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
BibTeX
@article{markerclusterri-2019/1,
title={Marker cluster rigidity in a multi-segment foot model},
author={Chan P-H, Stebbins J & Zavatsky A},
journal={Journal of Biomechanics},
volume={84},
pages={284-289},
publisher={Elsevier},
year = "2019"
}
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 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 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
BibTeX
@article{areflexibleflat-2016/3,
title={Are flexible flat feet associated with proximal joint problems in children?},
author={Kothari A, Dixon PC, Stebbins J, Zavatsky AB & Theologis T},
journal={Gait & posture},
volume={45},
pages={204-210},
year = "2016"
}
Are flexible flat feet associated with proximal joint problems in children?
Zavatsky A, Theologis T & Kothari A (2016), Gait and Posture, 45, 204-210
BibTeX
@article{areflexibleflat-2016/2,
title={Are flexible flat feet associated with proximal joint problems in children?},
author={Zavatsky A, Theologis T & Kothari A},
journal={Gait and Posture},
volume={45},
pages={204-210},
publisher={Elsevier},
year = "2016"
}
Transverse compression of tendons
Salisbury STS, Buckley CP & Zavatsky A (2016), Journal of Biomechanical Engineering, 138(4), 041002-041002
BibTeX
@article{transversecompr-2016/1,
title={Transverse compression of tendons},
author={Salisbury STS, Buckley CP & Zavatsky A},
journal={Journal of Biomechanical Engineering},
volume={138},
pages={041002-041002},
publisher={American Society of Mechanical Engineers},
year = "2016"
}
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
BibTeX
@article{staticposturald-2015/3,
title={Static postural differences between neutral and flat feet in children with and without symptoms.},
author={Kerr CM, Stebbins J, Theologis T & Zavatsky AB},
journal={Clinical biomechanics (Bristol, Avon)},
volume={30},
pages={314-317},
year = "2015"
}
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
BibTeX
@article{therelationship-2015/3,
title={The relationship between quality of life and foot function in children with flexible flatfeet.},
author={Kothari A, Dixon PC, Stebbins J, Zavatsky AB & Theologis T},
journal={Gait & posture},
volume={41},
pages={786-790},
year = "2015"
}
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
BibTeX
@article{healthrelatedqu-2014/12,
title={Health-related quality of life in children with flexible flatfeet: a cross-sectional study.},
author={Kothari A, Stebbins J, Zavatsky AB & Theologis T},
journal={Journal of children's orthopaedics},
volume={8},
pages={489-496},
year = "2014"
}
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
BibTeX
@article{groundreactionf-2014/11,
title={Ground reaction forces and lower-limb joint kinetics of turning gait in typically developing children.},
author={Dixon PC, Stebbins J, Theologis T & Zavatsky AB},
journal={Journal of biomechanics},
volume={47},
pages={3726-3733},
year = "2014"
}
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 et al. (2014), Comput Methods Biomech Biomed Engin, 17(4), 352-359
BibTeX
@article{influenceofalte-2014/,
title={Influence of altered gait patterns on the hip joint contact forces.},
author={Carriero A et al.},
journal={Comput Methods Biomech Biomed Engin},
volume={17},
pages={352-359},
year = "2014"
}
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
BibTeX
@article{spatiotemporalp-2013/9,
title={Spatio-temporal parameters and lower-limb kinematics of turning gait in typically developing children},
author={Zavatsky AB, Dixon PC, Stebbins J & Theologis T},
journal={Gait and Posture},
volume={38},
pages={870-875},
year = "2013"
}
Improved quadriceps' mechanical advantage in single radius TKRs is not due to an increased patellar tendon moment arm.
