Effects of Motor Skill-Based Training on Wheelchair Propulsion Biomechanics in Older Adults: A Randomized Controlled Trial.

OBJECTIVE: To identify whether motor skill-based training improves wheeling biomechanics in older adults and whether transfer or retention occurs. DESIGN: Randomized controlled trial. SETTING: Human mobility laboratory. PARTICIPANTS: Able-bodied older adults 50 years and older deemed ready to participate in physical activity (N=34). INTERVENTION: Participants were randomized to 1 of 3 groups: experimental group with 6 motor skill-based training sessions, active control group with dose-matched uninstructed practice, and the inactive control group (no training or practice). The experimental group's training sessions consisted of two 5-minute blocks of wheelchair propulsion training, separated by a 5-minute break, for a total of 60 minutes of wheeling. Breaks included education and discussion related to wheelchair propulsion. Training focused on increasing push angle, decreasing push frequency, decreasing negative braking forces, and using a circular wheeling pattern with smooth pushes. MAIN OUTCOME MEASURES: Temporal spatial and kinetic variables (ie, push angle, push frequency, total and tangential forces, negative force) were evaluated during steady-state wheeling and biomechanical variables were assessed with the SmartWheel Clinical Protocol to identify transfer. RESULTS: The training group significantly increased push angle and decreased push frequency compared with the practice (P<.05) and control groups (P<.05), which were retained over time and transferred to overground wheeling on tile (P≤.05). The dose-matched practice group did not differ from the inactive control group for any variables (P>.05). CONCLUSIONS: Older adults improve select biomechanical variables following motor skill-based training, which are retained over time and transfer to overground wheeling. Participants in the active control group did not improve with uninstructed practice compared with the inactive control group.

Rehabilitation across the lifespan for individuals with arthrogryposis.

Arthrogryposis multiplex congenita (AMC) can be a perplexing diagnosis that consists of limited range of motion (ROM) and decreased muscle strength in multiple joints. The person with AMC often possesses a certain tenacity and "spunk" that assists them with adjusting and adapting to the realities of daily life. The rehabilitation process assists the individual with AMC in achieving and maintaining the maximal active and passive range of motion and strength in order to participate in activities of daily living (ADL) throughout the developmental stages. The result of this life-long process is greatly impacted by collaboration among the multidisciplinary teams. Ultimately, rehabilitation should focus on three levels of treatment: (a) body structure, (b) activity, and (c) participation. This article describes rehabilitation across the lifespan-focusing on the therapeutic needs in the infant, toddler, school age and teenage/adult years-while also highlighting opportunities for improvement.

Age-related changes to wheelchair efficiency and sprint power output in novice able-bodied males.

This study examined the effect of age on sub-maximal wheelchair propulsion efficiency and sprint power output (SPO) in inexperienced able-bodied males. Two age groups were used for this study: a younger adult group (N = 10; mean age 24.8 ± 3.0 years) and an older adult group (N = 8; mean age 70.9 ± 5.2 years). No one had prior manual wheelchair experience. The primary outcome measures were gross mechanical efficiency (GME), mechanical effectiveness (ME) during sub-maximal treadmill wheeling and SPO during a max sprint test. There were no significant differences in GME; however, there was a significant difference in ME [0.74 ± 0.12 and 0.62 ± 0.08 (p = 0.007)] and sprint test [SPO = 224.66 ± 79.25 and 125.98 ± 53.02 (W) (p = 0.008)], for younger and older adults, respectively. Healthy, active older individuals can have a physiological capacity similar to younger populations to wheel sub-maximally, but their ME and lower SPO reduce the ability to propel manual wheelchairs during maximal wheeling. PRACTITIONER SUMMARY: Understanding the potential for older adults to propel wheelchairs is important as the population ages with disabilities. This study demonstrated significantly lower ME but not GME in older versus younger adult populations. Strength training may be needed to keep older adults active in manual wheelchairs.

Test-retest reliability and minimal detectable change of the SmartWheel clinical protocol.

