This study investigates whether Equine-Assisted Physiotherapy based on Neuro-proprioceptive "Facilitation and Inhibition" (NEUROEQUIP-SMA) can improve movement, posture, breathing, and quality of life in children with spinal muscular atrophy (SMA). This therapy uses the horse's rhythmic movement together with targeted sensory and manual stimulation to trigger natural motor reactions starting from the pelvis, lower the threshold for muscle activation, and support coordinated motor patterns. The study compares this method with standard individual physiotherapy based on the same neuro-proprioceptive facilitation and inhibition principles, but performed without the horse. Twenty children aged 2 to 9 years will receive both therapies in two separate 6-day blocks, in random order (crossover design). The researchers will assess muscle fatigue, coordination, breathing function, movement quality and quantity, quality of life, and changes in selected blood biomarkers. The results may help develop better rehabilitation strategies for children with SMA who are receiving modern pharmacological or gene therapy.
Spinal Muscular Atrophy (SMA) is an autosomal recessive neuromuscular disorder caused by deletions or mutations of the SMN1 gene with retention of its paralog SMN2. Despite recent advances in disease-modifying treatments, SMA remains the leading genetic cause of infant mortality and continues to require multidisciplinary supportive care to achieve optimal outcomes. Physiotherapy is an integral part of this care, helping to maintain mobility, prevent contractures, and enhance quality of life. Historically, physical activity was discouraged in SMA because of concerns that exercise might accelerate motor-neuron degeneration. Subsequent evidence has shown that inactivity contributes to weakness and fatigue, whereas appropriately dosed physical therapy improves postural control, endurance, and respiratory function. Modern rehabilitation therefore emphasizes functional mobility, balance training, and gait rehabilitation. Experimental studies have also demonstrated that specific exercise parameters can activate neuroprotective mechanisms independent of SMN protein expression, suggesting that motor-unit activation itself may support neuronal health. Building on these findings, the present study introduces Equine-Assisted Physiotherapy Based on Neuro-proprioceptive "Facilitation and Inhibition" (NEUROEQUIP-SMA)-an innovative physiotherapeutic approach designed for children with SMA. This method combines the dynamic multisensory input of equine movement with the principles of neuroproprioceptive facilitation and inhibition, in which appropriate afferent stimuli modulate interneuronal excitability to optimize transmission within motor pathways. The technique aims to lower the excitability threshold of motor neurons so that impulses from the central nervous system can effectively induce muscular activation. Similar neurofacilitation strategies are routinely used in Czech neurorehabilitation for patients after stroke or with multiple sclerosis, but their potential in SMA has not yet been systematically studied. The NEUROEQUIP-SMA method is compared with a standard physiotherapy program based on neuroproprioceptive facilitation and inhibition principles delivered in an outpatient setting. Both approaches target postural alignment, trunk stability, and functional motor control. The equine-assisted modality is expected to further enhance outcomes by promoting rhythmic pelvic activation, symmetric weight shifting, coordinated engagement of weakened muscle chains, and improved respiratory patterning through the horse's cyclic movement. The study uses a randomized crossover design to evaluate short-term effects after an intensive six-day program. Primary outcomes include changes in motor function, postural control, and respiratory parameters, complemented by surface electromyography to monitor muscle fatigue. Secondary measures address quality of life, psychomotor development, and parent-reported well-being. As an exploratory molecular component, peripheral blood will be analyzed for selected long non-coding RNAs (lncRNAs) such as SMN-AS1, MALAT1, PARTICLE, MEG3, NEAT1, H19, and GAS5. These transcripts are involved in motor-neuron development and chromatin regulation through PRC2-associated mechanisms. Their expression changes may serve as potential biomarkers reflecting neurophysiological effects of intensive physiotherapy in SMA. The study was reviewed and approved by the Ethics Committee of the Third Faculty of Medicine, Charles University, Prague, Czech Republic. The intervention is short-lasting, low-risk, and non-pharmacological; therefore, a formal Data Monitoring Committee was not required. The findings are expected to contribute to evidence-based recommendations for physiotherapeutic management of SMA and to provide insight into the molecular correlates of motor-function improvement.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
20
Equine-assisted physiotherapy applying the principles of neuro-proprioceptive facilitation and inhibition. Conducted twice daily for 15 minutes over six consecutive days under the supervision of a certified physiotherapist and a trained horse leader. The intervention utilizes the horse's rhythmic, three-dimensional movement to generate dynamic proprioceptive, vestibular, and tactile stimuli that activate physiological postural reactions and coordinated muscle chains. The goal is to improve trunk stability, breathing control, movement symmetry, and functional motor coordination in children with spinal muscular atrophy. The therapy is delivered in a controlled equine environment, using manual facilitation and specific body positioning to modulate neuronal excitability and enhance neuromuscular function.