Ward TR 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 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 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 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
BibTeX
@article{identifyinggait-2011/1,
title={Identifying gait events without a force plate during running: A comparison of methods},
author={Leitch J, Stebbins J, Paolini G & Zavatsky AB},
journal={Gait and Posture},
volume={33},
pages={130-132},
year = "2011"
}
Subject-specific axes of the ankle joint complex
Leitch J, Stebbins J & Zavatsky AB (2010), Journal of Biomechanics, 43(15), 2923-2928
BibTeX
@article{subjectspecific-2010/11,
title={Subject-specific axes of the ankle joint complex},
author={Leitch J, Stebbins J & Zavatsky AB},
journal={Journal of Biomechanics},
volume={43},
pages={2923-2928},
year = "2010"
}
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
BibTeX
@article{gaitcompensatio-2010/6,
title={Gait compensations caused by foot deformity in cerebral palsy.},
author={Stebbins J, Harrington M, Thompson N, Zavatsky A & Theologis T},
journal={Gait Posture},
volume={32},
pages={226-230},
year = "2010"
}
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
BibTeX
@article{thescleroticlin-2010/3,
title={The sclerotic line: why it appears under knee replacements (a study based on the Oxford knee).},
author={Gray HA, Zavatsky AB & Gill HS},
journal={Clin Biomech (Bristol, Avon)},
volume={25},
pages={242-247},
year = "2010"
}
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
BibTeX
@article{determinationof-2009/1,
title={Determination of gait patterns in children with spastic diplegic cerebral palsy using principal components.},
author={Carriero A, Zavatsky A, Stebbins J, Theologis T & Shefelbine SJ},
journal={Gait Posture},
volume={29},
pages={71-75},
year = "2009"
}
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 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 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
BibTeX
@article{experimentalval-2008/6,
title={Experimental validation of a finite element model of a human cadaveric tibia.},
author={Gray HA, Taddei F, Zavatsky AB, Cristofolini L & Gill HS},
journal={J Biomech Eng},
volume={130},
pages={031016},
year = "2008"
}
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)
BibTeX
@article{imagebasednonco-2008/4,
title={Image-based non-contact method to measure cross-sectional areas and shapes of tendons and ligaments},
author={Salisbury STS, Buckley CP & Zavatsky AB},
journal={Measurement Science and Technology},
volume={19},
year = "2008"
}
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
BibTeX
@article{experimentalval-2007/4,
title={Experimental validation of a finite element model of a composite tibia.},
author={Gray HA, Zavatsky AB, Taddei F, Cristofolini L & Gill HS},
journal={Proc Inst Mech Eng H},
volume={221},
pages={315-324},
year = "2007"
}
How effective are added constraints in improving TKR kinematics?
van Duren BH et al. (2007), J Biomech, 40 Suppl 1, S31-S37
BibTeX
@article{howeffectiveare-2007/,
title={How effective are added constraints in improving TKR kinematics?},
author={van Duren BH et al.},
journal={J Biomech},
volume={40 Suppl 1},
pages={S31-S37},
year = "2007"
}
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
BibTeX
@article{repeatabilityof-2006/6,
title={Repeatability of a model for measuring multi-segment foot kinematics in children.},
author={Stebbins J, Harrington M, Thompson N, Zavatsky A & Theologis T},
journal={Gait Posture},
volume={23},
pages={401-410},
year = "2006"
}
Assessment of sub-division of plantar pressure measurement in children.
Stebbins JA et al. (2005), Gait Posture, 22(4), 372-376
BibTeX
@article{assessmentofsub-2005/12,
title={Assessment of sub-division of plantar pressure measurement in children.},
author={Stebbins JA et al.},
journal={Gait Posture},
volume={22},
pages={372-376},
year = "2005"
}
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
BibTeX
@article{canfunctionalel-2004/8,
title={Can functional electric stimulation-assisted rowing reproduce a race-winning rowing stroke?},
author={Halliday SE, Zavatsky AB & Hase K},
journal={Arch Phys Med Rehabil},
volume={85},
pages={1265-1272},
year = "2004"
}
Simultaneous in vitro measurement of patellofemoral kinematics and forces.
Zavatsky AB, Oppold PT & Price AJ (2004), J Biomech Eng, 126(3), 351-356
BibTeX
@article{simultaneousinv-2004/6,
title={Simultaneous in vitro measurement of patellofemoral kinematics and forces.},
author={Zavatsky AB, Oppold PT & Price AJ},
journal={J Biomech Eng},
volume={126},
pages={351-356},
year = "2004"
}
Musculoskeletal loads in ergometer rowing
Hase K, Kaya M, Zavatsky AB & Halliday SE (2004), Journal of Applied Biomechanics, 20(3), 317-323
BibTeX
@article{musculoskeletal-2004/1,
title={Musculoskeletal loads in ergometer rowing},
author={Hase K, Kaya M, Zavatsky AB & Halliday SE},
journal={Journal of Applied Biomechanics},
volume={20},
pages={317-323},
year = "2004"
}
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
BibTeX
@article{aconstraintbase-2003/1,
title={A constraint-based approach to modelling the mobility of the human knee joint.},
author={Feikes JD, O'Connor JJ & Zavatsky AB},
journal={J Biomech},
volume={36},
pages={125-129},
year = "2003"
}
Biomechanics of rowing (I. A model analysis of musculo-skeletal loads in rowing for fitness)
Hase K 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 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
BibTeX
@article{injuryinitiatio-2001/1,
title={Injury initiation and progression in the anterior cruciate ligament.},
author={Zavatsky AB & Wright HJ},
journal={Clin Biomech (Bristol, Avon)},
volume={16},
pages={47-53},
year = "2001"
}
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
BibTeX
@article{thecomponentsof-2000/4,
title={The components of passive knee movement are coupled to flexion angle.},
author={Wilson DR, Feikes JD, Zavatsky AB & O'Connor JJ},
journal={J Biomech},
volume={33},
pages={465-473},
year = "2000"
}
A kinematic-freedom analysis of a flexed-knee-stance testing rig.
