Your search keyword '"Kaptein, B L"' showing total 16 results

1. Less wear in deep-dished mobile compared to fixed bearing total knee arthroplasty of the same design at 5-year follow-up: a randomised controlled model-based Roentgen stereophotogrammetric analysis trial

Author

Kalaai, S., Most, J., van Dun, B., Kaptein, B. L., Tilman, P. B. J., Boonen, B., and Schotanus, M. G. M.

Published

2023

2. High accuracy of positioning custom triflange acetabular components in tumour and total hip arthroplasty revision surgery: a multicentre cohort study of 35 patients.

Author

Broekhuis, D., Meurs, W. M. H., Kaptein, B. L., Karunaratne, S., Smith, R. L. Carey, Sommerville, S., Boyle, R., and Nelissen, R. G. H. H.

Published

2024

3. No difference in terms of radiostereometric analysis between fixed- and mobile-bearing total knee arthroplasty: a randomized, single-blind, controlled trial

Author

Schotanus, M. G. M., Pilot, P., Kaptein, B. L., Draijer, W. F., Tilman, P. B. J., Vos, R., and Kort, N. P.

Published

2017

4. Sex differences in perceived expectations of the outcome of total hip and knee arthroplasties and their fulfillment: an observational cohort study.

Author

Latijnhouwers, Daisy A. J. M., Vlieland, Thea P. M. Vliet, Marijnissen, Willem Jan, Damen, Pieter-Jan, Nelissen, Rob G. H. H., Gademan, Maaike G. J., The Longitudinal Leiden Orthopaedics Outcomes of Osteoarthritis Study (LOAS) Group, van der Linden, H. M. J., Kaptein, B. L., Verdegaal, S. H. M., Kaptijn, H. H., Vehmeijer, S. B. W., and Onstenk, R.

Subjects

TOTAL knee replacement, TOTAL hip replacement, EXPECTATION (Psychology), COHORT analysis

Abstract

The influence of sex on preoperative expectations and their fulfillment following total hip and knee arthroplasty (THA/TKA) remains unexplored. We investigated differences between men and women in perceived preoperative expectations on the outcome of THA/TKA and their fulfillment 1 year postoperatively. We performed a cohort study. Expectations were collected preoperatively and 1 year postoperatively using the Hospital for Special Surgery Hip/Knee Replacement Expectations Surveys (HSS-HRES/KRES; not applicable = 0, applicable: back to normal = 1, much = 2/moderate = 3/slight improvement = 4). Fulfillment of expectations was calculated by subtracting preoperative from postoperative scores (score < 0:unfulfilled; score ≥ 0:fulfilled). We included patients with "applicable" expectations. Chi-square and ordinal regression were used to compare expectations and fulfillment regarding sex. 2333 THA (62% women) and 2398 TKA (65% women) patients were included. 77% of THA and 76% of TKA patients completed the HSS-HRES/HSS-KRES both preoperatively and 1 year postoperatively. Men more often perceived items as "applicable", with differences in 9/20 (HSS-HRES) and 9/19 (HSS-KRES) preoperative items and, respectively, 12/20 (HSS-HRES) and 10/19 (HSS-KRES) postoperative items. The largest differences (> 10%) were found in sexual activity and working ability. 16/20 (HSS-HRES) and 14/19 (HSS-KRES) items showed an increased probability of having higher preoperative expectations of ≥ 10%, in favor of men. In all items, 60% of the respondents indicated that their expectation was fulfilled. Differences were observed in 16/20 (HSS-HRES) and 6/19 (HSS-KRES) items in favor of men. Sex differences were present in expectations and fulfillment, with higher applicability of items, preoperative expectations and fulfillment in men, especially on items related to functional activities. Trial registration: Trial-ID NTR3348. [ABSTRACT FROM AUTHOR]

Published

2023

5. Recovery and the use of postoperative physical therapy after total hip or knee replacement.

Author

Groot, L., Latijnhouwers, D. A. J. M., Reijman, M., Verdegaal, S. H. M., Vliet Vlieland, T. P. M., Gademan, M. G. J., on behalf of the Longitudinal Leiden Orthopaedics Outcomes of Osteoarthritis Study (LOAS) Group, Nelissen, R. G. H. H., van der Linden, H. M. J., Kaptein, B. L., Damen, P. J., Kaptijn, H. H., Vehmeijer, S. B. W., Marijnissen, W. J. C. M., Onstenk, R., and Longitudinal Leiden Orthopaedics Outcomes of Osteoarthritis Study (LOAS) Group