OBJECTIVES: (1) To quantify the intra- and intersession reliability and minimal detectable change (MDC) of the SmartWheel clinical protocol (SCP) and (2) to compare the reliability of the SCP between experienced and naïve wheelchair users. DESIGN: Test-retest study. SETTING: Biomechanics laboratory. PARTICIPANTS: Manual wheelchair users (WCUs) (n=10) with 1 to 32 years of wheeling experience and able-bodied (AB) naïve users (n=15). INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Wheelchair propulsion parameters including average peak force, push frequency, push length, and velocity were measured according to the SCP but with 5 trials per session, for 2 sessions. WCUs and AB users were analyzed separately. Intraclass correlation coefficients ([ICC](2,1) and ICC(2,5)) were calculated to assess intrasession reliability. ICC(2,1) and MDC (with 95% confidence) were calculated for each SCP parameter using a single trial from each session and with the mean of 5 repeated measures to evaluate intersession reliability. RESULTS: Intra- and intersession reliability for WCU parameters ranged from high to very high correlation (ICC range, .70-.99). For AB parameters, intrasession ICC(2,1) ranged from moderate to very high (ICC range, .50-.92), while intersession ICC(2,1) indicated low to very high correlation (ICC range, .25-.90). Estimates of standard error of measurement and MDC were provided for each parameter. For both WCUs and AB users, using the means from 5 trials increased intra- and intersession ICC and decreased MDC values. All MDC values were lower for WCUs compared with AB users. CONCLUSIONS: The SCP is a reliable method for assessing propulsion parameters in WCUs, even if just 1 trial is taken per session. AB users showed lower intra- and intersession reliability compared with WCUs. Therefore, for AB users or individuals with minimal wheeling experience, averaging multiple trials is recommended for the SCP.

The Effect of External Power Output and Its Reliability on Propulsion Technique Variables in Wheelchair Users With Spinal Cord Injury.

The purpose of this study was to assess 1) how treadmill slope variance affected external power output (PO) and propulsion technique reliability; and 2) how PO is associated with propulsion technique. Eighteen individuals with spinal cord injury performed two wheelchair treadmill exercise blocks (0% and 1% treadmill slope, standardized velocity) twice on two separate days. PO, velocity, and 14 propulsion technique variables were measured. In a follow-up study, N = 29 performed wheelchair treadmill drag tests. Target and actual slope were documented and PO, intraclass correlation coefficients (ICC) and smallest detectable differences (SDD) were calculated. Within and between visits, the reliability study ICCs were perfect for velocity (1.0), weak for PO (0.33-0.46), and acceptable (>0.70) for five (0% slope) and 10 (1% slope) propulsion technique variables, resulting in SDDs of 35-196%. Measured PO explained 56-90% of the variance in key propulsion technique variables. In the follow-up, PO ICCs were weak (0.43) and SDDs high. Bias between target and actual slope appeared random. In conclusion, PO variability accounts for 50-90% of the variability in propulsion technique variables when speed and wheelchair set-up are held constant. Therefore, small differences in PO between interventions could mask the effect of the interventions on propulsion technique.

Efficiency and perceived exertion of manual wheelchair propulsion: a physiological comparison of push vs pull wheeling.

Manual wheelchair users face a high prevalence of upper extremity pain and injuries associated with poor biomechanics and the relatively low mechanical efficiency of conventional push wheeling. Recently developed geared wheels, which permit the wheelchair user to propel forwards by pulling at the handrims using a 'rowing' motion, have been speculated to improve ergonomics and reduce operational energy costs. This study compared the gross mechanical efficiency (GME) and perceived exertion (RPE) of these geared wheels to standard wheelchair wheels after a motor skill-based training session was conducted to familiarise participants with using both wheels. Fourteen able-bodied males were enrolled in the study. A within-participants, repeated-measures design was used to assess oxygen uptake (VO2), respiratory exchange ratio (RER), energy expenditure (En) and RPE during 5-minute, steady-state wheeling trials. Total external power output (Pext) was obtained using a drag test protocol for comparison over En to determine GME ratio. Stroke frequency and movement pattern were assessed through video tracking and propulsion testing. Although geared wheels required fewer strokes, standard wheels resulted in significantly lower VO2, RPE and En (p ≤ 0.001). These findings suggest overall that standard wheels were more mechanically efficient, likely due to internal energy loss of the geared wheel system.

Injuries Associated with Crutch Use: A Narrative Review.

