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[+]A 5-year prospective study on regenerative periodontal therapy of infrabony defects using minimally invasive surgery and a collagen-enriched bovine-derived xenograft

De Bruyckere T, Eghbali A, Younes F, Cleymaet R, Jacquet W, De Bruyn H, Cosyn J. (2017).
Clin Oral Investig


[+]A clinical and histologic evaluation of implant integration in the posterior maxilla after sinus floor augmentation with autogenous bone, bovine hydroxyapatite, or a 20:80 mixture.

Hallmann M., Sennerby L., Lundgren S. (2002).
Int J Oral Maxillofac Implants 17(5): 635-643.


[+]A clinical evaluation of anorganic bovine bone graft plus 10% collagen with or without a barrier in the treatment of class II furcation defects.

Reddy K.P., Nayak D.G., Uppoor A.S. (2006).
J Contemp Dent Pract 7(1): 60-70.


[+]A clinical study of 406 sinus augmentations with 100% anorganic bovine bone.

Ferreira C.E., Novaes A.B., Haraszthy V.I., Bittencourt M., Martinelli C.B., Luczyszyn S.M. (2009).
J Periodontol 80(12): 1920-7.


[+]A comparison between enamel matrix derivative and a bioabsorbable membrane to enhance healing around transmucosal immediate post-extraction implants

Cangini F., Cornelini R. (2005).
J Periodontol 76(10): 1785-92.


[+]A comparison of two techniques to augment maxillary sinuses using the lateral window approach: rigid synthetic resorbable barriers versus anorganic bovine bone. Five-month post-loading clinical and histological results of a pilot randomised controlled clinical trial.

Felice P., Scarano A., et al. (2009).
Eur J Oral Implantol 2(4): 293-306.


[+]A controlled re-entry study on the effectiveness of bovine porous bone mineral used in combination with a collagen membrane of porcine origin in the treatment of intrabony defects in humans.

Camargo P.M., Lekovic V., Weinländer M., Nedic M., Vasilic N., Wolinsky L.E., Kenney E.B. (2000).
J Clin Periodontol 27(12): 889-96.


[+]A histologic and histomorphometric evaluation of anorganic bovine bone retrieved 9 years after a sinus augmentation procedure.

Traini T., Valentini P., et al. (2007).
J Periodontol 78(5): 955-961.


[+]A Histologic and Histomorphometric Retrospective Analysis of the Outcomes of Ridge Preservation Using Anorganic Bovine Bone Minerals and a Nonresorbable Membrane

Min S, Freire M, Bakshallian N, Wu I, Zadeh HH. (2018).
Int J Periodontics Restorative Dent


[+]A histomorphometric assessment of collagen-stabilized anorganic bovine bone mineral in maxillary sinus augmentation - a prospective clinical trial

Alayan J, Vaquette C, Farah C, Ivanovski S. (2016).
Clin Oral Implants Res


[+]A histomorphometric meta-analysis of sinus elevation with various grafting materials.

Handschel J., Simonowska M., et al. (2009).
Head Face Med 5:12.


[+]A prospective clinical study of non-submerged immediate implants: clinical outcomes and esthetic results.

Chen S.T., Darby I.B., et al. (2007).
Clin Oral Implants Res 18(5): 552-62.


[+]A prospective controlled trial comparing xenograft/autogenous bone and collagen-stabilized xenograft for maxillary sinus augmentation-Complications, patient-reported outcomes and volumetric analysis

Alayan J, Ivanovski S. (2017).
Clin Oral Implants Res


[+]A prospective study of implants placed in augmented sinuses with minimal and moderate residual crestal bone: results after 1 to 5 years.

Urban I. A. and Lozada J. L. (2010).
Int J Oral Maxillofac Implants 25(6): 1203-12.


[+]A randomized controlled clinical trial comparing small buccal dehiscence defects around dental implants treated with guided bone regeneration or left for spontaneous healing

Jung RE, Herzog M, Wolleb K, Ramel CF, Thoma DS, Hämmerle CH (2017).
Clin Oral Implants Res.


[+]A randomized controlled study comparing guided bone regeneration with connective tissue graft to re-establish convexity at the buccal aspect of single implants: a one-year CBCT analysis.

De Bruyckere T, Eeckhout C, Eghbali A, Younes F, Vandekerckhove P, Cleymaet R, Cosyn J. (2018).
J Clin Periodontol


[+]A Randomized, Controlled Clinical Trial to Evaluate a Xenogeneic Collagen Matrix as an Alternative to Free Gingival Grafting for Oral Soft Tissue Augmentation.

McGuire MK, Scheyer ET. (2014).
J Periodontol.


[+]A randomized, controlled, multicentre clinical trial of post-extraction alveolar ridge preservation

Scheyer ET, Heard R, Janakievski J, Mandelaris G, Nevins ML, Pickering SR, Richardson CR, Pope B, Toback G, Velásquez D, Nagursky H. (2016).
J Clin Periodontol


[+]A study of the fate of the buccal wall of extraction sockets of teeth with prominent roots.

Nevins M., Camelo M., et al. (2006).
Int J Periodontics Restorative Dent 26(1): 19-29.


[+]A systematic review and meta-analysis of long-term studies (five or more years) assessing maxillary sinus floor augmentation

Starch-Jensen T, Aludden H, Hallman M, Dahlin C, Christensen AE, Mordenfeld A. (2017).
Int J Oral Maxillofac Surg


[+]A systematic review and meta-analysis of long-term studies (five or more years) assessing maxillary sinus floor augmentation

Starch-Jensen T, Aludden H, Hallman M, Dahlin C, Christensen AE, Mordenfeld A. (2017).
Int J Oral Maxillofac Surg


[+]A systematic review of the success of sinus floor elevation and survival of implants inserted in combination with sinus floor elevation.

Pietursson B.E., Tan W.C., Zwahlen M., Lang N.P. (2008).
J Clin Periodontol 35: 216-240.


[+]Acceleration of de novo bone formation following application of autogenous bone to particulated anorganic bovine material in vivo.

Thorwarth M., Schlegel K.A., Wehrhan F., Srour S., Schultze-Mosgau S. (2006).
Oral Surg Oral Med Oral Pathol Oral Radiol Endod 101(3): 309-316.


[+]Aesthetic and patient preference using a bone substitute to preserve extraction sockets under pontics. A cross sectional survey.

Schlee M. and Esposito M. (2009).
Eur J Esthet Dent 2(3): 209-217.


[+]Alveolar process preservation at implants installed immediately into extraction sockets using deproteinized bovine bone mineral - an experimental study in dogs.

Caneva M., Botticelli D., et al. (2012).
Clin Oral Implants Res 23(7): 789-96.


[+]Alveolar ridge augmentation with Bio-Oss®: a histologic study in humans.

Zitzmann N., Schärer P., Marinello C., Schüpbach P., Berglundh T. (2001).
Int J Periodontics Restorative Dent 21(3): 288-95.


[+]Alveolar ridge augmentation with titanium mesh and a combination of autogenous bone and anorganic bovine bone: a 2-year prospective study.

Pieri F., Corinaldesi G., et al. (2008).
J Periodontol 79(11): 2093-103.


[+]Alveolar Ridge Dimension 6 Months After Implant Placement with Simultaneous Hard Tissue Augmentation.

Heckmann SM, Mörtlbauer B, Rieder D, Wichmann M, Krafft T, Moralis A. (2017).
Int J Oral Maxillofac Implants.


[+]Alveolar Ridge Preservation Using Tridimensional Collagen Matrix and Deproteinized Bovine Bone Mineral in the Esthetic Area: A CBCT and Histologic Human Pilot Study

Cardaropoli D, Tamagnone L, Roffredo A, De Maria A, Gaveglio L. (2018).
Int J Periodontics Restorative Dent


[+]Analysis of the risk of transmitting bovine spongiform encephalopathy through bone grafts derived from bovine bone.

Wenz B., Oesch B., Horst M. (2001).
Biomaterials 22(12): 1599-1606.


[+]Analysis of the size of the specific surface area of bone regeneration materials by gas adsorption.

Weibrich G., Trettin R., Gnoth S.H., Götz H., Duschner H, Wagner W. (2000).
Mund Kiefer Gesichts Chir #156.


[+]Angiogenesis pattern of native and cross-linked collagen membranes: an immunohistochemical study in the rat.

Schwarz F., Rothamel D., et al. (2006).
Clin Oral Implants Res 17(4): 403-9.


[+]Anorganic porous bovine-derived bone mineral (Bio-Oss®) and ePTFE membrane in the treatment of peri-implantitis in cynomolgus monkeys.

Schou S., Holmstrup P., et al. (2003).
Clin Oral Implants Res 14(5): 535-47.


[+]Bio-Oss Collagen® and orthodontic movement for the treatment of infrabony defects in the esthetic zone.

Cardaropoli D., Re S., et al. (2006).
Int J Periodontics Restorative Dent 26(6): 553-9.


[+]Bio-Oss Collagen® in the buccal gap at immediate implants: A 6-month study in the dog.

