Showing 60 publications by Amy Zavatsky
Efficacy of quantifying marker-cluster rigidity in a multi-segment foot model: a Monte-Carlo based global sensitivity analysis and regression model
Chan P-H, Stebbins J & Zavatsky A (2021), Computer Methods in Biomechanics and Biomedical Engineering
BibTeX
@article{efficacyofquant-2021/7,
title={Efficacy of quantifying marker-cluster rigidity in a multi-segment foot model: a Monte-Carlo based global sensitivity analysis and regression model},
author={Chan P-H, Stebbins J & Zavatsky A},
journal={Computer Methods in Biomechanics and Biomedical Engineering},
publisher={Taylor and Francis},
year = "2021"
}
Comparison of the hindfoot axes of a multi-segment foot model to the underlying bony anatomy
Zavatsky A, Paik AMH, Leitch J, Kothari A & Stebbins J (2019), Journal of Biomechanics, 93(2019), 34-41
BibTeX
@article{comparisonofthe-2019/6,
title={Comparison of the hindfoot axes of a multi-segment foot model to the underlying bony anatomy},
author={Zavatsky A, Paik AMH, Leitch J, Kothari A & Stebbins J},
journal={Journal of Biomechanics},
volume={93},
pages={34-41},
publisher={Elsevier},
year = "2019"
}
Marker cluster rigidity in a multi-segment foot model
Chan P-H, Stebbins J & Zavatsky A (2019), Journal of Biomechanics, 84, 284-289
Kinematic differences between neutral and flat feet with and without symptoms as measured by the Oxford foot model
Kerr C, Zavatsky A, Theologis T & Stebbins J (2018), Gait and Posture, 67, 213-218
BibTeX
@article{kinematicdiffer-2018/10,
title={Kinematic differences between neutral and flat feet with and without symptoms as measured by the Oxford foot model},
author={Kerr C, Zavatsky A, Theologis T & Stebbins J},
journal={Gait and Posture},
volume={67},
pages={213-218},
publisher={Elsevier},
year = "2018"
}
Muscle length in flatfeet and neutral feet using a new multi-segment, musculoskeletal foot model
Krautwurst BK, Mellon S, Koning B, Zavatsky A, Andersen et al. (2018), Gait and Posture, 65(S1), 121-122
BibTeX
@article{musclelengthinf-2018/6,
title={Muscle length in flatfeet and neutral feet using a new multi-segment, musculoskeletal foot model},
author={Krautwurst BK, Mellon S, Koning B, Zavatsky A, Andersen et al.},
journal={Gait and Posture},
volume={65},
pages={121-122},
publisher={Elsevier},
year = "2018"
}
Viscoelasticity of Tendons Under Transverse Compression
Buckley CP, Salisbury STS & Zavatsky A (2016), Journal of Biomechanical Engineering, 138(10), 101004
BibTeX
@article{viscoelasticity-2016/8,
title={Viscoelasticity of Tendons Under Transverse Compression},
author={Buckley CP, Salisbury STS & Zavatsky A},
journal={Journal of Biomechanical Engineering},
volume={138},
pages={101004},
publisher={American Society of Mechanical Engineers},
year = "2016"
}
Does increasing applied load lead to contact changes indicative of knee osteoarthritis? A subject-specific FEA study.
Boyd JL, Zavatsky AB & Gill HS (2016), International journal for numerical methods in biomedical engineering, 32(4), e02740
BibTeX
@article{doesincreasinga-2016/4,
title={Does increasing applied load lead to contact changes indicative of knee osteoarthritis? A subject-specific FEA study.},
author={Boyd JL, Zavatsky AB & Gill HS},
journal={International journal for numerical methods in biomedical engineering},
volume={32},
pages={e02740},
year = "2016"
}
An investigation into the aetiology of flexible flat feet: the role of subtalar joint morphology
Kothari A, Bhuva S, Stebbins J, Zavatsky A & Theologis T (2016), Bone and Joint Journal, 98-B(4), 564-568
BibTeX
@article{aninvestigation-2016/4,
title={An investigation into the aetiology of flexible flat feet: the role of subtalar joint morphology},
author={Kothari A, Bhuva S, Stebbins J, Zavatsky A & Theologis T},
journal={Bone and Joint Journal},
volume={98-B},
pages={564-568},
publisher={British Editorial Society of Bone and Joint Surgery},
year = "2016"
}
Are flexible flat feet associated with proximal joint problems in children?
