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BIBLIOGRAFIA SCIENTIFICA

1) SL surface treatment (sandblasting + acid etching Straumann® type); Plasma reactor decontamination
2) Implant endo-osseous portion: tapered shape
3) Implant endo-osseous portion: emphasised thread
4) Smooth cylindrical neck
5) Internal hexagon interface (Zimmer Screw-Vent® type)
6) Switching platform
7) Morse-taper connection
8) Bone reabsorbtion
9) Leve Loading and leverage
1) SL surface treatment (sandblasting + acid etching Straumann® type); Plasma reactor decontamination
1. Branemark PI, Hansson B, Adell R, Breine U, Lindstrom J, Hallen O, Ohman A. Osseointegrated implants in the tratment of edentulous jaw: Experience from a 10 year period. Scand J Plast Reconstr Surg Suppl 1977;16:1-132. .
2. Schroeder A, Van der Zypen E, Stich H, Sutter F. The reaction of bone, connective tissue and epithelium to endosteal implants with sprayed titanium surfaces. J Maxillofac Surg 1981;9:15-25.
3. Buser D, Meriscke-Stern R, Dula K, Lang NP. Clinical experience with one-stage, non-submerged dental implants. Ad Dental Res 1999;13:153-61.
4. Carlsson L, Rostlund T, Albrektsson B, Albrektsson T. Removal torques for polished and rough titanium implants. Int J Maxillofac Impl 1988;3:21-4.
5. Menghini P, Battaini P. Metallurgia in odontoiatria. Milano: Masson; 1997.
6. Pilliar RM. Overview of surface variability of metallic endosseous dental implants: textured and porous surface-structured designs. Impl Dentistry 1998;7(4):305-12.
7. Brunette DM. The effects of implant surface topography on the behavior of cells. Int J Oral Maxillofac Impl 1988;3:231-46.
8. Smith DC, Pilliar RM, Metson JB, McIntyre NS. Dental implant materials. II. Preparative procedures and surface spectroscopic studies. J Biomed Mater Res 1991;25(9):1069-84.
9. Bowers KT, Keler JC, Randolph BA, Wick DG, Michaels CM. Optimization of surface micromorphology for enhanced osteoblast responses in vitro. Int J Oral Maxillofac Impl 1992;7:302-10.
10. De Santis E, Fadda M, Gasparini G, Rosa MA. Interazione osso-protesi. Aspetti di istofisiopatologia. Sassari: Università degli Studi di Sassari; 1994.
11. Bianchi A. Implantologia ed implantoprotesi. Torino: UTET Editore; 2000.
12. Lekholm U, Zarb GA. Tissue integrated prostheses: osseointegration in clinical dentistry. Chicago: Branemark, Zarb & Albrektsson Eds.; 1985.
13. Adell R, Lekholm U, Rockler B, Brånemark P-I, Lindhe J, Eriksson B, Sbordone L. Marginal tissue reactions at osseointegrated titanium fixtures (I). A 3-year longitudinal prospective study. Int J Oral Maxillofac Surg 1986:15:39-52.
14. Celeste M Abraham A Brief Historical Perspective on Dental Implants, Their Surface Coatings and Treatments Open Dent J. 2014; 8: 50–55
15. Ellingsen J. Pre-treatment of titanium implants with fluoride improves their retention in bone. J Mat Sci Mat Med. 1995;6:749–53.
16. Ellingsen JE, Johansson CB, Wennerberg A, Holmen A. Improved retention and bone-to-implant contact with fluoride-modified titanium implants. Int J Oral Maxillofac Imp. 2004;19:659–66.
17. Gupta A, Dhanraj M, Sivagami G. Status of surface treatment in endosseous implant: A literary overview. Ind J Dent Res. 2010;21:433–8
18. Engquist B, Astrand P, Dahlgren S, Engquist E, Feldmann H, Grondahl K. Marginal bone reaction to oral implants: A prospective comparative study of Astra Tech and Brånemark System implants. Clin Oral Implan Res. 2002;13:30–7
19. Bornstein MM, Valderrama P, Jones AA, Wilson TG, Seibl R, Cochran DL. Bone apposition around two different sandblasted and acid-etched titanium implant surfaces: A histomorphometric study in canine mandibles. Clin Oral Implan Res.
2008;19:233–41.