Araujo M. G., Linder E., et al. (2011).
Clin Oral Implants Res 22(1): 1-8.


[+]Biocompatibility of various collagen membranes in cultures of human PDL fibroblasts and human osteoblast-like cells.

Rothamel D., Schwarz F., Sculean A., Herten M., Scherbaum W., Becker J. (2004).
Clin Oral Impl Res 15(4): 443-9.


[+]Biodegradation of differently cross-linked collagen membranes: an experimental study in the rat.

Rothamel D., Schwarz F., Sager M., Herten M., Sculean A., Becker J. (2005).
Clin Oral Impl Res 16(3): 369-78.


[+]Bone apposition onto oral implants in the sinus area filled with different grafting materials.

Wetzel A.C., Stich H., Caffesse R.G. (1995).
Clin Oral Impl Res 6(3): 155-163.


[+]Bone grafting with granular biomaterial in segmental maxillary osteotomy: A case report

Haas Junior OL, da Silva Meirelles L, Scolari N, Emmel Becker O, Fernandes Santos Melo M, Belle de Oliveira R. (2016).
Int J Surg Case Rep


[+]Bone healing after tooth extraction with or without an intervention: a systematic review of randomized controlled trials.

Morjaria K. R., Wilson R., et al. (2012).
Clin Implant Dent Relat Res. Mar 8.


[+]Bone level change of extraction sockets with Bio-Oss Collagen® and implant placement: a clinical study.

Heinemann F., Hasan I., et al. (2012).
Ann Anat. 194(6): 508-12


[+]Bone reactions to anorganic bovine bone (Bio-Oss®) used in sinus augmentation procedures: histologic long-term report of 20 cases in humans.

Piatelli M., Favero G. A., Scarano A., Orsini G., Piatelli A. (1999).
Int J Oral Maxillofac Implants 14(6): 835-40.


[+]Bone regeneration at implants placed into extraction sockets of maxillary incisors in dogs.

Santis E. D., Botticelli D., et al. (2011).
Clin Oral Implants Res 22(4): 430-7.


[+]Bovine hydroxyapatite for maxillary sinus augmentation: analysis of interfacial bond strength of dental implants using pull-out tests.

Haas R., Mailath G., Dörtbudak O., Watzek G. (1998).
Clin Oral Impl Res 9(2): 117-122.


[+]Buccal bone plate in immediately placed and restored implant with Bio-Oss(®) collagen graft: a 1-year follow-up study.

Degidi M, Daprile G, Nardi D, Piattelli A (2013).
Clin Oral Implants Res


[+]Clinical and CBCT Evaluation of Combined Periodontal Regenerative Therapies Using Enamel Matrix Derivative and Deproteinized Bovine Bone Mineral With or Without Collagen Membrane

Nemoto Y, Kubota T, Nohno K, Nezu A, Morozumi T, Yoshie H. (2018).
Int J Periodontics Restorative Dent


[+]Clinical and histologic evaluation of anorganic bovine bone collagen with or without a collagen barrier.

Hartman G.A., Arnold R.M., Mills M.P., Cochran D.L., Mellonig J.T. (2004).
Int J Periodontics Restorative Dent 24(2):127-35.


[+]Clinical and histologic evaluation of different approaches to gain keratinized tissue prior to implant placement in fully edentulous patients

Thoma DS, Alshihri AM, Fontolliet A, Hammerle CHF, Jung RE, Benic GI. (2017).
Clin Oral Investig


[+]Clinical and radiographic characteristics of single-tooth replacements preceded by local ridge augmentation: a prospective randomized clinical trial.

Meijndert L., Raghoebar G.M., et al. (2008).
Clin Oral Implants Res 19(12): 1295-303.


[+]Clinical and radiographic comparison of implants in regenerated or native bone: 5-year results.

Benic G. I., Jung R. E., et al. (2009).
Clin Oral Implants Res 20(5): 507-13


[+]Clinical and radiographic intra-subject comparison of implants placed with or without guided bone regeneration: 15-year results.

Benic GI, Bernasconi M, Jung RE, Hämmerle CH. (2017).
J Clin Periodontal


[+]Clinical evaluation of a new collagen matrix (GMG prototype) to enhance the width of keratinized tissue in patients with fixed prosthetic restorations: a randomized prospective clinical trial.

Sanz M, Lorenzo R, Aranda JJ, Martin C, Orsini (2009).
J Clin Periodontol. 2009 Oct;36(10):868-76. doi: 10.1111/j.1600-051X.2009.01460.x. Epub 2009 Aug 12.


[+]Clinical evaluation of Bio-Oss: a bovine-derived xenograft for the treatment of periodontal osseous defects in humans.

Richardson C.R., Mellonig J.T., et al. (1999).
J Clin Periodontol 26(7): 421-8.


[+]Clinical outcome of periodontal regenerative therapy using collagen membrane and deproteinized bovine bone mineral: a 2.5-year follow-up study.

Irokawa D, Takeuchi T, Noda K, Goto H, Egawa M, Tomita S, Sugito H, Nikaido M, Saito A. (2017).
BMC Res Notes.


[+]Clinical outcomes following treatment of human intrabony defects with GTR/bone replacement material or access flap alone.

Tonetti M.S., Cortellini P., Lang N.P., Suvan J.E., Adriaens P., Dubravec D., Fonzar A., Fourmousis I., Rasperini G., Rossi R., Silvestri M., Topoll H., Wallkamm B., Zybutz M. (2004).
J Clin Periodontol 31(9): 770-6.


[+]Clinical Outcomes of Socket Preservation Using Bovine-Derived Xenograft Collagen and Collagen Membrane Post-Tooth Extraction: A 6-Month Randomized Controlled Clinical Trial

Iorio-Siciliano V, Blasi A, Nicolò M, Iorio-Siciliano A, Riccitiello F (2017).
Int J Periodontics Restorative Dent


[+]Clinical, radiographic and histologic evaluation of human periodontal defects treated with Bio-Oss® and Bio-Gide®.

Camelo M., Nevins M.L., Schenk R.K., Simion M., Rasperini G., Lynch S.E., Nevins M. (1998).
Int J Periodontics Restorative Dent 18(4): 321-31.


[+]Collagen-Coated Bovine Bone in Peri-implantitis Defects: A Pilot Study on a Novel Approach

Rotenberg SA, Steiner R, Tatakis DN (2016).
Int J Oral Maxillofac Implants


[+]Combined periodontal regenerative technique in human intrabony defects by collagen membranes and anorganic bovine bone. A controlled clinical study.

Paolantonio M. (2002).
J Periodontol 73(2): 158-66.


[+]Combined Surgical Resective and Regenerative Therapy for Advanced Peri-implantitis with Concomitant Soft Tissue Volume Augmentation: A Case Report.Schwarz F, John G, Sahm N, Becker J.Int J Periodontics Restorative Dent. 2014 Jul-Aug;34(4):489-95. doi: 10.

Schwarz F, John G, Sahm N, Becker J. (2014).
Int J Periodontics Restorative Dent.


[+]Combined use of xenogeneic bone substitute material covered with a native bilayer collagen membrane for alveolar ridge preservation: A randomized controlled clinical trial

Jung, R. E., Sapata, V. M., Hammerle, C. H. F., Wu, H., Hu, X. L., Lin, Y. (2018).
Clin Oral Implants Res


[+]Commentary: incorporating patient-reported outcomes in periodontal clinical trials.

McGuire M, Scheyer T, Gwaltney C. (2014).
J Periodontal 2014 Oct;85(10): 1313-9. Epub 2014 Jul 18.


[+]Comparative histomorphometric analysis of extraction sockets healing implanted with bovine xenografts, irradiated cancellous allografts, and solvent-dehydrated allografts in humans.

Lee D. W., Pi S. H., et al. (2009).
Int J Oral Maxillofac Implants 24(4): 609-615.


[+]Comparison of clinical outcomes following guided tissue regeneration treatment with a polylactic acid barrier or a collagen membrane.

Wu S. Y., Chen Y. T., et al. (2010).
Int J Periodontics Restorative Dent 30(2): 173-9.


[+]Compatibility of resorbable and nonresorbable guided tissue regeneration membranes in cultures of primary human periodontal ligament fibroblasts and human osteoblast-like cells.

Alpar B., Leyhausen G., Günay H., Geurtsen W. (2000).
Clin Oral Invest 4(4): 219-225.


[+]Coronally advanced flap with and without a xenogenic collagen matrix in the treatment of multiple recessions: a randomized controlled clinical study.

Cardaropoli D, Tamagnone L, Roffredo A, Gaveglio L. (2014).
Int J Periodontics Restorative Dent 2014;34 Suppl 3:s97-102.


[+]Cross-linked and non-cross-linked collagen barrier membranes disintegrate following surgical exposure to the oral environment: a histological study in the cat.

Tal H., Kozlovsky A., Artzi Z., Nemcovsky C.E., Moses O. (2008).
Clin Oral Implants Res 19(8): 760-6.


