Risk Evaluation Method for Range of Motion after Total Hip Arthroplasty applying Monte-Carlo Simulation | Zendy

Gisun Jung | Zendy; YoungMin Kim | Zendy; Nokhaiz Tariq Khan | Zendy; Yun Bae Kim | Zendy

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Risk Evaluation Method for Range of Motion after Total Hip Arthroplasty applying Monte-Carlo Simulation

Author(s) -

Gisun Jung,

YoungMin Kim,

Nokhaiz Tariq Khan,

Yun Bae Kim

Publication year - 2018

Publication title -

procedia computer science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.334

H-Index - 76

ISSN - 1877-0509

DOI - 10.1016/j.procs.2018.10.190

Subject(s) - unavailability , computer science , range of motion , range (aeronautics) , monte carlo method , total hip arthroplasty , motion (physics) , simulation , plan (archaeology) , reliability engineering , physical therapy , artificial intelligence , medicine , surgery , statistics , materials science , mathematics , archaeology , engineering , composite material , history

Quality of Total Hip Arthroplasty (THA) is decided by the range of motion (ROM), a patient can achieve after the transplant. The ROM plays an important role to perform different daily life activities. The post-operation achievement of ROM is dependent on pre-operation plans. Surgeons plan and perform operations based on their previous experiences because of the unavailability of authentic quantitative criteria due to various limitations. This study attempts to support pre-operation planning to calculate post-operation ROM achieved by the patient in THA, alongside, the risk evaluation with respect to flexion which is the most critical ROM of hip joint.

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