Hand Function Assessment and Training: Difference between revisions

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<div class="editorbox"> '''Original Editor '''- Pam Versfeld '''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}}</div>
<div class="editorbox"> '''Original Editor '''- [https://members.physio-pedia.com/course_tutor/pam-versfeld/ Pam Versfeld] <br>
'''Top Contributors''' - {{Special:Contributors/{{FULLPAGENAME}}}}</div>


== Introduction ==
[[Hand Function|Hand function]] in infants can be assessed using a play-based approach. A play-based assessment provides insight into an infant’s present abilities, response to the social and physical environment, and motivation to move and interact with toys and other interesting objects.


== Training Hand Function in Infants Who Are Not Yet Sitting ==
== Standardised Assessments ==
[[Hand Function|Hand function]] in infants can be assessed from birth to early sitting using a play-based approach. A play-based assessment provides insight into an infant’s present abilities, response to the social and physical environment, and their motivation to move and interact with toys and other interesting objects.
 
Observing an infant’s behaviour in the presence of interesting objects provides rehabilitation professionals with information so that they can create opportunities for the infant to explore:
 
* different ways to use their hands to gather information
* different, more varied and complex ways of interacting with toys and other interesting objects
 
The following standardised assessments of hand function are used for infants with unilateral cerebral palsy (CP):
The following standardised assessments of hand function are used for infants with unilateral cerebral palsy (CP):


# The Mini-Assisting Hand Assessment (Mini-AHA):
# [https://ahanetwork.se/assessments/mini-aha/ Mini-Assisting Hand Assessment (Mini-AHA)]:
#* measures how well young children with signs of unilateral or hemiplegic cerebral palsy use their more affected hand, when using both hands together to play
#* measures how well children aged 8-18 months with signs of unilateral or hemiplegic cerebral palsy use their more affected hand, when using both hands together to play
#* it is useful for rehabilitation professionals as it:
#* the Mini-AHA is useful for rehabilitation professionals as it:
#** describes how a child with unilateral cerebral palsy uses their affected (assisting) hand
#** describes how a child with unilateral cerebral palsy uses their affected (assisting) hand
#** helps them carefully plan therapy aimed at each child’s level of ability
#** helps them carefully plan therapy aimed at each child’s level of ability
#** measures whether therapy or an intervention has been effective
#** measures whether therapy or an intervention has been effective
# Hand Assessment for Infants (HAI):
# [https://ahanetwork.se/assessments/hai/ Hand Assessment for Infants (HAI)]:
#* developed for infants at risk of cerebral palsy aged 3-12 months
#* developed for infants at risk of cerebral palsy aged 3-12 months
#* measures the degree and quality of goal-directed actions performed with each hand separately and both hands together
#* measures the degree and quality of goal-directed actions performed with each hand separately and both hands together
#* the outcome of the test renders a separate score for each hand, illustrating possible asymmetric hand use
#* the outcome of the test renders a separate score for each hand, illustrating possible asymmetric hand use
#* provides a criterion referenced measure of general upper limb ability
#* provides a criterion-referenced measure of general upper limb ability
#* comparing the infant's result to norm referenced values can assist in identifying infants who would benefit from intervention<ref>Krumlinde‐Sundholm L, Ek L, Sicola E, Sjöstrand L, Guzzetta A, Sgandurra G, Cioni G, Eliasson AC. [https://onlinelibrary.wiley.com/doi/10.1111/dmcn.13585 Development of the Hand Assessment for Infants: evidence of internal scale validity.] Developmental Medicine & Child Neurology. 2017 Dec;59(12):1276-83.</ref>
#* comparing the infant's result to norm-referenced values can assist in identifying infants who would benefit from intervention<ref>Krumlinde‐Sundholm L, Ek L, Sicola E, Sjöstrand L, Guzzetta A, Sgandurra G, Cioni G, Eliasson AC. [https://onlinelibrary.wiley.com/doi/10.1111/dmcn.13585 Development of the Hand Assessment for Infants: evidence of internal scale validity.] Developmental Medicine & Child Neurology. 2017 Dec;59(12):1276-83.</ref>
 
== Constraint-induced Movement Therapy ==
Although research shows that older children with hemiplegic cerebral palsy benefit from constraint-induced movement therapy (CIMT), the efficacy of CIMT among the infant population is unknown.
 
