Comparison of the ActiGraph 7164 and the ActiGraph GT1M during self-paced locomotion.
about
Variation in population levels of physical activity in European children and adolescents according to cross-European studies: a systematic literature review within DEDIPACInternational children's accelerometry database (ICAD): design and methodsEvaluation of artificial neural network algorithms for predicting METs and activity type from accelerometer data: validation on an independent sampleIncreasing objectively measured sedentary time increases clustered cardiometabolic risk: a 6 year analysis of the ProActive study.Quality control methods in accelerometer data processing: identifying extreme countsSustained effects of physical activity on bone health: Iowa Bone Development StudyCalibration of self-report tools for physical activity research: the Physical Activity Questionnaire (PAQ).Physical activity, ambulation, and comorbidities in people with diabetes and lower-limb amputation.Sedentary Time and Physical Activity Surveillance Through Accelerometer Pooling in Four European Countries.Objectively measured physical activity predicts hip and spine bone mineral content in children and adolescents ages 5-15 years: iowa bone development study.Self-reported activity and accelerometry in 2 behavior-maintenance trials.Agreement between pedometer and accelerometer in measuring physical activity in overweight and obese pregnant womenSteps to Better Cardiovascular Health: How Many Steps Does It Take to Achieve Good Health and How Confident Are We in This Number?Physical activity and sedentary behavior among adults 60 years and older: New York City residents compared with a national sample.Comparison of two ActiGraph accelerometer generations in the assessment of physical activity in free living conditionsFrench Pregnancy Physical Activity Questionnaire compared with an accelerometer cut point to classify physical activity among pregnant obese women.Performance of the ActiGraph accelerometer using a national population-based sample of youth and adults.Longitudinal levels and bouts of sedentary time among adolescent girls.Predictors of validity and reliability of a physical activity record in adolescents.Regional differences of physical activity and sedentary behaviour in Swiss children are not explained by socio-demographics or the built environment.Comparison of three generations of ActiGraph activity monitors under free-living conditions: do they provide comparable assessments of overall physical activity in 9-year old children?Biomechanical examination of the 'plateau phenomenon' in ActiGraph vertical activity countsComparison of accelerometer cut points to estimate physical activity in US adultsComparison of three generations of ActiGraph™ activity monitors in children and adolescentsTreadmill Calibration of the Actigraph GT1M in Young-to-Middle-Aged Obese-to-Severely Obese Subjects.Relationship between the objectively-assessed neighborhood area and activity behavior in Swiss youth.Objectively measured sedentary time and physical activity time across the lifespan: a cross-sectional study in four age groups.Breaks in sedentary time during childhood and adolescence: Iowa bone development study.Comparison of older and newer generations of ActiGraph accelerometers with the normal filter and the low frequency extensionWhich contributes more to childhood adiposity-high levels of sedentarism or low levels of moderate-through-vigorous physical activity? The Iowa Bone Development StudyImpact of the Boston Active School Day policy to promote physical activity among children.Individual and environmental correlates of objectively measured physical activity and sedentary time in adults from Curitiba, BrazilComparison of ActiGraph activity monitors in persons with multiple sclerosis and controls.Accelerometer Derived Activity Counts and Oxygen Consumption between Young and Older Individuals.Sedentary and Physical Activity Patterns in Adults with Intellectual Disability.Mechanical and free living comparisons of four generations of the Actigraph activity monitor.Moderate-to-vigorous physical activity is associated with decreases in body mass index from ages 9 to 15 years.Comparison of three models of actigraph accelerometers during free living and controlled laboratory conditions.Effects of a randomized exercise trial on physical activity, psychological distress and quality of life in older adults.Validity of the ActiGraph GT1M during walking and cycling.