Kothari A, Dixon PC, Stebbins J, Zavatsky AB & Theologis T (2016), Gait & posture, 45, 204-210
Are flexible flat feet associated with proximal joint problems in children?
Zavatsky A, Theologis T & Kothari A (2016), Gait and Posture, 45, 204-210
Transverse compression of tendons
Salisbury STS, Buckley CP & Zavatsky A (2016), Journal of Biomechanical Engineering, 138(4), 041002-041002
Static postural differences between neutral and flat feet in children with and without symptoms.
Kerr CM, Stebbins J, Theologis T & Zavatsky AB (2015), Clinical biomechanics (Bristol, Avon), 30(3), 314-317
The relationship between quality of life and foot function in children with flexible flatfeet.
Kothari A, Dixon PC, Stebbins J, Zavatsky AB & Theologis T (2015), Gait & posture, 41(3), 786-790
Corrigendum to: Ground reaction forces and lower-limb joint kinetics of turning gait in typically developing children [J. Biomech. 47(15) (2014) 3726-3733].
Dixon PC, Stebbins J, Theologis T & Zavatsky AB (2015), Journal of biomechanics, 48(4), 730
BibTeX
@article{corrigendumtogr-2015/2,
title={Corrigendum to: Ground reaction forces and lower-limb joint kinetics of turning gait in typically developing children [J. Biomech. 47(15) (2014) 3726-3733].},
author={Dixon PC, Stebbins J, Theologis T & Zavatsky AB},
journal={Journal of biomechanics},
volume={48},
pages={730},
year = "2015"
}
Health-related quality of life in children with flexible flatfeet: a cross-sectional study.
Kothari A, Stebbins J, Zavatsky AB & Theologis T (2014), Journal of children's orthopaedics, 8(6), 489-496
Ground reaction forces and lower-limb joint kinetics of turning gait in typically developing children.
Dixon PC, Stebbins J, Theologis T & Zavatsky AB (2014), Journal of biomechanics, 47(15), 3726-3733
Motion analysis to track navicular displacements in the pediatric foot: relationship with foot posture, body mass index, and flexibility.
Kothari A, Dixon PC, Stebbins J, Zavatsky AB & Theologis T (2014), Foot & ankle international, 35(9), 929-937
BibTeX
@article{motionanalysist-2014/9,
title={Motion analysis to track navicular displacements in the pediatric foot: relationship with foot posture, body mass index, and flexibility.},
author={Kothari A, Dixon PC, Stebbins J, Zavatsky AB & Theologis T},
journal={Foot & ankle international},
volume={35},
pages={929-937},
year = "2014"
}
Influence of altered gait patterns on the hip joint contact forces.
Carriero A, Zavatsky A, Stebbins J, Theologis T, Lenaerts G et al. (2014), Comput Methods Biomech Biomed Engin, 17(4), 352-359
Spatio-temporal parameters and lower-limb kinematics of turning gait in typically developing children
Zavatsky AB, Dixon PC, Stebbins J & Theologis T (2013), Gait and Posture, 38, 870-875
Improved quadriceps' mechanical advantage in single radius TKRs is not due to an increased patellar tendon moment arm.
Ward TR, Pandit H, Hollinghurst D, Moolgavkar P, Zavatsky AB et al. (2012), Knee, 19(5), 564-570
BibTeX
@article{improvedquadric-2012/10,
title={Improved quadriceps' mechanical advantage in single radius TKRs is not due to an increased patellar tendon moment arm.},
author={Ward TR, Pandit H, Hollinghurst D, Moolgavkar P, Zavatsky AB et al.},
journal={Knee},
volume={19},
pages={564-570},
year = "2012"
}
A low-riding patella in posterior stabilised total knee replacements alters quadriceps' mechanical advantage, resulting in reduced knee flexion moments.