* In 2022, Dionisio and Terrill<ref name=":3" /> conducted a scoping review to examine CIMT protocols for an overview of dosage, constraint, administration, parent training and education, and objective outcome measures.
** They concluded that existing literature supports CIMT protocols for infants with cerebral palsy.
** However, they note that there is much variability in protocol design and appropriate outcome measures among studies.
** They, therefore, concluded that higher level research is needed to support the efficacy of CIMT among infants with cerebral palsy.<ref name=":3">Dionisio MC, Terrill AL. [https://pubmed.ncbi.nlm.nih.gov/35179556/ Constraint-induced movement therapy for infants with or at risk for cerebral palsy: a scoping review]. The American Journal of Occupational Therapy. 2022 Mar 1;76(2):7602205120.</ref>
* Walker et al.<ref name=":4">Walker C, Shierk A, Roberts H. [https://pubmed.ncbi.nlm.nih.gov/34339315/ Constraint induced movement therapy in infants and toddlers with hemiplegic cerebral palsy: a scoping review.] Occupational Therapy In Health Care. 2022 Jan 12;36(1):29-45.</ref> also conducted a scoping review of CIMT in 2022 that aimed "to identify current evidence for CIMT protocols for children 3 months to 5 years 11 months as well as clinical applications for practice and gaps in research."<ref name=":4" />
** The ten studies selected for review showed that CIMT is a "feasible and effective treatment" for infants and toddlers
** CIMT should include caregiver coaching, treating the child in their usual environment and the right activities.
** Walker et al.<ref name=":4" /> conclude that further research is needed to ascertain the impact of different dosages in early CIMT, and the long-term developmental effects throughout childhood.


== The GAME Protocol for Early Intervention ==
== The GAME Protocol for Early Intervention ==
The GAME intervention (Goals - Activity - Motor Enrichment) is based on the principles of '''active motor learning''', family-centred care, parent coaching and environmental enrichment. Interventions are customised to the parent's goals and enrichment style and the child’s motor ability.<ref>Morgan C, Novak I, Dale RC, Guzzetta A, Badawi N. [https://bmcneurol.biomedcentral.com/articles/10.1186/s12883-014-0203-2 GAME (Goals-Activity-Motor Enrichment): protocol of a single blind randomised controlled trial of motor training, parent education and environmental enrichment for infants at high risk of cerebral palsy]. BMC neurology. 2014 Dec;14:1-9.</ref>
The GAME intervention (Goals - Activity - Motor Enrichment) is based on the principles of '''active motor learning''', family-centred care, parent coaching and environmental enrichment. Interventions are customised to the parent's goals and enrichment style and the child’s motor ability.<ref>Morgan C, Novak I, Dale RC, Guzzetta A, Badawi N. [https://bmcneurol.biomedcentral.com/articles/10.1186/s12883-014-0203-2 GAME (Goals-Activity-Motor Enrichment): protocol of a single blind randomised controlled trial of motor training, parent education and environmental enrichment for infants at high risk of cerebral palsy]. BMC neurology. 2014 Dec;14:1-9.</ref>


Supporting Play, Exploration, and Early Development Intervention (SPEEDI)<ref>Dusing SC, Tripathi T, Marcinowski EC, Thacker LR, Brown LF, Hendricks-Muñoz KD. [https://academic.oup.com/ptj/article/100/8/1343/5823910 Supporting play exploration and early developmental intervention versus usual care to enhance development outcomes during the transition from the neonatal intensive care unit to home: a pilot randomized controlled tria]l. BMC pediatrics. 2018 Dec;18(1):1-2.</ref> <ref>Finlayson F, Olsen J, Dusing SC, Guzzetta A, Eeles A, Spittle A. [https://www.sciencedirect.com/science/article/abs/pii/S0378378220303078?via%3Dihub Supporting Play, Exploration, and Early Development Intervention (SPEEDI) for preterm infants: A feasibility randomised controlled trial in an Australian context]. Early Human Development. 2020 Dec 1;151:105172.</ref>
Read more on the GAME intervention [https://bmcneurol.biomedcentral.com/articles/10.1186/s12883-014-0203-2 here].


=== A Dynamic Systems and Task-oriented Approach to Intervention ===
== A Dynamic Systems and Task-oriented Approach to Intervention ==
Building on the GAME approach to intervention, a dynamic  systems and task-oriented approach to intervention is informed by the following ideas:
Building on the GAME approach to intervention, a dynamic systems and task-oriented approach to intervention is informed by the following ideas:


# Family-centred care, involving parents in selecting goals and providing opportunities for practising movement skills are essential to success
# Family-centred care - involving parents in selecting goals and providing opportunities for practising movement skills are essential to success
# Therapy '''always''' starts with the infant's present abilities - i.e. what they can do at this present moment, and how this creates an opportunity for learning to do more
# Therapy '''always''' starts with the infant's present abilities - i.e. what they can do at this present moment and how this creates an opportunity for learning to do more
# An emphasis on training intensity, repetition and many daily opportunities for practising a task in a variety of contexts
# An emphasis on training intensity, repetition and many daily opportunities for practising a task in a variety of contexts
# Self-initiated action and exploring ways of doing things supports and enhances motor learning
# Self-initiated action and exploring ways of doing things support and enhance motor learning
# Intrinsic motivation, curiosity, and the drive to explore and interact with people and objects support learning new movement skills  
# Intrinsic motivation, curiosity, and the drive to explore and interact with people and objects support learning new movement skills  
# Promoting enjoyable and meaningful social interaction and communication is central to intervention and supports learning of motor tasks
# Promoting enjoyable and meaningful social interaction and communication is central to intervention and supports the learning of motor tasks