P2860
Q26746949-93981052-1253-4474-B285-6E285B9A938CQ28741993-4CDE6734-0E7D-47D4-8DB5-26B0AA0D722CQ30485138-3FE62B35-5923-4720-BAB8-A48A0CABD9ABQ30564150-7A961A8D-723F-4EA0-85ED-FA53D30EC0A8Q30740494-935DBEA5-1572-47B4-9BA1-C0C215B04CCDQ33693926-8EFACD67-90A5-496C-A815-6918E4BB35DDQ33746938-B72FC27C-002F-494E-8BFD-293289FD7B47Q33810604-14B56DEC-C6A0-4092-99F0-D563022D98ECQ33845609-76EE58C2-9F22-469C-896C-DF6CFC7BFB6FQ33901043-DDF58036-C31C-4E94-A711-317ABBDABEF2Q33925476-DB1A1887-F992-4E85-931C-64ACDD23629FQ33942541-C785C6CC-22D4-4854-97AA-2609A35B00FDQ33949032-4C95952A-0F5C-4CA4-B6D1-5FE8A16E2BB4Q34017191-71CF14FD-2840-41A5-A326-E93DD5BFE25AQ34245834-A54529F9-81A3-4D49-95F3-2895BD39D54FQ34305762-E00D4F27-70DD-41B8-8E1E-05E252C49617Q35005105-6C5E473C-07C0-43C2-ADAA-CD04F47C0BCBQ35020631-C4594A3B-F088-4288-A08E-2F3C07142506Q35056538-D01CBA50-1A77-4D88-B96A-F6948CEB08F1Q35126752-FBD4D716-C9CC-47C3-9766-C534AD052340Q35207983-978DCD8B-5862-448F-A8BB-9569A792A65DQ36083068-43D851E9-758A-45A6-937E-6EA52E07A149Q36108152-7F0C9516-D230-4E11-BC3A-F48FF91B05D3Q36281281-292AADC1-AC51-438F-A094-BAFB7A494DE5Q36411176-F2B1ACDA-F4BB-4DED-A9A9-84D406AA80F9Q36486362-290BE63C-87AE-4936-BD4F-3E48BB9968ADQ36523919-8F4C9C29-4805-477E-8EA9-5D701B08C387Q36758728-A426300A-545F-49A7-B4B6-2BFF25426991Q36811596-195AE2BE-6BF4-4170-882D-224D48B34E26Q36875786-B87C9370-3F73-4F39-9FEF-9008CBA67EE3Q38174922-D66E493B-8494-41F4-8E27-68C3D2737D3FQ38369677-10B05F39-B553-4826-BDAD-6770597C0342Q39440072-C4696F23-C416-44B3-8B50-A84824E58CB7Q41167922-5FFB1BF1-868C-4B05-AB05-41FCB57C5054Q41659771-1E191667-0E12-42AA-833D-A6943189973EQ42531957-8A4ADE33-7DF4-447B-ABAD-1C79D9D74D93Q44307735-CCF31231-21C8-4DBA-9E7F-ECD07D8A550AQ44748650-A7EDB262-17EB-4FAE-8500-5A07272DDC33Q45302950-999D7BBC-E986-4091-A733-A1442DA47A58Q45838539-A95298FB-2485-469D-9DFC-749E944D84C3
P2860
Comparison of the ActiGraph 7164 and the ActiGraph GT1M during self-paced locomotion.
description
2010 nî lūn-bûn
@nan
2010 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Comparison of the ActiGraph 7164 and the ActiGraph GT1M during self-paced locomotion.
@ast
Comparison of the ActiGraph 7164 and the ActiGraph GT1M during self-paced locomotion.
@en
type
label
Comparison of the ActiGraph 7164 and the ActiGraph GT1M during self-paced locomotion.
@ast
Comparison of the ActiGraph 7164 and the ActiGraph GT1M during self-paced locomotion.
@en
prefLabel
Comparison of the ActiGraph 7164 and the ActiGraph GT1M during self-paced locomotion.
@ast
Comparison of the ActiGraph 7164 and the ActiGraph GT1M during self-paced locomotion.
@en
P2093
P2860
P1476
Comparison of the ActiGraph 7164 and the ActiGraph GT1M during self-paced locomotion.
@en
P2093
John W Staudenmayer
Patty S Freedson
Sarah L Kozey
P2860
P304
P356
10.1249/MSS.0B013E3181C29E90
P577
2010-05-01T00:00:00Z