Zavatsky AB (1997), J Biomech, 30(3), 277-280
BibTeX
@article{akinematicfreed-1997/3,
title={A kinematic-freedom analysis of a flexed-knee-stance testing rig.},
author={Zavatsky AB},
journal={J Biomech},
volume={30},
pages={277-280},
year = "1997"
}
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
BibTeX
@article{parametersensit-1997/,
title={Parameter sensitivity of a mathematical model of the anterior cruciate ligament.},
author={Toutoungi DE, Zavatsky AB & O'Connor JJ},
journal={Proc Inst Mech Eng H},
volume={211},
pages={235-246},
year = "1997"
}
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
BibTeX
@article{isoptillenvanhe-1995/6,
title={Is optillen van het gestrekte been veilig na reconstructie van de voorste kruisband?},
author={Beard DJ & Zavatsky AB},
journal={Stimulus},
volume={14},
pages={140-141},
year = "1995"
}
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
BibTeX
@article{anteroposterior-1995/1,
title={Anteroposterior tibial translation during simulated isometric quadriceps contractions},
author={Zavatsky AB & O'Connor JJ},
journal={The Knee},
volume={2},
pages={85-91},
year = "1995"
}
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
BibTeX
@article{cruciateligamen-1994/5,
title={Cruciate ligament loading during isometric muscle contractions. A theoretical basis for rehabilitation.},
author={Zavatsky AB, Beard DJ & O'Connor JJ},
journal={Am J Sports Med},
volume={22},
pages={418-423},
year = "1994"
}
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
BibTeX
@inproceedings{threedimensiona-1994/1,
title={Three-dimensional geometrical models of human knee ligaments},
author={Zavatsky AB & O'connor JJ},
pages={229-240},
year = "1994"
}
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
BibTeX
@article{islegliftinginf-1994/1,
title={Is Leg Lifting in Full Extension Safe Following Anterior Cruciate Ligament Reconstruction?},
author={Beard D, Zavatsky A, Murray D, Dowdall M & O'Connor J},
journal={Physiotherapy (United Kingdom)},
volume={80},
pages={437-438},
year = "1994"
}
Ligament forces at the knee during isometric quadriceps contractions.
Zavatsky AB & O'Connor JJ (1993), Proc Inst Mech Eng H, 207(1), 7-18
BibTeX
@article{ligamentforcesa-1993/,
title={Ligament forces at the knee during isometric quadriceps contractions.},
author={Zavatsky AB & O'Connor JJ},
journal={Proc Inst Mech Eng H},
volume={207},
pages={7-18},
year = "1993"
}
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
BibTeX
@article{amodelofhumankn-1992/,
title={A model of human knee ligaments in the sagittal plane. Part 1: Response to passive flexion.},
author={Zavatsky AB & O'Connor JJ},
journal={Proc Inst Mech Eng H},
volume={206},
pages={125-134},
year = "1992"
}
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
BibTeX
@article{amodelofhumankn-1992/,
title={A model of human knee ligaments in the sagittal plane. Part 2: Fibre recruitment under load.},
author={Zavatsky AB & O'Connor JJ},
journal={Proc Inst Mech Eng H},
volume={206},
pages={135-145},
year = "1992"
}
Muscle contributions to centre of mass acceleration during turning gait in typically developing children: A simulation study
Zavatsky A et al. (0), Journal of Biomechanics
BibTeX
@article{musclecontribut-/,
title={Muscle contributions to centre of mass acceleration during turning gait in typically developing children: A simulation study},
author={Zavatsky A et al.},
journal={Journal of Biomechanics},
publisher={Elsevier}
}
The use of turning tasks in clinical gait analysis for children with cerebral palsy
Zavatsky A & Theologis T (0), Clinical Biomechanics
BibTeX
@article{theuseofturning-/,
title={The use of turning tasks in clinical gait analysis for children with cerebral palsy},
author={Zavatsky A & Theologis T},
journal={Clinical Biomechanics},
publisher={Elsevier}
}