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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT02364141
Other study ID # 06/61199-5
Secondary ID
Status Completed
Phase N/A
First received February 5, 2015
Last updated February 13, 2015
Start date August 2004
Est. completion date July 2008

Study information

Verified date February 2015
Source University of Campinas, Brazil
Contact n/a
Is FDA regulated No
Health authority Brazil: Ethics Committee
Study type Interventional

Clinical Trial Summary

The aim of this study was to evaluate the long-term effects of the task-specific training with trunk restraint comparing to the free one in post-stroke reaching movements. Twenty hemiparetic chronic stroke patients were selected and randomized into two training groups: Trunk restraint group - TRG (reaching training with trunk restraint) and Trunk free group - TFG (unrestraint reaching). Twenty sessions with forty-five minutes of training were accomplished. The subjects were evaluated in pre-treatment (PRE), post-treatment (POST) and three months after the completed training (RET). The measures administered were the Modified Ashworth Scale, Barthel Index, Fugl-Meyer Scale and kinematic analysis (movement trajectory, velocity, angles).


Description:

Twenty stroke subjects were recruited from the Physiotherapy and Occupational Therapy Outpatient Unit of the University Hospital at Campinas - UNICAMP and all of them signed informed consent forms previously approved by the Research Ethics Committee of the University (#110/2004). Ten healthy subjects were also selected to obtain normal reference parameters of kinematic assessment. Patients had sustained a single and chronic (>6 months post-event) unilateral stroke of non-traumatic origin, with hemiparetic sequel in the upper limb, could understand simple instructions, perform community gait, and had a good sitting balance. Those with shoulder pain or other neurological and orthopedic conditions affecting the reaching movement ability or trunk, hemispatial neglect or apraxia were excluded. The patients who met the inclusion criteria were stratified to one of two groups. A sealed opaque envelope containing a single cheat of paper marked with numbers 1 (group 1) or 2 (group 2), was used to allocate the patient. This procedure was made by an external assessor. The patients were not informed about the different treatment groups and therefore, they were blind for the type of intervention applied.

The muscle tone (shoulder and elbow flexors) was evaluated using the Modified Ashworth Scale (MAS)9; motor impairment was evaluated using the upper limb section of Fugl-Meyer Assessment Scale (FM) and activities of daily living was assessed by the Barthel Index (BI). Kinematic data were recorded by an infrared system of motion analysis (Qualisys Motion Capture System - 2.57 Sweden) with sample frequency of 240 Hz, during 8 seconds. The coordinated data was low-pass filtered using a 6 Hz, finite impulse response filter with order 26 using the Matlab software. Five infrared reflexive markers were used. For the kinematic capture, the subjects were seated in a chair and invited to fit a cone in a target placed within arm's length (measured on the non-affected arm from the medial border of axilla to the distal wrist crease). The target was placed so that only the arm movement was required to reach the target. The initial hand position of the affected arm was on the lateral trunk, with the shoulder in neutral position and the elbow close to the side of the body (90°). Three trials of 6 to 8 seconds' time were recorded and a media was used to calculate the evaluated data.From the collected dates, values concerning to sagittal (YZ), horizontal (XY) and 3-dimensional (XYZ) planes were computed.

Trunk displacement was verified in millimeters as sagittal movement of marker 3.

Index of curvature was measured from marker 5. This index shows the straightness of the wrist trajectory from the initial position to the goal, resulting in a ratio of actual end point path to a straight line (index = 1, whereas a semicircle has an index of 1.57).

Shoulder angles were calculated using 2 vectors formed from marker 1 to marker 2, and from marker 2 to marker 4; with flexion/extension movements in sagittal plane and adduction/abduction movement in horizontal plane. Full horizontal abduction and the anatomical position were considered at 0°. Flexion/extension elbow angles were measured using 2 vectors formed from marker 2 to 4 and from marker 4 to 5, using the sagittal and horizontal planes. The elbow full extension was considered at 180°.

Movement time was defined as differences between movement onsets and offsets which tangential velocity rose above and fell below at 5% of its peak value.

The maximum tangential velocity of the arm was computed from the velocity vector expressed by a numerical differentiation from wrist and sternum markers in the 3-dimensional plane. Numbers of peaks and the percentage of movement time at the maximum peak velocity (rate - %) were extracted from tangential velocity traces.

The evaluations were performed by a blind researcher, in admission time (PRE), after the end of the twenty treatment sessions (POST) and three months after the training was completed (retention test - RET).

The selected patients were randomized individually into two training groups:

Trunk restraint group - TRG (n = 10): reaching training with trunk restraint by a harness that limited the trunk movements.

Trunk free group - TFG (n = 10): unrestraint reaching training, only with verbal feedback to maintain the trunk right position.

Forty-five training minutes, twice a week, totaling twenty sessions, were performed (The participants will be trained for 10 weeks, and with 3 months of follow-up).

The training was based in the motor learning concepts including repetitive and task-specific practice. The training task consisted of grasping a cone (3.5 cm diameter base, 13 cm high) and fitting random targets as requested by the therapist in a training platform (54 cm length, 64 cm extent, 1.5 cm high) with 9 targets (6.5 cm diameter) placed 10-13 cm apart, along 3 lines. The targets that were ordered in a way that stimulated the complete range of motion of shoulder and elbow, had pictures, colors, letters and numbers on them yielding variability and feedback to the performing tasks.

Chi-squared, or Fisher's tests, was used to compare the categorical variables (i.e. gender) between the three groups (HS, TRG, TFG). Mann-Whitney (for two groups) and Kruskal-Wallis (for three groups) tests were used to compare the ratio dates (i.e. age, years since stroke) measured at a single instant. Repeated-measure analysis of variance (ANOVA) and appropriate post-hoc tests (Bonferroni) were applied to compare the numerical variables (i.e. kinematics dates) between groups and instants. The normality of the kinematic variables was detected by Shapiro-Francia test and for variables that were not normal was proposed Box-Cox transformation. The significance level adopted for the statistical tests was 5% (p< 0.05).