Crutches are commonly prescribed in physiatric settings to help offload the lower extremities. Crutch use, however, results in abnormal and repetitive weight-bearing through the upper extremities that may result in secondary injury. This narrative review investigates injury types and risk factors associated with crutch use in order to guide healthcare providers on injury prevention strategies. Medline, EMBASE, CINAHL, and the Cochrane Library were systematically reviewed for publications between 1950 and 2018 on neurological, musculoskeletal, or vascular complications associated with crutch use. Titles and abstracts (n = 2395) were screened by two authors. Sixty studies were eligible. Articles were reviewed for level of evidence, crutch type, participant characteristics, and injury characteristics. There were 42 axillary crutch studies, 12 forearm crutch studies, and 6 studies that did not specify crutch type. These studies incorporated 622 individuals, and most were case series or case reports (n = 54). Axillary crutch use was most commonly associated with axillobrachial arterial complications due to pressure from the axillary bar (n = 34). Forearm crutch use was most commonly associated with compressive neuropathies due to pressure from the forearm cuff (n = 6). Improper crutch fitting and/or use were identified as contributing factors to injury in 22 cases. Duration of crutch use and medical comorbidities also influenced the types of injuries seen. There are rare but potentially serious complications associated with crutch use. When prescribing crutches, clinicians should ensure they are properly fit, engage in appropriate gait training, be aware of common crutch-related injuries, and consider potential patient-specific injury risk factors in order to minimize injury risk.

Implementing a self-management mobile app for spinal cord injury during inpatient rehabilitation and following community discharge: A feasibility study.

Objective: To determine the feasibility of implementing and evaluating a self-management mobile app for spinal cord injury (SCI) during inpatient rehabilitation and following community discharge. Design: Pilot feasibility study. Setting: Rehabilitation hospital and community. Participants: Inpatients from rehabilitation hospital following admission for their first SCI. Intervention: A mobile app was developed to facilitate self-management following SCI. The app consisted of 18 tools focusing on goal setting, tracking various health aspects, and identifying confidence regarding components of self-management. In-person training and follow-up sessions were conducted during inpatient rehabilitation and follow-up calls were provided after participants were discharged into the community. Main outcome measures: Participants completed outcome measures at baseline, community discharge, and 3-months post discharge. This study focused on feasibility indicators including recruitment, retention, respondent characteristics, adherence, and app usage. Additionally, participants' self-management confidence relating to SCI (e.g. medication, skin, bladder, pain) was evaluated over time. Results: Twenty participants (median age 39, IQR: 31 years, 85% male) enrolled in the study. Participants' Spinal Cord Injury Independence Measure (SCIM-III) median score was 23 and IQR was 33 (range: 7-84), which did not correlate with app usage. Retention from admission to discharge was 85% and 70% from discharge to 3-months post discharge. Individuals in the study who used the app entered data an average of 1.7x/day in rehabilitation (n = 17), and 0.5x/day in the community (n = 7). Participants' bowel self-management confidence improved between admission and discharge (P < 0.01). Conclusions: Feasibility indicators support a larger clinical trial during inpatient rehabilitation; however, there were challenges with retention and adherence following community discharge.

Preliminary outcomes of the SmartWheel Users' Group database: a proposed framework for clinicians to objectively evaluate manual wheelchair propulsion.

OBJECTIVES: To describe a standard clinical protocol for the objective assessment of manual wheelchair propulsion; to establish preliminary values for temporal and kinetic parameters derived from the protocol; and to develop graphical references and a proposed application process for use by clinicians. DESIGN: Case series. SETTING: Six research institutions that collect kinetic wheelchair propulsion data and contribute that data to an international data pool. PARTICIPANTS: Subjects with spinal cord injury (N=128). INTERVENTIONS: Subjects propelled a wheelchair from a stationary position to a self-selected velocity across a hard tile surface, a low pile carpet, and up an Americans with Disabilities Act-compliant ramp. Unilateral kinetic data were obtained from subjects using a force and moment sensing pushrim. MAIN OUTCOME MEASURES: Differences in self-selected velocity, peak resultant force, push frequency, and stroke length across all surfaces, relationship between (1) weight-normalized peak resultant force and self-selected velocity and (2) push frequency and self-selected velocity. RESULTS: Graphical references were generated for potential clinical use based on the relation between body weight-normalized peak resultant force, push frequency, and velocity. Self-selected velocity decreased (ramp < carpet < tile), peak resultant forces increased (ramp > carpet > tile), and push frequency and stroke length remained unchanged when compared across the different surfaces. Weight-normalized peak resultant force was a significant predictor of velocity on tile and ramp. Push frequency was a significant predictor of velocity on tile, carpet, and ramp. CONCLUSIONS: We present preliminary data generated from a clinically practical manual wheelchair propulsion evaluation protocol and we describe a proposed method for clinicians to objectively evaluate manual wheelchair propulsion.

