The purpose of this study is to evaluate if it is possible to use a new 3D imaging method to guide Botulinum neurotoxin (BTX) injection for muscle spasticity management after stroke. This imaging method is called three dimensional innervation zone imaging, or 3DIZI.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
17
Each patient will receive BTX injections in 2 sites. 100 units at double dilution will be injected at each site.
Standard physical therapy will be ordered to both groups as part of standard of care for patients after BTX injections to maximize the outcomes.
For standard injection procedures, target muscles will be visualized under ultrasound imaging which is operated by an experienced and dedicated technician. Position of needle tip within the target muscle is visualized prior to injection. Ultrasound guidance can help ensure depth of needle tip location, i.e., to make sure the needle tip is within the muscle, but it is not able to tell where it is located with reference to the innervation zones (IZs) of the entire muscle.
The University of Texas Health Science Center at Houston
Houston, Texas, United States
Spasticity as Assessed by Reflex Torque of Elbow Flexors
Each subject will receive a total of 60 degrees of computer-controlled elbow extension stretching at different speeds. The stretch ends at 10 degrees beyond the resting angle of the elbow joint during standing to offset the baseline difference among subjects. From the angle-torque relations, reflex torque is obtained after subtracting passive torque at 5˚/sec from those at 50˚/sec or 100˚/sec. Reflex torque is considered to reflect the neural component of muscle spasticity.
Time frame: baseline (1 day prior to BTX injection)
Spasticity as Assessed by Reflex Torque of Elbow Flexors
Each subject will receive a total of 60 degrees of computer-controlled elbow extension stretching at different speeds. The stretch ends at 10 degrees beyond the resting angle of the elbow joint during standing to offset the baseline difference among subjects. From the angle-torque relations, reflex torque is obtained after subtracting passive torque at 5˚/sec from those at 50˚/sec or 100˚/sec. Reflex torque is considered to reflect the neural component of muscle spasticity.
Time frame: 3 weeks after BTX injection
Spasticity as Assessed by Reflex Torque of Elbow Flexors
Each subject will receive a total of 60 degrees of computer-controlled elbow extension stretching at different speeds. The stretch ends at 10 degrees beyond the resting angle of the elbow joint during standing to offset the baseline difference among subjects. From the angle-torque relations, reflex torque is obtained after subtracting passive torque at 5˚/sec from those at 50˚/sec or 100˚/sec. Reflex torque is considered to reflect the neural component of muscle spasticity.
Time frame: 3 months after BTX injection
Spasticity as Assessed by the Modified Ashworth Scale (MAS)
The following modified Ashworth scale (MAS) will be used for spasticity assessment: 0 -No increase in muscle tone; 1 -Slight increase in muscle tone, manifested by a catch and release or by minimal resistance at the end of the range of motion when the affected part(s) is moved in flexion or extension; 1+ -Slight increase in muscle tone, manifested by a catch, followed by minimal resistance throughout the remainder (less than half) of the ROM; 2 -More marked increase in muscle tone through most of the ROM, but affected part(s) easily moved; 3 -Considerable increase in muscle tone, passive movement difficult; 4 -Affected part(s) rigid in flexion or extension.
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Simultaneous surface EMG and intramuscular EMG measurements will be acquired from the spastic biceps of the patients. Patients will be seated comfortably on a height-adjustable chair. The arm to be tested will be secured firmly on a customized apparatus with the elbow joint at approximately 90° of flexion and the shoulder at approximately 45° of abduction and 30° of flexion. The 128-channel unipolar surface EMG signals will be recorded with 2 flexible 2-dimensional 64-channel surface electrode array. A coating fine wire electrode will be inserted into the mid-axial section of the biceps to record bipolar intramuscular EMG signals. Ultrasound scan will be performed on the biceps to identify the location of the inserted wire electrode. Patients will be asked to contract their impaired biceps to perform maximum voluntary contraction of elbow flexion against the vertical plates 3 times.
Time frame: baseline (1 day prior to BTX injection)
Spasticity as Assessed by the Modified Ashworth Scale (MAS)
The following modified Ashworth scale (MAS) will be used for spasticity assessment: 0 -No increase in muscle tone; 1 -Slight increase in muscle tone, manifested by a catch and release or by minimal resistance at the end of the range of motion when the affected part(s) is moved in flexion or extension; 1+ -Slight increase in muscle tone, manifested by a catch, followed by minimal resistance throughout the remainder (less than half) of the ROM; 2 -More marked increase in muscle tone through most of the ROM, but affected part(s) easily moved; 3 -Considerable increase in muscle tone, passive movement difficult; 4 -Affected part(s) rigid in flexion or extension.
Time frame: 3 weeks after BTX injection
Spasticity as Assessed by the Modified Ashworth Scale (MAS)
The following modified Ashworth scale (MAS) will be used for spasticity assessment: 0 -No increase in muscle tone; 1 -Slight increase in muscle tone, manifested by a catch and release or by minimal resistance at the end of the range of motion when the affected part(s) is moved in flexion or extension; 1+ -Slight increase in muscle tone, manifested by a catch, followed by minimal resistance throughout the remainder (less than half) of the ROM; 2 -More marked increase in muscle tone through most of the ROM, but affected part(s) easily moved; 3 -Considerable increase in muscle tone, passive movement difficult; 4 -Affected part(s) rigid in flexion or extension.
Time frame: 3 months after BTX injection