[+]Deproteinized bovine bone and biodegradable barrier membranes to support healing following immediate placement of transmucosal implants: a short-term controlled clinical trial.

Cornelini R., Cangini F., et al. (2004).
Int J Periodontics Restorative Dent 24(6): 555-63.


[+]Deproteinized bovine bone mineral in marginal defects at implants installed immediately into extraction sockets: an experimental study in dogs.

Caneva M., Botticelli D., et al. (2012).
Clin Oral Implants Res 23(1): 106-12.


[+]Dimensional changes of the alveolar ridge contour after different socket preservation techniques.

Fickl S., Zuhr O., et al. (2008).
J Clin Periodontol 35(10): 906-13.


[+]Dimensional ridge alterations following immediate implant placement in molar extraction sites: a six-month prospective cohort study with surgical re-entry.

Matarasso S., Salvi G., et al. (2009).
Clin Oral Implants Res 20(10): 1092-8.


[+]Does grafting of third molar extraction sockets enhance periodontal measures in 30- to 35-year-old patients?

Hassan K., Marei H., et al. (2012).
J Oral Maxillofac Surg 70(4): 757-64.


[+]Double-blind randomized controlled trial study on post-extraction immediately restored implants using the switching platform concept: soft tissue response. Preliminary report.

Canullo L., Iurlaro G., et al. (2009).
Clin Oral Implants Res 20(4): 414-20.


[+]Dynamics of Bio-Oss Collagen® incorporation in fresh extraction wounds: an experimental study in the dog

Araujo M. G., Liljenberg B., Lindhe J. (2010).
Clin Oral Implants Res 21(1): 55-64.


[+]Early implant placement with simultaneous guided bone regeneration following single-tooth extraction in the esthetic zone: 12-month results of a prospective study with 20 consecutive patients.

Buser D., Halbritter S., et al. (2009).
J Periodontol 80(1): 152-62.


[+]Effect of anorganic bovine bone to autogenous cortical bone ratio upon bone remodeling patterns following maxillary sinus augmentation.

Galindo-Moreno P., Moreno-Riestra I., Avila G., Padial-Molina M., Paya J.A., Wang H.L., O’Valle F. (2011).
Clin Oral Implants Res 22(8): 857-864.


[+]Effect of bone mineral with or without collagen membrane in ridge dehiscence defects following premolar extraction.

Kim M. et al. (2008).
In Vivo 22(2): 231-236.


[+]Effect of bovine bone and collagen membranes on healing of mandibular bone blocks: a prospective randomized controlled study.

Cordaro L., Torsello F., et al. (2011).
Clin Oral Implants Res 22(10): 1145-50.


[+]Effect of deproteinized bovine bone matrix coverage on the resorption of iliac cortico-spongeous bone grafts - a prospective study of two cohorts

Wiltfang J, Jätschmann N, Hedderich J, Neukam FW, Schlegel KA, Gierloff M. (2014).
Clin Oral Implants Res


[+]Effect of maxillary sinus augmentation on the survival of endosseous dental implants. A systematic review.

Wallace S.S., Froum S.J. (2003).
Ann Periodontol 8(1): 328-43.


[+]Effect of porous xenographic bone graft with collagen barrier membrane on periodontal regeneration.

Yamada S., Shima N., Kitamura H., Sugito H. (2002).
Int J Periodontics Restorative Dent 22(4): 389-397.


[+]Effect of two bioabsorbable barrier membranes on bone regeneration of standardized defects in calvarial bone: a comparative histomorphometric study in pigs.

Bornstein M.M., Heynen G., et al. (2009).
J Periodontol 80(8): 1289-99.


[+]Effect of xenograft (ABBM) particle size on vital bone formation following maxillary sinus augmentation: a multi-center, randomized, controlled, clinical histomorphometric trial.

Testori T, Wallace SS, Trisi P, Capelli M, Zuffetti F, Del Fabbro M. (2013).
Int J Periodontics Restorative Dent. 2013 Jul-Aug;33(4):467-75. doi: 10.11607/prd.1423.


[+]Effectiveness of Contour Augmentation with Guided Bone Regeneration: 10-Year Results

Chappuis V, Rahman L, Buser R, Janner SFM, Belser UC, Buser D. (2017).
J Dent Res


[+]Effects of combined treatment with porous bovine inorganic bone grafts and bilayer porcine collagen membrane on refractory one-wall intrabony defects.

Sakata J., Abe H., Ohazama A., Okubo K., Nagashima C., Suzuki M., Hasegawa K. (2006).
Int J Periodontics Restorative Dent 26(2): 161-69.


[+]Evaluation of a Porcine Collagen Matrix Used to Augment Keratinized Tissue and Increase Soft Tissue Thickness around existing Dental Implants

Schallhorn RA, McClain PK, Charles A, Clem D, Newman MG. (2015).
Int J Periodontics Restorative Dent


[+]Evaluation of Dental Implants Placed in Preserved and Nonpreserved Postextraction Ridges: A 12-Month Postloading Study.

Cardaropoli D, Tamagnone L, Roffredo A, Gaveglio L. (2015).
Int J Periodontics Restorative Dent. 


[+]Evaluation of volumetric dimensional changes in posterior extraction sites with and without ARP using a novel imaging device

Sbordone C, Toti P, Martuscelli R, Guidetti F, Porzio M, Sbordone L. (2017).
Clin Implant Dent Relat Res


[+]Evidence-Based Alternatives for Autogenous Grafts Around Teeth: Outcomes, Attachment, and Stability

McGuire MK (2014).
Compend Contin Educ Dent


[+]Evidence-based knowledge on the biology and treatment of extraction sockets.

Hammerle C. H., Araujo M.G., et al. (2012).
Clin Oral Implants Res 23 Suppl 5: 80-2.


[+]Expansion of the peri-implant attached gingiva with a three-dimensional collagen matrix in head and neck cancer patients-results from a prospective clinical and histological study.

Lorenz J, Blume M, Barbeck M, Teiler A, Kirkpatrick CJ, Sader RA, Ghanaati S. (2017).
Clin Oral Investig. 


[+]Experimental sinus grafting with the use of deproteinized bone particles of different sizes.

Xu H., Shimizu Y., et al. (2003).
Clin Oral Implants Res 14(5): 548-55.


[+]Extraction site management using a natural bone mineral containing collagen: rationale and retrospective case study.

Ackermann K. L. (2009).
Int J Periodontics 29(5): 489-97.


[+]Factors affecting changes in sinus graft height between and above the placed implants.

Mardinger O., Chaushu G., et al. (2011).
Oral Surg Oral Med Oral Pathol Oral Radiol Endod 111(1): e6-11.


[+]Factors influencing the success of GBR. Smoking, timing of implant placement, implant location, bone quality and provisional restoration.

Zitzmann N. U., Schärer P., et al. (1999).
J Clin Periodontol 26(10): 673-82.


[+]Five-year results of a prospective, randomized, controlled study evaluating treatment of intrabony defects with a natural bone mineral and GTR.

Sculean A., Schwarz F., Chiantella G.C., Donos N., Arweiler N.B., Brecx M., Becker J. (2007).
J Clin Periodontol 34(1): 72 –77.


[+]Functional assay, expression of growth factors and proteins modulating bone-arrangement in human osteoblasts seeded on an anorganic bovine bone biomaterial.

Trubiani O., Fulle S., Traini T., Paludi M., la Rovere R., Orciani M., Caputi S., Piattelli A. (2010).
Eur Cell Mater 20: 72-83.


[+]Gene Expression and Microcomputed Tomography Analysis of Grafted Bone Using Deproteinized Bovine Bone and Freeze-Dried Human Bone.

Kangwannarongkul T, Subbalekha K, Vivatbutsiri P, Suwanwela J. (2018).
Int J Oral Maxillofac Implants.


[+]Genetic effects of anorganic bovine bone (Bio-Oss®) on osteoblast-like MG63 cells.

Carinci F., Piatelli A., Degidi M., Palmieri A., Perrotti V., Scapoli L., Martinelli M., Laino G., Pezzetti F. (2006).
Arch Oral Biol 51(2): 154-163.


[+]Grafting after sinus lift with anorganic bovine bone alone compared with 50:50 anorganic bovine bone and autologous bone: results of a pilot randomised trial at one year.

Meloni SM, Jovanovic SA, Lolli FM, Cassisa C, De Riu G, Pisano M, Lumbau A, Lugliè PF, Tullio A. (2015).
Br J Oral Maxillofac Surg


[+]Grafting of deproteinized bone particles inhibits bone resorption after maxillary sinus floor elevation.

Xu H., Shimizu Y., et al. (2004).
Clin Oral Implants Res 15(1): 126-33.


[+]Guided bone regeneration and abutment connection augment the buccal soft tissue contour: 3-year results of a prospective comparative clinical study

Benic GI, Ge Y, Gallucci GO, Jung RE, Schneider D, Hämmerle CH. (2017).
Clin Oral Implants Res


[+]Guided bone regeneration around endosseous implants with anorganic bovine bone mineral. A randomized controlled trial comparing bioabsorbable versus non-resorbable barriers.