Recruitment information / eligibility

Status Completed
Enrollment 40
Est. completion date July 2008
Est. primary completion date November 2007
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Both
Age group 18 Years and older
Eligibility Inclusion Criteria:

- single and chronic (>6 months post-event) unilateral stroke of non-traumatic origin

- hemiparetic sequel in the upper limb

- could understand simple instructions

- perform community gait

- had a good sitting balance

Exclusion Criteria:

- shoulder pain or other neurological and orthopedic conditions affecting the reaching movement ability or trunk

- hemispatial neglect

- apraxia

Study Design

Allocation: Randomized, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator)


Related Conditions & MeSH terms


Intervention

Other:
Trunk restraint therapy
Reaching training with trunk restraint by a harness that limited the trunk movements. Forty-five training minutes, twice a week, totaling twenty sessions, were performed. The training was based in the motor learning concepts including repetitive and task-specific practice. The training task consisted of grasping a cone (3.5 cm diameter base, 13 cm high) and fitting random targets as requested by the therapist in a training platform (54 cm length, 64 cm extent, 1.5 cm high) with 9 targets (6.5 cm diameter) placed 10-13 cm apart, along 3 lines. The targets that were ordered in a way that stimulated the complete range of motion of shoulder and elbow, had pictures, colors, letters and numbers on them yielding variability and feedback to the performing tasks.
Trunk unrestraint therapy
Unrestraint reaching training, only with verbal feedback to maintain the trunk right position. Forty-five training minutes, twice a week, totaling twenty sessions, were performed. The training was based in the motor learning concepts including repetitive and task-specific practice. The training task consisted of grasping a cone (3.5 cm diameter base, 13 cm high) and fitting random targets as requested by the therapist in a training platform (54 cm length, 64 cm extent, 1.5 cm high) with 9 targets (6.5 cm diameter) placed 10-13 cm apart, along 3 lines. The targets that were ordered in a way that stimulated the complete range of motion of shoulder and elbow, had pictures, colors, letters and numbers on them yielding variability and feedback to the performing tasks

Locations

Country Name City State
n/a

Sponsors (1)

Lead Sponsor Collaborator
University of Campinas, Brazil

References & Publications (9)

Archambault P, Pigeon P, Feldman AG, Levin MF. Recruitment and sequencing of different degrees of freedom during pointing movements involving the trunk in healthy and hemiparetic subjects. Exp Brain Res. 1999 May;126(1):55-67. — View Citation

Cirstea MC, Levin MF. Compensatory strategies for reaching in stroke. Brain. 2000 May;123 ( Pt 5):940-53. — View Citation

de Oliveira R, Cacho EW, Borges G. Improvements in the upper limb of hemiparetic patients after reaching movements training. Int J Rehabil Res. 2007 Mar;30(1):67-70. — View Citation

Michaelsen SM, Dannenbaum R, Levin MF. Task-specific training with trunk restraint on arm recovery in stroke: randomized control trial. Stroke. 2006 Jan;37(1):186-92. Epub 2005 Dec 8. — View Citation

Michaelsen SM, Levin MF. Short-term effects of practice with trunk restraint on reaching movements in patients with chronic stroke: a controlled trial. Stroke. 2004 Aug;35(8):1914-9. Epub 2004 Jun 10. — View Citation

Michaelsen SM, Luta A, Roby-Brami A, Levin MF. Effect of trunk restraint on the recovery of reaching movements in hemiparetic patients. Stroke. 2001 Aug;32(8):1875-83. — View Citation

Stewart JC, Gordon J, Winstein CJ. Control of reach extent with the paretic and nonparetic arms after unilateral sensorimotor stroke: kinematic differences based on side of brain damage. Exp Brain Res. 2014 Jul;232(7):2407-19. doi: 10.1007/s00221-014-3938-5. Epub 2014 Apr 10. — View Citation

Woodbury ML, Howland DR, McGuirk TE, Davis SB, Senesac CR, Kautz S, Richards LG. Effects of trunk restraint combined with intensive task practice on poststroke upper extremity reach and function: a pilot study. Neurorehabil Neural Repair. 2009 Jan;23(1):78-91. doi: 10.1177/1545968308318836. Epub 2008 Sep 23. — View Citation

Wu CY, Chen YA, Chen HC, Lin KC, Yeh IL. Pilot trial of distributed constraint-induced therapy with trunk restraint to improve poststroke reach to grasp and trunk kinematics. Neurorehabil Neural Repair. 2012 Mar-Apr;26(3):247-55. doi: 10.1177/1545968311415862. Epub 2011 Sep 8. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary muscle tone (shoulder and elbow flexors) by Modified Ashworth Scale (MAS) 10 weeks Yes
Primary upper limb motor impairment by Fugl-Meyer Assessment Scale (FM) 10 weeks Yes
Primary activities of daily living level by Barthel Index (BI) 10 weeks Yes
Secondary Trunk displacement in millimeters as sagittal movement Kinematic data 10 weeks Yes
Secondary Index of curvature of wrist trajectory Kinematic data 10 weeks Yes
Secondary Shoulder and elbow angles Kinematic data 10 weeks Yes
Secondary Movement time Kinematic data 10 weeks Yes
Secondary maximum tangential velocity Kinematic data 10 weeks Yes
Secondary Numbers of peaks Kinematic data 10 weeks Yes
Secondary maximum peak velocity Kinematic data 10 weeks Yes
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