Ward TR, Pandit H, Hollinghurst D, Zavatsky AB, Gill HS et al. (2012), Knee, 19(4), 299-305
BibTeX
@article{alowridingpatel-2012/8,
title={A low-riding patella in posterior stabilised total knee replacements alters quadriceps' mechanical advantage, resulting in reduced knee flexion moments.},
author={Ward TR, Pandit H, Hollinghurst D, Zavatsky AB, Gill HS et al.},
journal={Knee},
volume={19},
pages={299-305},
year = "2012"
}
Identifying gait events without a force plate during running: A comparison of methods
Leitch J, Stebbins J, Paolini G & Zavatsky AB (2011), Gait and Posture, 33(1), 130-132
Subject-specific axes of the ankle joint complex
Leitch J, Stebbins J & Zavatsky AB (2010), Journal of Biomechanics, 43(15), 2923-2928
Gait compensations caused by foot deformity in cerebral palsy.
Stebbins J, Harrington M, Thompson N, Zavatsky A & Theologis T (2010), Gait Posture, 32(2), 226-230
The sclerotic line: why it appears under knee replacements (a study based on the Oxford knee).
Gray HA, Zavatsky AB & Gill HS (2010), Clin Biomech (Bristol, Avon), 25(3), 242-247
Correlation between lower limb bone morphology and gait characteristics in children with spastic diplegic cerebral palsy.
Carriero A, Zavatsky A, Stebbins J, Theologis T & Shefelbine SJ (2009), J Pediatr Orthop, 29(1), 73-79
BibTeX
@article{correlationbetw-2009/1,
title={Correlation between lower limb bone morphology and gait characteristics in children with spastic diplegic cerebral palsy.},
author={Carriero A, Zavatsky A, Stebbins J, Theologis T & Shefelbine SJ},
journal={J Pediatr Orthop},
volume={29},
pages={73-79},
year = "2009"
}
Determination of gait patterns in children with spastic diplegic cerebral palsy using principal components.
Carriero A, Zavatsky A, Stebbins J, Theologis T & Shefelbine SJ (2009), Gait Posture, 29(1), 71-75
How effective are added constraints in improving TKR kinematics? (Journal of Biomechanics (2007) 40, SUPPL. 1, (S31-S37) DOI: 10.1016/j.jbiomech.2007.02. 016)
Van Duren BH, Pandit H, Beard DJ, Zavatsky AB, Gallagher JA et al. (2008), Journal of Biomechanics, 41(10), 2333
BibTeX
@article{howeffectiveare-2008/7,
title={How effective are added constraints in improving TKR kinematics? (Journal of Biomechanics (2007) 40, SUPPL. 1, (S31-S37) DOI: 10.1016/j.jbiomech.2007.02. 016)},
author={Van Duren BH, Pandit H, Beard DJ, Zavatsky AB, Gallagher JA et al.},
journal={Journal of Biomechanics},
volume={41},
pages={2333},
year = "2008"
}
Experimental validation of a finite element model of a human cadaveric tibia.
Gray HA, Taddei F, Zavatsky AB, Cristofolini L & Gill HS (2008), J Biomech Eng, 130(3), 031016
Image-based non-contact method to measure cross-sectional areas and shapes of tendons and ligaments
Salisbury STS, Buckley CP & Zavatsky AB (2008), Measurement Science and Technology, 19(4)
Experimental validation of a finite element model of a composite tibia.
Gray HA, Zavatsky AB, Taddei F, Cristofolini L & Gill HS (2007), Proc Inst Mech Eng H, 221(3), 315-324
How effective are added constraints in improving TKR kinematics?
van Duren BH, Pandit H, Beard DJ, Zavatsky AB, Gallagher JA et al. (2007), J Biomech, 40 Suppl 1, S31-S37
Prediction of the hip joint centre in adults, children, and patients with cerebral palsy based on magnetic resonance imaging.