Carpio L, Loza J, Lynch S, Genco R. (2000).
J Periodontol.;71(11):1743-9.


[+]Guided Bone Regeneration in the Treatment of a Lateral Periodontal Cyst: 2-Year Clinical and Radiologic Follow-up

Sivolella S, Perin C, Capecchi M, Buongiorno V, Valente M. (2018).
Int J Periodontics Restorative Dent


[+]Guided Bone Regeneration with Collagen Membranes and Particulate Graft Materials: A Systematic Review and Meta-Analysis

Wessing B, Lettner S, Zechner W. (2017).
Int J Oral Maxillofac Implants


[+]Hard tissue alterations after socket preservation: an experimental study in the beagle dog.

Fickl S., Zuhr O., Wachtel H., Bolz W., Hürzeler M.B. (2008).
Clin Oral Implants Res 19(11): 1111-18.


[+]Healing around implants placed in bone defects treated with Bio-Oss®: an experimental study in the dog.

Berglundh T., Lindhe J. (1997).
Clin Oral Impl Res 8(2): 117-124.


[+]Healing of extraction sockets and surgically produced - augmented and non- augmented - defects in the alveolar ridge. An experimental study in the dog.

Cardaropoli G., Araujo M., Hayacibara R., Sukekava F., Lindhe J. (2005).
J Clin Periodontol 32(5): 435-440.


[+]Healing of intra-bony defects following treatment with a composite bovine-derived xenograft (Bio-Oss Collagen®) in combination with a collagen membrane (Bio-Gide® Perio).

Sculean A., Chiantella G.C., et al. (2005).
J Clin Periodontol 32(7): 720-4.


[+]Healing response to anorganic bone implantation in periodontal intrabony defects in dogs. Part I: bone regeneration. A microradiographic study.

Clérgeau L.P., Danan M., Clergeau-Guérithault S., Brion M. (1996).
J Periodontol 67(2): 140-149.


[+]Histologic and elemental microanalytical study of anorganic bovine bone substitution following sinus floor augmentation in humans.

Traini T., Degidi M., Sammons R., Stanley P., Piattelli A. (2008).
J Periodontol 79(7): 232-240.


[+]Histologic and Histomorphometric Analysis at 26 Months of a Bovine Hydroxyapatite Maxillary Sinus Graft: A Case Report

Antoun H, Eid J, Zouiten O. (2018).
Int J Periodontics Restorative Dent


[+]Histologic Evaluation of Soft and Hard Tissue Healing Following Alveolar Ridge Preservation with Deproteinized Bovine Bone Mineral Covered with Xenogenic Collagen Matrix

Ramaglia L, Saviano R, Matarese G, Cassandro F, Williams RC, Isola G. (2018).
Int J Periodontics Restorative Dent


[+]Histologic Evaluation of Soft and Hard Tissue Healing Following Alveolar Ridge Preservation with Deproteinized Bovine Bone Mineral Covered with Xenogenic Collagen Matrix.

Ramaglia L, Saviano R, Matarese G, Cassandro F, Williams RC, Isola G. (2018).
Int J Periodontics Restorative Dent.


[+]Histologic findings in sinus augmentation with autogenous bone chips versus a bovine bone substitute.

Schlegel K. A., Fichtner G., et al. (2003).
Int J Oral Maxillofac Implants 18(1): 53-8.


[+]Histological and clinical evaluation of 3 different grafting materials for sinus lifting procedure based on 8 cases.

Karabuda C., Ozdemir O., et al. (2001).
J Periodontol 72(10): 1436-42.


[+]Histological and histomorphometrical analyses of biopsies harvested 11 years after maxillary sinus floor augmentation with deproteinized bovine and autogenous bone.

Mordenfeld A., Hallmann M., Johansson C.B., Albrektsson, T.
Clin Oral Implants Res 21(9): 961-970.


[+]Histomorphometric analysis of natural bone mineral for maxillary sinus augmentation.

John H.D., Wenz B. (2004).
Int J Oral Maxillofac Implants 19(2): 199-207


[+]Histomorphometric analysis of sinus augmentation using bovine bone mineral with two different resorbable membranes.

Jang Y. J., Choi S. Y., et al. (2011).
Clin Oral Implants Res. 24(2): Nov 17.


[+]Histomorphometric comparison of maxillary pristine bone and composite bone graft biopsies obtained after sinus augmentation.

Galindo-Moreno P., Moreno-Riestra I., et al. (2009).
Clin Oral Implants Res 21(1): 122-8.


[+]Histopathological comparison of healing after maxillary sinus augmentation using xenograft mixed with autogenous bone versus allograft mixed with autogenous bone

Galindo-Moreno P, de Buitrago JG, Padial-Molina M, Fernández-Barbero JE, Ata-Ali J, O Valle F. (2017).
Clin Oral Implants Res


[+]Horizontal ridge augmentation using autogenous block grafts and the guided bone regeneration technique with collagen membranes: a clinical study with 42 patients.

von Arx T., Buser D. (2006).
Clin Oral Implants Res 17(4): 359-366


[+]Horizontal Ridge Augmentation using GBR with a Native Collagen Membrane and 1:1 Ratio of Particulated Xenograft and Autologous Bone: A 1-Year Prospective Clinical Study

Meloni SM, Jovanovic SA, Urban I, Canullo L, Pisano M, Tallarico M (2016).
Clin Implant Dent Relat Res


[+]Human Autopsy Study of Peri-implant Dehiscence Defects with Guided Bone Regeneration: A Case Report

Cha JK, Sanz M, Jung UW. (2018).
Int J Periodontics Restorative Dent


[+]Human osteoclast formation and activity on a xenogenous bone mineral.

Perrotti V., Nicholls B.M., et al. (2009).
J Biomed Mater Res A 90(1): 238-46.


[+]Immediate implant placement into posterior sockets with or without buccal bone dehiscence defects: A retrospective cohort study

Hu C, Gong T, Lin W, Yuan Q, Man Y. (2017).
J Dent


[+]Immediate implant placement with simultaneous guided bone regeneration in the esthetic zone: 10-year clinical and radiographic outcomes

Kuchler U, Chappuis V, Gruber R, Lang NP, Salvi GE. (2016).
Clin Oral Implants Res


[+]Immediate implant placement: the fate of the buccal crest. A retrospective cone beam computed tomography study

Groenendijk E, Staas TA, Graauwmans FEJ, Bronkhorst E, Verhamme L, Maal T, Meijer GJ. (2017).
Int J Oral Maxillofac Surg


[+]Immediate provisionalization of dental implants in grafted alveolar ridges in the esthetic zone: a 5 year evaluation

Cooper LF, Reside G, Raes F, Garriga JS, Tarrida LG, Wiltfang J, Kern M, De Bruyn H. (2013).
Clin Oral Implants Res. 2013 Apr 4. doi: 10.1111/clr.12170.


[+]Immediate transmucosal implant placement in fresh maxillary and mandibular molar extraction sockets: description of technique and preliminary results.

Carlino P., Pepe V., et al. (2008).
Minerva Stomatol 57(10): 471-83.


[+]Immunohistochemical characterization of guided bone regeneration at a dehiscence-type defect using different barrier membranes: an experimental study in dogs.

Schwarz F., Rothamel D., et al. (2008).
Clin Oral Implants Res 19(4): 402-15.


[+]Impact of a collagen matrix on early healing, aesthetics and patient morbidity in oral mucosal wounds - a randomized study in humans

Thoma DS, , Sancho-Puchades M, Ettlin DA, Hammerle CHF, Jung RE. (2012).
J ClinPeriodontol 2012; 39: 157–165. doi: 10.1111/j.1600-051X.2011.01823.x. Epub 2011 Dec 6.


[+]Impact of biomaterial microtopography on bone regeneration: comparison of three hydroxyapatites.

Lambert F, Bacevic M, Layrolle P, Schüpbach P, Drion P, Rompen E. (2017).
Clin Oral Implants Res


[+]Impact of implant surface and grafting protocol on clinical outcomes of endosseous implants

Marchetti C., Pieri F., et al. (2007).
Int J Oral Maxillofac Implants 22(3): 399-407.


[+]Incidence, diagnosis, and treatment of sinus graft infection after sinus floor elevation: a clinical study.

Urban I. A., Nagursky H., et al. (2010).
Int J Oral Maxillofac Implants 27(2): 449-57.


[+]Interventions for replacing missing teeth: bone augmentation techniques for dental implant treatment.

Esposito M., Grusovin M., et al. (2006).
Cochrane Database Syst Rev (1): CD003607 (of Int J Oral Maxillofac Implants 21(5): 696-710.)


[+]Lateral Ridge Augmentation Using Autogenous Block Grafts and Guided Bone Regeneration: A 10-Year Prospective Case Series Study

Chappuis V, Cavusoglu Y, Buser D, von Arx T (2017).
Clin Implant Dent Relat Res


[+]Lateral ridge augmentation with Bio-Oss alone or Bio-Oss mixed with particulate autogenous bone graft: a systematic review

Aludden HC, Mordenfeld A, Hallman M, Dahlin C, Jensen T. (2017).
Int. J. Oral Maxillofac. Surg.


