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| ID | Type | Description | Link |
|---|---|---|---|
| T1017-B27 | Other Grant/Funding Number | FWF Austrian Science Fund |
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| Name | Class |
|---|---|
| VU University of Amsterdam | OTHER |
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The primary aim of this study is to gain knowledge about both the effects of a single bout of static and proprioceptive neuromuscular facilitation (PNF) stretching and the effects of 8-week static and PNF stretching training on the calf muscle-tendon properties in children with spastic cerebral palsy (SCP). Furthermore, the effects on joint and muscle function, stretch reflexes, gait, and self-reported gait function and functional performance are examined to receive a comprehensive picture of potential changes.
Further aims of this study are to identify which stretching technique might be more efficient by comparing the effects of both stretching interventions, and to gain information about the influence of foot flexibility on the stretch achieved by the spastic gastrocnemius muscle.
Background: Spastic cerebral palsy (SCP) is a non-progressive neuro-muscular disorder in children resulting from an injury in the central nervous system. Individuals with SCP present with impairments such as hyperreflexia, demonstrate impaired motor control and muscle growth. Manual stretching is an important approach in the physical therapy of individuals with SCP used to increase muscle extensibility and length, decrease muscle stiffness, and to improve functional abilities. However, there are only a few studies that have examined its acute and long-term effects in children with SCP and it is still not clear, if it may lead to the expected changes, and which method might be the most-effective one. Besides static stretching, proprioceptive neuromuscular facilitation (PNF) stretching has been used to aid the rehabilitation of, for example, stroke patients by either facilitating muscle elongation and/or improving muscle strength. Positive effects were found (e.g., increased dorsiflexion, improved gait function, altered tendon properties), which are also clinically relevant for individuals with SCP. However, there is no information about the impact of PNF in this population.
Aims: The primary aim of this study is to gain knowledge about both the effects of a single bout of static and PNF stretching and the effects of 8-week static and PNF stretching training on the calf muscle-tendon properties in children with SCP. Furthermore, the effects on joint and muscle function, stretch reflexes, gait, and self-reported gait function and functional performance are examined to receive a comprehensive picture of potential changes. Further aims of this study are to identify which stretching technique might be more efficient by comparing the effects of both stretching interventions, and to gain information about the influence of foot flexibility on the stretch achieved by the spastic gastrocnemius muscle-tendon unit.
Methods: A randomized controlled trial with a cross-over design will be performed. Prior to the measurements, a familiarization session takes place and both groups will further be examined in three separate measurement sessions. Based on a power calculation and in order to account for possible dropouts, 30 individuals with SCP (age range: 6 to 15 years) will be recruited. The participants will be randomly allocated to either the static stretching or PNF stretching intervention after the familiarization session. Passive muscle-tendon morphological properties will be examined. A manually controlled instrumented spasticity assessment will be performed to test for differences in the reflex responses. Information about the lengthening behavior of the tissues throughout the dorsiflexion rotations will also be collected by use of ultrasound. Isometric muscle strength and the active torque-angle relationship will be investigated using an isokinetic dynamometer. To assess the gait pattern of the children, a gait analysis will be performed by use of an 8-camera motion capture system. In addition, we will examine the participants' gait function and functional performance by use of the Gait Outcomes Assessment List questionnaire.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Static stretching | Experimental | An 8-week home-based static stretching training for the calf muscles will be performed by group A. Altogether, 10 stretches are performed per leg 4 times a week. |
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| Control | No Intervention | While group A performs the 8-week static stretching training, group B acts as control group performing its daily life activities as usual. | |
| Proprioceptive neuromuscular facilitation stretching | Experimental | After group A has finished the 8-week static stretching training, group B starts with the 8-week home-based proprioceptive neuromuscular facilitation stretching training. Altogether, 10 stretches are performed per leg 4 times a week. |
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| Follow-up | No Intervention | While group B performs the 8-week proprioceptive neuromuscular facilitation stretching, group A is in its follow-up period performing its daily life activities as usual. |
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Static stretching | Other | During the static stretching training for the calf muscles, the ankle joint is moved into maximal dorsiflexion until the point of discomfort is reached. The ankle joint is then held in this maximal position for 30 s followed by a rest period of 30 s. Afterwards, the procedure is repeated with the knee in flexed position to stretch the soleus muscle. |
| Measure | Description | Time Frame |
|---|---|---|
| Change in mechano-morphological muscle-tendon properties | Gastrocnemius medialis muscle morphology, muscle stiffness, tendon-aponeurosis length and stiffness, muscle-tendon unit length and stiffness, elongations of the tissues | baseline (T1), post-measurement (T2, 8 weeks), follow-up measurement (T3, 16 weeks) |
| Change in spasticity/stretch hyperreflexia | Stretch reflex responses assessed by a manually controlled instrumented spasticity assessment | baseline (T1), post-measurement (T2, 8 weeks), follow-up measurement (T3, 16 weeks) |
| Change in joint range of motion | Ankle joint range of motion (maximal plantarflexion - maximal dorsiflexion) | baseline (T1), post-measurement (T2, 8 weeks), follow-up measurement (T3, 16 weeks) |
| Change in active moment-angle relationship | Maximum isometric voluntary contractions at specific ankle joint angles (isokinetic dynamometry) | baseline (T1), post-measurement (T2, 8 weeks), follow-up measurement (T3, 16 weeks) |
| Measure | Description | Time Frame |
|---|---|---|
| Change in gait characteristics | Gait kinematics of the hip, knee, and ankle joints, gait kinetics (3D motion capture) | familiarisation session (T0, 1-week before T1), post-measurement (T2, 8 weeks), follow-up measurement (T3, 16 weeks) |
| Change in self-reported gait, mobility, and functional performance |
| Measure | Description | Time Frame |
|---|---|---|
| Foot flexibility | Foot flexibility assessment by use of a gonio-dynamometer | familiarisation session (T0, 1 week before baseline assessment) |
Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Annika Kruse, Dr.rer.nat. | University of Graz, Institute of Human Movement Science, Sport and Health | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Institute of Human Movement Science, Sport and Health; University of Graz | Graz | 8010 | Austria |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 24855614 | Background | Lee WY, Park GY, Kwon DR. Comparison of treatment effects between children with spastic cerebral palsy under and over five years after botulinum toxin type a injection. Ann Rehabil Med. 2014 Apr;38(2):200-8. doi: 10.5535/arm.2014.38.2.200. Epub 2014 Apr 29. | |
| 29573407 | Background | Willerslev-Olsen M, Choe Lund M, Lorentzen J, Barber L, Kofoed-Hansen M, Nielsen JB. Impaired muscle growth precedes development of increased stiffness of the triceps surae musculotendinous unit in children with cerebral palsy. Dev Med Child Neurol. 2018 Jul;60(7):672-679. doi: 10.1111/dmcn.13729. Epub 2018 Mar 24. |
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It is yet not decided if individual data will be shared with other researchers.