Subjects

RESEARCH, TOTAL knee replacement, TOTAL hip replacement, CONVALESCENCE, PHYSICAL therapy, RESEARCH methodology, EVALUATION research, TREATMENT effectiveness, COMPARATIVE studies, IMPACT of Event Scale, REHABILITATION

Abstract

Background: Total hip or knee arthroplasties (THA/TKA) show favorable long-term effects, yet the recovery process may take weeks to months. Physical therapy (PT) following discharge from hospital is an effective intervention to enhance this recovery process. To investigate the relation between recovery and postoperative PT usage, including the presence of comorbidities, 6 months after THA/TKA.Methods: Multicenter, observational study in primary THA/TKA patients who completed preoperative and 6 months postoperative assessments. The assessments included questions on PT use (yes/no and duration; long term use defined as ≥ 12 weeks), comorbidities (musculoskeletal, non-musculoskeletal, sensory comorbidities and frequency of comorbidities). Recovery was assessed with the HOOS/KOOS on all 5 subdomains. Logistic regression with long term PT as outcome was performed adjusted for confounding including an interaction term (comorbidity*HOOS/KOOS-subdomain).Results: In total, 1289 THA and 1333 TKA patients were included, of whom 95% received postoperative PT, 56% and 67% received postoperative PT ≥ 12 weeks respectively. In both THA and TKA group, less improvement on all HOOS/KOOS domain scores was associated with ≥ 12 weeks of postoperative PT (range Odds Ratios 0.97-0.99). In the THA group the impact of recovery was smaller in patient with comorbidities as non- musculoskeletal comorbidities modified all associations between recovery and postoperative PT duration (Odds Ratios range 1.01-1.05). Musculoskeletal comorbidities modified the associations between Function-in-Daily-Living-and Sport-and-recreation recovery and postoperative PT. Sensory comorbidities only had an effect on Sport-and-recreation recovery and postoperative PT. Also the frequency of comorbidities modified the relation between Function-in-Daily-Living, pain and symptoms recovery and postoperative PT. In the TKA group comorbidity did not modify the associations.Conclusion: Worse recovery was associated with longer duration of postoperative PT suggesting that PT provision is in line with patients' needs. The impact of physical recovery on the use of long-term postoperative PT was smaller in THA patients with comorbidities.Trial Registration: Registered in the Dutch Trial Registry on March 13, 2012. TRIAL ID NTR3348; registration number: P12.047. https://www.trialregister.nl/trial/3197 . [ABSTRACT FROM AUTHOR]

Published

2022

6. 2D–3D shape reconstruction of the distal femur from stereo X-ray imaging using statistical shape models

Author

Baka, N., Kaptein, B. L., de Bruijne, M., van Walsum, T., Giphart, J. E., Niessen, W. J., and Lelieveldt, B. P.F.

Published

2011

7. Acute pain after total hip and knee arthroplasty does not affect chronic pain during the first postoperative year: observational cohort study of 389 patients.

Author

Latijnhouwers, D. A. J. M., Martini, C. H., Nelissen, R. G. H. H., Verdegaal, S. H. M., Vliet Vlieland, T. P. M., Gademan, M. G. J., the Longitudinal Leiden Orthopaedics Outcomes of Osteoarthritis Study (LOAS) Group, van der Linden, H. M. J., Kaptein, B. L., Damen, P. J., Kaptijn, H. H., Vehmeijer, S. B. W., Marijnissen, W. C. M., and Onstenk, R.