== Guidelines for a Dynamic Systems Task-oriented Assessment of Hand Function ==
== Guidelines for a Dynamic Systems Task-oriented Assessment of Hand Function ==


# Listen to the parents' views of their child's abilities and also their expectations for the therapy session
# Listen to the parents' views of their child's abilities and also their expectations for the therapy session
# Explain the purpose of assessment:
# Explain the purpose of the assessment:
#* identify the infant's abilities, especially their strengths
#* identify the infant's abilities, especially their strengths
#* explore ways to enhance the variability and complexity of the infant's actions in ways that will promote progress along the developmental pathway and towards identified goals
#* explore ways to enhance the variability and complexity of the infant's actions in ways that will promote progress along the developmental pathway and towards identified goals
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#** gain insight into their infant's abilities and the factors that enhance and constrain progress towards more advanced hand function
#** gain insight into their infant's abilities and the factors that enhance and constrain progress towards more advanced hand function
#** identify ways to enhance perceptual-motor learning
#** identify ways to enhance perceptual-motor learning
# Observe the infant in a starting position that is appropriate for their age and abilities. Positions include supine, reclined and sitting on a caregiver's lap.  
# Observe the infant in a starting position that is appropriate for their age and abilities. Positions for infants not yet sitting can include supine, reclined and sitting on a caregiver's lap.


=== Assessment in Supine ===
==== Assessment in Supine ====
For very young infants (newborn to about 12 weeks) and those who are not yet able to keep the head stable when supported in sitting, observation starts with the infant in supine. Supine is a good position to observe:  
For very young infants (newborn to about 12 weeks) and those who are not yet able to keep the head stable when supported in sitting, observation starts with the infant in supine. Supine is a good position to observe:  


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* an infant’s level of spontaneous movement and if they have started to swipe at or reach for toys presented within easy reach
* an infant’s level of spontaneous movement and if they have started to swipe at or reach for toys presented within easy reach


=== Assessment in a Reclined Position ===
==== Assessment in a Reclined Position ====
From about 3-4 months, when infants are able to maintain a steady head and trunk when moving their hands, we can assess hand function when they are lying supine in a seat that is inclined or supported on a feeding cushion. In this position, we can observe:   
We can assess the hand function of infants who can maintain a steady head and trunk when moving their hands (usually from around 3-4 months) when they are lying supine in a seat that is inclined or supported on a feeding cushion. In this position, we can observe:   


* an infant's ability to reach for and grasp a toy presented within easy reach and in the midline
* an infant's ability to reach for and grasp a toy presented within easy reach and in the midline


Raising an infant's head and trunk makes it easier for them to lift their arms forwards to grasp a toy and keep their hand and toy within their visual field.
Raising an infant's head and trunk makes it easier for them to lift their arms forward to grasp a toy and keep their hand and toy within their visual field.


=== Assessment While Sitting on a Caregiver's Lap ===
==== Assessment While Sitting on a Caregiver's Lap ====
Lap sitting is a good position to observe an infant’s hand function as it allows the caregiver to provide as much support as is needed to keep the head and trunk steady. In this position, the infant feels safe and secure and is more likely to move their hands to engage with interesting objects presented within reach. We can look at the following:  
Lap sitting is a good position to observe an infant’s hand function as it allows the caregiver to provide as much support as is needed to keep the infant's head and trunk steady. In this position, the infant feels safe and secure and is more likely to move their hands to engage with interesting objects presented within reach. We can look at the following:  


* Does the infant reach for toys presented within easy (arm’s) reach?
* does the infant reach for toys presented within easy (arm’s) reach?
* Once the infant gets hold of a toy, what do they do?
* once the infant gets hold of a toy, what do they do?
* Does the infant hold a toy in one hand and use the other hand to manipulate it?
* does the infant hold a toy in one hand and use the other hand to manipulate it?
 
== '''Training Hand Function in Infants''' ==
Typically developing infants and toddlers tend to actively explore their environment and spend a great deal of time figuring out  different ways to interact with the objects and toys they encounter.


=== Relevant Research ===
=== Relevant Research ===
Tokeshi et al.<ref name=":0">Shida-Tokeshi J, Lane CJ, Trujillo-Priego IA, Deng W, Vanderbilt DL, Loeb GE, Smith BA. [https://gatesopenresearch.org/articles/2-17/v2 Relationships between full-day arm movement characteristics and developmental status in infants with typical development as they learn to reach: An observational study.] Gates Open Research. 2018;2.</ref> conducted an observational study on the relationships between full-day arm movement characteristics and developmental status in infants with typical development as they learn to reach. Arm movements were measured over a full day using a wearable sensor technology. The main findings of this study were that:<ref name=":0" />
'''Herzberg et al.<ref name=":5" /> recorded and analysed the spontaneous activity of crawling and walking infants and toddlers.'''


