search
Back to results

Comparison of Short and Standard Dental Implants

Primary Purpose

Peri-Implantitis, Peri-implant Mucositis

Status
Completed
Phase
Not Applicable
Locations
Study Type
Interventional
Intervention
PICF (Periopaper)
Subgingival plaque, Gracey curette (Hu-Friedy)
Clinical data, williams probe PCPNU (Hu-Friedy)
Sponsored by
Alanya Alaaddin Keykubat University
About
Eligibility
Locations
Arms
Outcomes
Full info

About this trial

This is an interventional prevention trial for Peri-Implantitis

Eligibility Criteria

35 Years - 66 Years (Adult, Older Adult)All SexesDoes not accept healthy volunteers

Inclusion Criteria:

  • Implants placed by the same periodontologist (E.Ö.) functioning for at least 3 years
  • Patients without any systemic disease affecting bone metabolism
  • Age >18 years
  • Extra short (6-mm) implants with identical surface properties bilaterally in one area in the mandibular region and standard (≥8 mm) implants in the other area
  • Placed implants having the same brand (Straumann Standard Plus; Institute Straumann AG, Basel, Switzerland)
  • Patients with cemented implant prosthesis in which standard abutment was used in the mandibular posterior region
  • Implants having no additional bone augmentation during implant surgery
  • No periodontal treatment received in the last 3 years
  • Patients under oral hygiene control (plaque score <20%)

Exclusion Criteria:

  • Poor oral hygiene (plaque score >20%)
  • Patients with a history of periodontitis
  • Uncontrolled diabetes and other uncontrolled diseases
  • Pregnancy and lactation
  • Smoking more than 10 cigarettes a day
  • Using alcohol
  • Receiving radiotherapy and chemotherapy
  • Using drugs suppressing the immune system
  • Having a parafunctional habit

Sites / Locations

    Arms of the Study

    Arm 1

    Arm 2

    Arm Type

    Sham Comparator

    Active Comparator

    Arm Label

    Control group

    Test group

    Arm Description

    Standard implant, intra-bone length ≥8 mm (30 implants)

    Extra Short implant, intra-bone length ≤6 mm (30 implants)

    Outcomes

    Primary Outcome Measures

    the levels of putative oral pathogens (using PCR)
    An extraction kit was used in accordance with the manufacturer's recommendations to purify the DNA in the collected plaque samples (GF-1 bacterial DNA extraction kit, Vivantis, Malaysia). Standards were used for total DNA in the target bacteria. Primary probes were determined to define each bacterium and observe the proliferation curves using real-time polymerase chain reaction (PCR)

    Secondary Outcome Measures

    total amount of TNF-α, PGE2, RANKL, RANK, and OPG (using ELISA)
    Commercial enzyme-linked immunosorbent assay kits were used for measuring the levels of TNF-α, PGE2, RANKL, RANK, and OPG in accordance with the manufacturer's recommendations (Elabscience Biotechnology Co., Ltd, Wuhan, China).

    Full Information

    First Posted
    July 9, 2020
    Last Updated
    July 17, 2020
    Sponsor
    Alanya Alaaddin Keykubat University
    search

    1. Study Identification

    Unique Protocol Identification Number
    NCT04475406
    Brief Title
    Comparison of Short and Standard Dental Implants
    Official Title
    Comparison of Bone Immunological Biomarkers and Microbiological Parameters of Extra Short Dental Implants and Standard Dental Implants Loaded in the Posterior Mandible
    Study Type
    Interventional

    2. Study Status

    Record Verification Date
    July 2020
    Overall Recruitment Status
    Completed
    Study Start Date
    December 15, 2016 (Actual)
    Primary Completion Date
    March 20, 2017 (Actual)
    Study Completion Date
    December 20, 2017 (Actual)

    3. Sponsor/Collaborators

    Responsible Party, by Official Title
    Principal Investigator
    Name of the Sponsor
    Alanya Alaaddin Keykubat University

    4. Oversight

    Studies a U.S. FDA-regulated Drug Product
    No
    Studies a U.S. FDA-regulated Device Product
    No

