Osseointegration refers to the formation of a structural and functional bone-to-implant interface, without the interposition of soft tissue. Successful osseointegration will provide long term success for the dental implant. Primary implant stability, is the mechanical stability between bone and the implant at the time of insertion and is key to initiate a successful osseointegration. Both primary implant stability and osseointegration are affected by the density of the bone where the implant is placed. A relatively new technique known as osseodensification (OD) has been developed and uses specially designed burs (Densah burs). Compared to conventional drills (CD) that remove bone (subtractive drilling) these burs are designed so that they can rotate in a counterclockwise (CCW) (non subtractive) direction which allows bone to be preserved and compacted into the wall of the osteotomy site. These drills therefore theoretically maintain bone volume which then creates higher bone density and bone to implant contact allowing better implant primary stability. This study will be a randomised control trial comparing OD to CD with regards to implant stability and bone levels. Considering the increased cost of OD, available literature must support a significant clinical benefit of OD over CD to consider them for clinical use. This study will aim to reinforce available clinical research and address some of the limitations of the current evidence to aid clinicians in making an evidenced-based decision on the use of OD when poor bone density could compromise implant success.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
46
Densah Burs will be used in the intervention group
Conventional Burs will be used in the control group
Dublin Dental Hospital/Trinity College Dublin
Dublin, Ireland
RECRUITINGImplant Stability
Implant stability Quotient (ISQ) will be measured using magnetic resonance frequency analysis (MRFA) - the device is called OSSTELL. A transducer is attached to the implant and brought to vibration by magnetic pulses from the probe of the Osstell device which makes the implant vibrate. The implant's resistance to vibration is expressed as the ISQ value. High vibration frequency signifies high implant stability.
Time frame: During procedure (implant placement)
Implant Stability
Implant stability Quotient (ISQ) will be measured using magnetic resonance frequency analysis (MRFA) - the device is called OSSTELL. A transducer is attached to the implant and brought to vibration by magnetic pulses from the probe of the Osstell device which makes the implant vibrate. The implant's resistance to vibration is expressed as the ISQ value. High vibration frequency signifies high implant stability.
Time frame: At time of second stage implant surgery (3 months)
Implant Stability
Implant stability Quotient (ISQ) will be measured using magnetic resonance frequency analysis (MRFA) - the device is called OSSTELL. A transducer is attached to the implant and brought to vibration by magnetic pulses from the probe of the Osstell device which makes the implant vibrate. The implant's resistance to vibration is expressed as the ISQ value. High vibration frequency signifies high implant stability.
Time frame: At implant restoration (5 months)
Insertion torque
Insertion torque of implant will be measured using standard torque wrench
Time frame: During procedure (implant placement)
Marginal bone levels
Will be measured clinically using a periodontal probe and radiographically
Time frame: During procedure (implant placement)
Marginal bone levels
Will be measured clinically using a periodontal probe
Time frame: At time of second stage implant surgery (3 months)
Marginal bone levels
Will be measured clinically using a periodontal probe and radiographically
Time frame: At implant restoration (5 months)
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