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  • 1.
    Jungner, Måns
    Umeå University, Faculty of Medicine, Department of Odontology.
    Healing of endosseous implants with different surface characteristics in grafted and non-grafted bone: clinical and experimental studies2014Doctoral thesis, comprehensive summary (Other academic)
    Abstract [en]

    Aims: This study uses radiological and clinical evaluations of the healing of endosseous titanium implants presented with different surface characteristics in the clinical situation (paper I-III) and experimentally to describe the early bone healing in maxillary sinus membrane elevation with and without the use of grafting material (paper IV).

    Material and methods: In paper I, 136 patients were treated with 394 dental implants – 199 were oxidized titanium implants (Nobel Biocare TiUnite) and 195 were turned titanium surface implants (Nobel Biocare Mark III). Implant survival rates were retrospectively investigated after a minimum of five months after functional loading of the implants. At the five-year follow-up (paper II), eight patients were deceased and 128 were invited. Twenty-five patients refrained from participating in the study. The remaining 103 patients (287 implants – 133 with a turned surface and 154 with an oxidized surface) were examined after at least five years of functional loading. Clinical examinations of bleeding on probing (BoP) and pocket depth (PD) were performed. Intraoral radiographs were used to assess marginal bone levels (MBLs). In paper III, 28 patients were subjected to autologous bone graft and delayed implant placement, with a total of 92 dental implants. Thirteen patients received 47 implants with a turned surface and 15 patients received 45 implants with an oxidized surface. After a minimum of five years of functional loading, all patients were clinically examined regarding PD and BoP. The MBL was measured in intraoral radiographs. Cone beam computed tomography (CBCT) was used to evaluate the apical bone level (ABL) of the implants and intra-sinus conditions. The experimental study (paper IV) used nine adult male tufted capuchin primates (Cebus apella). Eight animals were subjected to bilateral maxillary sinus membrane elevation using a lateral replaceable bone window technique. One oxidized dental implant was placed in the residual bone of the sinus floor, protruding into the maxillary sinus cavity on both sides. In four animals, one sinus was left without any additional treatment, while the contralateral sinus was filled with autologous bone grafts from the tibia. In two animals, the implants were inserted under the elevated sinus membrane on both sides. In two animals, the sinus membrane was totally removed bilaterally before placement of implants. The animals were euthanized after 10 (n=4) or 45 (n=4) days. One non-operated animal representing pristine tissue conditions served as the control. The maxillary sinuses with implants were retrieved and further processed to prepare light microscopic ground sections or decalcified sections for immunohistochemical analyses. Results: In paper I seven implants were lost in five patients – six in the maxilla and one in the mandible. All failed implants were Mark III turned implants. The overall implant survival rate was 98.2% with a survival rate of 96.4% for implants with turned surface after a minimum of five months after functional loading. In paper II, one additional oxidized implant failed, giving an overall cumulative survival rate of 94.7 and 99.4%, respectively, after at least five years of functional loading. There was no difference for BoP, PD, or MBL between turned and oxidized implants. A total of two implants, three oxidized and one turned, showed a PD > 3 mm, MBL > 4 mm, and BoP. However, none of these were associated with suppurative infection on examination. In paper III no difference was found between the two implants surfaces used in terms of PD, BoP, MBL, or ABL. Pathological reactions to the sinus membrane were seen in four of the patients (14%). Radiographic signs of sinus pathology were not correlated to either survival rate of the implants or any of the investigated parameters. In the experimental paper IV, bone formation started from the bottom of the sinus floor, sprouting into the granulation tissue along the implant surface under the elevated membrane irrespective of time and surgical technique. Bone formation was not seen in direct conjunction with the sinus membrane. A distinct expression of osteopontin was observed in the serous glands of deeper portion of the lamina propria in direct connection with the elevated sinus membrane and close to the implant within all groups.

