One Abutment-One Time” Technique: Crestal Bone Loss In Immediate Pro- visionalization

Aims: purpose of this study is to evaluate crestal bone reabsorption through prosthetic rehabilitation of mono or bi-edentulism in aesthetical sectors using non post-extractive implants with “one abutment – one time” method. Methods: 24 patients have been selected and randomized in two groups: PA group: 12 patients rehabilitated using provisional abutments and DA group: 12 patients rehabilitated using definitive abutments through “One abutment – one time” technique. Results: comparison between our study and those of literature confirm that if implant-abutment unit is not altered or modified through time, marginal bone loss can be reduced during the first months after surgery. Conclusions: within the limits of this study, non removable abutments positioned during surgery resulted in 0.47 mm of marginal bone reduction.


Matherials and Methods
Immediate restoration implantology is having a greater success in dentistry since it provides a better aesthetical result and a better comfort for the patient [1,2].
Literature concerning this protocol follow up is very poor. Objective of this work is to compare results from the literature with those gained from studies of 2014/2015 performed at the Implantoprostheses Unit in the Department of Oral and Maxillo Facial Sciences at Sapienza University of Rome. Main issues of immediate restoration prostheses concern reabsorption of crestal bone and the following gingival retraction, leading to exposion of the implant platform and compromising the final aesthetical result [3][4][5].
In traditional procedures, at the end of surgical period, a Provisional Abutment (PA) is screwed on the implant on which a provisional resin crown is cemented. Later on provisional abutment gets replaced with a definitive one.
In the One Abutment One Time (OAOT) technique, at the end of surgery, a definitive abutment (DA) is placed directly on the implant with a provisional resin crown. This way gingival reshiping that takes place during the following prostheses phase is eliminated [6][7][8].
From January 2014 an in vivo study is conducted at the Implantoprostheses Unit in the Department of Oral and Maxillo Facial Sciences at Sapienza University of Rome.
Patients were considered eligible for inclusion ifthey fulfilled the following criteria: 1) at least 18years of age; 2) in need of one or more single implant in the aesthetic maxillary or mandible area from the left second premolar Statistical Analysis to the right second premolar, between two natural teeth (or crownedteeth); 3) sufficient bone to allow the placementof an implant at least 11.5 mm long with a 3.7 mmdiameter; 4) adequate oral hygiene, i.e. maximumscore for Plaque Index 13 ≤ 2.
Patients were not accepted into the study ifthey met any of the following exclusion criteria: 1)dehiscence or lack of buccal bone plate after toothextraction; 2) general contraindications to implant surgery; 3) subjected to irradiation in the headand neck area; 4) immunosuppressed or immunocompromisedpatients; 5) treated or under treatmentwith intravenous amino-bisphosphonates; 6)uncontrolled diabetes; 7) addiction to alcohol or drugs; 8) heavy smoking (≤ 20 cigarettes daily); 9)lack of opposing occluding dentition at the proposedimplant site.
12 patients were included in the study. Each patient underwent emathological analysis to evaluate glycemic level, coagulation factors, blood count and HbsAg, HCV and HIV present. After analysing Orthopanoramic and TC Cone Beam, plasters for surgical and prosthetical study were realized.
For each patient Plaque Index (PI) was detected and one week before surgery patient received their first oral hygiene sessionduring which they were instructed to use clorexidine 0,2% mouthwash for one minute twice a day starting from 3 days before surgery until one week afterwards. 1 g Amoxicillin and Clavulanic Acid(Augmentin, Roche, Milan, Italy) Antibiotical prophylaxis was somministrated every 12 hours for 6 days starting from the day before surgery. Patients allergic to penicillin were treated with 500 mg of Clarithromycin (Klacid, Abbott, Rome, Italy)1 hour before surgery and 250 mg twice a day for one week.
All surgical procedures were performed by the same operator. If implants did not reach an insertion torque of at least 35 Ncm, patientswere excluded from the study. Before suturing wound edges transfer was screwed on the implant and a positioning bicomponent monophase polyvinyl siloxane impression was taken with pick up technique.
After surgery oral hygiene instructions were providedand patients were instructed to have a soft diet for 8 days. A post surgical intraoral radiography using Rinn XCP film holder (Dentsply Rinn, Elgin, IL, USA)was taken measuring peri-implant alveolar bone.
Impressions was sent immediately to the dental laboratory where master casts were made and the titanium abutment was milled; furthermore on the abutment a methacrylate provisional resin crown was customed, refined and polished . Occlusal centric and eccentriccontacts were not permitted on the provisional restorations, and 200 μm articulating paper was usedfollowing the guidelines for immediate non-func-tionalloading [9]. On the same day of surgery a titanium definitive abutment was screwed on the implant and a frequency resonance test was performed showing an Implant Stability Quotient (ISQ) ≥ 60 in every test.