Subjects

TOTAL hip replacement, TOTAL knee replacement, CHRONIC pain, POSTOPERATIVE pain, COHORT analysis

Abstract

Chronic pain is frequently reported after total hip and knee arthroplasties (THA/TKA) in osteoarthritis (OA) patients. We investigated if severity of acute postoperative pain following THA/TKA in OA patients was associated with pain during the first postoperative year. From an observational study, OA patients scheduled for primary THA/TKA (June 2012–December 2017) were included from two hospitals in the Netherlands. Acute postoperative pain scores were collected within 72 h postoperatively and categorized as no/mild (NRS ≤ 4) or moderate/severe (NRS > 4). Pain was assessed preoperatively, 3, 6 and 12 months postoperatively using the HOOS/KOOS subscale pain. With Multilevel Mixed-effects-analyses, we estimated associations between acute and chronic pain until one year postoperative, adjusted for confounders and including an interaction term (Time*Acute pain). 193 THA and 196 TKA patients were included, 29% of THA and 51% of TKA patients reported moderate/severe pain acutely after surgery. In the THA group, the difference in pain at 3 months between the no/mild and moderate/severe groups, was approximately six points, in favor of the no/mild group (95% CI [−12.4 to 0.9]) this difference became smaller over time. In the TKA group we found similar differences, with approximately four points (95% CI [−9.6 to 1.3]) difference between the no/mild and moderate/severe group at 6 months, this difference attenuated at 12 months. No association between severity of acute postoperative pain and pain during the first postoperative year was found. These findings suggest that measures to limit acute postoperative pain will likely not impact development of chronic pain. [ABSTRACT FROM AUTHOR]

Published

2022

8. Detecting condylar contact loss using single-plane fluoroscopy: A comparison with in vivo force data and in vitro bi-plane data.

Author

Prins, A. H., Kaptein, B. L., Banks, S. A., Stoel, B. C., Nelissen, R. G. H. H., and Valstara, E. R.

Subjects

*FLUOROSCOPY, *KNEE physiology, *BIOMECHANICS, *TOTAL knee replacement, *POLYETHYLENE, *MECHANICAL wear, *IN vitro studies

Abstract

Knee contact mechanics play an important role in knee implant failure and wear mechanics. Femoral condylar contact loss in total knee arthroplasty has been reported in some studies and it is considered to potentially induce excessive wear of the polyethylene insert. Measuring in vivo forces applied to the tibial plateau with an instrumented prosthesis is a possible approach to assess contact loss in vivo' but this approach is not very practical. Alternatively, single-plane fluoroscopy and pose estimation can be used to derive the relative pose of the femoral component with respect to the tibial plateau and estimate the distance from the medial and lateral parts of the femoral component towards the insert. Two measures are reported in the literature: lift-off is commonly defined as the difference in distance between the medial and lateral condyles of the femoral component with respect to the tibial plateau; separation is determined by the closest distance of each condyle towards the polyethylene insert instead of the tibia plateau. In this validation study, lift-off and separation as measured with single-plane fluoroscopy are compared to in vivo contact forces measured with an instrumented knee implant. In a phantom study, lift-off and separation were compared to measurements with a high quality bi-plane measurement. The results of the in vivo contact-force experiment demonstrate a large discrepancy between single-plane fluoroscopy and the in vivo force data: single-plane fluoroscopy measured up to 5.1 mm of lift-off or separation, whereas the force data never showed actual loss of contact. The phantom study demon-strated that the single-plane setup could introduce an overestimation of 0.22 mm ± ± 0.36 mm. Correcting the out-of-plane position resulted in an underestimation of medial separation by - 0.20 mm ± ± 0.29 mm. In conclusion, there is a discrepancy between the in vivo force data and single-plane fluoroscopic measurements. Therefore contact loss may not always be determined reliably by single plane fluoroscopy analysis. [ABSTRACT FROM AUTHOR]

Published

2014

9. Statistical Shape Model-Based Femur Kinematics From Biplane Fluoroscopy.

Author

Baka, N., de Bruijne, M., van Walsum, T., Kaptein, B. L., Giphart, J. E., Schaap, M., Niessen, W. J., and Lelieveldt, B. P. F.

