Amyotrophic Lateral Sclerosis Clinical Trial
Official title:
Muscle Ultrasound: A New Tool for Measuring Progression in ALS
This is a study in patients with Amyotrophic Lateral Sclerosis (ALS). We will use muscle
ultrasound as a tool to try and see if there are changes in muscle size that can find out
how fast ALS is progressing. This might give us a better way to carry out further studies on
new drugs to see if they might help slow the progression of ALS.
Participants in the study will have muscle ultrasound performed on a few muscles in the arms
and legs at the first visit, and again 3 months later, and one last time 3 months after
that. This takes about 10 minutes, is painless, and involves scanning the muscle with a
handheld device, with some gel applied to the skin. At each visit, there will also be a
questionnaire about symptoms and strength testing.
Protocol for the Study - Muscle Ultrasound: A New Tool for Measuring Progression in ALS
A. Specific Aims The authors propose to study the change in muscle mass over time in
patients with ALS. Muscle atrophy is a very common feature of the disease, and in clinical
experience correlates with progressing weakness. As such, it is a qualitative marker of
disease progress, although this lacks a quantitative marker. Muscle ultrasound is a safe,
noninvasive, and rapid method of measuring muscle volume or thickness (1). Recently Arts, et
al published an assessment of muscle ultrasound, specifically including reduced muscle depth
and increased ultrasound echogenicity (2). We believe determining quantitatively the rate of
progression of muscle mass in a group of patients with ALS will lead to a clinically useful
tool to serve as a marker of disease progression, which may be useful in clinical trials for
new therapies for this disease.
B. Background and Significance ALS is a quickly progressive disease that results in skeletal
muscle weakness, including ventilatory weakness, which is the ultimate cause of death for
the vast majority of patients with ALS. Median survival from diagnosis is less than 3 years.
There is only one drug approved to treat ALS, riluzole, and its effects to limit the
progression of the illness are slight (6). Current study designs often use a primary
endpoint of either death from ALS or initiation of long-term mechanical ventilation (LTMV).
There are other tools to assess progression, which can include a questionnaire called the
ALS functional rating scale (ALS-FRS), a direct measurement of strength, or an
electromyography technique called motor unit number estimate (MUNE). Each has potential
drawbacks, which include potential lack of objectivity in questionnaire and variable effort
when assessing direct strength measurements. There has also been work to correlate magnetic
resonance spectroscopy findings to progression in ALS, with some positive results (3).
However, this technology is expensive, time consuming, and not widely available. Muscle
ultrasound may be sensitive enough to quantitatively detect changes in muscle thickness (4),
which may serve as an objective tool to measure disease progression, for the purpose of
clinical trials. Muscle echointensity (EI) is also abnormal in ALS (2, 4), although this
assessment is less reliable among different observers and ultrasound settings, resulting in
less diagnostic precision. Normal values for muscle thickness and echointensity are
available, with norms varying by age and weight (5). Muscle ultrasound is readily available,
noninvasive, inexpensive, and could be used in the context of a clinical examination. Muscle
ultrasound is painless and can be completed in a few minutes.
C. Preliminary Studies/Progress Report As this is a pilot study, there is no preliminary
data using muscle ultrasound longitudinally in patients with ALS. The study by Arts et al
used muscle ultrasound to assist in the ALS diagnosis, but to our knowledge, muscle
ultrasound has not been used to detect longitudinal changes in the illness. This study will
help in the development of future studies testing pharmacologic agents in ALS, by providing
muscle ultrasound as a validated endpoint in the progression of ALS.
D. Research Design and Methods Ten patients will be recruited to participate, and will have
serial muscle ultrasound examinations every three months, at regularly scheduled clinic
appointments in the Vanderbilt ALS clinic. Muscles examined will include forearm flexors,
biceps, and tibialis anterior. The thickness of each muscle will be measured at standard
sites for these muscles, in addition to the echogenicity as measured by a grayscale
histogram representation. The rate of loss of ultrasound-measured muscle thickness will be
assessed over time. Our hypothesis is that there will be significant loss of muscle
thickness over time, which will correlate with disease severity. As different patients have
different rates of deterioration, there will likely be significant differences in the rate
of muscle volume loss from patient to patient. A secondary endpoint will be an increase over
time in muscle echogenicity. Patients will complete the ALS Functional Rating Scale
(ALSFRS-R), a 12 item subjective scale that assesses several motor functions, including
function of speech, swallowing, respiration, and activities of daily living. Grip strength
will be measured by hand grip dynamometry, using the best result from 3 attempts in each
limb. Secondary analyses will also be conducted to correlate the decrease in
ultrasound-measure muscle depth with the ALS Functional-Rating Scale, and with measures from
hand grip dynamometry.
The study will be conducted over a period of 8 months. All patient data will be kept in a
password-secured online database called REDcap. Any adverse events will be reported to the
IRB, as none are expected with this safe diagnostic modality.
E. Inclusion Criteria
1. All patients must meet the El Escorial criterion for definite or probable ALS.
2. Patients forced vital capacity (FVC) must exceed 50%.
F. Exclusion Criteria
1. Patients with primary lateral sclerosis (PLS) and other forms of motor neuron disorders
will not participate.
2. Patients with severe weakness from ALS who require continuous mechanical ventilation,
who have a forced vital capacity less than 50%, or who have no clinically measurable
strength in the arms and legs.
3. Patients without cognitive capacity to give informed consent. This is not a clinical
feature of ALS, and therefore such patients would have an alternate diagnosis that
would prevent such capacity.
G. Privacy/Confidentiality This is minimized by using study numbers, and labeling all
patient data with study numbers and no other identifying information. The medical record
numbers that correspond to each study number will be stored only in REDcap, a secure,
password-protected database.
H. Human Subjects Research/Risks Careful consideration will be given to the protection of
subjects from research risks and to the appropriate inclusion of women and minorities in the
subjects who will be studied. Research risks are substantially limited by the noninvasive
nature of muscle ultrasound, and the absence of any pharmacologic intervention in the study.
There is a theoretical risk of breach of confidentiality, which is minimized as noted in the
section above.
I. Reporting of Adverse Events/Unanticipated Problems involving Risk to Participants or
Others The PI will report to the IRB in the event of an adverse event involving any
participant, study personnel, or others, either from procedures involved in the study, or in
the event of breach of participant confidentiality. These risks are minimized as noted
above.
J. Statistical Considerations As this is a pilot study, this is not powered to likely find a
statistically significant difference. Nonetheless, a mixed effect model statistical
evaluation of the changes in muscle ultrasound values will be carried out for analysis.
K. Follow-up and Record Retention At the conclusion of the study, the study data will be
maintained electronically only, in secure, encrypted format by the PI on REDcap for 6 years.
After that time, any data not submitted to the patient's StarPanel electronic record will be
destroyed.
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