[+]Lateral ridge augmentation with two different ratios of deproteinized bovine bone and autogenous bone: A 2-year follow-up of a randomized and controlled trial

Mordenfeld A, Aludden H, Starch-Jensen T. (2017).
Clin Implant Dent Relat Res


[+]Long-term clinical outcome after reconstruction of periodontal defects using a bovine-derived xenograft. A retrospective cohort study.

Tietmann C. and Bröseler F. (2006).
PERIO 3(2): 79-86.


[+]Long-term Evaluation of Peri-implant Bone Level after Reconstruction of Severely Atrophic Edentulous Maxilla via Vertical and Horizontal Guided Bone Regeneration in Combination with Sinus Augmentation: A Case Series with 1 to 15 Years of Loading

Urban IA, Monje A, Lozada JL, Wang HL. (2016).
Clin Implant Dent Relat Res


[+]Long-term outcomes after vestibuloplasty with a porcine collagen matrix (Mucograft® ) versus the free gingival graft: a comparative prospective clinical trial.

Schmitt CM, Moest T, Lutz R, Wehrhan F, Neukam FW, Schlegel KA. (2016).
Clin Oral Implants Res.


[+]Long-Term Results Comparing Xenogeneic Collagen Matrix and Autogenous Connective Tissue Grafts With Coronally Advanced Flaps for Treatment of Dehiscence-Type Recession Defects

McGuire MK, Scheyer ET. (2016).
J Periodontol


[+]Long-term results of periodontal regenerative therapy: a retrospective practice-based cohort study

Bröseler F, Tietmann C, Hinz AK, Jepsen S. (2017).
J Clin Periodontol


[+]Long-term stability of contour augmentation in the esthetic zone: histologic and histomorphometric evaluation of 12 human biopsies 14 to 80 months after augmentation.

Jensen SS1, Bosshardt DD, Gruber R, Buser D. (2014).
J Periodontol. 2014 Nov;85(11):1549-56. Epub 2014 Jul 10.


[+]Long-term stability of contour augmentation in the esthetic zone: histologic and histomorphometric evaluation of 12 human biopsies 14 to 80 months after augmentation.

Jensen SS, Bosshardt DD, Gruber R, Buser D. (2014).
J Periodontol


[+]Long-Term Stability of Contour Augmentation With Early Implant Placement Following Single Tooth Extraction in the Esthetic Zone A Prospective, Cross-Sectional Study in 41 Patients With a 5- to 9-Year Follow-Up

Buser D, Chappuis V, Bornstein MM, Wittneben JG, Frei M, Belser UC. (2013).
J Periodontol. 2013 Jan 24. [Epub ahead of print]


[+]Marginal Bone Loss in Implants Placed in the Maxillary Sinus Grafted With Anorganic Bovine Bone: A Prospective Clinical and Radiographic Study

Dinato TR, Grossi ML, Teixeira ER, Dinato JC, Sczepanik FS, Gehrke SA (2016).
J Periodontol


[+]Maxillary sinus augmentation using different grafting materials and dental implants in monkeys-part I. Evaluation of anorganic bovine-derived bone matrix.

Hürzeler M.B., Quiñones C.R., Kirsch A., Gloker C., Schüpbach P., Strub J.R., Caffesse R.G. (1997).
Clin Oral Impl Res 8(6): 476-486.


[+]Maxillary sinus augmentation with autologous bone harvested from the lateral maxillary wall combined with bovine-derived hydroxyapatite: clinical and histologic observations.

de Vicente J. C., Hernandez-Vallejo G., et al. (2010).
Clin Oral Implants Res 21(4): 430-8.


[+]Maxillary sinus augmentation with Bio-Oss particles: a light, scanning, and transmission electron microscopy study in man

Orsini G., Traini T., Scarano A., Degidi M., Perrotti V., Piccirilli M., Piattelli A. (2005).
J Biomed Mater Res Part B: Appl Biomater 74B: 448-457.


[+]Maxillary sinus floor augmentation with Bio-Oss® or Bio-Oss® mixed with autogenous bone as graft: a systematic review.

Jensen T., Schou S., et al. (2012).
Clin Oral Implants Res 23(3): 263-73.


[+]Maxillary sinus floor elevation for implant placement with demineralized freeze-dried bone and bovine bone (Bio-Oss®): a clinical study of 20 patients.

Valentini P., Abensur D. (1997).
Int J Periodontics Restorative Dent 17(3): 232-41.


[+]Maxillary sinus grafting with anorganic bovine bone: a clinical report of long-term results.

Valentini P., Abensur D.J. (2003).
Int J Oral Maxillofac Implants 18(4): 556-60.


[+]Maxillary sinus lift with solely autogenous bone compared to a combination of autogenous bone and growth factors or (solely) bone substitutes. A systematic review.

Rickert D., Slater J. J., et al. (2012).
Int J Oral Maxillofac Surg 41(2): 160-7.


[+]Membrane durability and tissue response of different bioresorbable barrier membranes: a histologic study in the rabbit calvarium.

Von Arx T., Broggini N., Storgard S., Bornstein M., Schenk R., Buser D. (2005).
Int J Oral & Maxillofacial Impl 20(6): 843-53.


[+]Microvessel density and vascular endothelial growth factor expression in sinus augmentation using Bio-Oss®.

Degidi M., Artese L., Rubini C., Perrotti V., Iezzi G., Piatelli A. (2006).
Oral Dis 12(5): 469-475.


[+]Morphological evidences of Bio-Oss® colonization by CD44-postitive cells

Galindo-Moreno P, Hernández-Cortés P, Aneiros-Fernández J, Camara M, Mesa F, Wallace S, O'Valle F. (2013).
Clin Oral Implants Res. 2013 Jan 28. doi: 10.1111/clr.12112. [Epub ahead of print]


[+]Non-interventional 1-year follow-up study of peri-implant soft tissues following previous soft tissue augmentation and crown insertion in single tooth gaps

Huber S, Zeltner M, Hämmerle CHF, Jung RE, Thoma DS. (2018).
J Clin Periodontol.


[+]Novel Collagen Matrix to Increase Tissue Thickness Simultaneous with Guided Bone Regeneration and Implant Placement in Esthetic Implant Sites: A Feasibility Study.

Chappuis V, Shahim K, Buser R, Koller E, Joda T, Reyes M, Buser D. (2018).
Int J Periodontics Restorative Dent


[+]One-stage horizontal guided bone regeneration with autologous bone, anorganic bovine bone and collagen membranes: Follow-up of a prospective study 30 months after loading

Meloni SM, Jovanovic SA, Pisano M, De Riu G, Baldoni E, Tallarico M (2018).
Eur J Oral Implantol


[+]One-stage horizontal guided bone regeneration with autologous bone, anorganic bovine bone and collagen membranes: Follow-up of a prospective study 30 months after loading

Meloni SM, Jovanovic SA, Pisano M, De Riu G, Baldoni E, Tallarico M. (2018).
Eur J Oral Implantol


[+]Optimal microvessel density from composite graft of autogenous maxillary cortical bone and anorganic bovine bone in sinus augmentation: influence of clinical variables.

Galindo-Moreno P., Padial-Molina M., Fernandez-Barbero J. E., Mesa F., Rodriguez-Martinez, D., O'Valle F. (2010).
Clin Oral Implants Res 21(2): 221-7.


[+]Orthodontic movement in bone defects augmented with Bio-Oss®- an experimental study in dogs.

Araujo M.G., Carmagnola D., Berglundh T., Thilander B. Lindhe J. (2001).
J Clin Periodontol 28(1): 73-80.


[+]Palatal wound healing using a xenogeneic collagen matrix - histological outcomes of a randomized controlled clinical trial

Thoma DS, Hilbe M, Bienz SP, Sancho-Puchades M, Hämmerle CH, Jung RE. (2016).
J Clin Periodontol


[+]Performance of dental implants after staged sinus floor elevation procedures: 5-year results of a prospective study in partially edentulous patients.

Bornstein M. M., Chappuis V., et al. (2008).
Clin Oral Implants Res 19(10): 1034-43.


[+]Periodontal regeneration with an autogenous bone- Bio-Oss® composite graft and a Bio-Gide® membrane.

Camelo M., Nevins M., Lynch S., Schenk R., Simion M, Nevins M. (2001).
Int J Periodontics Restorative Dent 21(2): 109-19.


[+]Periodontal Regenerative Therapy of Intrabony Defects Using Deproteinized Bovine Bone Mineral in Combination with Collagen Barrier Membrane: A Multicenter Prospective Case-Series Study

Irokawa D, Okubo N, Nikaido M, Shimizu H, Konobu H, Matsui T, Fujita T, Goto H, Takeuchi T, Ishii Y, Saito A. (2017).
Int J Periodontics Restorative Dent


[+]Porous bovine bone mineral in healing of human extraction sockets: 2. Histochemical observations at 9 months.