Harrington ME, Zavatsky AB, Lawson SEM, Yuan Z & Theologis TN (2007), J Biomech, 40(3), 595-602
BibTeX
@article{predictionofthe-2007/,
title={Prediction of the hip joint centre in adults, children, and patients with cerebral palsy based on magnetic resonance imaging.},
author={Harrington ME, Zavatsky AB, Lawson SEM, Yuan Z & Theologis TN},
journal={J Biomech},
volume={40},
pages={595-602},
year = "2007"
}
Simultaneous in vitro measurement of patellofemoral kinematics and forces following Oxford medial unicompartmental knee replacement.
Price AJ, Oppold PT, Murray DW & Zavatsky AB (2006), J Bone Joint Surg Br, 88(12), 1591-1595
BibTeX
@article{simultaneousinv-2006/12,
title={Simultaneous in vitro measurement of patellofemoral kinematics and forces following Oxford medial unicompartmental knee replacement.},
author={Price AJ, Oppold PT, Murray DW & Zavatsky AB},
journal={J Bone Joint Surg Br},
volume={88},
pages={1591-1595},
year = "2006"
}
Repeatability of a model for measuring multi-segment foot kinematics in children.
Stebbins J, Harrington M, Thompson N, Zavatsky A & Theologis T (2006), Gait Posture, 23(4), 401-410
Assessment of sub-division of plantar pressure measurement in children.
Stebbins JA, Harrington ME, Giacomozzi C, Thompson N, Zavatsky A et al. (2005), Gait Posture, 22(4), 372-376
Can functional electric stimulation-assisted rowing reproduce a race-winning rowing stroke?
Halliday SE, Zavatsky AB & Hase K (2004), Arch Phys Med Rehabil, 85(8), 1265-1272
Simultaneous in vitro measurement of patellofemoral kinematics and forces.
Zavatsky AB, Oppold PT & Price AJ (2004), J Biomech Eng, 126(3), 351-356
Musculoskeletal loads in ergometer rowing
Hase K, Kaya M, Zavatsky AB & Halliday SE (2004), Journal of Applied Biomechanics, 20(3), 317-323
Femoral muscle attachment locations in children and adults, and their prediction from clinical measurement.
Jenkins SEM, Harrington ME, Zavatsky AB, O'Connor JJ & Theologis TN (2003), Gait Posture, 18(1), 13-22
BibTeX
@article{femoralmuscleat-2003/8,
title={Femoral muscle attachment locations in children and adults, and their prediction from clinical measurement.},
author={Jenkins SEM, Harrington ME, Zavatsky AB, O'Connor JJ & Theologis TN},
journal={Gait Posture},
volume={18},
pages={13-22},
year = "2003"
}
A constraint-based approach to modelling the mobility of the human knee joint.
Feikes JD, O'Connor JJ & Zavatsky AB (2003), J Biomech, 36(1), 125-129
Biomechanics of rowing (I. A model analysis of musculo-skeletal loads in rowing for fitness)
Hase K, Kaya M, Yamazaki N, Andrews BJ, Zavatsky AB et al. (2002), JSME International Journal, Series C: Mechanical Systems, Machine Elements and Manufacturing, 45(4), 1073-1081
BibTeX
@article{biomechanicsofr-2002/12,
title={Biomechanics of rowing (I. A model analysis of musculo-skeletal loads in rowing for fitness)},
author={Hase K, Kaya M, Yamazaki N, Andrews BJ, Zavatsky AB et al.},
journal={JSME International Journal, Series C: Mechanical Systems, Machine Elements and Manufacturing},
volume={45},
pages={1073-1081},
year = "2002"
}
Biomechanics of rowing (II. A control model for the simulation study of rowing and other human movement)
Hase K, Andrews BJ, Zavatsky AB & Halliday SE (2002), JSME International Journal, Series C: Mechanical Systems, Machine Elements and Manufacturing, 45(4), 1082-1092
BibTeX
@article{biomechanicsofr-2002/12,
title={Biomechanics of rowing (II. A control model for the simulation study of rowing and other human movement)},
author={Hase K, Andrews BJ, Zavatsky AB & Halliday SE},
journal={JSME International Journal, Series C: Mechanical Systems, Machine Elements and Manufacturing},
volume={45},
pages={1082-1092},
year = "2002"
}
Injury initiation and progression in the anterior cruciate ligament.
