of microthreads on coronal bone healing of narrow-diameter implants with reverse-tapered design in beagle dogs. , 2017, Clinical oral implants research.

[24]  K. Almas,et al.  Microthreaded Implants and Crestal Bone Loss: A Systematic Review , 2017, The Journal of oral implantology.

[25]  G. Jones,et al.  Surgical and Patient Factors Affecting Marginal Bone Levels Around Dental Implants: A Comprehensive Overview of Systematic Reviews , 2017, Implant dentistry.

[26]  F. Zayeri,et al.  Prevalence of peri‐implantitis in patients not participating in well‐designed supportive periodontal treatments: a cross‐sectional study , 2017, Clinical oral implants research.

[27]  H. De Bruyn,et al.  Implant surface roughness and patient factors on long‐term peri‐implant bone loss , 2017, Periodontology 2000.

[28]  Yong Hur,et al.  No clinically significant differences in crestal bone loss between immediate implant placement and implants placed in healed bone: A systematic review of articles published from 1966 through 2012. , 2016, Journal of the American Dental Association.

[29]  G. Kamperos,et al.  The Impact of Buccal Bone Defects and Immediate Placement on the Esthetic Outcome of Maxillary Anterior Single-Tooth Implants. , 2016, The Journal of oral implantology.

[30]  A. A. Del Bel Cury,et al.  Biomechanical Effect of Prosthetic Connection and Implant Body Shape in Low-Quality Bone of Maxillary Posterior Single Implant-Supported Restorations. , 2016, The International journal of oral & maxillofacial implants.

[31]  A. Khojasteh,et al.  Effect of Microthread Design on Marginal Bone Level Around Dental Implants Placed in Fresh Extraction Sockets , 2016, Implant dentistry.

[32]  R. Jung,et al.  Clinical and radiologic outcomes after submerged and transmucosal implant placement with two-piece implants in the anterior maxilla and mandible: 3-year results of a randomized controlled clinical trial. , 2015, Clinical implant dentistry and related research.

[33]  A. Catena,et al.  Marginal bone loss as success criterion in implant dentistry: beyond 2 mm. , 2015, Clinical oral implants research.

[34]  Jong-Ho Lee,et al.  The influence of thread geometry on implant osseointegration under immediate loading: a literature review , 2014, The journal of advanced prosthodontics.

[35]  G. Romanos,et al.  Soft and Hard Tissue Changes Around Laser Microtexture Single Tooth Implants—A Clinical and Radiographic Evaluation , 2014, Implant dentistry.

[36]  H. Nickenig,et al.  A 5-year prospective radiographic evaluation of marginal bone levels adjacent to parallel-screw cylinder machined-neck implants and rough-surfaced microthreaded implants using digitized panoramic radiographs. , 2013, Journal of cranio-maxillo-facial surgery : official publication of the European Association for Cranio-Maxillo-Facial Surgery.

[37]  V. Muglia,et al.  Buccal bone plate remodeling after immediate implant placement with and without synthetic bone grafting and flapless surgery: radiographic study in dogs. , 2012, The Journal of oral implantology.

[38]  H. Yatani,et al.  Influences of implant neck design and implant-abutment joint type on peri-implant bone stress and abutment micromovement: three-dimensional finite element analysis. , 2012, Dental materials : official publication of the Academy of Dental Materials.

[39]  H. De Bruyn,et al.  The influence of implant design on bone remodeling around surface-modified Southern Implants®. , 2012, Clinical implant dentistry and related research.

[40]  A. Barone,et al.  A 10-year evaluation of implants placed in fresh extraction sockets: a prospective cohort study. , 2012, Journal of periodontology.

[41]  J. Wennström,et al.  Longitudinal changes in tooth/single-implant relationship and bone topography: an 8-year retrospective analysis. , 2012, Clinical implant dentistry and related research.

[42]  M. Alikhasi,et al.  Does implant staging choice affect crestal bone loss? , 2012, Journal of oral and maxillofacial surgery : official journal of the American Association of Oral and Maxillofacial Surgeons.

[43]  이동원,et al.  Effect of thread size on the implant neck area: preliminary results at 1 year of function. , 2012 .

[44]  N. Wakabayashi,et al.  Magnitude and direction of mechanical stress at the osseointegrated interface of the microthread implant. , 2011, Journal of periodontology.

[45]  S. Heo,et al.  A 3-year prospective radiographic evaluation of marginal bone level around different implant systems. , 2010, Journal of oral rehabilitation.

[46]  Dong-Won Lee,et al.  Comparative analysis of peri-implant marginal bone loss based on microthread location: a 1-year prospective study after loading. , 2009, Journal of periodontology.

[47]  M. Sanz,et al.  Immediate implants at fresh extraction sockets: bone healing in four different implant systems. , 2009, Journal of clinical periodontology.

[48]  L. Shapira,et al.  A rough surface implant neck with microthreads reduces the amount of marginal bone loss: a prospective clinical study. , 2009, Clinical Oral Implants Research.

[49]  D. Cochran,et al.  A prospective multicenter 5-year radiographic evaluation of crestal bone levels over time in 596 dental implants placed in 192 patients. , 2009, Journal of periodontology.

[50]  M. Hadders‐Algra,et al.  How much loss to follow-up is acceptable in long-term randomised trials and prospective studies? , 2008, Archives of Disease in Childhood.

[51]  Dong-Won Lee,et al.  Effect of microthread on the maintenance of marginal bone level: a 3-year prospective study. , 2007, Clinical oral implants research.

[52]  S. Hansson,et al.  The implant neck: smooth or provided with retention elements. A biomechanical approach. , 1999, Clinical oral implants research.

[53]  G Zarb,et al.  The long-term efficacy of currently used dental implants: a review and proposed criteria of success. , 1986, The International journal of oral & maxillofacial implants.