    Conclusion: After more than five years of function in non-grafted patients, oxidized implants had a survival rate higher than turned implants, although this was not statistically significant. No difference was found in MBL, PD, or BoP. Grafting of the maxillary sinus floor with intra- orally harvested bone and delayed placement of either turned or oxidized implants resulted in equally high long-term survival rates, MBL, ABL, and BoP. Pathological findings in the maxillary sinus cavity, in terms of sinus membrane health, are few and not correlated to any of the other investigated parameters. In the experimental study bone formation after sinus membrane elevation with or without additional bone grafts started at the sinus floor and sprouted into the elevated space along the implant surface. Removal of the membrane resulted in less bone formation. The sinus membrane did not seem to present osteoinductive potential in sinus membrane elevation procedures.

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  • 2.
    Jungner, Måns
    et al.
    Umeå University, Faculty of Medicine, Department of Odontology. Department of Oral and Maxillofacial Surgery, Karolinska University Hospital, Stockholm, Sweden.
    Cricchio, Giovanni
    Umeå University, Faculty of Medicine, Department of Odontology.
    Salata, Luiz A
    Department of Oral & Maxillofacial Surgery and Periodontics, Faculty of Dentistry of Ribeirão Preto, University of São Paulo, Ribeirão Preto, Brazil.
    Sennerby, Lars
    Department of Oral and Maxillofacial Surgery, Sahlgrenska Academy, Gothenburg University, Gothenburg, Sweden.
    Lundqvist, Carina
    Umeå University, Faculty of Medicine, Department of Odontology.
    Hultcrantz, Malou
    Department of Otorhinolaryngology, Karolinska University Hospital, Stockholm, Sweden.
    Lundgren, Stefan
    Umeå University, Faculty of Medicine, Department of Odontology.
    On the early mechanisms of bone formation after maxillary sinus membrane elevation: an experimental histological and immunohistochemical study2015In: Clinical Implant Dentistry and Related Research, ISSN 1523-0899, E-ISSN 1708-8208, Vol. 17, no 6, p. 1092-1102Article in journal (Refereed)
    Abstract [en]

    Background: Previous studies have shown predictable bone formation in the maxillary sinus after membrane elevation. However, how and where the bone is formed is not well understood.

    Purpose: The aim of the study was to histologically and immunohistochemically study the early bone formation events in primates after membrane elevation in the maxillary sinus.

    Materials and Methods: Nine adult male tufted capuchin primates (Cebus apella) were included in the study. Eight animals were subjected to bilateral maxillary sinus membrane elevation using a lateral replaceable bone window technique. One oxidized dental implant was placed into the maxillary sinus cavity on both sides. In four animals, one sinus was left without any additional treatment, whereas the contralateral sinus was filled with autologous bone grafts from the tibia. In two animals, the implants were inserted under the elevated sinus membrane on both sides. In two animals, the sinus membrane was totally removed. The animals were euthanized after 10 or 45 days. One nonoperated animal representing pristine tissue conditions served as control. The maxillary sinuses with implants were retrieved and further processed for light microscopic ground sections or decalcified sections for immune-histochemical analyses.

    Results: Bone formation started from the bottom of the sinus floor, sprouting into the granulation tissue along the implant surface under the elevated membrane irrespective of time and surgical technique. Bone formation was not seen in direct conjunction with the sinus membrane. A distinct expression of osteopontin was observed in the serous glands of the lamina propria close to the implant within all groups.

    Conclusion: Bone formation after sinus membrane elevation with or without additional bone grafts starts at the sinus floor and sprouts into the elevated space along the implant surface. The sinus membrane does not seem to present osteoinductive potential in sinus membrane elevation procedures in this study.

  • 3.
    Jungner, Måns
    et al.
    Umeå University, Faculty of Medicine, Department of Odontology, Oral and Maxillofacial Surgery. Department of Oral and Maxillofacial Surgery, Karolinska University Hospital, Stockholm, Sweden.
    Legrell, Per Erik
    Umeå University, Faculty of Medicine, Department of Odontology, Oral and Maxillofacial Radiology.
    Lundgren, Stefan
    Umeå University, Faculty of Medicine, Department of Odontology, Oral and Maxillofacial Surgery.
    Follow-up study of implants with turned or oxidized surfaces placed after sinus augmentation2014In: International Journal of Oral & Maxillofacial Implants, ISSN 0882-2786, E-ISSN 1942-4434, Vol. 29, no 6, p. 1380-1387Article in journal (Refereed)
    Abstract [en]