20. Wong M , Eulenberger J, Schenk R, Hunziker E. Effect of surface topology on the osseointegration of implant materials in trabecular bone. J Biomed Mater Res. 1995;29:1567–75.
21. Braceras I, De Maeztu MA, Alava JI, Gay-Escoda C. In vivo low-density bone apposition on different implant surface materials. Int J Oral Maxillofac Implants. 2009;38:274–8.
22. Novaes AB Jr, Souza SL, de Oliveira PT, Souza AM. Histomorphometric analysis of the bone-implant contact obtained with 4 different implant surface treatments placed side by side in the dog mandible. The Int J Oral Maxillofac Implants. 2002;17:377–
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23. Alla RK, Ginjupalli K, Upadhya N, Shammas M, Rama Krishna R, Ravichandra S. Surface roughness of implants: A review. Trends Biomat Artif Org. 2011;25(3):112.
24. Sabane AV. Surface characteristics of dental implants: A review. J Indian Acad Dental Special. 2011;2 (2):18–21.
25. QUINLAN P., NUMMIKOSKI P., SCHENK R., CAGNA D., MELLONIG J., HIGGINBOTTOM F., LANG K., BUSER D., COCHRAN D. Immediate and early loading of SLA ITI singletooth implants: an in vivo study. Int J Oral Maxillofac Implants 2005 May-
Jun;20(3):360-70.
26. GRASSI S., PIATTELLI A., FERRARO D.S., FIGUEIREDO L.C., FERES M., IEZZI G., SHIBLI J.A. Histologic evaluation of human bone integration on machined and sandblasted acid-etched titanium surfaces in type IV bone. J Oral Implantol 2007;33(1):8-12.

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2) Implant endo-osseous portion: tapered shape
1. L. H. Meskin, L. J. Brown; Prevalence and patterns of tooth loss in the USA employed adult and senior populations; J. Dent. Educ. 52: 686-691 (1988);
2. M. Cassidy, D. L. Gutteridge; An update on conventional fixed bridges. Designing fixed bridgework; Dent. Update 1994 June; 21(1): 196-201;
3. B. E. Balking; Implant dentistry: histological overview with current perspective; J. Dent. Educ. 52: 683- 685 (1988);
4. G. Papavasiliou, P. Kamposiora, S. C. Bayne, D. A. Felton; Three-dimensional finite element analysis of stress-distribution around single tooth implants as a finction of bone support, prosthesis type and loading during function; J Prosthetic Dent. 76
(6):633-640 (1996);
5. E. P. Holmgren, R. J. Seckinger, L. M. Kilgren, F. Mante; Evaluating parameters of osteointegrated dental implants using finite element analysis a two dimensional comparative study examining effects of implant diameter, implant shape, and load
direction; J. Oral Implant 1998; 24(2): 80-8;
6. S. E. Clift, J. Fisher, C. J. Watson; Finite element stress and strain analysis of the bone surrounding a dental implant: effect of variations in bone modulus; Proc. Inst. Mech. Eng. 1992; 206(4): 233-41;
7. R. Kayacan, R. Ballarini, R.L. Mullen; Theoretical study of the effects of tooth and implants mobility differences in occlusal force trasmission in tooth/implant supported partial prostheses; J. Prosthetic Dent. 78 (4): 391-399 (1997);
8. P. I. Brånemark, B. O. Hansson, R. Adel, V. Breine, J. Lindstrom, O. Hallen, A. Ohman; Osseointegrated implants in the treatment of the edentulous jaw. Experience from a ten-year period; Monograph, Stockholm: Almquist and Wiksell (1977);
9. R, Adell, U. Lekholm, B. Rockler, P. I. Brånemark; A 15 year study of osseointegrated implants in the treatment of the edentulous jaw; Int. J. Oral Surg.