Standardized outpatient physiotherapy program based on neuro-proprioceptive facilitation and inhibition, performed once daily for 30 minutes over six consecutive days. Delivered by an experienced physiotherapist in a clinical setting, the intervention includes active and assisted movement exercises, breathing techniques, stretching, postural correction, and positioning strategies to prevent contractures, maintain range of motion, and support trunk and respiratory control. The therapy applies targeted afferent stimuli to modulate motoneuron excitability and improve voluntary activation of motor units. The approach follows international standards of SMA rehabilitation, focusing on optimizing postural alignment, movement efficiency, and overall motor performance.
Structured horse-care activity included in both treatment periods to control for psychosocial and environmental effects of horse interaction. Conducted once daily for approximately 20 minutes under therapist supervision, therapeutic grooming involves guided brushing, tactile contact, and communication with the horse in a safe and supportive setting. The activity promotes sensory integration, body awareness, and emotional regulation, while preparing the child for subsequent equine-assisted sessions. Although not a primary therapeutic modality, it standardizes the environmental exposure across study arms and supports comfort, motivation, and engagement in children participating in physiotherapeutic interventions.
Mirákl Hippotherapy Center
Bohuslavice, Czechia
College of Polytechnics Jihlava
Jihlava, Czechia
Department of Medical Genetics, Third Faculty of Medicine, Charles University
Prague, Czechia
Third Faculty of Medicine, Charles University
Prague, Czechia
Children's Hospital of Philadelphia Infant Test of Neuromuscular Disorders
A clinical assessment tool used to evaluate motor function in infants with neuromuscular disorders measures their ability to perform specific movements and assesses the severity of motor impairments. Measurements are recorded during the test and are later evaluated by two independent physiotherapists. Scores range from 0 to 64, with higher scores indicating better motor function.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
Change in Relative Expression of Selected lncRNAs
Relative expression of a predefined panel of long non-coding RNAs (lncRNAs) in peripheral blood, measured by quantitative PCR and normalized to reference genes. For reporting purposes, the mean fold change across the predefined lncRNA panel will be calculated and reported as a single outcome value.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of 28 days from the end of the intervention.
Change in Median Frequency of Surface EMG Signal
Median frequency of the surface electromyography (sEMG) signal recorded from the external oblique abdominal muscle during a standardized repetitive movement task. Lower median frequency values over repeated contractions indicate improved muscle efficiency and reduced fatigue.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
The Trunk Control Measurement Scale (TCMS)
The Trunk Control Measurement Scale (TCMS) is a clinical assessment tool that evaluates trunk control during static and dynamic sitting balance tasks. It measures selective movement control in the trunk and coordination between upper and lower body segments. Although validated primarily in children with cerebral palsy, it is also used to assess postural control in children with other neuromotor disorders such as SMA. The total score ranges from 0 to 58, with higher scores indicating better trunk control.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
The Segmental Assessment of Trunk Control (SATCo)
The Segmental Assessment of Trunk Control (SATCo) is a standardized test designed to identify the highest level of segmental trunk control in sitting. It assesses static, active, and reactive control at seven levels of trunk support. Although originally developed for children with cerebral palsy, it has been used in other pediatric neuromotor populations to evaluate trunk stability and postural development. Scores range from 0 to 20, with higher scores indicating better trunk control.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
Motor Function Measure-20 (MFM-20)
The Motor Function Measure-20 (MFM-20) is a validated quantitative scale assessing motor skills in children with neuromuscular disorders aged 2-7 years. It contains 20 items covering standing, transfer, axial and proximal motor functions, and distal motor control. The total score is expressed as a percentage of the maximum possible score, with higher scores indicating better motor performance. The MFM-20 has been validated in SMA and Duchenne muscular dystrophy and is sensitive to changes over time. Scores range from 0 to 100%, with higher scores indicating better motor function.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
The Functional Reach Test (FRT)
