mp3 vs Apatos in Post-extractive Sockets

Alveolar Bone Loss Clinical Trial

Official title: A Prospective Randomized-controlled Multicenter Clinical and Histological Study of Extraction Site Augmentation With mp3 vs. Apatos

Status Completed

Clinical Trial Summary

The primary aim of the present multicenter randomized controlled trial was to evaluate and compare the shortterm clinical and histological changes of extraction sockets after ridge preservation procedures with changes of extraction sockets that healed naturally.

The secondary aim was to evaluate which, if any extraction socket characteristics could have affected tissue changes occurring at the augmented as well as naturally healed sites.

Recruitment and enrollment of patients were performed from June 2011 to June 2012 in five university centers/private practice:

• University of Pisa;

• University of Murcia;

• University of Ancona;

• Private practice, Dr. Di Felice;

• University of Verona.

Randomization:

1. extraction sockets with spontaneous healing;

2. extraction sockets grafted with pre-hydrated collagenated cortico-cancellous porcine bone, with a particle size between 600 and 1000 μm;

3. extraction sockets grafted with cortical porcine bone, with a particle size between 600 and 1000 μm.

Outcome Variables

• Complications

• Changes of ridge volume contour;

• Vertical bone changes;

• Buccal-Lingual Width;

• Histomorphometric parameters.

Sample size was calculated comparing outcome data between grafted sockets versus non-grafted sockets. The primary parameter was the change in mid-buccal vertical height (0.7±1.4mm and 3.6±1.5mm, respectively, for the test and control groups) (Barone et al. 2008). Final sample size was increased to 30 subjects per group due to possible patient dropout events. Each center contributed according to the predetermined 1:1:1 ratio; the fresh extraction socket was considered the unit of randomization.

Corrections for balancing the three experimental groups for confounding factors were not applied.

A matrix elaborator performed all the analyses§§: multi-way analysis of variance (ANOVAn) was applied, then appropriate post hoc comparison tests were run; post hoc estimated effect sizes were calculated with a power of 0.9. The level of statistical significance was set at 0.05 for all analyses.

Clinical Trial Description

BACKGROUND

Following tooth extraction, the alveolar ridge undergoes a marked change. During the first year after tooth extraction, about 50% of the bucco-lingual ridge dimension will be lost. Furthermore, ridge reduction will become more pronounced from a buccal than from a lingual/palatal aspect. The hard tissue modelling and remodelling following tooth extraction were studied in the dog model. It was demonstrated that the socket was first occupied by a coagulum that was replaced with granulation tissue, provisional connective tissue and woven bone. This immature hard tissue was subsequently replaced with lamellar bone and bone marrow. During the healing phase, the height of the buccal bone wall was substantially reduced. In addition, about 30% of the marginal portion of the alveolar process of the extraction site was lost.

Several approaches have been tested to preserve or improve the dimension and contour of the ridge following tooth extraction including the use of various graft or filler materials such as autografts, allografts, xenografts and/ or barrier membranes. The most recent studies on animals as well as in humans showed that the placement of xenografts in fresh extraction sockets promoted de novo hard tissue formation, in particular in the marginal portion of the extraction site. Moreover, it should be considered that the dimension of hard tissue walls was maintained and the profile of the ridge preserved. The data concerning socket preservation techniques in humans are still scarce. Therefore, firm conclusions about dimensional changes cannot be drawn currently; in reality, socket preservation procedures may aid in reducing the bone dimensional changes following tooth extraction. However, they do not completely prevent bone resorption so that a loss in width and height may be still expected; even if this procedure can allows a better location for implant placement and minimize the need for GBR procedure simultaneously with implant placement when compared to natural healed sites.

The histologic and histomorphometric evaluations showed the early phase of hard tissue formation were altered in extraction sockets that were grafted with a deproteinized bovine bone mineral immediately after tooth removal. The authors suggested that this modified wound healing and bone modelling may have been influenced by the presence of multinucleated cells that occurred in tissues harbouring the xenogenic graft. Thus, in grafted sites, substantial amount of newly formed bone could only be detected in the apical portion of the sockets where the graft material was absent. In the remaining portions of the grafted sockets a mildly inflamed provisional matrix surrounded the majority of bovine bone mineral particles, whose surface was frequently, but not always, coated with multinucleated cells. The biological behaviour can be explained with the type of biomaterial which is not resorbable/or slowly resorbable.

Given these premises, this prospective, randomized-controlled multicenter clinical study will compare the dimensional healing pattern, the quality of de novo bone formation and the implant placement in large tooth extraction sites after grafting with two types of xenografts: MP3 vs. Apatos by Tecnoss- Osteobiol.