# infant arm movement characteristics were related to Bayley motor, cognitive and language scores, which suggests that there is "a relationship between daily movement characteristics and developmental status"<ref name=":0" />
* During two 2-hour visits, they observed infants interacting with many different toys and household objects - these interactions took up around 60% of the infants' time during the visits
* Interactions were brief, lasting an average of 9 seconds
This research suggests that exuberant object play with many "brief, time-distributed, variable interactions with objects" may encourage infants to:
* learn about the properties and functions of objects
* enhance motor skill acquisition
* encourage cognitive, social and language development<ref name=":5">Herzberg O, Fletcher KK, Schatz JL, Adolph KE, Tamis‐LeMonda CS. [https://srcd.onlinelibrary.wiley.com/doi/epdf/10.1111/cdev.13669 Infant exuberant object play at home: Immense amounts of time‐distributed, variable practice.] Child development. 2022 Jan;93(1):150-64.</ref><ref>Swirbul MS, Herzberg O, Tamis-LeMonda CS. [https://www.sciencedirect.com/science/article/abs/pii/S0163638322000261?via%3Dihub Object play in the everyday home environment generates rich opportunities for infant learning.] Infant Behavior and Development. 2022 May 1;67:101712.</ref>
'''Tokeshi et al.<ref name=":0">Shida-Tokeshi J, Lane CJ, Trujillo-Priego IA, Deng W, Vanderbilt DL, Loeb GE, Smith BA. [https://gatesopenresearch.org/articles/2-17/v2 Relationships between full-day arm movement characteristics and developmental status in infants with typical development as they learn to reach: An observational study.] Gates Open Research. 2018;2.</ref> conducted an observational study on the relationships between full-day arm movement characteristics and developmental status in infants with typical development as they learn to reach.''' Arm movements were measured over a full day using wearable sensor technology. Tokeshi et al.<ref name=":0" /> found that:
# infant arm movement characteristics were related to motor, cognitive and language scores on the Bayley Scales of Infant and Toddler Development, which suggests that there is "a relationship between daily movement characteristics and developmental status"<ref name=":0" />
# the infants who moved more experienced greater increases in their language and cognitive scores across visits
# the infants who moved more experienced greater increases in their language and cognitive scores across visits
# greater changes in movement characteristics across visits were related to higher motor scores
# greater changes in movement characteristics across visits were related to higher motor scores
 
== '''Training Hand Function in Infants Who Are Sitting''' ==
Typically developing infants and toddlers tend to actively explore their environment and spend a great deal of time figuring out  different ways to interact with objects and toys they encounter. Herzberg et al.<ref name=":5" /> recorded and analysed, frame-by-frame, the spontaneous activity of infants and toddlers who were walking and crawling in two 2-hour home visits. They found that infants interacted with a wide variety of toys and household objects for around 60% of their time. Interactions were brief, with each interaction lasting an average of 9 seconds. This research suggests that exuberant object play by infants with many "brief, time-distributed, variable interactions with objects" may encourage infants to learn about the properties and functions of objects, enhance motor skill acquisition, and encourage cognitive, social and language development.<ref name=":5">Herzberg O, Fletcher KK, Schatz JL, Adolph KE, Tamis‐LeMonda CS. [https://srcd.onlinelibrary.wiley.com/doi/epdf/10.1111/cdev.13669 Infant exuberant object play at home: Immense amounts of time‐distributed, variable practice.] Child development. 2022 Jan;93(1):150-64.</ref><ref>Swirbul MS, Herzberg O, Tamis-LeMonda CS. [https://www.sciencedirect.com/science/article/abs/pii/S0163638322000261?via%3Dihub Object play in the everyday home environment generates rich opportunities for infant learning.] Infant Behavior and Development. 2022 May 1;67:101712.</ref>