Exploring the ecological validity and variability of a 10-min bout of wheeling.

PURPOSE: To determine the ecological validity of using able-bodied participants to perform a 10-min wheeling trial by (1) evaluating changes in biomechanics over the trial in manual wheelchair users and able-bodied participants naïve to wheeling and (2) describing differences in changes and variability between groups. MATERIALS AND METHODS: Manual wheelchair users (n = 7, 2-27 years' experience) and able-bodied participants (n = 11) wheeled for 10 min. Kinetic and temporal variables were collected and averaged over each minute, while wheeling strategy (movement pattern) was categorized at minutes 1 and 10. RESULTS: There was a main effect of time for push angle, and a main effect of group for average push angle, tangential force and total force. Manual wheelchair users used larger push angles and forces compared to able-bodied participants. Surprisingly, intercycle variability did not differ between groups. CONCLUSION: Using able-bodied participants to represent manual wheelchair users performing a 10-min wheeling trial is not ecologically valid and caution should be used when interpreting push angle and forces applied to the pushrim. Considering that push angle was the only variable that demonstrated a main effect of time, long durations (e.g., 10 min) of wheeling may be appropriate for use in study designs acknowledging potential changes in wheeling strategy and push angle. Implications for Rehabilitation Some experienced wheelchair users and non-wheelchair users modify their movement pattern from an arc to a circular pattern within a 10-min wheeling trial. There are clear biomechanical differences in push angle and forces applied to the pushrim between wheelchair users with experience and able-bodied non-wheelchair users. Able-bodied participants who have no prior manual wheeling experience are no more variable than long-term wheelchair users. Variability may play an important role in wheelchair propulsion.

The effect of caster types on global rolling resistance in manual wheelchairs on indoor and outdoor surfaces.

An important aspect of reducing the strain of wheeling is to decrease rolling resistance. Previous laboratory research, using a treadmill, determined that smaller casters significantly increased rolling resistance. The purpose of this study was to determine the effect of caster size on various indoor and outdoor surfaces on global wheelchair rolling resistance. Three caster types with sizes 4 in, 5 in, and 6 in, three indoor surfaces, and three outdoor surfaces were studied. A manual wheelchair was passively pulled along each surface at 1.11 m/s (3.64 ft/s) by a power wheelchair, and the global rolling resistance of the manual wheelchair was measured using a calibrated force transducer. A 3×3 repeated measures analysis of variance (ANOVA) was conducted for both indoor and outdoor environments. The 4-in casters resulted in the highest global rolling resistance on most surfaces. The 5-in casters had the least rolling resistance on most indoor surfaces, and the 6-in casters had the least rolling resistance on most outdoor surfaces. Although 4-in casters are more popular among active wheelchair users, larger casters were shown to have lower rolling resistance on most surfaces. This study may help users select the best caster size depending upon their daily activities and lifestyle.

Goal satisfaction improves with individualized powered wheelchair skills training.

PURPOSE: To determine improvements in goal satisfaction following individualized mobility-related powered wheelchair skills training and whether changes in satisfaction are maintained 3 months post-training. MATERIALS AND METHODS: Seventeen powered wheelchair users, from two centres, who were randomized to the training intervention from a larger multicentre study, were included in this secondary analysis. The intervention consisted of five 30-min individualized Wheelchair Skills Training Program sessions. Participants rated their current satisfaction with each of their goals from 0 to 10 (10 being the highest) prior to training, immediately after the intervention, and approximately 3 months following the intervention. Themes relating to the participants' goals were also explored. RESULTS: Goal satisfaction scores improved statistically (p < .001) from baseline (4.7 ± 1.9) to immediately following training (8.0 ± 1.0) and were maintained 3 months (8.3 ± 1.2) following the intervention. Participants' goal satisfaction scores were not significantly correlated with goal attainment scores recorded by the trainer (r = 0.387, n = 17, p = .125). The majority of goals set fell into the broader "manoeuvring" category. CONCLUSION: Goal satisfaction following the Wheelchair Skills Training Program improved years after initially learning how to operate a powered wheelchair. The five training sessions were effective in improving goal satisfaction. The quantification of goal satisfaction appears to be a sensitive outcome for powered wheelchair users undergoing mobility-related training. Implications for rehabilitation Goal satisfaction improved following the Wheelchair Skills Training Program. Even with years of powered wheelchair experience, the majority of goals set fell into the broader "manoeuvring" category. An individual's goal satisfaction may not correlate with whether they have attained their goal as determined by a trainer.