10: 387-416 (1981); 10. D. C. Holmes, J. T. Loftus; Influence of bone quality on stress distribution for endosseous implants; J. of Oral Implantology; 1997, vol. 23, n° 3, 104-111;
11. J. B. Brunsky, J. A. Hipp; In-vivo forces on endosteal implants: a measurement system and biomechanical considerations; J. Prosthetic Dent. 51 (1): 82-90 (1984);
12. G. Menicucci, M. Lorenzetti, P. Pera, G. Preti; Mandibular implant-retained overdenture: finite element analysis of two anchorage system; The International J. of Oral & Maxillofacial Implants; 1998,
13, 369- 376; 13. P. P. van Zyl, N. L. Grundling, C. H. Jooste, E. Terblance; Three-Dimensional Finite Element Model of a human mandible incorporating six osseointegrated implants for stress analysis of mandibular cantiliver prostheses; The International J.
of Oral & Maxillofacial Implants, 1995; 10: 51-57;
14. J. A. Tesk, O. Widera; Stress distribution in bone arising from loading and endosteal dental implants; J Biomed Mater. Res. 1973; 7(3): 251-61;
15. A. A. Gadalla, AI Aboul-Ela, M. Mahady, M. S. Badawy; The effect of mandibular overdenture to manage traumas to anterior maxillary residual ridge; Egypt Dental J.; 39(1):337-42;
16. A. Sertgoz; Finite element analysis study of the effect of superstructure material on stress distibution in an implant- supported fixed prosthesis; Int. J. Prosthodontic; 1997; 10(1):19-27;
17. H. J. Meijer, F. J. Starmans, W. H. Steen, F. Bosman; Loading conditions of endoosseous implants in an edentolous human mandible: a three dimensional finite element study; J. Oral Rehabil.; 1996; 23(11): 757-63;
18. C. E. English; Biomechanical concerns with fixed partial dentures involving implants; Implant Dent. 1993; 2(4): 221-42; 6
19. M. R. Rieger, M. Mayberry, M. O. Brose; Finite element analysis of six edosseous implants; J. Prosthetic Dent. 63 (1): 671-677 (1990);
20. R. L. Sakaguchi, S. E. Borgesen; Two-Dimensional contact analysis of physiologically loaded dental implant materials; Internal Report of Minesota Dental Research Center for Biomaterials and Biomechanics, University of Minesota, Mineapolis, USA;
21. Y. Matsushita, M. Kitoh, K. Mizuta, H. Ikeda, T. Suetsugu; Two-Dimensional FEM analysis of hydroxyapatite implants: diameter effects on stress distribution; J. of Oral Implantology; 1990, vol. 16, n° 1, 6-11;
22. G. Lewis; A parametric finite element analysis study of the stress in a endosseous implants; Bio-Medical Materials and Engineering, 1994, Vol. 4, n° 7, 495-502;
23. W. M. Murphy, K. R. Williams, M. C. Gregory; Stress in bone adjacent to dental implants; J. of Oral Rehabilitation; 1995, 22, 897-903;
24. J. L. Lozada, M. F. Abbate, F, A. Pizzarello, R. A. James; Comparative three-dimensional analysis of two finite-element endosseous implant designs; J. of Oral Implantology; 1994, Vol. 20, n° 4, 315-321;
25. S. E. Clift, J. Fisher, C. J. Watson; Stress and strain distribution in the bone surronding a new design of dental implant: a comparison with a threated Brånemark type implant; Proc. Institute Mech. Eng.; 1993, Vol. 207, n° 3, 133-138;
26. N. L. Clelland, Y. H. Ismail, H. S. Zaki, D. Pipko; Three-Dimensionalfinite element stress analysis in and around the Screw-Vent implant; The International J. of Oral & Maxillofacial Implants; 1991, 6, 391-398;
27. S. Canay, N. Hersek, I. Akpinar, Z. Asik; Comparison of stress distribution around vertical and angled implants with finite-element analysis; Quitessence International, Vol. 27, n° 9, 1996, 591-598;
28. L. Paracchini, F. Billi, D. Annicchiarico, R. Corbari, M. Agliati; Test meccanici di compressione per valutare il carico di rottura d’impianti dentali in titanio; La Quintessenza Odontotecnica 15, 1, 71-79 (1998)
Driskell TD, editor. The stryker precision implant system Root form series McKinney RV Endosteal dental implants. Mosby Year Book. 1991;8
29. LORENZON G., BIGNARDI C., ZANETTI E.M., PERTUSIO R. Analisi biomeccanica dei sistemi implantari. Dent Cadmos 2003;71(10):63-86.
30. LEMONS J.E. Considerazioni sui fattori biomeccanici e sui biomateriali degli impianti a forma di radice. In: McNeill C. L’occlusione. Basi scientifiche e pratica clinica. Milano: Scienza e tecnica dentistica; 1997. p. 195-202.