Subjects

KINEMATICS, FLUOROSCOPY, PROSTHESIS design & construction, IMAGE segmentation, TOMOGRAPHY, THREE-dimensional display systems, IMAGE reconstruction

Abstract

Studying joint kinematics is of interest to improve prosthesis design and to characterize postoperative motion. State of the art techniques register bones segmented from prior computed tomography or magnetic resonance scans with X-ray fluoroscopic sequences. Elimination of the prior 3D acquisition could potentially lower costs and radiation dose. Therefore, we propose to substitute the segmented bone surface with a statistical shape model based estimate. A dedicated dynamic reconstruction and tracking algorithm was developed estimating the shape based on all frames, and pose per frame. The algorithm minimizes the difference between the projected bone contour and image edges. To increase robustness, we employ a dynamic prior, image features, and prior knowledge about bone edge appearances. This enables tracking and reconstruction from a single initial pose per sequence. We evaluated our method on the distal femur using eight biplane fluoroscopic drop-landing sequences. The proposed dynamic prior and features increased the convergence rate of the reconstruction from 71% to 91%, using a convergence limit of 3 mm. The achieved root mean square point-to-surface accuracy at the converged frames was 1.48\pm 0.41 mm. The resulting tracking precision was 1–1.5 mm, with the largest errors occurring in the rotation around the femoral shaft (about 2.5^\circ precision). [ABSTRACT FROM PUBLISHER]

Published

2012

10. Influence of aneurysm wall stiffness and the presence of intraluminal thrombus on the wall movement of an aneurysm - an in vitro study.

Author

Bosman, W. M. P. F., Hinnen, J. W., Kopp, W. H., van der Steenhoven, T. J., Kaptein, B. L., Koning, O. H. J., and Hamming, J. F.

Abstract

The purpose of this in vitro study was to investigate the influence of aneurysm wall stiffness and of the presence of intraluminal thrombus (ILT) on aneurysm wall movement. Three latex aneurysms were used with different wall stiffness. The aneurysms, equipped with 20 tantalum markers, were attached to an in vitro circulation model. Fluoroscopic roentgenographic stereo photogrammetric analysis was used to measure marker movement during six cardiac cycles at three different systemic pressures. To investigate the influence of ILT on wall movement, we repeated the same experiment with one of the aneurysms. The aneurysm sac was then filled with one of two E-moduli differing thrombus analogues (Novalyse 8 and 20) or with perfusate as a control. It was noted that the amplitude of the wall movement (mm) increased significantly (P < 0.05) as the compliance of the wall increased. The mean amplitude of the wall movement decreased (P < 0.05) as the stiffness (E-modulus) of the ILT increased. In conclusion, ILT has a 'cushioning effect'. Wall movement (and theoretically wall stress) diminishes when the stiffness of the ILT increases. Compliance of the aneurysm wall influences wall movement. When the stiffness of the wall increases, the wall movement diminishes. [ABSTRACT FROM AUTHOR]

Published

2012

11. Integrated contour detection and pose estimation for fluoroscopic analysis of knee implants.

Author

Prins, A H, Kaptein, B L, Stoel, B C, Nelissen, R G H H, Reiber, J H C, and Valstar, E R

Subjects

FLUOROSCOPY, ARTIFICIAL implants, KNEE surgery, KINEMATICS, IMAGING phantoms, DYNAMIC programming

Abstract

With fluoroscopic analysis of knee implant kinematics the implant contour must be detected in each image frame, followed by estimation of the implant pose. With a large number of possibly low-quality images, the contour detection is a time-consuming bottleneck. The present paper proposes an automated contour detection method, which is integrated in the pose estimation.In a phantom experiment the automated method was compared with a standard method, which uses manual selection of correct contour parts. Both methods demonstrated comparable precision, with a minor difference in the Y-position (0.08 mm versus 0.06 mm). The precision of each method was so small (below 0.2 mm and 0.3°) that both are sufficiently accurate for clinical research purposes.The efficiency of both methods was assessed on six clinical datasets. With the automated method the observer spent 1.5 min per image, significantly less than 3.9 min with the standard method. A Bland–Altman analysis between the methods demonstrated no discernible trends in the relative femoral poses.The threefold increase in efficiency demonstrates that a pose estimation approach with integrated contour detection is more intuitive than a standard method. It eliminates most of the manual work in fluoroscopic analysis, with sufficient precision for clinical research purposes. [ABSTRACT FROM AUTHOR]

Published

2011

12. Development of a model-based Roentgen stereophotogrammetric analysis system to measure polyethylene wear in unicompartmental arthroplasty.