    5. Study Description

    Brief Summary
    Objective: This study aimed to evaluate the total amounts of tumor necrosis factor α (TNF-α), prostaglandin E2 (PGE2), receptor activator of nuclear factor kappa B ligand (RANKL), receptor activator of nuclear factor kappa B (RANK), and osteoprotegerin (OPG) and the abundance of putative oral pathogens Fusobacterium nucleatum, Porphyromonas gingivalis, Treponema denticola, Tannerella forsythia, Prevotella intermedia, and Streptococcus oralis in extra short and standard dental implants functioning in the posterior mandible. Methodology: The implants were divided into two groups according to their lengths: standard (intrabony length ≥8 mm) and extra short (intrabony length ≤ 6 mm). A total of 60 implants were researched in 30 patients. Probing depth (PD), clinical attachment level (CAL), presence of bleeding on probing (BOP), 3-year survival rate (CSR), and bone loss (BL) were measured.
    Detailed Description
    INTRODUCTION Dental implants are usually considered an alternative treatment option to replace lost teeth in edentulous patients. The rate of implant placement in regions more difficult to rehabilitate has increased with the increase in the success of osseointegration and survival. However, besides implant placement in sites with insufficient crest width and height, treatment times and costs have also increased with the use of grafting procedures.1 Various surgical techniques, such as vertical bone augmentation, sinus floor elevation, and nerve transposition, have been developed for the treatment of these bone volume insufficiencies. However, these methods are technically sensitive and can cause significant postoperative complications. Short dental implants have been suggested as a simpler, cheaper, and faster alternative to prevent the disadvantages of surgical techniques and for the rehabilitation of toothless areas.2,3 A large number of randomized controlled clinical trials demonstrated that the long-term success and survival rates of short implants were similar to those of standard long implants.4-6 Accumulation of microbial dental plaque around the implant is the most important cause of implant loss. If the microbial attachment is not removed, diseases such as peri-implant mucositis and peri-implantitis may occur and result in implant loss in the long term. Peri-implant mucositis is a reversible inflammatory reaction in the soft tissue surrounding the implant in function. Peri-implantitis is a microbial inflammatory disease characterized by the resorption of the supportive bone surrounding the implant in function.7 Gram-negative anaerobic bacteria predominate around the implant sites affected by the disease. While they resemble chronic periodontal infections, they have a more complex microbiological character.8 Predominant species around a peri-implantitis implant are red complex (P. gingivalis, T. denticola, and T. forsythia) and orange complex bacteria (F. nucleatum and P. intermedia) described by Socransky.9 In 1989, Apse et al. reported a fluid around the peri-implant sulcus with properties similar to those of the gingival crevicular fluid, and they called this fluid peri-implant crevicular fluid (PICF).10 The PICF is an inflammatory exudate formed by osmotic pressure. Biochemical mediators in the PICF are highly important to determine the health of tissues around the implant.11 Prostaglandins, especially prostaglandin E2 (PGE2), are considered as a potent mediator of alveolar bone destruction in periodontitis. A large number of studies reported an increase in PGE2 levels from healthy state to periodontitis.12 Tumor necrosis factor α (TNF-α) is a proinflammatory cytokine regulating the Gram-negative bacterial response. The TNF-α concentration is an indicator of bacterial load and degree of inflammation.13 In areas where peri-implantitis is active, the presence and activity of osteoclasts are necessary for bone destruction to occur. The formation and activation of osteoclasts are regulated through the activation of three members of the TNF family: receptor activator of nuclear factor kappa B ligand (RANKL), receptor activator of nuclear factor kappa B (RANK), and osteoprotegerin (OPG). Osteoclast differentiation and activation occur with the binding of RANKL to RANK over the surface of osteoclasts and precursors. OPG, which is a soluble protein of TNF receptors, antagonizes RANK-RANKL interaction and increases bone formation by inhibiting osteoclastogenesis. The levels of proinflammatory cytokines, such as IL-1, IL-6, TNF-α, and PGE2, and RANKL/OPG rates, which allow the determination of osteoclastic activity, change in the case of peri-implantitis.14 The aim of this study was to evaluate the levels of TNF-α, PGE2, RANKL, RANK, and OPG in extra short and standard dental implants functioning in the posterior mandible. An additional aim was to investigate the levels of putative oral pathogens F. nucleatum, P. gingivalis, T. denticola, T. forsythia, P. intermedia, and S. oralis in submucosal biofilm samples from the studied sites. MATERIALS AND METHODS This study was carried out by recalling individuals whose bilateral partial tooth losses were treated with implant-supported fixed restorations and whose implants had been functioning for at least 3 years after prosthetic rehabilitation. The study was conducted in accordance with the ethical guidelines from the World Medical Association Declaration of Helsinki (version 2013) (Clinical Researches Ethical Board with the 28. 