=== Experience is important ===
=== Experience is important ===
We know that experience with many different objects is important for learning hand tasks.  
Experience with many different objects is important for learning hand tasks and, as Tokeshi et al.<ref name=":0" /> note, there is an association between infant arm movements and scores on the [https://www.pearsonassessments.com/store/usassessments/en/Store/Professional-Assessments/Behavior/Adaptive/Bayley-Scales-of-Infant-and-Toddler-Development-%7C-Third-Edition/p/100000123.html?tab=resources Bayley Scales of Infant and Toddler Development]. Therapists and caregivers must, therefore, ensure that an infant/child has many opportunities to play with varied and interesting objects and toys. This should include dedicated time spent working on specific tasks supported by a play partner. This is particularly important for:<ref>de Almeida Soares D, von Hofsten C, Tudella E. [https://www.researchgate.net/publication/232255134_Development_of_exploratory_behavior_in_late_preterm_infants Development of exploratory behavior in late preterm infants]. Infant Behavior and Development. 2012 Dec 1;35(4):912-5.</ref><ref>Atun-Einy O, Berger SE, Scher A. [https://www.sciencedirect.com/science/article/abs/pii/S0163638313000398 Assessing motivation to move and its relationship to motor development in infancy]. Infant Behavior and Development. 2013 Jun 1;36(3):457-69.</ref><ref name=":0" /><ref name=":1">Kretch KS, Marcinowski EC, Hsu LY, Koziol NA, Harbourne RT, Lobo MA, Dusing SC. [https://onlinelibrary.wiley.com/doi/full/10.1111/desc.13318 Opportunities for learning and social interaction in infant sitting: Effects of sitting support, sitting skill, and gross motor delay.] Developmental Science. 2023 May;26(3):e13318.</ref><ref name=":2">Franchak JM. [https://www.sciencedirect.com/science/article/abs/pii/S2352250X19300867 The ecology of infants’ perceptual-motor exploration]. Current opinion in psychology. 2020 Apr 1;32:110-4.</ref>


Joanne Shida-Tokeshi and colleagues from the  Infant Neuromotor Control Laboratory at the  University of Southern California have shown that the amount of arm movement as measured by wearable sensors across a full day  is associated with scores on the Bailey scale.  This means that perhaps the most important role of the therapist and caregivers is to make sure that the child has  many opportunities to play with varied and different interesting objects and toys.  This should include dedicated time spent working on specific tasks supported by a play partner.  This is particularly important for infants with motor delay, those who were born preterm  and those who are at risk for cerebral palsy are often less active and not as motivated to explore and figure things out.<ref>de Almeida Soares D, von Hofsten C, Tudella E. [https://www.researchgate.net/publication/232255134_Development_of_exploratory_behavior_in_late_preterm_infants Development of exploratory behavior in late preterm infants]. Infant Behavior and Development. 2012 Dec 1;35(4):912-5.</ref><ref>Atun-Einy O, Berger SE, Scher A. [https://www.sciencedirect.com/science/article/abs/pii/S0163638313000398 Assessing motivation to move and its relationship to motor development in infancy]. Infant Behavior and Development. 2013 Jun 1;36(3):457-69.</ref><ref name=":0" /><ref name=":1">Kretch KS, Marcinowski EC, Hsu LY, Koziol NA, Harbourne RT, Lobo MA, Dusing SC. [https://onlinelibrary.wiley.com/doi/full/10.1111/desc.13318 Opportunities for learning and social interaction in infant sitting: Effects of sitting support, sitting skill, and gross motor delay.] Developmental Science. 2023 May;26(3):e13318.</ref><ref name=":2">Franchak JM. [https://www.sciencedirect.com/science/article/abs/pii/S2352250X19300867 The ecology of infants’ perceptual-motor exploration]. Current opinion in psychology. 2020 Apr 1;32:110-4.</ref>
* infants with motor delay
* infants who were born preterm
* infants who are at risk for cerebral palsy  


=== Importance of a stable sitting posture ===
=== Importance of a stable sitting posture ===
A stable sitting posture is important for learning to reach for and manipulate objects.<ref name=":1" /><ref name=":2" /> Research by Marcinowski and colleagues concluded that the ability of infants to sit erect with hands free, albeit with some support, enhances the infant's ability to explore objects visually and manually.<ref>Marcinowski EC, Tripathi T, Hsu LY, Westcott McCoy S, Dusing SC. [https://onlinelibrary.wiley.com/doi/10.1002/dev.21854 Sitting skill and the emergence of arms‐free sitting affects the frequency of object looking and exploration]. Developmental Psychobiology. 2019 Nov;61(7):1035-47.</ref> Therefor for toddlers whose sitting stability is not yet good, it is important to provide external support to allow them maintain an erect sitting posture when moving the hands to reach for and manipulate objects. .  
A stable sitting posture is important for learning to reach for and manipulate objects.<ref name=":1" /><ref name=":2" /> Marcinowski et al.<ref name=":6" /> concluded that the ability of infants to sit erect with their hands free, albeit with some support, enhances their ability to explore objects visually and manually.<ref name=":6">Marcinowski EC, Tripathi T, Hsu LY, Westcott McCoy S, Dusing SC. [https://onlinelibrary.wiley.com/doi/10.1002/dev.21854 Sitting skill and the emergence of arms‐free sitting affects the frequency of object looking and exploration]. Developmental Psychobiology. 2019 Nov;61(7):1035-47.</ref> Therefore, it is important to provide external support for toddlers whose sitting stability is not yet good to allow them to maintain an erect sitting posture when moving their hands to reach for and manipulate objects.  
 