Artzi Z., Tal H., et al. (2001).
J Periodontol 72(2): 152-9.


[+]Postextraction socket preservation using epithelial connective tissue graft vs porcine collagen matrix. 1-year results of a randomized controlled trial.

Silvio Mario Meloni, Marco Tallarico, Francesco Maria Lolli, Alessandro Deledda, Milena Pisano, Sascha A. Javanovic (2015).
Eur J Oral Implantol 2015;8(1):39-48


[+]Postextraction socket preservation using epithelial connective tissue graft vs porcine collagen matrix. 1-year results of a randomised controlled trial.

Meloni SM, Tallarico M, Lolli FM, Deledda A, Pisano M, Jovanovic SA. (2015).
Eur J Oral Implantol.


[+]Postextraction tissue management: a soft tissue punch technique.

Jung R., Siegenthaler D., Hämmerle C.H. (2004).
Int J Periodontics Restorative Dent 24(6): 545-53.


[+]Prevention of mandibular third molar extraction-associated periodontal defects: a comparative study.

Sammartino G., Tia M., et al. (2009).
J Periodontol 80(3): 389-96.


[+]Prospective observation of 41 perforations of the Schneiderian membrane during sinus floor elevation

Becker S. T., Terheyden H., et al. (2008).
Clin Oral Implants Res 19(12): 1285-9.


[+]Radiographic analysis of a transalveolar sinus lift technique: a multi-practice retrospective study with a mean follow-up of 5 years.

Soardi E, Cosci F, Checchi V, Pellegrino G, Bozzoli P, Felice P. (2013).
Aug;84(8):1039-47


[+]Radiographic and histological evaluation of deproteinized bovine bone mineral vs. deproteinized bovine bone mineral with 10% collagen in ridge preservation. A randomized controlled clinical trial

Nart J, Barallat L, Jimenez D, Mestres J, Gómez A, Carrasco MA, Violant D, Ruíz-Magaz V. (2016).
Clin Oral Implants Res


[+]Radiographic evaluation of different techniques for ridge preservation after tooth extraction: a randomized controlled clinical trial.

Jung RE, Philipp A, Annen BM, Signorelli L, Thoma DS, Hämmerle CH, Attin T, Schmidlin P. (2013).
J Clin Periodontol. 2013 Jan;40(1):90-8.


[+]Randomized controlled clinical study assessing two membranes for guided bone regeneration of peri-implant bone defects: 3-year results.

Basler T, Naenni N, Schneider D, Hämmerle CHF, Jung RE, Thoma DS. (2018).
Clin Oral Implants Res


[+]Randomized controlled clinical study comparing a volume-stable collagen matrix to autogenous connective tissue grafts for soft tissue augmentation at implant sites: linear volumetric soft tissue changes up to 3 months

Zeltner M, Jung RE, Hämmerle CH, Hüsler J, Thoma DS. (2017).
J Clin Periodontol.


[+]Randomized controlled clinical study evaluating effectiveness and safety of a volume-stable collagen matrix compared to autogenous connective tissue grafts for soft tissue augmentation at implant sites

Thoma DS, Zeltner M, Hilbe M, Hämmerle CH, Hüsler J, Jung RE. (2016).
J Clin Periodontol.


[+]Randomized controlled clinical trial to evaluate a xenogenic collagen matrix as an alternative to free gingival grafting for oral soft tissue augmentation.

McGuire M, Scheyer T (2014).
J Periodontal 2014 Oct;85(10): 1333-41. Epub 2014 Mar 5.


[+]Reconstruction of anatomically complicated periodontal defects using a bioresorbable GTR barrier supported by bone mineral. A 6-month follow-up study of 6 cases.

Lundgren D., Slotte C. (1999).
J Clinical Periodontol 26(1): 56-62.


[+]Reduction of autogenous bone graft resorption by means of Bio-Oss® coverage: a prospective study.

Maiorana C., Beretta M., Salina S., Santoro F. (2005).
Int J Periodontics Restorative Dent 25(1): 19-25.


[+]Regeneration of periodontal tissues: combinations of barrier membranes and grafting materials - biological foundation and preclinical evidence: a systematic review.

Sculean A., Nikolidakis D., et al. (2008).
J Clin Periodontol 35(8 Suppl): 106-16.


[+]Regenerative surgical therapy for peri-implantitis using deproteinized bovine bone mineral with 10% collagen, enamel matrix derivative and Doxycycline-A prospective 3-year cohort study.

Mercado F, Hamlet S, Ivanovski S. (2018).
Clin Oral Implants Res


[+]Regenerative surgical treatment of peri-implantitis using either a collagen membrane or concentrated growth factor: A 12-month randomized clinical trial

Isler SC, Soysal F, Ceyhanlı T, Bakırarar B, Unsal B. (2018).
Clin Implant Dent Relat Res.


[+]Regenerative therapy of deep peri-implant infrabony defects after CO2 laser implant surface decontamination.

Romanos G. E. and Nentwig G. H. (2008).
Int J Periodontics Restorative Dent 28(3): 245-55.


[+]Repair of large sinus membrane perforations using stabilized collagen barrier membranes: surgical techniques with histologic and radiographic evidence of success.

Testori .T, Wallace S.S., et al. (2008).
Int J Periodontics Restorative Dent 28(1): 9-17.


[+]Retrospective Analysis of the Outcome of Ridge Preservation with Anorganic Bovine Bone Minerals: Microcomputed Tomographic Assessment of Wound Healing in Grafted Extraction Sockets

Bakhshalian N, Freire M, Min S, Wu I, Zadeh HH. (2018).
Int J Periodontics Restorative Dent


[+]Ridge alterations following grafting of fresh extraction sockets in man. A randomized clinical trial.

Araújo MG, da Silva JC, de Mendonça AF, Lindhe J (2015).
Clin Oral Implants Res


[+]Ridge augmentation by applying bioresorbable membranes and deproteinized bovine bone mineral: a report of twelve consecutive cases.

Hämmerle C.H., Jung R.E., Yaman D., Lang N.P. (2008).
Clin Oral Implants Res 19(1): 19-25.


[+]Ridge preservation with the use of Bio-Oss Collagen®: a 6-month study in the dog.

Araujo M. G., Lindhe J. (2009).
Clin Oral Implants Res 20(5): 433-40.


[+]Ridge preservation with the use of deproteinized bovine bone mineral

Lindhe J, Cecchinato D, Donati M, Tomasi C, Liljenberg B J. (2013).
Clin Oral Implants Res. 2013 Apr 4. doi: 10.1111/clr.12170. [Epub ahead of print]


[+]Scar Tissue Formation Following Alveolar Ridge Preservation: A Case Control Study.

Fickl S, Kauffmann F, Stappert CF, Kauffmann A, Schlagenhauf U. (2018).
Int J Periodontics Restorative Dent


[+]Scintigraphic, histologic, and histomorphometric analyses of bovine bone mineral and autogenous bone mixture in sinus floor augmentation: a randomized controlled trial -results after 4 months of healing.

Pikdoken L., Gurbuzer B., et al. (2010).
J Oral Maxillofac Surg 69(1): 160-9.


[+]Single implants in the aesthetic region preceded by local ridge augmentation; a 10-year randomized controlled trial

Meijndert CM, Raghoebar GM, Meijndert L, Stellingsma K, Vissink A, Meijer HJ (2017).
Clin Oral Implants Res


[+]Sinus augmentation utilizing anorganic bovine bone (Bio-Oss) with absorbable and nonabsorbable membranes placed over the lateral window: histomorphometric and clinical analyses.

Wallace S.S., Froum S.J., Cho S.C., Elian N., Monteiro D., Kim B.S., Tarnow D.P. (2005).
Int J Periodotics Restorative Dent 25(6): 551-9.


[+]Sinus floor augmentation using large (1-2 mm) or small (0.25-1 mm) bovine bone mineral particles: a prospective, intra-individual controlled clinical, micro- computerized tomography and histomorphometric study.

Chackartchi T., Iezzi G., Goldstein M., Klinger A., Soskolne A., Piattelli A., Shapira L. (2011).
Clin Oral Implants Res 22(5): 473-80.


[+]Sinus floor elevation using a bovine bone mineral (Bio-Oss) with or without the concomitant use of a bilayered collagen barrier (Bio-Gide): a clinical report of immediate and delayed implant placement.

Tawil G., Mawla M. (2001).
Int J Oral Maxillofac Impl 16(5): 713-21


[+]Sinus lift grafting with anorganic bovine bone vs 50% autologous bone mixed with 50% anorganic bovine bone: 2 years after loading results from a randomised controlled trial

Meloni SM, Jovanovic SA, Pisano M, Xhanari E, De Riu G, Tullio A, Tallarico M. (2017).
Eur J Oral Implantol


[+]Socket grafting in the posterior maxilla reduces the need for sinus augmentation.

Rasperini G., Canullo L., Dellavia C., Pellegrini G., Simion M. (2010).
Int J Periodontics Restorative Dent 30(3): 265-73.


[+]Socket grafting with the use of autologous bone: an experimental study in the dog.