31. SALAMA H., ROSE L.F., SALAMA M., BETTS N.J. Immediate loading of bilaterally splinted titanium rootform implants in fixed prosthodontics. A technique reexamined: two case reports. Int J Periodont Rest Dent 1995;15:344-61.

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3) Implant endo-osseous portion: emphasised thread
1. Schouten C, Meijer GJ, van den Beucken JJ, Spauwen PH, Jansen JA. Effects of implant geometry. surface properies.and TGF-?1 on peri-implant bone response An experimental study in goats. . Clin Oral Implan Res . 2009;20:421–9.
2. Frenkel SR, Simon J, Alexander H, Dennis M, Ricci JL. Osseointegration on metallic implant surfaces: Effects of microgeometry and growth factor treatment. J Biomed Mater Res. 2002;63:706–13.
3. Danza, Fanali, Quaranta et al. The importance of Immediately loaded immediate post extractive implants in aestethetic rehabilitation: a case series; 2010 Minerva Stomatologica Vol 59/4 -215-222
4. CHOW J., HUI E., LIU J., LI D., WAT P., LI W., YAU Y.K., LAW H. The Hong Kong Bridge Protocol. Immediate loading of mandibular Brånemark fixtures using a fixed provisional prosthesis: preliminary results. Clin Implant Dent Relat Res. 2001;3(3):166-74
5. MISCH C.E., DEGIDI M. Five-year prospective study of immediate/ early loading of fixed prostheses in completely edentulous jaws with a bone quality-based implant system. Clin Implant Dent Relat Res 2003;5(1):17-28.
6. DEGIDI M., SCARANO A., PIATTELLI M., PERROTTI V., PIATTELLII A. Bone remodeling in immediately loaded and unloaded titanium dental implants: a histologic and histomorphometric study in humans. J Oral Implantol 2005;31(1):18-24.
7. ATTAED N.J., ZARB G.A. Immediate and early implant loading protocols: a literature review of clinical studies. J Prosthet Dent 2005 Sep;94(3):242-58.
8. BALSHI S.F., WOLFINGER G.J., BALSHI T.J. A prospective study of immediate functional loading, following the teeth in a day protocol: a case series of 55 consecutive edentulous maxillas. Clin Implant Dent Relat Res 2005;7(1):24-31.
9. CRESPI R., CAPPARè P, GHERLONE E, ROMANOS G.E. Immediate occlusal loading of implants placed in fresh sockets after tooth extraction. Int J Oral Maxillofac Implants 2007 Nov-Dec;22(6):955-62.
10. TARNOW D., EMTYUIAZ S., CLASSI A. Immediate loading of threaded implants at stage 1 surgery in edentulous arches: ten consecutive case reports with 1 to 5 year data. Int L Oral Maxillofacial Implants 1997;12:319-24.
11. Vincent MathieuFani Anagnostou Ultrasonic Evaluation of Dental Implant Biomechanical Stability: An In Vitro Study Ultrasound in Medicine & Biology February 2011Volume 37, Issue 2, Pages 262–27
12. LARS SENNERBY & NEIL MEREDITH Implant stability measurements using resonance frequency analysis: biological and biomechanical aspects and clinical implications Periodontology 2000, Vol. 47, 2008, 51–66
13. GhaGhada Alsaadi Marc Quirynen A biomechanical assessment of the relation between the oral implant stability at insertion and subjective bone quality assessment J Clinic Period 3/2007

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4) Smooth cylindrical neck
1. Alessandro Quaranta, Renzo Guarnieri et al Valutazioni cliniche e radiografiche di impianti con collare laserizzato: uno studio clinico controllato randomizzato Implantologia 2014; 1: 11-22
2. Albrektsson T, Zarb G, Worthington P, Eriksson AR. The long-term efficacy of currently used dental implants: a review and proposed criteria of success. Int J Oral Maxil-lofac Implants. 1986 Summer;1(1):11-25
3. Prasad DK, Shetty M, Bansal N, Hegde C. Crestal bone pres-ervation: A review of different approaches for successful implant therapy. Indian J Dent Res 2011;22:317-23.
4. Weiner S, Simon J, Ehrenberg DS, Zweig B, Ricci JL. The Effects of Laser Microtextured Collars Upon Crestal Bone Levels of Dental Implants. Implant Dentistry, Volume 17, Number 2, 2008. p. 217-228.