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| ID | Term |
|---|---|
| D002547 | Cerebral Palsy |
| D009128 | Muscle Spasticity |
| ID | Term |
|---|---|
| D001925 | Brain Damage, Chronic |
| D001927 | Brain Diseases |
| D002493 | Central Nervous System Diseases |
| D009422 | Nervous System Diseases |
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| ID | Term |
|---|---|
| D052580 | Muscle Stretching Exercises |
| ID | Term |
|---|---|
| D005081 | Exercise Therapy |
| D012046 | Rehabilitation |
| D000359 | Aftercare |
| D003266 | Continuity of Patient Care |
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| Proprioceptive neuromuscular facilitation stretching | Other | During the proprioceptive neuromuscular facilitation stretching, the ankle joint is moved into maximal dorsiflexion. While the foot is kept in this position, the child will perform a (sub-) maximal isometric contraction of the plantar flexors against the resistance of their parents. Afterwards, the ankle joint will be moved further into greater dorsiflexion and is held there for the remaining seconds followed by 30 s of rest. Subsequently, the stretch will be applied with the knee flexed. |
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Gait Outcomes Assessment List (GOAL) questionnaire |
| familiarisation session (T0, 1-week before T1), post-measurement (T2, 8 weeks), follow-up measurement (T3, 16 weeks) |
| Change in maximal isometric muscle strength | Maximal isometric torque production (isokinetic dynamometry) | baseline (T1), post-measurement (T2, 8 weeks), follow-up measurement (T3, 16 weeks) |
| 22867763 | Background | Barber L, Barrett R, Lichtwark G. Medial gastrocnemius muscle fascicle active torque-length and Achilles tendon properties in young adults with spastic cerebral palsy. J Biomech. 2012 Oct 11;45(15):2526-30. doi: 10.1016/j.jbiomech.2012.07.018. Epub 2012 Aug 3. |
| 18480717 | Background | Wiart L, Darrah J, Kembhavi G. Stretching with children with cerebral palsy: what do we know and where are we going? Pediatr Phys Ther. 2008 Summer;20(2):173-8. doi: 10.1097/PEP.0b013e3181728a8c. |
| 17052131 | Background | Sharman MJ, Cresswell AG, Riek S. Proprioceptive neuromuscular facilitation stretching : mechanisms and clinical implications. Sports Med. 2006;36(11):929-39. doi: 10.2165/00007256-200636110-00002. |
| 27895574 | Background | Zhou Z, Sun Y, Wang N, Gao F, Wei K, Wang Q. Robot-Assisted Rehabilitation of Ankle Plantar Flexors Spasticity: A 3-Month Study with Proprioceptive Neuromuscular Facilitation. Front Neurorobot. 2016 Nov 14;10:16. doi: 10.3389/fnbot.2016.00016. eCollection 2016. |
| 25570183 | Background | Zhou Z, Zhou Y, Wang N, Gao F, Wang L, Wei K, Wang Q. Changes of Achilles tendon properties via 12-week PNF based robotic rehabilitation of ankle joints with spasticity and/or contracture. Annu Int Conf IEEE Eng Med Biol Soc. 2014;2014:1214-7. doi: 10.1109/EMBC.2014.6943815. |
| 37329655 | Derived | Kruse A, Habersack A, Weide G, Jaspers RT, Svehlik M, Tilp M. Eight weeks of proprioceptive neuromuscular facilitation stretching and static stretching do not affect muscle-tendon properties, muscle strength, and joint function in children with spastic cerebral palsy. Clin Biomech (Bristol). 2023 Jul;107:106011. doi: 10.1016/j.clinbiomech.2023.106011. Epub 2023 Jun 7. |
| D009135 | Muscular Diseases |
| D009140 | Musculoskeletal Diseases |
| D009122 | Muscle Hypertonia |
| D020879 | Neuromuscular Manifestations |
| D009461 | Neurologic Manifestations |
| D012816 | Signs and Symptoms |
| D013568 | Pathological Conditions, Signs and Symptoms |
| D005791 |
| Patient Care |
| D013812 | Therapeutics |
| D026741 | Physical Therapy Modalities |
| D015444 | Exercise |
| D009043 | Motor Activity |
| D009068 | Movement |
| D009142 | Musculoskeletal Physiological Phenomena |
| D055687 | Musculoskeletal and Neural Physiological Phenomena |