A methodological approach to standardize and control the quality of the position and alignment of lamina implants on two-dimensional radiographs

Autor:	Giovanni Battista Menchini-Fabris, Ugo Covani, Antonio Barone, Ranieri Martuscelli, Paolo Toti, Simone Marconcini
Přispěvatelé:	Menchini-Fabris, G. B., Covani, U., Toti, P., Marconcini, S., Barone, A., Martuscelli, R.
Rok vydání:	2018
Předmět:	Lamina animal structures Radiography Physics::Medical Physics Algorithms Blade-form implant Dental digital radiography Radiographic image interpretation Tissue–implant interactions 030218 nuclear medicine & medical imaging Robust regression Physics::Fluid Dynamics 03 medical and health sciences 0302 clinical medicine stomatognathic system Approximation error Medicine Humans Radiology Nuclear Medicine and imaging Dentistry (miscellaneous) ddc:617 business.industry X-Rays Detector Mathematical analysis 030206 dentistry Prostheses and Implants Polarization (waves) ddc:617.6 Algorithm Linear Models Longitude business Geographic coordinate system
Zdroj:	Oral Radiology (2019) pp. 1-19
ISSN:	1613-9674 0911-6028
Popis:	We sought to validate a new method to detect the degree of correlation between simulated and real tilted blade implants as they appear on a single two-dimensional radiograph.The angular correction factor (CF^) was defined as the coupling of two subsequent angle transformations, a set of five angular values describing the theoretical radiographic appearance of the blade implant: (1) three consecutive rotations about the axes of the blade ([Formula: see text], θ, and ψ, standing for pitch, roll, and yaw, respectively) to represent the polarization directions; (2) a two-dimensional projection defined by two angles (λ and [Formula: see text], respectively, longitude and latitude) to represent the vector of the X-ray beam intersecting the detector plate. Data of patients who received fixed prostheses supported by blade-form implants were employed to calculate a dimensional correction factor (CF°), a specific length through the major axis. The simulation of a distorted radiograph of a blade positioned in space was compared with the real radiograph. Differences in the angular measurements served as an initial test to assess the effectiveness of the method.In the acquired sets of periapical radiographs, mean misalignments of + 3.58° in longitude and - 0.04° in latitude were registered. The following variations were detected during the accuracy testing: the absolute error was 0.1 ± 7.5° for angle [Formula: see text]; 2.4 ± 6.7° for angle θ; - 1.0 ± 3.7° for angle ψ; 4.5 ± 8.6° for angle λ; and 2.0 ± 9.3° for angle [Formula: see text]. The linear dependence between CF° and CF^ was estimated by a robust linear regression: slope + 0.991, intercept + 0.007, and adjusted RThis a posteriori analysis introduces the explicit trigonometric equations of the theoretical standard (CF^) used to describe the blade implant radiographic position and misalignment on two-dimensional radiographs.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::b4d001131874096a69fe5e7546bc5c64 https://pubmed.ncbi.nlm.nih.gov/30715653 Zobrazit plný text záznamu Full text from SpringerLink