09. 2016 and 2016/009 decision numbered approval). A total of 31 patients met the inclusion criteria. One patient did not continue the study. Further, 60 implants were researched in 30 patients (16 female and 14 male). The bilateral regions of patients with a standard implant and an extra short implant were grouped into two.16 Control group: Standard implant, intra-bone length ≥8 mm (30 implants) Test group: Extra Short implant, intra-bone length ≤6 mm (30 implants) Collection of clinical data A single calibrated examiner performed all (full-mouth and site-specific) clinical measurements (B.K.), including probing depth (PD), clinical attachment level (CAL), presence of bleeding on probing (BOP), 3-year survival rate (CSR), and bone loss (BL). The values of PD and BOP were measured from four sites of each implant (mesial, distal, buccal, and lingual) with a Williams type (Hue Friedy, Switzerland) plastic periodontal probe. The PD was recorded as the distance from the base of the peri-implant to the side of the gum in millimeters. BOP was evaluated according to the presence (+) or absence (-) of bleeding within the first 30 s following the measurement of PD.17 Control panoramic films of all patients were taken, and differences in the marginal bone level between radiography images after implant placement and 3 years later were evaluated. Original films and images taken later were taken with the same angle for standardizaton. Collection of PICF and subgingival plaque samples After the plaques and soft attachments around the implants were removed, the implants were isolated using cotton rolls and dried with an air spray. The PICF was collected from the mesio-buccal region of the implant using periopaper strips (Oraflow Inc, NY, USA). Paper strips were placed 1-2 mm inside the peri-implant sulcus and kept for 30 s. Paper strips were placed in sterile Eppendorf tubes containing 200 µL of phosphate-buffered saline (PBS). The tubes were kept at -80°C until the analysis day. Paper strips contaminated with saliva or blood were excluded from the sampling. After collecting the PICF,. the supragingival plaque was carefully removed using a sterile scaler. Implants were isolated using cotton rolls and dried with an air spray. Subgingival plaque samples were collected from the mesio-buccal region of the implant using a sterile plastic Gracey curette (Hu-Friedy, Switzerland) for 30 s. The samples collected were transferred to sterile Eppendorf tubes containing 200 µL of PBS. The tubes were kept at -80°C until the analysis day. PICF analysis Commercial enzyme-linked immunosorbent assay kits were used for measuring the levels of TNF-α, PGE2, RANKL, RANK, and OPG in accordance with the manufacturer's recommendations (Elabscience Biotechnology Co., Ltd, Wuhan, China). The measuring ranges were as follows: TNF-α, 7.81-500 pg/mL; PGE2, 31.25-2000 pg/mL; RANKL, 0.16-10 pg/mL; RANK, 0.16-10 pg/mL; and OPG, 0.16-10 pg/mL. Optical density was measured at 450 nm, and the samples were compared with standards. Biochemical data were measured as the total amount (pg/30 s). Genomic DNA preparation An extraction kit was used in accordance with the manufacturer's recommendations to purify the DNA in the collected plaque samples (GF-1 bacterial DNA extraction kit, Vivantis, Malaysia). Standards were used for total DNA in the target bacteria. Genomic DNA was obtained and stored at 4°C. Real-time polymerase chain reaction Primary probes were determined to define each bacterium and observe the proliferation curves using real-time polymerase chain reaction (PCR) (Table 1). For the DNA amplification reaction, procedures were performed with a real-time PCR system (Roche Light Cycler 480 Instrument II, Switzerland) using a master mix (SYBR Green Master Mix; Life Technologies, CA, USA). PCR cycles were as follows: 10 min at 95°C, 40 cycles at 95°C for 30 s and 2 min at 60°C. DNA contents were calculated using standard curves. Statistical analysis Statistical analyses were performed with SPSS 19.0 (IBM Inc., IL, USA). Kolmogorov-Smirnov and Shapiro-Wilk tests were used to examine whether the variables were normally distributed. The level of significance was used as 0.05 while commenting on the results. While examining the differences between the groups, the independent-samples t test was used when the variables were normally distributed. The nonparametric Mann-Whitney U test was used when the variables were not normally distributed. The chi-square analysis was used while examining the relationships between the groups of nominal variables. The survival rate (CSR) was calculated according to the number of short and standard implants placed.