Sitting erect also allows the child to look around and build a map of the environment, notice where people and objects are situated and when and how they move. This information is important for planning actions.
 
=== Constraint-induced Movement Therapy ===
Although research shows that older children with hemiplegic cerebral palsy benefit from constraint-induced movement therapy (CIMT), the efficacy of CIMT among the infant population is unknown.


<nowiki>**</nowiki> Sitting erect also allows the child to look around and build a map of the environment, notice where people and objects are situated and when and how they move. This information is important for planning actions
* In 2022, Dionisio and Terrill<ref name=":3">Dionisio MC, Terrill AL. [https://pubmed.ncbi.nlm.nih.gov/35179556/ Constraint-induced movement therapy for infants with or at risk for cerebral palsy: a scoping review]. The American Journal of Occupational Therapy. 2022 Mar 1;76(2):7602205120.</ref> conducted a scoping review to examine CIMT protocols to learn more about the dosage, constraint, administration, training and education for parents, and objective outcome measures used in current research
** They concluded that current literature supports the use of CIMT for infants with cerebral palsy
** However, they note that there is considerable variability in the studies in terms of protocol design and outcome measures
** They, therefore, concluded that higher level research is needed to "support the efficacy of CIMT" for infants with cerebral palsy<ref name=":3" />
* Walker et al.<ref name=":4">Walker C, Shierk A, Roberts H. [https://pubmed.ncbi.nlm.nih.gov/34339315/ Constraint induced movement therapy in infants and toddlers with hemiplegic cerebral palsy: a scoping review.] Occupational Therapy In Health Care. 2022 Jan 12;36(1):29-45.</ref> also conducted a scoping review of CIMT in 2022 that aimed "to identify current evidence for CIMT protocols for children 3 months to 5 years 11 months as well as clinical applications for practice and gaps in research"<ref name=":4" />
** The ten studies selected for review showed that CIMT is a "feasible and effective treatment" for infants and toddlers
** CIMT should include caregiver coaching, treating the child in their usual environment and providing the right activities.
** Walker et al.<ref name=":4" /> also concluded that further research is needed to ascertain what effect different dosages have in early CIMT, and the long-term effects of CIMT on development throughout childhood


== Resources ==
== Resources ==
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* [[Hand Function 0-7 months|Hand Function 0-7 Months]]
* [[Hand Function 0-7 months|Hand Function 0-7 Months]]
* [[Hand Function 7-24 Month Period]]
* [[Hand Function 7-24 Month Period]]
* [http://tomt.skillsforaction.com/node/539#:~:text=The%20goals%20of%20SPEEDI%20were,intervention%20period%20(Additional%20file%201) Skills for Action: The SPEEDI Play Based Intervention]


== References ==
== References ==

Latest revision as of 15:53, 3 August 2023

Original Editor - Pam Versfeld
Top Contributors - Robin Tacchetti and Jess Bell

Introduction[edit | edit source]

Hand function in infants can be assessed using a play-based approach. A play-based assessment provides insight into an infant’s present abilities, response to the social and physical environment, and motivation to move and interact with toys and other interesting objects.

Standardised Assessments[edit | edit source]

The following standardised assessments of hand function are used for infants with unilateral cerebral palsy (CP):

  1. Mini-Assisting Hand Assessment (Mini-AHA):
    • measures how well children aged 8-18 months with signs of unilateral or hemiplegic cerebral palsy use their more affected hand, when using both hands together to play
    • the Mini-AHA is useful for rehabilitation professionals as it:
      • describes how a child with unilateral cerebral palsy uses their affected (assisting) hand
      • helps them carefully plan therapy aimed at each child’s level of ability
      • measures whether therapy or an intervention has been effective
  2. Hand Assessment for Infants (HAI):
    • developed for infants at risk of cerebral palsy aged 3-12 months
    • measures the degree and quality of goal-directed actions performed with each hand separately and both hands together
    • the outcome of the test renders a separate score for each hand, illustrating possible asymmetric hand use
    • provides a criterion-referenced measure of general upper limb ability
    • comparing the infant's result to norm-referenced values can assist in identifying infants who would benefit from intervention[1]

The GAME Protocol for Early Intervention[edit | edit source]

The GAME intervention (Goals - Activity - Motor Enrichment) is based on the principles of active motor learning, family-centred care, parent coaching and environmental enrichment. Interventions are customised to the parent's goals and enrichment style and the child’s motor ability.[2]

Read more on the GAME intervention here.