After evaluating Resonance Frequency (RF) a provisional crown was cemented on each abutment with zinc oxide eugenol-free cement, TempBond NE (ZNE). After 8 weeks intraoral radiography using Rinn XCP film holder (Dentsply Rinn, Elgin, IL, USA) was taken measuring peri-implant alveolar bone. PI was also detected and a new oral hygiene session was performed. 2 months after surgery implant restoration was divided into steps: 1. bicomponent monophase polyvinyl siloxane impression of the definitive abutment 2. Metal structure test 3. rough porcelain test 4. Final Aesthetical test and cementation with zinc oxide eugenol-free cement, TempBond NE (ZNE).
One of the limits of this study was to recreate repeatability on mesurements of the alveolar bone on periapical radiograph, due to the difficulty of positioning the RVG sensor in a repeatable way. The limit was overcame by using adevice called the Precision Implant X-ray Relator and Locator (PIXRL) developed by researchers [10].
A radiograph positioning device was developed to fit with commercially available film holders and implant systems. Thedevice is indexed to the dental implant body and the adjacent dentition by using an implant placement driver and polyvinylsiloxane occlusal registration material. By fitting the device to a conventional film holder, accurate orthogonal radiographscan monitor changes in bone architecture and prosthetic misfit [11].
A furtherlimit was discrepancy between implant and alveolar bone radiographic and real measures. Considering this discrepancy, in orther to avoid any projection error, alveolar bone measurements were taken following a proportional mathematical scheme.
Assessments were made for statistically significantdifferences in the peri-implant bone levels at eachfollow-up between the test and the control groupusing the non-parametric Wilcoxon-Mann-Whitneytest. The mesial and distal measurements on eachimplant were averaged, and then were averagedat patient level and then at group level. Statisticalanalysis was performed
12 patients, between 40 and 67 years of age, with monoedentulism in aesthetic area starting from the second premolar, wererehabilitated within 24 hours with definitive abutment and provisional resin crown.  For each patient an intraoral Rx was performed at each time: T0 -Surgery day after screwing the definitive abutment and cementing provisional crown T1 -3 months after surgery, when definitive prothesization was concluded T2 -6 months after surgery T3 -12 months after surgery After measuring level of the crestal bone compared to the implant length following dates were analyzed ( The aim of this study is to evaluate the amount of crestal bone reabsorption in the prosthetic rehabilitation of monoedentulism of aesthetic zones using "One abutment one time" technique. This study compared obtained results with two sperimental studies from literature where non post-extractive implants were placed, immediately rehabilitated with a provisional abutment (PA) in the aesthetic zone (from the left second premolar to the right second premolar).
In the first study made by Cooper LF et al. [13]reabsorption of crestal bone was 0,40 mm one year after surgery. In the other study made by Oyama K.et al. [14] reabsorption of crestal bone was 0,28 mm after 6 months and 0,38 mm one year after surgery. On the other hand this study analyzed crestal bone reabsorption using OAOT technique on non post extractive implants. A crestal bone reabsorption of 0,35 mm 6 months after surgery and 0,35 mm one year after surgery was measured. Comparing these results with those of Canullo et al. [7] no significant difference between the datas was found.Majordifference is shown between this study and Grandi et al. [8]. One year after surgery difference between avarage measurments is infact 0,24 mm. OAOT technique would show better results if the implant is placed right after tooth extraction. From the study by Canullo et al. [7] is also shown that OAOT technique used in post-extractive surgery gives better results than the traditional method with provisional abutment. As a matter of fact 3 years after surgery a significant difference of 0,21 mm of crestal bone reabsorption between provisional and definitive abutment has emerged. Remarkable advantages using OAOT technique have been shown by rehabilitating two implants prosthetically attached, even in non-aesthetical areas. Two different studies concerning this topic exist in literature. In the first one, made by Degidi et al. [9], avarage crestal bone reabsorption was 0,27 and 0,25 respectively 6 months and 1 year after surgery. These datas concern prosthetic riahabilitation of one or more elements (not specified) in posterior areas using non post-extractive one-abutment one-time technique. In the second study made by Grandi et al. [8], implants were placed right after tooth extraction (post-extractive) and crestal bone reabsorption was 0,065 mm after 6 months and 0,094 mm 1 year after surgery compared to 0,36 mm (6 months) and 0,44 mm (1 year) measured with traditional technique used in the control group with provisional abutment. Avarage reab-J Dent Oral Health 2016 | Vol 3: 101 sorbed bone in both these cases is lower if compared to our study measurements, and results have been significatly better in post-extractive implants. This is probably due to the fact that implants were often contiguous and were prosthesized together improving stability and reducing therefore crestal bone reabsorption.
In the following Except for Grandi et al. [8], for the other studies in literature, including ours, there is a small and non significant difference between OAOT and traditional provisional abutment technique 1 year after surgery. This study sought to show that there is no significant difference between OAOT post-extractive and non post-extractive technique for what conscerns singol implants in the aesthetic area 1 year after implant positioning. Gingival reshaping due to abutment continuous repositioning [15] doesn't adversely affect on peri-implant crestal bone reabsorption whether it's placed in a post-extractive or non post-extractive site. Advantages of OAOT technique are more appreciable in case of two contiguous implants prosthetically attached. This advantage is probably not due to OAOT technique itself, but to the greater biomechanical stability gained by implants when attached together.