Zavatsky AB & Wright HJ (2001), Clin Biomech (Bristol, Avon), 16(1), 47-53
The components of passive knee movement are coupled to flexion angle.
Wilson DR, Feikes JD, Zavatsky AB & O'Connor JJ (2000), J Biomech, 33(4), 465-473
A kinematic-freedom analysis of a flexed-knee-stance testing rig.
Zavatsky AB (1997), J Biomech, 30(3), 277-280
Parameter sensitivity of a mathematical model of the anterior cruciate ligament.
Toutoungi DE, Zavatsky AB & O'Connor JJ (1997), Proc Inst Mech Eng H, 211(3), 235-246
ACL forces in activity
O'Connor J & Zavatsky AB (1996), Biomecanica, IV(6), 51-59
BibTeX
@article{aclforcesinacti-1996/6,
title={ACL forces in activity},
author={O'Connor J & Zavatsky AB},
journal={Biomecanica},
volume={IV},
pages={51-59},
year = "1996"
}
Biomechanical functions of ligaments: implications for anterior cruciate ligament reconstruction
Zavatsky AB, O'Connor JJ & Lu T-W (1995), Orthopaedics International Edition, 4(5), 349-357
BibTeX
@article{biomechanicalfu-1995/9,
title={Biomechanical functions of ligaments: implications for anterior cruciate ligament reconstruction},
author={Zavatsky AB, O'Connor JJ & Lu T-W},
journal={Orthopaedics International Edition},
volume={4},
pages={349-357},
year = "1995"
}
Is optillen van het gestrekte been veilig na reconstructie van de voorste kruisband?
Beard DJ & Zavatsky AB (1995), Stimulus, 14(2), 140-141
ACL function in the normal knee
O'Connor J & Zavatsky AB (1995), Biomecanica, III(4), 4-9
BibTeX
@article{aclfunctioninth-1995/4,
title={ACL function in the normal knee},
author={O'Connor J & Zavatsky AB},
journal={Biomecanica},
volume={III},
pages={4-9},
year = "1995"
}
Anteroposterior tibial translation during simulated isometric quadriceps contractions
Zavatsky AB & O'Connor JJ (1995), The Knee, 2(2), 85-91
Cruciate ligament loading during isometric muscle contractions. A theoretical basis for rehabilitation.
Zavatsky AB, Beard DJ & O'Connor JJ (1994), Am J Sports Med, 22(3), 418-423
Three-dimensional geometrical models of human knee ligaments
Zavatsky AB & O'connor JJ (1994), Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 208(4), 229-240
Is Leg Lifting in Full Extension Safe Following Anterior Cruciate Ligament Reconstruction?
Beard D, Zavatsky A, Murray D, Dowdall M & O'Connor J (1994), Physiotherapy (United Kingdom), 80(7), 437-438
Ligament forces at the knee during isometric quadriceps contractions.
Zavatsky AB & O'Connor JJ (1993), Proc Inst Mech Eng H, 207(1), 7-18
A model of human knee ligaments in the sagittal plane. Part 1: Response to passive flexion.
Zavatsky AB & O'Connor JJ (1992), Proc Inst Mech Eng H, 206(3), 125-134
A model of human knee ligaments in the sagittal plane. Part 2: Fibre recruitment under load.
Zavatsky AB & O'Connor JJ (1992), Proc Inst Mech Eng H, 206(3), 135-145
Muscle contributions to centre of mass acceleration during turning gait in typically developing children: A simulation study
Zavatsky A, Dixon PC, Jansen K, Jonkers I, Stebbins J et al. (0), Journal of Biomechanics
The use of turning tasks in clinical gait analysis for children with cerebral palsy
Zavatsky A & Theologis T (0), Clinical Biomechanics