Author

Simpson DJ, Kendrick BJ, Kaptein BL, Price AJ, Murray DW, Gill HS, Simpson, D J, Kendrick, B J L, Kaptein, B L, Price, A J, Murray, D W, and Gill, H S

Abstract

One of the most important causes of failure in unicompartmental knee replacement (UKR) is polyethylene wear. The aim of this study was to develop and assess a novel Roentgen stereophotogrammetric analysis (RSA)-based method for the measurement of linear wear suitable for UKR. Model-based RSA was used to estimate the linear wear of polyethylene bearings in UKR. A phantom was used to validate the method using in vitro measured bearing thicknesses and the linear wear of ten control bearings was estimated in vivo. Computer aided design (CAD) models for the UKRs were used in the model-based RSA system. There was no statistically significant difference between the estimated and measured bearing thicknesses using the CAD models (p = 0.386). The precision of the linear wear measurement, expressed as the standard deviation of the difference between the estimated and measured bearing thickness was 0.163 mm. The bias (mean difference) was 0.030 mm. The use of RSA to measure in vivo wear in a UKR has been shown to be accurate in a phantom, and has been verified with in vivo measured controls. The technique does not require surgical implantation of marker balls and can be used retrospectively. [ABSTRACT FROM AUTHOR]

Published

2010

13. Evaluation of three pose estimation algorithms for model-based roentgen stereophotogrammetric analysis.

Author

Kaptein, B. L., Valstar, E. R., Stoel, B. C., Rozing, P. M., and Reiber, J. H. C.

Subjects

ARTIFICIAL implants, PHOTOGRAMMETRY, ALGORITHMS, MEDICAL imaging systems, MEDICAL photography

Abstract

Model-based roentgen stereophotogrammetric analysis (RSA) uses a three-dimensional surface model of an implant in order to estimate accurately the pose of that implant from a stereo pair of roentgen images. The technique is based on minimization of the difference between the actually projected contour of an implant and the virtually projected contour of a model of that same implant. The advantage of model-based RSA over conventional marker-based RSA is that it is not necessary to attach markers to the implant. In this paper, three pose estimation algorithms for model-based RSA are evaluated. The algorithms were assessed on the basis of their sensitivities to noise in the actual contour, to the amount of drop-outs in the actual contour, to the number of points in the actual contour and to shrinkage or expansion of the actual contour. The algorithms that were studied are the iterative inverse perspective matching (IIPM) algorithm, an algorithm based on minimization of the difference (DIF) between the actual contour and the virtual contour, and an algorithm based on minimization of the non-overlapping area (NOA) between the actual and virtual contour. The results of the simulation and phantom experiments show that the NOA algorithm does not fulfil the high accuracy that is necessary for model-based RSA. The IIPM and DIF algorithms are robust to the different distortions, making model-based RSA a possible replacement for marker-based RSA. [ABSTRACT FROM AUTHOR]

Published

2004

14. Development and experimental validation of a three-dimensional finite element model of the human scapula.

Author

Gupta, S., Van der Helm, F. C. T., Sterk, J. C., Van Keulen, F., and Kaptein, B. L.

Subjects

SCAPULA, BONES, FINITE element method, THREE-dimensional imaging, TOMOGRAPHY

Abstract

A new modelling approach, using a combination of shell and solid elements, has been adopted to develop a realistic three-dimensional finite element (FE) model of the human scapula. Shell elements were used to represent a part of the compact bone layer (i.e. the outer cortical layer) and the very thin and rather flat part of the scapula—infraspinous fossa and supraspinous fossa respectively. Solid elements were used to model the remaining part of the compact bone and the trabecular bone. The FE model results in proper element shapes without distortion. The geometry, material properties and thickness were taken from quantitative computed tomography (CT ) data. A thorough experimental set-up for strain gauge measurement on a fresh bone serves as a reference to assess the accuracy of FE predictions. A fresh cadaveric scapula with 18 strain gauges fixed at various locations and orientations was loaded in a mechanical testing machine and supported at three locations by linkage mechanisms interconnected by ball joints. This new experimental set-up was developed to impose bending and deflection of the scapula in all directions unambiguously, in response to applied loads at various locations. The measured strains (experimental) were compared to numerical (FE) strains, corresponding to several load cases, to validate the proposed FE modelling approach. Linear regression analysis was used to assess the accuracy of the results. The percentage error in the regression slope varies between 9 and 23 per cent. It appears, as a whole, that the two variables (measured and calculated strains) strongly depend on each other with a confidence level of more than 95 per cent. Considering the complicated testing procedure on a fresh sample of scapula, the high correlation coefficients (0.89–0.97), the low standard errors (29–105 µε) and percentage errors in the regression slope, as compared to other studies, strongly suggest that the strains calculated by the FE model can be used as a valid predictor of the actual measured strain. The model is therefore an alternative to a rigorous three-dimensional model based on solid elements only, which might often be too expensive in terms of computing time. [ABSTRACT FROM AUTHOR]

