Category Ranking
98%
Total Visits
921
Avg Visit Duration
2 minutes
Citations
20
Article Abstract
Background: Existing deep learning studies for the automated detection of hip prosthesis failure only consider the last available radiographic image. However, using longitudinal data is thought to improve the prediction, by combining temporal and spatial components. The aim of this study is to develop artificial intelligence models for predicting hip implant failure from multiple subsequent plain radiographs.
Methods: A cohort of 224 patients was considered for model development and a balanced cohort of 14 patients was used for external validation. A sequence of two or three anteroposterior radiographic images per patient was considered to track the prosthesis over time. A combination of a convolutional neural network (CNN) and a recurrent section was used. For the CNN, a pretrained autoencoder, a pretrained RadImageNet DenseNet and a pretrained custom DenseNet were considered. The recurrent section was implemented using either a single Gated Recurrent Unit (GRU) layer or a Long Short-Term Memory block.
Results: Considering 3 images as input provided a positive predictive value (PPV) of 0.966 and an f1 score of 0.933 on the validation set. Regarding the 2-image models, using the postoperative and the last image resulted in PPV of 0.933 and f1 score of 0.918, whereas using the second-to-last image with the post-operative one reached a PPV of 0.882 and f1 score of 0.923. On the external validation set, the 3-image model reached an accuracy of 0.786.
Conclusion: This study demonstrated the potential of the developed models, based on a series of plain radiographs, to predict hip prosthesis failure.
Download full-text PDF |
Source |
|---|---|
| http://dx.doi.org/10.1016/j.ijmedinf.2025.105802 | DOI Listing |
Publication Analysis
Top Keywords
Similar Publications
Bone mineral density assessment using radiofrequency echographic multispectrometry (REMS) in patients before and after total hip replacement.
Osteoporos Int
September 2025
Department of Rheumatology, First Faculty of Medicine, Charles University, Katerinska 32, Prague, 121 08, Czech Republic.
Unlabelled: REMS-BMD by radiofrequency echographic multispectrometry is primarily determined by a patient's BMI, age, and sex. Only about 2.8% of the changes in femoral neck REMS-BMD can be attributed to replacement of the total hip with metal implants.
View Article and Find Full Text PDFFunctional Outcomes in Failed Osteosynthesis of Proximal Femoral Fractures Managed by Total Hip Replacement Using the Modified Hardinge Approach: An Ambispective Cohort Study.
Cureus
August 2025
Department of Orthopaedic Surgery, King George's Medical University, Lucknow, IND.
Introduction Proximal femoral fractures are a major cause of disability, particularly in aging populations, with an increasing incidence. Although osteosynthesis remains the first-line treatment, failures are common due to various complications. Total hip arthroplasty (THA) is the preferred salvage procedure in such cases, despite its technical challenges.
View Article and Find Full Text PDFThe Influence of Computed Tomography on the Preoperative Planning of Revision Hip Arthroplasty - Femoral Component.
Rev Bras Ortop (Sao Paulo)
June 2025
Instituto Nacional de Traumatologia e Ortopedia Jamil Haddad, Rio de Janeiro, RJ, Brazil.
Objective: The present study aimed to compare the accuracy of the Paprosky Classification of Femoral Bone Loss using plain radiographs and two-dimensional computed tomography (2D CT) images with the femoral defect observed intraoperatively by the surgeon.
Methods: There were 14 hip surgeons from the same hospital who classified 80 patients with an indication for revision hip arthroplasty according to Paprosky based on plain radiographs in anteroposterior views of the pelvis and 2D CT images, reconstructed in the axial, coronal, and sagittal planes. We compared this data with the intraoperative findings of femoral bone loss by the same surgeons.
[The Influence of Computed Tomography on the Preoperative Planning of Revision Hip Arthroplasty - Femoral Component].
Rev Bras Ortop (Sao Paulo)
June 2025
Instituto Nacional de Traumatologia e Ortopedia Jamil Haddad, Rio de Janeiro, RJ, Brasil.
Objective: The present study aimed to compare the accuracy of the Paprosky Classification of Femoral Bone Loss using plain radiographs and two-dimensional computed tomography (2D CT) images with the femoral defect observed intraoperatively by the surgeon.
Methods: There were 14 hip surgeons from the same hospital who classified 80 patients with an indication for revision hip arthroplasty according to Paprosky based on plain radiographs in anteroposterior views of the pelvis and 2D CT images, reconstructed in the axial, coronal, and sagittal planes. We compared this data with the intraoperative findings of femoral bone loss by the same surgeons.
[Innovation in complex hip arthroplasty (Perthes sequel and developmental dysplasia of the hip): use of 3D models in surgical planning and simulation. Functional and radiographic results. Pilot study].
Acta Ortop Mex
September 2025
Servicio de Ortopedia y Traumatología, Hospital de San Rafael, Hospitales Pascual. Cádiz, España.
Introduction: anatomical deformities such as developmental dysplasia of the hip (DDH) and Perthes disease represent a challenge for reconstruction. The use of 3D-printed models can be helpful for assessing the deformity, bone mass, implant size, and orientation.
Objectives: to prospectively evaluate the outcomes of 3D simulation in primary total hip arthroplasty.