Authors :
Dr. Navya S; Dr. Iram Saba Khan; Dr. Sharanya Sabrish; Dr. Sagar S Bhat; Dr. Amarnath B C; Dr. Prashanth C S
Volume/Issue :
Volume 9 - 2024, Issue 3 - March
Google Scholar :
https://tinyurl.com/ycnbj9fp
Scribd :
https://tinyurl.com/bddh4ay6
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24MAR796
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Abstract :
Orthodontic mini-screws provide absolute
skeletal anchorage and can be placed in various sites
according to needs. The advantage of these implants is
their ease of insertion and removal, as well as the ability to
immediately withstand forces. Placing mini-screws too
close to the root surface can result in insufficient bone
remodeling due to occlusal forces transmitted through the
teeth to the implant, leading to implant failure. The
conventional method of placing interradicular implants
often led to incorrect positioning, causing perforation of
the dental root and subsequent loss of vitality,
osteosclerosis, and dentoalveolar ankylosis. To address
these issues, numerous intra-oral implant placement
guides have been developed. In our study, we developed a
prototype of an extra-oral detachable metal mesh grid
that can be attached to the parallelogram x-ray positioner
(RIN XCP). This prototype promises increased accuracy
and utility in implant placement.
Keywords :
Mini-Implants, Skeletal Anchorage, RIN XCP, Radiopaque Grid, Implant Placement Guide.
Orthodontic mini-screws provide absolute
skeletal anchorage and can be placed in various sites
according to needs. The advantage of these implants is
their ease of insertion and removal, as well as the ability to
immediately withstand forces. Placing mini-screws too
close to the root surface can result in insufficient bone
remodeling due to occlusal forces transmitted through the
teeth to the implant, leading to implant failure. The
conventional method of placing interradicular implants
often led to incorrect positioning, causing perforation of
the dental root and subsequent loss of vitality,
osteosclerosis, and dentoalveolar ankylosis. To address
these issues, numerous intra-oral implant placement
guides have been developed. In our study, we developed a
prototype of an extra-oral detachable metal mesh grid
that can be attached to the parallelogram x-ray positioner
(RIN XCP). This prototype promises increased accuracy
and utility in implant placement.
Keywords :
Mini-Implants, Skeletal Anchorage, RIN XCP, Radiopaque Grid, Implant Placement Guide.