Specific objectives:

• To augment fresh premolar and molar extraction sites with MP3 and Apatos;

• To evaluate dimensional ridge changes with MP3 and Apatos ( clinical measurements and volumetric evaluations with a computerized analysis of study casts);

• To place implants (BT EVO, Biotec, Povolaro, Italy) 3 months after grafting ( diameter, length, need for additional GBR procedures);

• To evaluate the histological aspects of bone biopsies taken at the osteotomy preparation sites;

• To follow and to monitor the implant success in treated sites for up to 24 months.

The present study tested as first outcome the null hypothesis that there were no differences between the 2 biomaterials against the alternative hypothesis of a difference;

• second long-term outcome performance of implants placed in grafted sites. .

Statistical Analysis The sample size was calculated for the primary outcome measures (implant failure); it was decided to recruit 30 patients in each group.

Data analysis was performed with descriptive statistics and independent sample t-test was used for comparison of mean values between groups to evaluate the significant differences between the two treatment groups. The Pearson Chi Square test was used to test for relationships between variables. A p value <0.05 was selected as the level of statistical significance. The estimation of the implant survival rate was based on Kaplan-Meier analysis. Cumulative implant survival over time was assessed using the Kaplan-Meyer analysis. The cumulative survival rate (CSR) is the probability that the implant will survive at least to a stated time within the observation period of the investigation. The failure time for each implant was defined as the elapsed time from placement to the date of failure. In cases where the terminal event was not reached, the elapsed time between implant insertion and last visit was assumed as the survival time. All evaluations were performed using SPSS software version 6.1.2 for Windows.

STUDY PROCEDURES

Visit 1 Pre-surgical assessment Patients will be seen for evaluation and enrolment. Upon enrolment an informed consent form will be signed by the patient prior to enrolment in the study after which a patient study number will be assigned. Documentation of demographic, medical and dental conditions and pre-operative site conditions will be recorded on a specific case report form. Impressions will be taken to obtain an individualized template which will be used for clinical measurements after tooth extraction.

VISIT 2 Tooth Extraction and Grafting Procedure All surgeries have to be performed with the same technique by calibrated clinicians. After dental extraction, the resulting sockets will be debrided and clinical measurements evaluated. The number of extracted tooth will be recorded on a specific case report form. Impressions will be taken to obtain study casts to evaluate volumetric changes of the extraction socket site with the use of a computerized software system.

At completion of tooth extraction efforts, the patient's randomization card will be unmasked to reveal the treatment group assignment for each extraction site.

For the purpose of this study it will be necessary to ensure the removal of all remaining root fragments, fibers and soft tissue from the sockets prior to placement of graft material. Either curettes and/or burs may be used for degranulation of extraction sockets. The following extraction procedure observations will be documented: methods used for tooth removal, need for curettage of extraction site.

Each alveolar socket will be classified according the following classification in addition [ Joudzbalys et al. 2008 and 2010].

Type Classification Type I Socket The facial soft tissue an buccal plate of bone are at normal levels in relation to the cementoenamel junction of the pre-extracted tooth and remain intact postextraction Type II Socket Facial soft tissue is present but the buccal plate is partially missing following extraction of the tooth.

Type III Socket The facial soft tissue and the buccal plate of bone are both markedly reduced after tooth extraction.

Grafting material will handled according to manufacturer's recommendations and each extraction site will receive the graft type that has been assigned according to randomization scheme. Do not over compact. The patient's blood is the preferred hydration material for mixing with the graft material.

The use of a collagen membrane is mandatory in order to ensure capture of the graft material. The Evolution membrane will be trimmed according the size of the defect and will be adapted over the bone cavity in attaching the ends underneath the adjacent soft tissue. The mucosal margins will be fixed in place in using "mattress sutures". Removal of sutures will take place ten (10) days thereafter. Information on all surgical materials used in the alveolar socket procedures that remain in the patient and any other ancillary procedures used to treat the patient will be documented in the according Case Report Form.

Post surgical medications should be standardized for all study patients, see the above reported material and methods section.

Photographs of each of the treated sites will be done to document the condition of the site.

Preparation of a bite blocks are essential to ensure proper radiographic alignment for subsequent periapical radiographs ( see materials and methods section). A periapical radiograph will be obtained for each study alveolar socket after tooth extraction to determine if complete removal of the teeth has been achieved. Please provide the radiographic files with the patient study identification, the date, and the tooth site number. For centers using conventional radiographic films, only original radiographs can be used for evaluation and analysis. The use of duplicate original film will therefore be needed.

VISIT 3 Healing Assessment (10 days)

Patients will return to clinic and be examined for healing assessment and suture removal. Patients will be interviewed for determination of any signs or symptoms of medical events. Clinical assessments of the treated sites will be done as described in the Special Procedures section. The condition of the membrane will be documented. After suture removal the sites will be inspected to ensure the proper seating of the membrane and that no spillage of graft material is observed. All information will be documented on the specific Case Report Form.

