Targeted Training: Difference between revisions
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* TT is focused on the '''biomechanical''' analysis of motor development and subsequent control problems.<ref name=":0">Major RE, Johnson GR, Butler PB. [https://www.researchgate.net/publication/11905294_Learning_motor_control_in_the_upright_position_A_mechanical_engineering_approach Learning motor control in the upright position: a mechanical engineering approach]. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine. 2001 Mar 1;215(3):315-23.</ref> | * TT is focused on the '''biomechanical''' analysis of motor development and subsequent control problems.<ref name=":0">Major RE, Johnson GR, Butler PB. [https://www.researchgate.net/publication/11905294_Learning_motor_control_in_the_upright_position_A_mechanical_engineering_approach Learning motor control in the upright position: a mechanical engineering approach]. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine. 2001 Mar 1;215(3):315-23.</ref> | ||
* Proposes that motor learning requires '''correct alignment''', considering geometry, and '''correct movement strategies.'''<ref name=":0" /> | * Proposes that motor learning requires '''correct alignment''', considering geometry, and '''correct movement strategies.'''<ref name=":0" /> | ||
** '''Correct alignment''': Within normal development infants begin skill acquisition in a predominantly supine position, thus offering multiple points of contact and thus greater stability. This also means that full active control is not always required for a desired motor outcome in this scenario. When moving into a vertical posture, points of stability decrease and more active control is needed. | |||
** '''Movement''' '''strategies''': If active movement control is not present, external forces or forces produced within the body as a reaction to gravity may be poorly graded and angulated, resulting in unstable conditions of posture.<ref name=":0" /> | |||
* '''Support''' is needed to develop the correct alignment and movement strategies.<ref name=":0" /> | * '''Support''' is needed to develop the correct alignment and movement strategies.<ref name=":0" /> | ||
* There is a distinction between the '''demands of an upright and supine posture.'''<ref name=":0" /> | * There is a distinction between the '''demands of an upright and supine posture.'''<ref name=":0" /> | ||
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Description[edit | edit source]
Targeted Training (TT) is a therapeutic approach which is described as an engineering-based strategy that focuses on the development of head and trunk control. This in turn aids in the development and improvement of extremity control. It is described as a simplified way of learning motor control in the upright posture.[1][2]
Fundamentals of Targeted Training[edit | edit source]
- TT is focused on the biomechanical analysis of motor development and subsequent control problems.[3]
- Proposes that motor learning requires correct alignment, considering geometry, and correct movement strategies.[3]
- Correct alignment: Within normal development infants begin skill acquisition in a predominantly supine position, thus offering multiple points of contact and thus greater stability. This also means that full active control is not always required for a desired motor outcome in this scenario. When moving into a vertical posture, points of stability decrease and more active control is needed.
- Movement strategies: If active movement control is not present, external forces or forces produced within the body as a reaction to gravity may be poorly graded and angulated, resulting in unstable conditions of posture.[3]
- Support is needed to develop the correct alignment and movement strategies.[3]
- There is a distinction between the demands of an upright and supine posture.[3]
- The intervention itself concentrates on the vertical posture from the onset without prior need to develop abilities in supine.[3]
Indication[edit | edit source]
TT has been developed specifically for children who demonstrate motor control difficulties. The predominant population benefiting from this approach are those diagnosed with cerebral palsy, however, the treatment itself can be used with any child demonstrating movement difficulties stemming from motor control limitations.
Clinical Intervention[edit | edit source]
Assessment[edit | edit source]
A core component of TT is the use of the Segmental Assessment of Trunk Control (SATCo). This is an assessment tool developed in conjunction with the TT approach. It is integral, in that it allows for the discrete testing of each segment in regards to static, active and reactive control. From here, a therapist is able to gauge the level/ segment at which TT should begin.[4]
Active treatment[edit | edit source]
The main features of TT includes:[3]
- Intervention is performed cephalad-to-caudal: Starting from attaining head control and then moving down the axial skeletal structure. The highest level of active control of the joints is established, from which the segment just below is 'targeted'.
- Support is provided to the skeletal element directly below to the segment being targeted.
- Ensuring the orientation of the support surface is important. External forces and anatomical constraints need to be considered.
- Perturbations are provided to the system, which then challenge control learning.
- Input also needs to be provided for sufficient amount of time.
- Reassessment is performed of the limit of control, i.e. at which segmental level active control has been attained.
- Support is moved down as active control is gained at the relevant segmental level.
Resources[edit | edit source]
add appropriate resources here, including text links or content demonstrating the intervention or technique
References[edit | edit source]
- ↑ OPTIMI Targeted training. Research Evidence for Targeted Training and the upright segmental approach. Available from: https://optimi.org.uk/sample-page/ (accessed 12 May 2023)
- ↑ Major RE, Johnson GR, Butler PB. . Proceedings of the InstitutionLearning motor control in the upright position: a mechanical engineering approach of Mechanical Engineers, Part H: Journal of Engineering in Medicine. 2001 Mar 1;215(3):315-23.
- ↑ 3.0 3.1 3.2 3.3 3.4 3.5 3.6 Major RE, Johnson GR, Butler PB. Learning motor control in the upright position: a mechanical engineering approach. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine. 2001 Mar 1;215(3):315-23.
- ↑ Curtis DJ, Holbrook P, Bew S, Ford L, Butler P. Functional change in children with cerebral palsy. arXiv preprint arXiv:1811.12490. 2018 Nov 9.