5. Frankel SR, Simon J, Alexander H, Dennis M, Ricci JL. Os-seointegration on metallic implant surfaces: effects of microgeometry and growth factor treatment. J Biomed Mater Res.2002;63(6): 706-13.
6. Meleo D, Baggi L, Di Girolamo M, Di Carlo F, Pecci R, Bedi-ni R. Fixture-abutment connection surface and micro-gap measurements by 3D micro-tomographic technique analysis. Ann Ist Super Sanità 2012 | Vol. 48, No. 1: 53-58
7. Cochrane DL, Morton D, Weber HP. Consensus state-ments and recommended clinical procedures regarding loading protocols for endosseus dental implants. Int J Oral Maxillofac Implants. 2004;19 Suppl : 109-13
8. Bedini R., Ioppolo P., Filippini P., Nastasi V., Caiazza S., Bianco A., Ortolani E., Barra P. Studi in vitro e in vivo della biointegrazione di impianti dentali. Istituto Superiore di Sanità, 2004
9. Ramaglia L., Capece G., Di Spigna G., Esposito D., Postiglione L. In vitro expression of osteoblastic phenotype on titanium surfaces. Minerva Stomatologica, 2010; 59:259-270
10. Albrektsson T., Johansson C. Osteoinduction, osteoconduction and osseointegration. European Spine Journal, 2001; 10: S96-S101
11. Perrotti V., Scarano A., Iezzi G., Piattelli A. Risposta ossea ad impianti a superficie nanoporosa anodizzata. Il Circolo, Rivista Periodica di Odontostomatologia, 2004; 1: 13-20
12. Passeri G., Cacchioli A., Ravanetti F., Galli C., Elezi E., Macaluso G.M. Adhesion pattern and growth of primary human osteoblastic cells on five commercially available titanium surfaces. Clinical Oral Implants Research, 2010; 21: 756-765
13. Pappalardo S., Baglio O.A., Carlino P., Grassi F.R. Indagine al microscopio elettronico a scansione di diverse superfici implantari: studio comparativo. European Journal of Implant Prosthodontics, 2005; 1(1):25-34
14. Conserva E., Tealdo T., Acquaviva A., Bevilacqua E., Volpara G., Pera P. Analisi morfologica e valutazione della proliferazione cellulare in relazione a differenti trattamenti di superficie implantare: studio in vitro. Implantologia, 2005; 4:303-317
15. Wennerberg A., Albrektsson T. Effects of titanium surface topography on bone integration: a systematic review. Clinical Oral Implants Research, 2009; 20(4): 172-184
16. Bagno A., Di Bello C. Surface treatments and roughness properties of Ti-based biomaterials. Journal of Materials Science: Materials in Medicine, 2004; 15: 935-949
17. Covani,Marconcini,Crespi,Barone. Bacterial plaque colonization around dental implant surfaces. Implant Dent. 2006
18. Lang NP, Berglundh T, Heitz-Mayfield LJ, Pjetursson BE, Salvi GE, Sanz M. Consensus statements and recommended clinical procedures regarding implant survival and complications. Int J Oral Maxillofac Implants. 2004;19(Suppl):150–154.
19. Scarano A, Piattelli M, Caputi S, Favero GA, Piattelli A. Bacterial adhesion on commercially pure titanium and zirconium oxide disks: an in vivo human study. J Periodontol 2004;75: 292-296.
20. Zheng H, Xu L, Wang Z, Li L, Zhang J, Zhang Q, Chen T, Lin J, Chen F. Subgingival microbiome in patients with healthy and ailing dental implants. Sci Rep. 2015;16; 5: 10948.
21. Wang HL, Garaicoa-Pazmino C, Collins A, Ong HS, Chudri R, Giannobile WV. Protein biomarkers and microbial profi les in peri-implantitis. Clin Oral Implants Res. 2015 Oct 1. doi: 10.1111/clr.12708.
22. Paolo Pera, Maria Menini et al.Il ruolo della superficie implantare nella guarigione e nel mantenimento dei tessuti duri e molli. Implant Journal 01/201123. Quirynen M, van der Mei HC, Bollen CM, Schotte A, Marechal M, Doornbusch GI, Naert I,
Busscher HJ, van Steenberghe D. An in vivo study of the influence of the surface roughness of implants on the microbiology of supra- and subgingival plaque. J Dent Res 1993;72:1304-1309.