Araujo M. G., Lindhe J. (2011).
Clin Oral Implants Res 22(1): 9-13.


[+]Socket preservation using bovine bone mineral and collagen membrane: a randomized controlled clinical trial with histologic analysis.

Cardaropoli D., Tamagnone L., Roffredo A., Gaveglio L., Cardaropoli G. (2012).
Int J Periodontics Restorative Dent 32(4): 421–430.


[+]Soft tissue contour changes at immediate implants: a randomized controlled clinical study

Cardaropoli D, Gaveglio L, Gherlone E, Cardaropoli G. (2014).
Int J Periodontics Restorative Dent


[+]Soft tissue volume augmentation at dental implant sites using a volume stable three-dimensional collagen matrix - histologic outcomes of a preclinical study.

Thoma DS, Naenni N, Benic GI, Hämmerle CH, Jung RE. (2017).
J Clin Periodontol


[+]Soft tissue volume augmentation by the use of collagen-based matrices in the dog mandible -- a histological analysis.

Thoma DS, Hämmerle CH, Cochran DL, Jones AA, Görlach C, Uebersax L, Mathes S, Graf-Hausner U, Jung RE. (2011).
J Clin Periodontol.


[+]Soft tissue volume augmentation by the use of collagen-based matrices: a volumetric analysis.

Thoma DS, Jung RE, Schneider D, Cochran DL, Ender A, Jones AA, Görlach C, Uebersax L, Graf-Hausner U, Hämmerle CH. (2010).
J Clin Periodontol.


[+]Successful management of peri-implantitis with a regenerative approach: a consecutive series of 51 treated implants with 3- to 7.5-year follow-up.

Froum S.J., Froum S.H., Rosen P.S. (2012).
Int J Periodontics Restorative Dent 32(1): 11-20.


[+]Successful management of peri-implantitis with a regenerative approach: a consecutive series of 51 treated implants with 3- to 7.5-year follow-up.

Froum S.J., Froum S.H., Rosen P.S. (2012).
Int J Periodontics Restorative Dent.;32(1):11-20.


[+]Surgical protocols for ridge preservation after tooth extraction. A systematic review.

Vignoletti F., Matesanz P., et al. (2012).
Clin Oral Implants Res 23 Suppl 5: 22-38.


[+]Surgical regenerative treatment of peri-implantitis lesions using a nanocrystalline hydroxyapatite or a natural bone mineral in combination with a collagen membrane: a four-year clinical follow-up report.

Schwarz F., Sahm N., et al. (2009).
J Clin Periodontol 36(9): 807-14.


[+]Surgical therapy of single peri-implantitis intrabony defects, by means of deproteinized bovine bone mineral with 10% collagen

Roccuzzo M, Gaudioso L, Lungo M, Dalmasso P (2016).
J Clin Periodontol


[+]Surgical therapy of peri-implantitis lesions by means of a bovine-derived xenograft: comparative results of a prospective study on two different implant surfaces.

Roccuzzo M, Bonino F, Bonino L, Dalmasso P. (2011).
J Clin Periodontol


[+]Surgical treatment of peri-implantitis intrabony lesions by means of deproteinized bovine bone mineral with 10% collagen: 7-year-results.

Roccuzzo M, Pittoni D, Roccuzzo A, Charrier L, Dalmasso P. (2017).
Clin Oral Implants Res.


[+]Systematic review of survival rates for implants placed in the grafted maxillary sinus.

Del Fabbro M., Testori T., Francetti L., Weinstein R. (2004).
Int J Periodontics Restorative Dent 24(6): 565-77.


[+]Ten-year follow-up in a maxillary sinus augmentation using anorganic bovine bone (Bio-Oss). A case report with histomorphometric evaluation.

Sartori S., Silvestri M., Forni F., Icaro Cornaglia A., Tesei P., Cattaneo V. (2003).
Clin Oral Impl Res 14(3): 369-372.


[+]The ABC Protocol in the Esthetic Zone: A Comprehensive Surgical and Prosthetic Approach.

Ntounis A, Pitman LM, Pollini A, Vidal R, Lin WS, Madigan MP, Greenwell H. (2015).
Int J Periodontics Restorative Dent


[+]The amount of newly formed bone in sinus grafting procedures depends on tissue depth as well as the type and residual amount of the grafted material.

Artzi Z., Kozlovsky A., Nemcovsky C.E., Weinreb M. (2005).
J Clin Periodontol. 32(2): 193-199.


[+]The clinical evaluation of periodontal surgery with porous bone graft material (Bio-Oss®) and collagen membrane (Bio-Gide®)

Ohazama A., Kitamura H., Suzuki M., Yamada S., Hasegawa K. (1999).
Journal of the Japanese Society of Periodontology 41.


[+]The clinical use of deproteinized bovine bone mineral on bone regeneration in conjunction with immediate implant installation.

Van Steenberghe D., Callens A., Geers L., Jacobs R. (2000).
Clin Oral Implants Res 11(3): 210-6.


[+]The effect of a flapless alveolar ridge preservation procedure with or without a xenograft on buccal bone crest remodeling compared by histomorphometric and microcomputed tomographic analysis

de Barros RR, Novaes AB Jr, de Carvalho JP, de Almeida AL. (2016).
Clin Oral Implants Res


[+]The effect of deproteinized bovine bone on osteoblast growth factors and proinflammatory cytokine production.

Amerio P., Vianale G., Reale M., Muraro R., Tulli A., Piattelli A. (2010).
Clin Oral Implants Res 21(6): 650-5.


[+]The effect of placing a bone replacement graft in the gap at immediately placed implants: a randomized clinical trial

Sanz M, Lindhe J, Alcaraz J, Sanz-Sanchez I, Cecchinato D. (2016).
Clin Oral Implants Res


[+]The effects of bone grafting material and a collagen membrane in the ridge splitting technique: an experimental study in dogs.

Han J.Y., Shin S.I., et al. (2011).
Clin Oral Implants Res 22(12): 1391-8.


[+]The effects of resorbable membrane on human maxillary sinus graft: a pilot study.

Choi K. S., Kan J. Y., et al. (2009).
Int J Oral Maxillofac Implants 24(1): 73-80.


[+]The efficacy of a porcine collagen matrix in keratinized tissue augmentation: a 5-year follow-up study

Maiorana, C., Pivetti, L., Signorino, F., Grossi, G. B., Herford, A. S., Beretta, M. (2018).
Int J Impl Dent


[+]The efficacy of a porcine collagen matrix in keratinized tissue augmentation: a 5-year follow-up study

Maiorana C, Pivetti L, Signorino F, Grossi GB, Herford AS, Beretta M (2018).
Int J Implant Dent


[+]The efficacy of interventions to treat peri-implantitis: a Cochrane systematic review of randomised controlled clinical trials.

Esposito M., Grusovin M.G., Coulthard P., Worthington H.V. (2008).
Eur J Oral Implantol 1(2): 111-125.


[+]The efficacy of various bone augmentation procedures for dental implants: a Cochrane systematic review of randomized controlled clinical trials.

Esposito M., Grusovin M. G., et al. (2006).
Int J Oral Maxillofac Implants 21(5): 696-710.


[+]The influence of Bio-Oss Collagen® on healing of an extraction socket: an experimental study in the dog.

Araujo M., Linder E., et al. (2008).
Int J Periodontics Restorative Dent 28(2): 123-35.


[+]The influence of collagen membrane and autogenous bone chips on bone augmentation in the anterior maxilla: a preclinical study

Janner SF, Bosshardt DD, Cochran DL, Chappuis V, Huynh-Ba G, Jones AA, Buser D. (2016).
Clin Oral Implants Res


[+]The issue of bioresorption of the Bio-Oss® xenogeneic bone substitute in bone defects.

Duda M. and Pajak J. (2004).
Ann Univ Mariae Curie Sklodowska [Med] 59(1): 269-77.


[+]The ultrastructure of anorganic bovine bone and selected synthetic hyroxyapatite used as bone graft substitute materials.

Rosen V.B., Hobbs L.W., Spector M. (2002).
Biomaterials 2002; 23(3): 921-8.


[+]The use of GMG collagen matrix to augment the zone of keratinized tissue around teeth: a pilot study.

Nevins M, Nevins ML, Kim SW, Schüpbach P, Kim DM. (2011).
Int J Periodontics Restorative Dent 2011;31(4):367-73.


[+]Three-dimensional analysis of bone remodeling following ridge augmentation of compromised extraction sockets in periodontitis patients: A randomized controlled study

Aimetti M, Manavella V, Corano L, Ercoli E, Bignardi C, Romano F. (2017).
Clin Oral Implants Res


[+]Three-dimensional cultivation of human osteoblast-like cells on highly porous natural bone mineral.

Açil Y., Terheyden H., Dunsche A., Fleiner B., Jepsen S. (2000).
J Biomed Mater Res 51(4): 703-10.


[+]Three-dimensional micro-computed tomographic evaluation of periodontal regeneration: a human report of intrabony defects treated with Bio-Oss Collagen®.