Published

2004

15. Relationship between the shape and density distribution of the femur and its natural frequencies of vibration.

Author

Campoli, G., Baka, N., Kaptein, B. L., Valstar, E. R., Zachow, S., Weinans, H., and Zadpoor, A. A.

Subjects

*FEMUR physiology, *MECHANICAL loads, *CANCELLOUS bone, *BONE density, *FINITE element method, *BOUNDARY value problems

Abstract

It has been recently suggested that mechanical loads applied at frequencies close to the natural frequencies of bone could enhance bone apposition due to the resonance phenomenon. Other applications of bone modal analysis are also suggested. For the above-mentioned applications, it is important to understand how patient-specific bone shape and density distribution influence the natural frequencies of bones. We used finite element models to study the effects of bone shape and density distribution on the natural frequencies of the femur in free boundary conditions. A statistical shape and appearance model that describes shape and density distribution independently was created, based on a training set of 27 femora. The natural frequencies were then calculated for different shape modes varied around the mean shape while keeping the mean density distribution, for different appearance modes around the mean density distribution while keeping the mean bone shape, and for the 27 training femora. Single shape or appearance modes could cause up to 15% variations in the natural frequencies with certain modes having the greatest impact. For the actual femora, shape and density distribution changed the natural frequencies by up to 38%. First appearance mode that describes the general cortical bone thickness and trabecular bone density had one of the strongest impacts. The first appearance mode could therefore provide a sensitive measure of general bone health and disease progression. Since shape and density could cause large variations in the calculated natural frequencies, patient-specific FE models are needed for accurate estimation of bone natural frequencies. [ABSTRACT FROM AUTHOR]

Published

2014

16. Validation of the in vivo volumetric wear measurement for total knee prostheses in model-based RSA.

Author

van IJsseldijk, E. A., Lebel, B., Stoel, B. C., Valstar, E. R., Gouzy, S., Vielpeau, C., and Kaptein, B. L.

Subjects

*ARTIFICIAL knees, *MECHANICAL wear, *THREE-dimensional imaging, *PHOTOGRAMMETRY, *SIMULATION methods & models, *RANGE of motion of joints

Abstract

Implant failure related to polyethylene wear remains an important issue in total knee arthroplasty. Polyethylene wear is usually assessed in vivo by measuring the remaining insert thickness on X-ray images of the knee. To reflect the amount of wear debris more accurately, a 3-dimensional overlap measurement has been suggested, which is based on implant component models which are matched on calibrated stereo X-ray images using model-based roentgen stereophotogrammatic analysis. The goal of this study was to determine the influence of pose estimation, insert thickness deviation and variation in the femoral-tibial contact location on the accuracy and precision of the measurement using simulations and a phantom experiment. We found that the pose estimation was the largest source of variation. The 95% prediction interval varied between 111 and 283 mm³, which is approximately 100-200% of the detected volumetric wear. Insert thickness variation resulted in prediction intervals of 74-174 mm³. Variation of the femoral-tibial contact location in the phantom experiment gave a prediction interval of 40mm³. Large differences in the detected wear volume were found for different flexion angles. At most 56% of the true wear volume was detected (129 of 230 mm³, 30° of flexion). In summary, both the accuracy and precision of the volumetric wear measurement were low. The prediction interval of the volumetric wear measurement is at least as large as the measurement outcome itself. This is an important limitation to the applicability of the volumetric wear measurement in clinical practice and further clinical validation is required. [ABSTRACT FROM AUTHOR]

Published

2013