Prevalence of shoulder pain in adult- versus childhood-onset wheelchair users: a pilot study.

Shoulder pain is a common overuse problem in long-term adult wheelchair users. The current study examined whether the prevalence of shoulder pain in adult wheelchair users who began using their wheelchairs during childhood (childhood-onset [CH-O] group) is similar to those who began using their wheelchairs as adults (adult-onset [AD-O] group). We compared 31 CH-O and 22 AD-O wheelchair users using the Wheelchair User's Shoulder Pain Index (WUSPI), an overall pain score (Brief Pain Inventory), and a lifestyle questionnaire to determine frequency and duration of physical activity. Shoulder pain (WUSPI) was greater in the AD-O wheelchair users compared with the CH-O group (p < 0.008), even though their general lifestyles were not different. The immature skeleton can possibly respond to the repetitive forces of wheeling better than that of those who begin using a wheelchair once their skeletal structure is completely developed.

Comparison of wheelchair wheels in terms of vibration and spasticity in people with spinal cord injury.

A wheelchair undergoes vibrations while traveling over obstacles and uneven surfaces, resulting in whole body vibration of the person sitting in the wheelchair. According to clinicians, people with spinal cord injury (SCI) report that vibration evokes spasticity. The relatively new Spinergy wheelchair wheels (Spinergy, Inc; San Diego, California) are claimed to absorb more road shock then conventional steel-spoked wheelchair wheels. If this claim is true, this wheel might also reduce spasticity in people with SCI. We hypothesized that Spinergy wheels would absorb vibration, reduce perceived spasticity, and improve comfort in individuals with SCI more than standard steel-spoked wheels. To test this hypothesis, 22 nondisabled subjects performed a passive ramp test so that we could more closely examine the dampening characteristics of the Spinergy versus traditional wheels. Furthermore, 13 subjects with SCI performed an obstacle test with both wheel types. Vibrations were measured with accelerometers, and spasticity and comfort were assessed with subject-reported visual analog scales. The results of the study showed that, within the current experimental setup, the Spinergy wheels neither reduced vibration or perceived spasticity nor improved comfort in people with SCI more than the conventional steel-spoked wheels.

Effects of camber on wheeling efficiency in the experienced and inexperienced wheelchair user.

The objective of this study was to determine whether energy costs differed between 0 degrees , 3 degrees , and 6 degrees of camber during steady state overground wheeling. Three subject groups were examined: experienced wheelchair users with disabilities (thoracic lesion level 6 and below), nondisabled individuals with manual wheeling experience, and nondisabled individuals with no manual wheeling experience. Heart rate, rating of perceived exertion, visual analog scale for comfort, and a user preference questionnaire were collected for all subjects. Expired gas analysis data were collected for the group with disabilities. No statistically significant differences emerged in respiratory measures for camber angle or group. A camber of 6 degrees was most preferred in terms of stability on a side slope, hand comfort on the pushrims, maneuverability, and overall preference. Rear-wheel camber angle did not affect the energy expenditure of manual wheelchair propulsion, as measured by cardiopulmonary means. The individual manual wheelchair user's perceived level of comfort should be the determining factor in rear-wheel camber selection.

A clinicoradiologic study of the shoulder in Apert syndrome.

UNLABELLED: To provide a comprehensive radiographic, clinical, and functional description of the shoulder in Apert syndrome. METHODS: A cohort of 9 Apert syndrome patients (ages, 9-27 years) followed at a tertiary care facility was included in this prospective study. Patients were clinically assessed with physical examination and completion of 2 validated functional assessment tools, the Shoulder Pain and Disability Index (SPADI) and American Academy of Orthopaedic Surgeons Pediatric Outcomes Data Collection Instrument (AAOS PODCI). Radiographs were obtained of both shoulders, and standardized-protocol magnetic resonance imaging was performed on the dominant shoulder of all participants. RESULTS: All patients had some degree of functional impairment attributable to their shoulder pathologic abnormality. Physical examination consistently revealed reduced forward flexion and abduction. Radiographic findings were similar to previous reports, with pervasive osseous dysplasia of the shoulder joint. Medial humeral head hypoplasia was seen in 8 of 9 patients and greater tuberosity overgrowth in 7 of 9 patients. Magnetic resonance imaging of the shoulder, not previously performed in a cohort of Apert patients, allowed better delineation of abnormalities seen radiographically such as a central glenoid cleft seen in 8 of 9 patients. It also revealed a new finding of inferior glenoid inclination (7/9 patients) that has not been described in the literature. Very few soft tissue or degenerative abnormalities were demonstrated. CONCLUSIONS: The findings of this study confirm that patients with Apert syndrome are functionally impaired by their shoulder pathologic abnormality, which may have a similar clinical impact as the more well-described hand and foot anomalies. The global functioning of patients with Apert syndrome is equivalent to patients with juvenile rheumatoid arthritis. The shoulder range of motion in Apert patients is decreased, most significantly in flexion and abduction. Radiographs confirmed previous imaging findings of glenohumeral dysplasia. The novel magnetic resonance imaging component demonstrated consistent inferior glenoid inclination, which may be a significant factor in their shoulder impairment. Magnetic resonance imaging revealed no significant soft tissue or degenerative abnormalities to account for their clinical disability. These findings have potential relevance in the surgical and clinical management of these patients. LEVEL OF EVIDENCE: Level IV.