Nevins M. L., Camelo M, et al. (2005).
Int J Periodontics Restorative Dent 25(4): 365-73.


[+]Three-Dimensional Volumetric Changes in Severely Resorbed Alveolar Sockets After Ridge Augmentation with Bovine-Derived Xenograft and Resorbable Barrier: A Preliminary Study on CBCT Imaging

Manavella V, Romano F, Corano L, Bignardi C, Aimetti M. (2017).
Int J Oral Maxillofac Implants


[+]Three-Year Clinical and Radiographic Implant Follow-up in Sinus-Lifted Maxilla With Lateral Window Technique

Erdem NF, Çiftçi A, Acar AH (2016).
Implant Dent


[+]Tissue alterations after tooth extraction with and without surgical trauma: a volumetric study in the beagle dog.

Fickl S., Zuhr O., et al. (2008).
J Clin Periodontol 35(4): 356-63.


[+]Tissue Integration of a Volume-Stable Collagen Matrix in an Experimental Soft Tissue Augmentation Model

Ferrantino L, Bosshardt D, Nevins M, Santoro G, Simion M, Kim D. (2016).
Int J Periodontics Restorative Dent.


[+]Tissue integration of collagen-based matrices: an experimental study in mice.

Thoma DS, Villar CC, Cochran DL, Hämmerle CH, Jung RE. (2012).
Clin Oral Implants Res.


[+]Tissue reaction and material characteristics of four bone substitutes.

Jensen S.S., Merete A., Pinholt E.M., Hjørting-Hansen E., Melsen F., Ruyter E. (1996).
Int J Oral Maxillofac Implants 11(1): 55-66.


[+]Treatment of angular bone defects with a composite bone grafting material in combination with a collagen membrane.

Zitzmann N. Rateitschak-Pluss U.E., et al. (2003).
J Periodontol 74(5): 687-94.


[+]Treatment of Class II molar furcation involvement: meta-analyses of reentry results.

Kinaia B.M., Steiger J., Neely A.L., Shah M., Bhola M. (2011).
Periodontol 82(3): 413-28. Epub 2010 Nov 23.


[+]Treatment of Gingival Recession Defects Using Coronally Advanced Flap With a Porcine Collagen Matrix Compared to Coronally Advanced Flap With Connective Tissue Graft: A Randomized Controlled Clinical Trial.

Cardaropoli D, Tamagnone L, Roffredo A, Gaveglio L. (2012).
J Periodontol. 2012 Mar;83(3):321-8. doi: 10.1902/jop.2011.110215. Epub 2011 Jul 1.


[+]Treatment of maxillary ridge resorption by sinus augmentation with iliac cancellous bone, anorganic bovine bone, and endosseous implants: a clinical and histologic report.

Maiorana C., Redemagni M., Rabagliati M., Salina S. (2000).
Int J Oral Maxillofac Implants 15(6): 873–8.


[+]Treatment of multiple recessions by means of a collagen matrix: a case series

Schlee M, Lex M, Rathe F, Kasaj A, Sader R. (2014).
Int J Periodontics Restorative Dent


[+]Two uncommon uses of Bio-Oss® for GTR and ridge augmentation following extractions: two case reports.

Pripatnanont P., Nuntanaranont T., et al. (2002).
Int J Periodontics Restorative Dent 22(3): 279-85.


[+]Use of a Collagen Matrix as a Substitute for Free Mucosal Grafts in Pre-Prosthetic Surgery: 1 Year Results From a Clinical Prospective Study on 15 Patients

Maiorana C, Beretta M, Pivetti L, Stoffella E, Grossi GB, Herford AS. (2016).
Open Dent J


[+]Use of a new cross-linked collagen membrane for the treatment of peri-implant dehiscence defects: a randomised controlled double-blinded clinical trial.

Annen B.M., Ramel C.F., Hämmerle C.H., Jung, R.E. (2011).
Eur J Oral Implantol 4(2): 87-100.


[+]Use of a Non-Crosslinked Collagen Membrane During Guided Bone Regeneration Does Not Interfere With the Bone Regenerative Capacity of the Periosteum

Pinotti FE, Pimentel Lopes de Oliveira GJ, Scardueli CR, Costa de Medeiros M, Stavropoulos A, Chiérici Marcantonio RA (2018).
J Oral Maxillofac Surg


[+]Use of a Porcine Collagen Matrix as an Alternative to Autogenous Tissue for Grafting Oral Soft Tissue Defects.

A.S. Herford, L. Akin, M. Cicciu, C. Maiorana, PJ Boyne (2010).
J Oral Maxillofac Surg. 2010 Jul;68(7):1463-70. doi: 10.1016/j.joms.2010.02.054. Epub 2010 Apr 22.


[+]Vertical ridge augmentation around implants by e-PTFE titanium-reinforced membrane and bovine bone matrix: a 24- to 54-month study of 10 consecutive cases.

Canullo L. and Malagnino V.A. (2008).
Int J Oral Maxillofac Implants 23(5): 858-66.


[+]Vertical ridge augmentation by expanded-polytetrafluoroethylene membrane and a combination of intraoral autogenous bone graft and deproteinized anorganic bovine bone (Bio Oss).

Simion M., Fontana F., Rasperini G., Maiorana C. (2007).
Clin Oral Implants Res 18(5): 620-629.


[+]Vertical ridge augmentation of the atrophic posterior mandible with interpositional bloc grafts: bone from the iliac crest vs. bovine anorganic bone. Clinical and histological results up to one year after loading from a randomized-controlled clinical trial.

Felice P., Marchetti C., et al. (2009).
Clin Oral Implants Res 20(12): 1386-93


[+]Vertical ridge augmentation using xenogenic material supported by a configured titanium mesh: clinicohistopathologic and histochemical study.

Artzi Z., Dayan D., Alpern Y., Nemcovsky C.E. (2003).
Int J Oral Maxillofac Implants 18(3): 440-446.


[+]Vertical ridge augmentation using xenogenous bone blocks: a histomorphometric study in dogs.

Rothamel D., Schwarz F., et al. (2009).
Int J Oral Maxillofac Implants 24(2): 243-50.


[+]Vertical ridge augmentation with autogenous bone grafts: resorbable barriers supported by osteosynthesis plates versus titanium-reinforced barriers. A preliminary report of a blinded randomized controlled clinical trial.

Merli M., Migani M., Esposito M. (2007).
J Oral Maxillofac Implants 22(3): 373-382.


[+]Volumetric changes following ridge preservation or spontaneous healing and early implant placement with simultaneous guided bone regeneration.

Naenni N, Bienz SP, Muñoz F, Hämmerle CHF, Jung RE, Thoma DS (2018).
J Clin Periodontol


[+]Volumetric changes of the graft after maxillary sinus floor augmentation with Bio-Oss and autogenous bone in different ratios: a radiographic study in minipigs.

Jensen T., Schou S., et al. (2011).
Objective: The objective of the present study was to learn about the volumetric changes of the graft after maxillary sinus floor augmentation with Bio-Oss and autogenous bone from the iliac crest or t


[+]Which hard tissue augmentation techniques are the most successful in furnishing bony support for implant placement.

Aghaloo T. L. and Moy P. K. (2007).
Int J Oral Maxillofac Implants 22(Suppl): 49-70.


[+]Xenogeneic Collagen Matrix versus Connective Tissue Graft for buccal soft tissue augmentation at implant site. A randomized, controlled clinical trial.

Cairo F, Barbato L, Tonelli P, Batalocco G, Pagavino G, Nieri M. (2017).
J Clin Periodontol


[+]Xenogeneic Collagen Matrix Versus Connective Tissue Graft: Case Series of Various Gingival Recession Treatments

Chevalier G, Cherkaoui S, Kruk H, Bensaïd X, Danan M. (2017).
Int J Periodontics Restorative Dent


[+]Xenogeneic Collagen Matrix with Coronally Advanced Flap compared to Connective Tissue with Coronally Advanced Flap for the Treatment of Dehiscence-Type Recession Defects.

MK McGuire, ET Scheyer. (2010).
J Periodontol. 2010 Aug;81(8):1108-17. doi: 10.1902/jop.2010.090698.


[+]Xenogenous Collagen Matrix and/or Enamel Matrix Derivative for Treatment of Localized Gingival Recessions - a Randomized Clinical Trial. Part I: Clinical Outcomes.

Sangiorgio JPM, Neves FLDS, Rocha Dos Santos M, França-Grohmann IL, Casarin RCV, Casati MZ, Santamaria MP, Sallum EA. Jr, Silverio Ruiz KG, Santamaria MP, Sallum EA (2017).
J Periodontol


[+]Xenogenous Collagen Matrix and/or Enamel Matrix Derivative for Treatment of Localized Gingival Recessions - a Randomized Clinical Trial. Part II: Patient-Reported Outcomes

Rocha Dos Santos M, Sangiorgio JPM, Neves FLDS, França-Grohmann IL, Nociti FH Jr, Silverio Ruiz KG, Santamaria MP, Sallum EA (2017).
J Periodontol


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