Immediate loading at single crowns and 2‐unit bridges supported by implants installed in a healed alveolar bony ridge or immediately after tooth extraction. An experimental study in dogs

To evaluate presumptive differences in osseointegration at implants installed in healed sites or extraction sockets, supporting either crowns or bridges that were functionally loaded or left unloaded. In six dogs, the mesial roots of the first mandibular molars were treated endodontically. Bilaterally, the teeth were hemisected, and the distal roots extracted. First and second mandibular premolars were extracted as well. After 3 months, the mandibular third and fourth distal roots were extracted after endodontic treatment of the mesial roots. Four implants were installed bilaterally, two in the healed sites corresponding to the second premolar and first molar regions, and two into the extraction sockets. Cobalt-chrome single crowns were prepared and installed in the two most anterior implants, and bridges at the two most posterior implants, bilaterally. A 3-unit bridge was applied to the premolars in the upper jaw only at the loaded sites. All prostheses had a flat occlusal surface and contacts in centric occlusion only at the loaded sites. Three months later, biopsies were retrieved for histological analysis. Higher levels of osseointegration and bone density were observed at the unloaded sites, both at implants installed in healed and post-extraction sites. However, only at implants installed in the post-extraction sites and supporting single crowns, the difference in bone-to-Implant contact was statistically significant. In implant installation immediately following extraction or delayed after three months, osseointegration and bone density were not affected by occlusal contact schemes.

[1]  N. Lang,et al.  Excessive occlusal load on chemically modified and moderately rough titanium implants restored with cantilever reconstructions. An experimental study in dogs. , 2019, Clinical oral implants research.

[2]  N P Lang,et al.  Immediate and delayed loading of fixed dental prostheses supported by single or two splinted implants: A histomorphometric study in dogs , 2018, Journal of oral rehabilitation.

[3]  N. Lang,et al.  Immediate loading of implants installed in a healed alveolar bony ridge or immediately after tooth extraction: an experimental study in dogs. , 2015, Clinical oral implants research.

[4]  G. Gómez-Moreno,et al.  Histological, radiological and histomorphometric evaluation of immediate vs. non-immediate loading of a zirconia implant with surface treatment in a dog model. , 2014, Clinical oral implants research.

[5]  C. Tomasi,et al.  Effect of immediate functional loading on osseointegration of implants used for single tooth replacement. A human histological study. , 2013, Clinical oral implants research.

[6]  J. Pérez,et al.  Impact of immediate loading on early bone healing at two-piece implants placed in fresh extraction sockets: an experimental study in the beagle dog. , 2013, Journal of clinical periodontology.

[7]  J. Pérez,et al.  Ridge alterations following flapless immediate implant placement with or without immediate loading. Part II: a histometric study in the Beagle dog. , 2011, Journal of clinical periodontology.

[8]  J. Pérez,et al.  Flapless immediate implant placement with or without immediate loading: a histomorphometric study in beagle dog. , 2010, Journal of clinical periodontology.

[9]  L. Chambrone,et al.  Effects of occlusal overload on peri-implant tissue health: a systematic review of animal-model studies. , 2010, Journal of periodontology.

[10]  A. Piattelli,et al.  Bone formation around immediately loaded and submerged dental implants with a modified sandblasted and acid-etched surface after 4 and 8 weeks: a human histologic and histomorphometric analysis. , 2009, The International journal of oral & maxillofacial implants.

[11]  J. Lindhe,et al.  Bone reactions to longstanding functional load at implants: an experimental study in dogs. , 2005, Journal of clinical periodontology.

[12]  N P Lang,et al.  Does excessive occlusal load affect osseointegration? An experimental study in the dog. , 2004, Clinical oral implants research.

[13]  L. Sennerby,et al.  Histology of retrieved immediately and early loaded oxidized implants: light microscopic observations after 5 to 9 months of loading in the posterior mandible. , 2003, Clinical implant dentistry and related research.

[14]  F. Isidor,et al.  Loss of osseointegration caused by occlusal load of oral implants. A clinical and radiographic study in monkeys. , 1996, Clinical oral implants research.

[15]  M. Ogiso,et al.  A histologic comparison of the functional loading capacity of an occluded dense apatite implant and the natural dentition. , 1994, The Journal of prosthetic dentistry.

[16]  A. Piattelli,et al.  Bone Healing at Functionally Loaded and Unloaded Screw-Shaped Implants Supporting Single Crowns: A Histomorphometric Study in Humans. , 2018, The International journal of oral & maxillofacial implants.

[17]  N. Lang,et al.  Sequential healing at implants installed immediately into extraction sockets. An experimental study in dogs. , 2016, Clinical oral implants research.

[18]  N. Lang,et al.  Influence of immediate loading on healing of implants installed with different insertion torques--an experimental study in dogs. , 2015, Clinical oral implants research.

[19]  J. Pérez,et al.  Soft tissue dimensions in flapless immediate implants with and without immediate loading: an experimental study in the beagle dog. , 2012, Clinical oral implants research.

[20]  T. Miyata,et al.  The influence of controlled occlusal overload on peri-implant tissue. Part 3: A histologic study in monkeys. , 2000, The International journal of oral & maxillofacial implants.