The Functional Reach Test (FRT) is a simple, validated measure of dynamic sitting or standing balance that evaluates the maximal distance an individual can reach forward beyond arm's length while maintaining a fixed base of support. It is a reliable indicator of trunk stability and balance control in children with various neuromotor conditions, including SMA. Longer reach distances indicate better dynamic postural control and balance performance.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
The Selective Control of Lower Extremities (SCALE)
The SCALE test is a standardized clinical test used to assess selective voluntary motor control in the lower extremities. It assesses the ability to isolate joint movements during five tasks for each lower extremity. Each joint movement is scored from 0 to 2, and a higher total score indicates better selective motor control.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
Change in Angle of Trunk Rotation
Angle of trunk rotation (ATR) measured during standardized forward bending in the sitting position. The mean ATR value will be calculated from repeated measurements and reported as a single outcome value.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
Change in Forced Expiratory Volume in One Second (FEV₁)
Forced expiratory volume in one second (FEV₁) measured by standard spirometry. Higher values indicate better pulmonary function.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
Change in Maximum Displacement of Body Markers
Maximum displacement of predefined body markers from their initial position during a standardized reaching task performed in sitting. Greater displacement values indicate improved control of the center of gravity.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
Change in Abdominal Breathing Index
Abdominal breathing index calculated as the ratio of marker displacement at the lumbar level (L4) to displacement at the thoracic level during deep breathing. Higher values indicate a greater contribution of abdominal breathing.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
Change in Duration of Coordinated Trunk and Cervical Spine Movement
Duration of coordinated trunk and cervical spine movement during a standardized repetitive upper limb task performed in sitting. Longer durations without compensatory cervical spine extension indicate improved coordination.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 6-day intervention.
Quality of life questionnaire
Parents of children with SMA will complete a special questionnaire at the beginning and 28 days after the end of the rehabilitation. The ICF score set, specifically the ICF-based Documentation Form for the category "Children with Cerebral Palsy Brief" (for children under 6 years old), will be used to evaluate the quality of life. A Higher scores indicate better functioning and quality of life.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of 28 days from the end of the intervention.
Pediatric Quality of Life Inventory Generic Core Scales (PedsQL™)
The assessment tool, designed to evaluate health-related quality of life in children, consists of 23 items across four domains (physical, emotional, social, and school functioning). It is used to monitor longitudinal changes in perceived quality of life and to evaluate the effectiveness of clinical and rehabilitative interventions. Scores range from 0 to 100, with higher scores indicating better health-related quality of life.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of 28 days from the end of the intervention.
Change in Video-Based Motor Function Score
Motor function score derived from standardized evaluation of home video recordings by two independent physiotherapists. The score reflects the quality and extent of the child's movement. Scores range from 1 to 21, with higher scores indicating better motor function.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of 28 days from the end of the intervention.
Strengths and Difficulties Questionnaire (SDQ)
The SDQ is a widely used behavioral screening tool assessing psychological attributes across five domains: emotional symptoms, conduct problems, hyperactivity/inattention, peer relationship problems, and prosocial behavior. It is suitable for children aged 2 to 17 years and provides a Total Difficulties Score reflecting overall psychosocial well-being. Although originally validated in the general pediatric population, it has been successfully applied in children with chronic or neuromuscular disorders to assess emotional and social adaptation related to health status. Scores range from 0 to 40, with higher scores indicating greater behavioral and emotional difficulties.
Time frame: Baseline measurement before the start of the 6-day intervention, follow-up measurement after the end of the 28-day intervention.
Change in Peak Expiratory Flow (PEF)
Peak expiratory flow (PEF) measured by standard spirometry. Higher values indicate better pulmonary function.
Time frame: Baseline measurement before the start of the 6-day intervention and follow-up measurement after the end of the 6-day intervention.
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