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Sit-to-stand-and-walk from 120% Knee Height: A Novel Approach to Assess Dynamic Postural Control Independent of Lead-limb

作者： Gareth D. Jones1,2, Darren C. James3, Michael Thacker1,2, David A. Green1 1Centre for Human and Aerospace Physiological Sciences (CHAPS), Faculty of Life Sciences and Medicine,King's College London, 2Physiotherapy Department,Guy's & St Thomas' NHS Foundation Trust, London, 3School of Applied Sciences,London South Bank University

简介：

Overview

This article presents a protocol for measuring dynamic positional stability during the sit-to-stand-to-walk transition, particularly in individuals with neurological impairments. The method utilizes center-of-pressure and whole-body center-of-mass estimations to provide reliable stability measurements.

Key Study Components

Area of Science

Neuroscience
Biomechanics
Clinical Assessment

Background

Dynamic positional stability is crucial for functional mobility.
Individuals with neurological conditions often struggle with transitional movements.
Existing methods may not provide comprehensive stability assessments.
This protocol aims to fill that gap using advanced measurement techniques.

Purpose of Study

To measure stability during the sit-to-stand-to-walk transition.
To provide a reliable assessment tool for clinical practice.
To predict recovery and evaluate treatment effectiveness.

Methods Used

Force platform technology for measuring center-of-pressure.
Three-dimensional motion capture for whole-body center-of-mass estimations.
Composite stability measures derived from the collected data.
Application of the protocol on a participant to demonstrate its effectiveness.

Main Results

The protocol provides reliable measurements of dynamic stability.
It can effectively assess individuals with neurological impairments.
Results can inform clinical practices and treatment evaluations.
Demonstrated through a participant's experience in the study.

Conclusions

This novel protocol enhances the assessment of stability during key movements.
It has potential applications in predicting recovery outcomes.
Further research could expand its use in clinical settings.

Frequently Asked Questions

What is the main goal of the protocol?

The main goal is to measure dynamic positional stability during the sit-to-stand-to-walk transition.

How does this protocol benefit clinical practice?

It provides reliable stability measurements that can predict recovery and evaluate treatment effectiveness.

What technologies are used in this protocol?

The protocol utilizes force platform technology and three-dimensional motion capture.

Who participated in the demonstration of the protocol?

Michael Attwaters, a graduate student, participated in the demonstration.

Can this protocol be used for individuals without neurological impairments?

While designed for neurologically compromised individuals, it may also provide insights for others.

What are the implications of the findings?

The findings can inform clinical practices and improve treatment strategies for recovery.

Here, we present a novel protocol to measure positional stability at key events during the sit-to-stand-to-walk using the center-of-pressure to the whole-body-center-of-mass distance. This was derived from the force platform and three-dimensional motion-capture technology. The paradigm is reliable and can be utilized for the assessment of neurologically compromised individuals.

标签: Sit-to-stand-and-walk, Dynamic Postural Control, Center Of Pressure, Center Of Mass, Stability Measurement, Sitting To Walking, 3D Tracking, Force Platform, Motion Capture, Calibration,