Research Using Biometrics Ltd Sensors and Instrumentation in Australia & New Zealand
Keywords: Gonio Elbow M180 K100 UE PT Clinical Applications Neurology Research Belgium Australia 2002
M Coppieters, K Stappaerts, K Janssens, G Jull; Physiotherapy Research International 2002, 7(3): 146-156
The range of elbow extension in both the laboratory and clinical conditions was measured with Biometrics Ltd electrogoniometer and instrumentation in this study.
Keywords: Gonio G35 Finger MCP UE Neuro Clinical Applications Stroke USA Australia 2005
L Carey, D Abbott, G Egan, J Bernhardt, G Donnan; Stroke 2005, 36:625-629
In this study finger tapping ability was used as one of the parameters to quantify recovery following stroke. Biometrics Ltd finger Goniometers were used to measure the range of active flexion-extension movement of the MCP joint of the index finger.
Keywords: Goniometer Pain Hand UE Neurology Australia 2006
M W Coppieters, A M Alshami, P W Hodges; Arch Phys Med Rehabil Vol 87 October 2006
Biometrics Ltd Goniometer used to accurately document elbow positions during neurodynamic testing in subjects with induced hand pain.
Keywords: Goniometer Carpal Tunnel Syndrome Neurology Wrist Elbow UE Australia 2006
M W Coppieters, A M Alshami; Journal Of Orthopaedic Research 2006 24 p1-9
Biometrics Ltd Goniometers used to measure wrist and elbow joint position and movement in cadavers during testing of novel nerve gliding techniques.
Keywords: Gonio SG150 DataLOG Analysis Biomechanics SW Knee Lower Extremity Clinical Applications Reliability Australia 2008
P Piriyaprasarth, M Morris, A Winter, A Bialocerkowski; Musculoskeletal Disorders 2008, 9:6
This study examined the inter- and intra-tester reliability of knee joint angle measurements using a Biometrics Ltd electrogoniometer. The clinical utility of electrogoniometry was also addressed. Data was collected using the Biometrics Ltd DataLOG and analyzed using Biometrics Ltd Analysis Software.
Keywords: DataLINK Electrogoniometers Reliability Validity Spine Australia 2010
D Perriman J Scarvell, A Hughes, B Ashman, C Lueck, P Smith; SPINE, Volume 35, Number 14, pages E633 - E640
Biometrics Ltd electrogoniometer used with the Biometrics Ltd DataLINK was compared against the "gold standard" Cobb angle method in measurements of the thoracic spine. The results state that the Biometrics Ltd Goniometer "is accurate, has excellent test-retest reliability, and has concurrent validity compared with the Cobb angle. The Goniometer is therefore proposed as an ideal tool for the evaluation of interventions aimed at improving sagittal thoracic spine posture."
Keywords: Grip Dynamometer Reliability Validity Test-Retest UE Australia 2011
D Allen, F Barnett; International Journal of Therapy and Rehabilitation 18(5)258-265 (May 2011)
The purpose of this study was to establish the concurrent validity and test-retest reliability of the Biometrics electronic Dynamometer, and compare it with the criterion standard hydraulic Jamar dynamometer for measurement of grip strength among healthy participants. Conclusions in the results discussion include: "The concurrent validity between the Biometrics and Jamar Dynamometers was found to be excellent for both the right (0.986) and left hands (0.983),and indicates that both the Jamar and Biometrics dynamometers measure the same construct of grip strength. Results also indicate that the Biometrics Dynamometer is a valid tool for measuring grip strength." and "Electronic Dynamometers also have increased sensitivity to applied force, which therefore enables electronic Dynamometers, such as the Biometrics to record low grip strength that may not have registered on the Jamar." The Practical implications state: "This study has established that the Biometrics E-LINK evaluation system is a valid and reliable measurement tool to use by rehabilitation professionals."
Keywords: DataLOG Vibrational Analysis BMI Whole Body Vibration Sports New Zealand 2011
Ramakrishnan Mani, Stephan Milosavljevic, S. John Sullivan (2011). The Ergonomics Open Journal, 4, 1-9
A Biometrics DataLOG unit is mounted onto the back of a quad bike used in this vibrational analysis study. Subjects travelled on the quad bike over a variety of terrains in order to analyse the level of whole body vibration that they were exposed to. Subject Body Mass Index (BMI) is fundamental to this experiment in order to document the relationship between BMI and whole body vibration.