24. Tealdo T, Bevilacqua M, Pera F, Menini M, Ravera G, Pera P. Periimplant bone radiographic evaluation around smooth and rough implant surfaces. A 36 months retrospective follow-up study. J Prosth 2011,
25. Baldi D, Menini M, Pera F, Ravera G, Pera P. Plaque accumulation on exposed titanium surfaces and peri-implant tissue behavior a preliminary 1-year clinical study. Int J Prosthodont 2009; 22:447-450
26. Biologic width adjacent to loaded implants with machined and rough collars in the dog. Cochran DL, Obrecht M, Weber K, Dard M, Bosshardt D, Higginbottom FL, Wilson TG, Jones AA. The Int J Periodontics Restorative Dent 2014 Nov-
Dec;34(6):773-9
27. Heinemann F, Hasan I, Schwahn C, Biffar R, Mundt T Riassorbimento osseo crestale intorno alla piattaforma di impianti a collo filettato fine dopo carico immediato e differito Biomed Tech (Berl). 2010 December, 55(6): 317-321
28. Heinemann F, Bourauel C, Hasan I, Gedrange T Influenza della topografia cervicale dell‘impianto con il riassorbimento dell‘osso crestale e la sopravvivenza dell‘impianto a carico immediato Journal of Physiology and Pharmacology 2009 December, 60
(Suppl 8): 99-105

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5) Internal hexagon interface (Zimmer Screw-Vent® type)
1. Petrungaro PS. Implant placement and provisionalization in extraction, edentulous, and sinus grafted sites: a clinical report on 1,500 sites. Compend Contin Educ Dent 2005;26(12):879-90.
2. Smith DE, Zarb GA. Criteria for success of osseointegrated endosseous implants. J Prosthet Dent 1989;62(5):567-72.
3. Garber DA, Belser UC. Restoration-driven implant placement with restoration-generated site development. Compend Contin Educ Dent 1995;16(8):796, 8-802, 4.
4. Landsberg CJ. Socket seal surgery combined with immediate implant placement: a novel approach for single-tooth replacement. Int J Periodontics Restorative Dent 1997;17(2):140-9.
5. Buser D, Martin W, Belser UC. Optimizing esthetics for implant restorations in the anterior maxilla: anatomic and surgical considerations. Int J Oral Maxillofac Implants 2004;19 Suppl:43-61.
6. Furhauser R, Florescu D, Benesch T, Haas R, Mailath G, Watzek G. Evaluation of soft tissue around single-tooth implant crowns: the pink esthetic score. Clin Oral Implants Res 2005;16(6):639-44.
7. Belser UC, Grutter L, Vailati F, Bornstein MM, Weber HP, Buser D. Outcome evaluation of early placed maxillary anterior single-tooth implants using objective esthetic criteria: a cross-sectional, retrospective study in 45 patients with a 2- to 4-year followup
using pink and white esthetic scores. J Periodontol 2009;80(1):140-51.
8. L. Paracchini, F. Billi, D. Annicchiarico, R. Corbari, M. Agliati; Test meccanici di compressione per valutare il carico di rottura d’impianti dentali in titanio; La Quintessenza Odontotecnica 15, 1, 71-79 (1998).
9. J. A. Tesk, O. Widera; Stress distribution in bone arising from loading and endosteal dental implants; J Biomed Mater. Res. 1973; 7(3): 251-61;
10. N. L. Clelland, Y. H. Ismail, H. S. Zaki, D. Pipko; Three-Dimensional finite element stress analysis in and around the Screw-Vent implant; The International J. of Oral & Maxillofacial Implants; 1991, 6, 391-398;
11. A. E. Bianchi, S. Spinato et al. Vertical Ridge Augmentation tramite alloinnesto mineralizzato: comparazione clinica, istologica e istomorfometrica di due tecniche rigenerative in due diversi casi clinici. Quintessenza Internazionale Anno 26,3bis, Luglio/
Settembre 2010
12. van Steenberghe D, De Mars G, Quirynen M, Jacobs R, Naert I. A prospective split-mouth comparative study of two screw-shaped self-tapping pure titanium implant systems. Clin Oral Implan Res. 2000;11:202–9.