    Purpose: To compare long-term survival and clinical outcomes of endosseous implants with different surface characteristics in patients with sinus elevation procedures, autologous bone grafting, and delayed implant placement. Materials and Methods: Implant survival, peri-implant soft tissue conditions, marginal bone level, intrasinus apical bone level, and sinus health were studied in patients subjected to autologous bone graft and delayed placement of implants with turned or oxidized surfaces. After a minimum of 5 years of functional loading, all patients were clinically examined regarding gingival pocket depth (PD) and bleeding on probing (BoP). The marginal bone level (MBL) was measured in intraoral radiographs. Cone beam computed tomography was used to evaluate the apical bone level (ABL) of the implants and intrasinus conditions. Results: Twenty-eight patients received sinus elevation and a total of 92 dental implants. Thirteen patients received 47 implants with a turned surface, and 15 patients received 45 implants with an oxidized surface. Mean follow-up was 10 years (range, 5 to 19 years). No significant difference was found between the two implant surfaces in terms of PD, BoP, MBL, or ABL. Four patients (14%) exhibited radiographic signs of sinus pathology, with opacification, polyplike structures, and thickening of the sinus membrane. Radiographic signs of sinus pathology were not correlated to implant survival or to the investigated parameters. Conclusion: Grafting of the maxillary sinus floor with intraorally harvested bone and delayed placement of either turned or oxidized implants results in equally high long-term survival rates, stable marginal and apical bone levels, and good peri-implant soft tissue health.

  • 4.
    Jungner, Måns
    et al.
    Umeå University, Faculty of Medicine, Department of Odontology.
    Legrell, Per-Erik
    Umeå University, Faculty of Medicine, Department of Odontology.
    Lundgren, Stefan
    Umeå University, Faculty of Medicine, Department of Odontology.
    Apical and marginal bone levels in patients rehabilitated with maxillary sinus floor augmentation using particulated mandibular bone graft and delayed placement of implants with two different surfaces. A minimum 5-year clinical and radiologic follow up in 28 patients.Manuscript (preprint) (Other academic)
    Abstract [en]

    Purpose: To compare healing of endosseous implants with different surface characteristics in patients with sinus elevation procedures, autologous bone graft and delayed implant installation. Implant survival, peri-implant soft tissue conditions, marginal bone level, intra-sinus apical bone level and sinus health were studied.

    Material and Methods: Twenty-eight patients were subjected to autologous bone graft and delayed implant placement, with a total of 92 dental implants. Thirteen patients received 47 implants with a turned surface and 15 patients received 45 implants with an oxidized surface. After a minimum of 5 years of functional loading (mean 10 years, range 5 - 19 years), all patients were clinically examined regarding gingival pocket depth (PD) and bleeding on probing (BoP). The marginal bone level (MBL) was measured in intraoral radiographs. A cone beam computed tomography (CBCT) was used for evaluating the apical bone level (ABL) of the implants and intrasinus conditions.

    Results: No significant difference was found between the two implants surfaces used in terms of PD, BoP, MBL or ABL. Pathological reactions to the sinus membrane was seen in four of the patients (14%). Radiographic signs of sinus pathology were not correlated to either survival rate of the implants nor the investigated parameters. Conclusion: Grafting of the maxillary sinus floor with intra-orally harvested bone and delayed placement of either turned or oxidized implants results in equally high long-term survival rates, stable marginal and apical bone levels and good peri-implant soft tissue health.