Visit 4 Membrane Assessment (Month 1)

The patients will return for membrane healing assessment. The condition of the membrane will be documented and registered.

Impressions will be taken to obtain study casts to evaluate volumetric changes of the extraction socket site with the use of a computerized software system.

Visit 5 Implant Placement ( Month 4 )

An evaluation of the implant sites will be done prior to the implant placement procedures. If any residues of the collagen membrane will be observed the findings will be documented.

Impressions will be taken to obtain study casts to evaluate volumetric changes of the extraction socket site with the use of a computerized software system.

A perioprobe will be used to measure the thickness of the mucosa at the crestal center and the buccal (3 mm distant from central aspect) lingual position (3 mm distant from the central aspect) of where the implant will be placed. These values will be recorded in millimeters.

Mucoperiosteal flap has to be raised and clinical measurements were taken using an individualized template. All surgeries will be performed under clean conditions keeping the implant sterile throughout placement. Procedures indicated in Biotec surgical manual will be followed and final drilling should be performed with low speed, high torque, irrigating hand piece and drills.

As part of preparing the osteotomy site, a trephine drill will be used and all bone material removed with the drill will be preserved for histological analysis. The length of the core needs to be 6 to 8 mm to be sufficient for analysis.

The specific dimensions of the implant will be at the discretion of the investigator. The implant catalog and lot numbers will be documented. At completion of implant placement procedures record the ultimate position of the seating surface: Sup = supracrestal, Cres = crestal, or Sub = subcrestal. All information including the position and the size of the chosen implants will be documented on the appropriate Case Report Form. Moreover, the need for simultaneous GBR procedures should be registered.

The final torque and use of the ratchet will be recorded along with the amount of rotation applied to the implant on the appropriate Case Report Form.

A periapical radiograph will be obtained of all grafted sites (at the beginning of the visit) and an additional one will be taken of all study implants after the implant placement surgery is completed.

Visit 6 Healing Assessment( 1 Week Post-implant Placement)

An evaluation of the status of the implant surgical sites will be done. Scores for gingival inflammation, gingival and plaque indices, implant mobility, peri-implant radiolucency and suppuration will be recorded on appropriate Case Report Form. An evaluation of the patient's oral health will be done by scoring gingival and plaque indices as described in the Special Procedures section. The final restoration is at the discretion of the investigator and according to the treatment plan design within six (6) months of implant placement.

The insertion of a temporary prosthesis will be accomplished at the investigator's discretion; he may also fabricate the final restoration directly. The insertion of the restoration will not take place before four months in the mandible and six on the maxilla after implant placement surgery the delivery of the final prosthesis will be completed. Information on prosthesis composition, insertion, outcome, anchorage and abutments used will be recorded on the appropriate Case Report Form.

Visit 7, 8 and 9 Clinical Assessment (12, 18 and 24 Months)

Follow-up evaluations will be carried out at six month intervals following implant placement surgery for two years. At each follow-up interval, patients will return to the clinic for assessment of implant and periodontal tissue. A periapical radiograph of all study implants will be obtained. All data gathered at these evaluations will be recorded on appropriate Case Report Forms. Scores for site-specific gingival inflammation, gingival and plaque indices, implant mobility, peri-implant radiolucency, and suppuration will be recorded on appropriate Case Report Form. An evaluation of the patient's oral health will be done by scoring gingival and plaque indices as described in the Special Procedures section.

By the end of 6 months after implant placement surgery the delivery of the final prosthesis will be completed. Information on prosthesis composition, insertion, outcome, anchorage and abutments used will be recorded on appropriate Case Report Form.

PROTOCOL AMENDMENTS

Any proposed change to the protocol is to be discussed with the clinical monitor in a timely manner. Once both the investigators and the sponsor have accepted the changes by, a written addendum to the protocol or a revised protocol will be sent to the investigators for signature. Copies of addenda and revised protocols will be kept by both parties in their respective files.

PROTOCOL DEVIATIONS AND VIOLATIONS

Occasionally during the study, deviations from the procedures established in the protocol may occur. Any deviation from the protocol is reason to contact the clinical monitor without delay. The deviation will be documented on the Patient Status Form. Enrollment and treatment of patients who do not meet Admission Criteria will be considered a protocol violation. ;

Related Conditions & MeSH terms

• Alveolar Bone Loss

• NCT number: NCT02644070
• Study type: Interventional
• Source: Tuscan Dental Institute
• Status: Completed
• Phase: N/A
• Start date: June 2011
• Completion date: June 2012