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6) Switching platform
1. Yoshinobu Maeda Jiro Miura Ikuro Taki Motofumi Sogo Biomechanical analysis on platform switching: is there any biomechanical rationale? Clinical Oral Implants Reaserch, 6/2007
2. Luigi Canullo Giampiero Rossi Fedele Giuliano Iannello Søren Jepsen Platform switching and marginal bone-level alterations: the results of a randomized-controlled trial Clin. Oral Impl. Res. 21, 2010; 115–121. doi: 10.1111/j.1600-0501.2009.01867.
3. Momen A. Atieh,* Hadeel M. Ibrahim,† and Ahmad H. Atieh‡ Platform Switching for Marginal Bone Preservation Around Dental Implants: A Systematic Review and Meta-Analysis J Periodontol • October 2010 Volume 81 • Number 10
4. Jason Schrotenboer,* Yi-Pin Tsao,† Vipul Kinariwala,‡ and Hom-Lay Wang Effect of Microthreads and Platform Switching on Crestal Bone Stress Levels: A Finite Element Analysis J Periodontol • November 2008 Volume 79 • Number 11
5. Tomas Linkevicius, Peteris Apse,Influence of Thin Mucosal Tissues on Crestal Bone Stability Around Implants With Platform Switching: A 1-year Pilot Study; J oral Max Fac Surg 7/2010
6. Annibali S, Bignozzi I, Cristalli MP, Graziani F, Peri-implant marginal bone level: a systematic review and meta-analysis of studies comparing platform switching versus conventionally restored implants J Clin Periodontol 2012; doi: 10.1111/j.1600-
051X.2012.01930.
7. Laura López-Marí 1 , Jose Luis Calvo-Guirado 2 , Beatriz Martín-Castellote Implant platform switching concept: An updated review Med Oral Patol Oral Cir Bucal. 2009 Sep 1;14 (9):e450-4.
8. Francesco Carinci, MD, Giorgio Brunelli, MD, Matteo Danza, MDPlatform Switching and Bone Platform Switching Journal of Oral Implantology Vol. XXXV / No. Five / 2009
9. N. Enkling,1,* P. Jöhren,2 J. Katsoulis, Influence of Platform Switching on Bone-level Alterations A Three-year Randomized Clinical Trial J Dent Res. 2013 Dec; 92(12 Suppl): 139S–145S.
10. Schrotenboer, Jason BS*; Tsao, Yi-Pin DDS, MS†; Kinariwala Effect of Platform Switching on Implant Crest Bone Stress: A Finite Element Analysis Implant Dentistry: June 2009 - Volume 18 - Issue 3 - p 260-269
11. Pedro Serrano-Sánchez 1 , Jose Luis Calvo-Guirado The influence of platform switching in dental implants. A literature review Med Oral Patol Oral Cir Bucal. 2011 May 1;16 (3):e400-5.
12. Telleman, Gerdien; Raghoebar Impact of platform switching on inter-proximal bone levels around short implants in the posterior region; 1-year results from a randomized clinical trial Journal of Clinical Periodontology 2012 39(7), 688-697. DOI:
10.1111/j.1600- 051X.2012.01887
13. Lucas Fernando Tabata, DDS, PhD,* Wirley Gon0alves Assun Implant Platform Switching: Biomechanical Approach Using Two-Dimensional Finite Element Analysis The Journal of Craniofacial Surgery & Volume 21, Number 1, January 2010
14. Markus Hürzeler, DMD, PhD,* Stefan Fickl, DMD,† Peri-Implant Bone Level Around Implants With Platform-Switched Abutments: Preliminary Data From a Prospective Study J Oral Maxillofac Surg 65:33-39, 2007, Suppl 1
15. G. E. ROMANOS* & F. JAVED† Platform switching minimises crestal bone loss around dental implants: truth or myth? Journal of Oral Rehabilitation 2014 10.1111/joor.12189
16. DEGIDI M., IEZZI G., SCARANO A., PIATTELLI A. Immediately loaded titanium implant with a tissue stabilizing/ maintaining design (“beyond platform switch”) retrieved from man after 4 weeks: a histological and histomorphometrical evaluation. A
case report. Clin Oral Implants Res 2008 Mar,19(3):276-82. Epub 2007 Dec 13.

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7) Morse-taper connection
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8) Bone reabsorbtion
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9) Leve Loading and leverage
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