Wheeling efficiency: the effects of varying tyre pressure with children and adolescents.

PURPOSE: Clinicians often observe child wheelchair users wheeling on tyres that are not inflated to manufacturer's recommendations. The purpose of this study was to investigate changes in energy expenditure that are related to decreased tyre pressure. METHODS: A within subject repeated measures design was used to assess the energy requirements of wheeling with four randomized tire inflation levels (25, 50, 75 and 100% of recommended tire pressure, 100 psi). All 10 subjects (mean age 14.2 +/- 2.3 years completed four 5-minute trials (one for each tyre pressure), while wheeling at a constant, self-selected velocity. Heart rate and wheeling velocity were measured. RESULTS: There was no change in wheeling velocity with changes in tyre pressure; however, energy expenditure was found to increase by over 15% with decreasing tyre pressure (p < 0.05). CONCLUSIONS: In order for children to minimize their energy expenditure and, thus, improve their independence, clinicians and parents must be educated as to the importance of regular wheelchair tyre inflation regimes.

A comparison of spinergy versus standard steel-spoke wheelchair wheels.

OBJECTIVES: To compare the energy efficiency of straight-line wheeling using Spinergy wheels as compared with standard steel-spoke wheels, and to assess the 2 wheels in terms of user comfort and wheeling preference during a wheeling course with multiple turns and surfaces. DESIGN: Nonblinded randomized crossover trial. SETTING: Rehabilitation center. PARTICIPANTS: Twenty persons with paraplegia (neurologic level T6 and below). INTERVENTION: Wheeling a straight line and obstacle course with Spinergy or standard spoke wheelchair wheels. MAIN OUTCOME MEASURES: Velocity and Physiological Cost Index (PCI) while wheeling over ground at a self-selected pace, and the User Preference Questionnaire after wheeling an obstacle course, using Spinergy or standard spoke wheelchair wheels. RESULTS: There was no significant difference in wheeling energy efficiency between the Spinergy and the steel-spoke wheels as measured by PCI ( P =.975). When rated for overall comfort, the Spinergy wheels were preferred over steel-spoke wheels ( P =.002). CONCLUSIONS: Spinergy wheels provided a more comfortable ride, but did not differ from standard steel-spoked wheels in terms of energy efficiency. The increased comfort may have important implications in patient management of pain and spasticity.

Treatment of idiopathic clubfoot utilizing botulinum A toxin: a new method and its short-term outcomes.

A pivotal point in most clubfoot management protocols is Achilles tendon lengthening or tenotomy to address hindfoot deformity. The effectiveness of botulinum A toxin (BTX-A) in attenuating the function of the triceps surae muscle complex as an alternative to tenotomy was investigated. Fifty-one patients with 73 idiopathic clubfeet were recruited. Outcome measures included surgical rate, Pirani clubfoot score, ankle dorsiflexion with knee in flexion and extension, and recurrences. Patients were divided according to age: group 1 (<30 days old) and group 2 (>30 days and <8 months old). Ankle dorsiflexion in knee flexion and extension remained above 20 degrees and 15 degrees, respectively, and Pirani scores below 0.5 following BTX-A injection for both groups. One of the 51 patients required limited posterior release and 9 patients required repeat manipulation and casting plus or minus BTX-A injection. The use of BTX-A as an adjunctive therapy in the noninvasive approach of manipulation and casting in idiopathic clubfoot is a safe and effective treatment.