Article Title,Year,Volume,Issue,Page Range,Author
Musculoskeletal injuries among young recreational female dancers before and after dancing in pointe shoes,2002,14,2,100-106,Nunes
The gross motor function classification system: an update on impact and clinical utility,2010,22,3,321,Michaels
The gross motor function classification system: an update on impact and clinical utility,2010,22,3,315-320,Gray
Motor proficiency in children with neurofibromatosis type 1,2010,22,4,344-348,Johnson
Physical activity monitoring in children and youths,2005,17,1,37-45,Bjornson
Commentary on "Motor competence and physical fitness in adolescents",2014,26,1,75,Hoyt
Motor competence and physical fitness in adolescents,2014,26,1,69-74,Haga
Balance outcomes following a tap dance program for a child with congenital myotonic muscular dystrophy,2014,26,3,360-365,Biricocchi
Dynamic postural stability in young adolescent male and female athletes,2014,26,4,447-452,Wang
Relationships among age gender anthropometric characteristics and dynamic balance in children 5 to 12 years old,2015,27,2,126-133,Rauh
Commentary on "Relationships among age gender anthropometric characteristics and dynamic balance in children 5 to 12 years old",2015,27,2,134,Ramirez
Psychometric properties of the pediatric balance scale using Rssch analysis,2015,27,4,337-348,Campbell
Postconcussion postural sway variability changes in youth: the benefit of structural variability analyses,2015,27,4,316-327,Riley
Enabling 2-wheeled cycling for youth with Down syndrome,2016,28,2,224-230,Magill-Evans
Effect of playground environments on the physical activity of children with ambulatory cerebral palsy,2016,28,4,475-482,Fuller
Virtual sensorimotor training for balance: pilot study results for children with fetal alcohol spectrum disorders,2016,28,4,460-468,Ciol
Sporting activities and quality of life in children with hemophilia: an observational study,2016,28,4,453-459,Querol
Position between trunk and pelvis during gait depending on the gross motor function classification system,2017,29,2,130-137,Sanz-Mengibar
Ride-on car training for behavioral changes in mobility and socialization among young children with disabilities,2017,29,3,207-213,Huang
A novel mobility device to improve walking for a child with cerebral palsy,2017,29,4,E1-E7,Fergus
The Geek perspective: answering the call for advanced technology in research inquiry related to pediatric brain injury and motor disability,2017,29,4,356-359,Wininger
Commentary on "Interventions for gait training in children with spinal cord impairments: a scoping review",2017,29,4,349,Christensen
Interventions for gait training in children with spinal cord impairments: a scoping review,2017,29,4,342-349,Funderburg
Commentary on "Validity of accelerometry to measure physical activity intensity in children with an acquired brain injury",2017,29,4,329,Fernandez
Validity of accelerometry to measure physical activity intensity in children with an acquired brain injury,2017,29,4,322-329,Trost
Standing tall: feasibility of a modified ride-on car that encourages standing,2019,31,1,E6-E13,Logan
Modified ride-on car use by young children with disabilities,2018,30,1,50-56,Logan
The Influence of Position on Leg Movements and Kicks in Older Infants With Spina Bifida,2016,28,4,380-385,Chapman
Immediate Effect of Positioning Devices on Infant Leg Movement Characteristics,2016,28,3,304-310,Jiang
Context effects on the spontaneous leg movements of infants with spina bifida,2002,14,2,62-73,Chapman
A comparison of prone and sitting on heart rates respiration rates and arterial oxygen saturation levels of premature infants,1990,2,4,196-201,Jackson
Psychometric properties of clinical tests of balance and vestibular-related function in children with cerebral palsy,2020,32,2,144-150,Christy
Commentary on "Changes in vestibular/ocular-motor screen scores in adolescents treated with vestibular therapy after concussion",2020,32,4,e338,Beam
Scootering for children and youth is more than fun: exploration of a feasible approach to improve function and fitness,2021,ePub,ePub,ePub,Gorter
Association between baby walker use and infant functional motor development,2023,35,2,237-241,Kotwicki
Commentary on "Association between baby walker use and infant functional motor development",2023,35,2,e242,Smith