A Dynamic Systems and Task-oriented Approach to Intervention[edit | edit source]

Building on the GAME approach to intervention, a dynamic systems and task-oriented approach to intervention is informed by the following ideas:

  1. Family-centred care - involving parents in selecting goals and providing opportunities for practising movement skills are essential to success
  2. Therapy always starts with the infant's present abilities - i.e. what they can do at this present moment and how this creates an opportunity for learning to do more
  3. An emphasis on training intensity, repetition and many daily opportunities for practising a task in a variety of contexts
  4. Self-initiated action and exploring ways of doing things support and enhance motor learning
  5. Intrinsic motivation, curiosity, and the drive to explore and interact with people and objects support learning new movement skills  
  6. Promoting enjoyable and meaningful social interaction and communication is central to intervention and supports the learning of motor tasks

Guidelines for a Dynamic Systems Task-oriented Assessment of Hand Function[edit | edit source]

  1. Listen to the parents' views of their child's abilities and also their expectations for the therapy session
  2. Explain the purpose of the assessment:
    • identify the infant's abilities, especially their strengths
    • explore ways to enhance the variability and complexity of the infant's actions in ways that will promote progress along the developmental pathway and towards identified goals
    • assessment is an opportunity for caregivers to:
      • gain insight into their infant's abilities and the factors that enhance and constrain progress towards more advanced hand function
      • identify ways to enhance perceptual-motor learning
  3. Observe the infant in a starting position that is appropriate for their age and abilities. Positions for infants not yet sitting can include supine, reclined and sitting on a caregiver's lap.

Assessment in Supine[edit | edit source]

For very young infants (newborn to about 12 weeks) and those who are not yet able to keep the head stable when supported in sitting, observation starts with the infant in supine. Supine is a good position to observe:

  • how an infant uses their hands to explore their face and bodies, clothing and the surrounding supporting surfaces
  • an infant’s level of spontaneous movement and if they have started to swipe at or reach for toys presented within easy reach

Assessment in a Reclined Position[edit | edit source]

We can assess the hand function of infants who can maintain a steady head and trunk when moving their hands (usually from around 3-4 months) when they are lying supine in a seat that is inclined or supported on a feeding cushion. In this position, we can observe:

  • an infant's ability to reach for and grasp a toy presented within easy reach and in the midline

Raising an infant's head and trunk makes it easier for them to lift their arms forward to grasp a toy and keep their hand and toy within their visual field.

Assessment While Sitting on a Caregiver's Lap[edit | edit source]

Lap sitting is a good position to observe an infant’s hand function as it allows the caregiver to provide as much support as is needed to keep the infant's head and trunk steady. In this position, the infant feels safe and secure and is more likely to move their hands to engage with interesting objects presented within reach. We can look at the following:

  • does the infant reach for toys presented within easy (arm’s) reach?
  • once the infant gets hold of a toy, what do they do?
  • does the infant hold a toy in one hand and use the other hand to manipulate it?

Training Hand Function in Infants[edit | edit source]

Typically developing infants and toddlers tend to actively explore their environment and spend a great deal of time figuring out  different ways to interact with the objects and toys they encounter.

Relevant Research[edit | edit source]

Herzberg et al.[3] recorded and analysed the spontaneous activity of crawling and walking infants and toddlers.

  • During two 2-hour visits, they observed infants interacting with many different toys and household objects - these interactions took up around 60% of the infants' time during the visits
  • Interactions were brief, lasting an average of 9 seconds

This research suggests that exuberant object play with many "brief, time-distributed, variable interactions with objects" may encourage infants to:

  • learn about the properties and functions of objects
  • enhance motor skill acquisition
  • encourage cognitive, social and language development[3][4]

Tokeshi et al.[5] conducted an observational study on the relationships between full-day arm movement characteristics and developmental status in infants with typical development as they learn to reach. Arm movements were measured over a full day using wearable sensor technology. Tokeshi et al.[5] found that:

  1. infant arm movement characteristics were related to motor, cognitive and language scores on the Bayley Scales of Infant and Toddler Development, which suggests that there is "a relationship between daily movement characteristics and developmental status"[5]
  2. the infants who moved more experienced greater increases in their language and cognitive scores across visits
  3. greater changes in movement characteristics across visits were related to higher motor scores

Experience is important[edit | edit source]

Experience with many different objects is important for learning hand tasks and, as Tokeshi et al.[5] note, there is an association between infant arm movements and scores on the Bayley Scales of Infant and Toddler Development. Therapists and caregivers must, therefore, ensure that an infant/child has many opportunities to play with varied and interesting objects and toys. This should include dedicated time spent working on specific tasks supported by a play partner. This is particularly important for:[6][7][5][8][9]

  • infants with motor delay
  • infants who were born preterm
  • infants who are at risk for cerebral palsy

Importance of a stable sitting posture[edit | edit source]

A stable sitting posture is important for learning to reach for and manipulate objects.[8][9] Marcinowski et al.[10] concluded that the ability of infants to sit erect with their hands free, albeit with some support, enhances their ability to explore objects visually and manually.[10] Therefore, it is important to provide external support for toddlers whose sitting stability is not yet good to allow them to maintain an erect sitting posture when moving their hands to reach for and manipulate objects.