  • 5.
    Jungner, Måns
    et al.
    Umeå University, Faculty of Medicine, Department of Odontology. Karolinska Univ Hosp, Dept Oral & Maxillofacial Surg, SE-17176 Stockholm, Sweden.
    Lundqvist, Peter
    Umeå Implant Center, Umeå, Sweden.
    Lundgren, Stefan
    Umeå University, Faculty of Medicine, Department of Odontology.
    A retrospective comparison of oxidized and turned implants with respect to implant survival, marginal bone level and peri-implant soft tissue conditions after at least 5 years in function2014In: Clinical Implant Dentistry and Related Research, ISSN 1523-0899, E-ISSN 1708-8208, Vol. 16, no 2, p. 230-237Article in journal (Refereed)
    Abstract [en]

    Background: Long-term clinical follow-up studies comparing different implant surfaces with regard to survival and marginal conditions are rare. Objectives: The objective of this study was to compare the clinical performance of turned and oxidized implants after more than 5 years of loading Material and Methods: One hundred three patients (43 men, 60 women; mean age 67.4 years, range 32–90) previously treated with 287 implants (Nobel Biocare AB, Gothenburg, Sweden), 133 with turned surface (MKIII, Nobel Biocare AB) and 154 with an oxidized surface (MKIII, TiUnite, Nobel Biocare AB) were examined after at least 5 years of loading (mean 82 months, range 60–93 months). The implants had been used for support of single crowns (33 patients/36 implants), partial bridges (39 patients/103 implants), or full bridges (31 patients/148 implants) following an early loading protocol (14 patients /54 implants), a one-stage protocol (32 patients/59 implants) or a two-stage protocol (57 patients/174 implants). Clinical examinations of bleeding on probing (BoP) and pocket depth (PD) were performed. Intraoral radiographs were used for assessments of marginal bone levels (MBLs). Results: Seven turned implants and one oxidized implant failed, giving overall cumulative survival rates of 94.7 and 99.4%, respectively. There were no differences for BoP scores (0.5 1 0.7 vs 0.4 1 0.6) and PD measurements (1.7 1 0.8 mm vs 1.8 1 1.0 mm) parameters when comparing turned and oxidized implants, respectively. The mean MBL was 1.8 1 0.8 mm and 2.0 1 0.9 mm for turned and oxidized implants, respectively, after more than 5 years in function (NS). Frequency distribution of MBL loss showed no statistically significant differences between the two surfaces. A total of four implants (1.4%) (three oxidized and one turned) showed a PD > 3 mm, MBL > 4 mm, and BoP. However, none of these were associated with suppuration on examination. Conclusion: The present study does not state any differences in implant failure, MBL, presence of bleeding or PD around implants when comparing turned and oxidized titanium implants after at least 5 years of function. 

  • 6.
    Jungner, Måns
    et al.
    Umeå University, Faculty of Medicine, Department of Odontology.
    Lundqvist, Peter
    Umeå University, Faculty of Medicine, Department of Odontology.
    Lundgren, Stefan
    Umeå University, Faculty of Medicine, Department of Odontology.
    Oxidized titanium implants (Nobel Biocares TiUnite) compared with turned titanium implants (Nobel Biocares mark III) with respect to implant failure in a group of consecutive patients treated with early functional loading and two-stage protocol2005In: Clinical Oral Implants Research, ISSN 0905-7161, E-ISSN 1600-0501, Vol. 16, no 3, p. 308-312Article in journal (Refereed)
  • 7.
    Lundgren, Stefan
    et al.
    Umeå University, Faculty of Medicine, Department of Odontology, Oral and Maxillofacial Surgery. Umeå University, Faculty of Medicine, Department of Odontology.
    Nyström, Elisabeth
    Umeå University, Faculty of Medicine, Department of Odontology, Oral and Maxillofacial Surgery. Umeå University, Faculty of Medicine, Department of Odontology.
    Sennerby, Lars
    Sjöström, Mats
    Brechter, Magnus
    Umeå University, Faculty of Medicine, Department of Odontology, Oral and Maxillofacial Surgery.
    Nilson, Hans
    Öberg, Sven
    Lundqvist, Peter
    Jungner, Måns
    Umeå University, Faculty of Medicine, Department of Odontology, Oral and Maxillofacial Surgery.
    Tidehag, Per
    Gunne, Johan
    Umeå University, Faculty of Medicine, Department of Odontology, Prosthetic Dentistry.
    Rekonstruktiv käkkirurgi 2: Behandling av den tandlösa atrofiska maxillan2008In: Tandläkartidningen, ISSN 0039-6982, Vol. 100, no 5, p. 72-73Article in journal (Other (popular science, discussion, etc.))
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