    6. Conditions and Keywords

    Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
    Peri-Implantitis, Peri-implant Mucositis

    7. Study Design

    Primary Purpose
    Prevention
    Study Phase
    Not Applicable
    Interventional Study Model
    Factorial Assignment
    Masking
    None (Open Label)
    Allocation
    Randomized
    Enrollment
    60 (Actual)

    8. Arms, Groups, and Interventions

    Arm Title
    Control group
    Arm Type
    Sham Comparator
    Arm Description
    Standard implant, intra-bone length ≥8 mm (30 implants)
    Arm Title
    Test group
    Arm Type
    Active Comparator
    Arm Description
    Extra Short implant, intra-bone length ≤6 mm (30 implants)
    Intervention Type
    Other
    Intervention Name(s)
    PICF (Periopaper)
    Intervention Description
    After the plaques and soft attachments around the implants were removed, the implants were isolated using cotton rolls and dried with an air spray. The PICF was collected from the mesio-buccal region of the implant using periopaper strips (Oraflow Inc, NY, USA). Paper strips were placed 1-2 mm inside the peri-implant sulcus and kept for 30 s. Paper strips were placed in sterile Eppendorf tubes containing 200 µL of phosphate-buffered saline (PBS). The tubes were kept at -80°C until the analysis day. Paper strips contaminated with saliva or blood were excluded from the sampling.
    Intervention Type
    Other
    Intervention Name(s)
    Subgingival plaque, Gracey curette (Hu-Friedy)
    Intervention Description
    After collecting the PICF, the supragingival plaque was carefully removed using a sterile scaler. Implants were isolated using cotton rolls and dried with an air spray. Subgingival plaque samples were collected from the mesio-buccal region of the implant using a sterile plastic Gracey curette (Hu-Friedy, Switzerland) for 30 s. The samples collected were transferred to sterile Eppendorf tubes containing 200 µL of PBS. The tubes were kept at -80°C until the analysis day.
    Intervention Type
    Other
    Intervention Name(s)
    Clinical data, williams probe PCPNU (Hu-Friedy)
    Intervention Description
    A single calibrated examiner performed all (full-mouth and site-specific) clinical measurements (B.K.), including probing depth (PD), clinical attachment level (CAL), presence of bleeding on probing (BOP), 3-year survival rate (CSR), and bone loss (BL). The values of PD and BOP were measured from four sites of each implant (mesial, distal, buccal, and lingual) with a Williams type (Hue Friedy, Switzerland) plastic periodontal probe. The PD was recorded as the distance from the base of the peri-implant to the side of the gum in millimeters. BOP was evaluated according to the presence (+) or absence (-) of bleeding within the first 30 s following the measurement of PD.17 Control panoramic films of all patients were taken, and differences in the marginal bone level between radiography images after implant placement and 3 years later were evaluated. Original films and images taken later were taken with the same angle for standardizaton.
    Primary Outcome Measure Information:
    Title
    the levels of putative oral pathogens (using PCR)
    Description
    An extraction kit was used in accordance with the manufacturer's recommendations to purify the DNA in the collected plaque samples (GF-1 bacterial DNA extraction kit, Vivantis, Malaysia). Standards were used for total DNA in the target bacteria. Primary probes were determined to define each bacterium and observe the proliferation curves using real-time polymerase chain reaction (PCR)
    Time Frame
    an average of 3 year
    Secondary Outcome Measure Information:
    Title
    total amount of TNF-α, PGE2, RANKL, RANK, and OPG (using ELISA)
    Description
    Commercial enzyme-linked immunosorbent assay kits were used for measuring the levels of TNF-α, PGE2, RANKL, RANK, and OPG in accordance with the manufacturer's recommendations (Elabscience Biotechnology Co., Ltd, Wuhan, China).
    Time Frame
    an average of 3 year

    10. Eligibility

    Sex
    All
    Minimum Age & Unit of Time
    35 Years
    Maximum Age & Unit of Time
    66 Years
    Accepts Healthy Volunteers
    No
    Eligibility Criteria
    Inclusion Criteria: Implants placed by the same periodontologist (E.Ö.) functioning for at least 3 years Patients without any systemic disease affecting bone metabolism Age >18 years Extra short (6-mm) implants with identical surface properties bilaterally in one area in the mandibular region and standard (≥8 mm) implants in the other area Placed implants having the same brand (Straumann Standard Plus; Institute Straumann AG, Basel, Switzerland) Patients with cemented implant prosthesis in which standard abutment was used in the mandibular posterior region Implants having no additional bone augmentation during implant surgery No periodontal treatment received in the last 3 years Patients under oral hygiene control (plaque score <20%) Exclusion Criteria: Poor oral hygiene (plaque score >20%) Patients with a history of periodontitis Uncontrolled diabetes and other uncontrolled diseases Pregnancy and lactation Smoking more than 10 cigarettes a day Using alcohol Receiving radiotherapy and chemotherapy Using drugs suppressing the immune system Having a parafunctional habit
    Overall Study Officials:
    First Name & Middle Initial & Last Name & Degree
    Bilge Karcı, Dr.
    Organizational Affiliation
    Alanya Alaaddin Keykubat University
    Official's Role
    Study Director

    12. IPD Sharing Statement

    Plan to Share IPD
    No
    IPD Sharing Plan Description
    After 1 years

    Learn more about this trial

    Comparison of Short and Standard Dental Implants

    We'll reach out to this number within 24 hrs