Sitting erect also allows the child to look around and build a map of the environment, notice where people and objects are situated and when and how they move. This information is important for planning actions.

Constraint-induced Movement Therapy[edit | edit source]

Although research shows that older children with hemiplegic cerebral palsy benefit from constraint-induced movement therapy (CIMT), the efficacy of CIMT among the infant population is unknown.

  • In 2022, Dionisio and Terrill[11] conducted a scoping review to examine CIMT protocols to learn more about the dosage, constraint, administration, training and education for parents, and objective outcome measures used in current research
    • They concluded that current literature supports the use of CIMT for infants with cerebral palsy
    • However, they note that there is considerable variability in the studies in terms of protocol design and outcome measures
    • They, therefore, concluded that higher level research is needed to "support the efficacy of CIMT" for infants with cerebral palsy[11]
  • Walker et al.[12] also conducted a scoping review of CIMT in 2022 that aimed "to identify current evidence for CIMT protocols for children 3 months to 5 years 11 months as well as clinical applications for practice and gaps in research"[12]
    • The ten studies selected for review showed that CIMT is a "feasible and effective treatment" for infants and toddlers
    • CIMT should include caregiver coaching, treating the child in their usual environment and providing the right activities.
    • Walker et al.[12] also concluded that further research is needed to ascertain what effect different dosages have in early CIMT, and the long-term effects of CIMT on development throughout childhood

Resources[edit | edit source]

References[edit | edit source]

  1. Krumlinde‐Sundholm L, Ek L, Sicola E, Sjöstrand L, Guzzetta A, Sgandurra G, Cioni G, Eliasson AC. Development of the Hand Assessment for Infants: evidence of internal scale validity. Developmental Medicine & Child Neurology. 2017 Dec;59(12):1276-83.
  2. Morgan C, Novak I, Dale RC, Guzzetta A, Badawi N. GAME (Goals-Activity-Motor Enrichment): protocol of a single blind randomised controlled trial of motor training, parent education and environmental enrichment for infants at high risk of cerebral palsy. BMC neurology. 2014 Dec;14:1-9.
  3. 3.0 3.1 Herzberg O, Fletcher KK, Schatz JL, Adolph KE, Tamis‐LeMonda CS. Infant exuberant object play at home: Immense amounts of time‐distributed, variable practice. Child development. 2022 Jan;93(1):150-64.
  4. Swirbul MS, Herzberg O, Tamis-LeMonda CS. Object play in the everyday home environment generates rich opportunities for infant learning. Infant Behavior and Development. 2022 May 1;67:101712.
  5. 5.0 5.1 5.2 5.3 5.4 Shida-Tokeshi J, Lane CJ, Trujillo-Priego IA, Deng W, Vanderbilt DL, Loeb GE, Smith BA. Relationships between full-day arm movement characteristics and developmental status in infants with typical development as they learn to reach: An observational study. Gates Open Research. 2018;2.
  6. de Almeida Soares D, von Hofsten C, Tudella E. Development of exploratory behavior in late preterm infants. Infant Behavior and Development. 2012 Dec 1;35(4):912-5.
  7. Atun-Einy O, Berger SE, Scher A. Assessing motivation to move and its relationship to motor development in infancy. Infant Behavior and Development. 2013 Jun 1;36(3):457-69.
  8. 8.0 8.1 Kretch KS, Marcinowski EC, Hsu LY, Koziol NA, Harbourne RT, Lobo MA, Dusing SC. Opportunities for learning and social interaction in infant sitting: Effects of sitting support, sitting skill, and gross motor delay. Developmental Science. 2023 May;26(3):e13318.
  9. 9.0 9.1 Franchak JM. The ecology of infants’ perceptual-motor exploration. Current opinion in psychology. 2020 Apr 1;32:110-4.
  10. 10.0 10.1 Marcinowski EC, Tripathi T, Hsu LY, Westcott McCoy S, Dusing SC. Sitting skill and the emergence of arms‐free sitting affects the frequency of object looking and exploration. Developmental Psychobiology. 2019 Nov;61(7):1035-47.
  11. 11.0 11.1 Dionisio MC, Terrill AL. Constraint-induced movement therapy for infants with or at risk for cerebral palsy: a scoping review. The American Journal of Occupational Therapy. 2022 Mar 1;76(2):7602205120.
  12. 12.0 12.1 12.2 Walker C, Shierk A, Roberts H. Constraint induced movement therapy in infants and toddlers with hemiplegic cerebral palsy: a scoping review. Occupational Therapy In Health Care. 2022 Jan 12;36(1):29-45.
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