My interpretation of this is that it was a complete fucking failure. None seem to have gotten to 100% recovery! That is the only goal in stroke! Unless you ascribe to the tyranny of low expectations and completely ignore what survivors want.
So go back to the drawing board and come up with interventions that deliver 100% recovery. You probably have to go back to the beginning and stop the dying of millions/billions of neurons due to the 5 causes of the neuronal cascade of death in the first days.
Interpreting the CPASS Trial: Do Not Shift Motor Therapy to the Subacute Phase
Abstract
The
Critical Periods After Stroke Study (CPASS, n = 72) showed that,
compared to controls, an additional 20 hours of intensive upper limb
therapy led to variable gains on the Action Research Arm Test depending
on when therapy was started post-stroke: the subacute group (2-3 months)
improved beyond the minimal clinically important difference and the
acute group (0-1 month) showed smaller but statistically significant
improvement, but the chronic group (6-9 months) did not demonstrate
improvement that reached significance. Some have misinterpreted CPASS
results to indicate that all inpatient motor therapy should be shifted
to outpatient therapy delivered 2 to 3 months post-stroke. Instead,
however, CPASS argues for a large dose of motor therapy delivered
continuously and cumulatively during the acute and subacute phases. When
interpreting trials like CPASS, one must consider the substantial dose
of early usual customary care (UCC) motor therapy that all participants
received. CPASS participants averaged 27.9 hours of UCC occupational
therapy (OT) during the first 2 months and 9.8 hours of UCC OT during
the third and fourth months post-stroke. Any recovery experienced would
therefore result not just from CPASS intensive motor therapy but the
combined effects of experimental therapy plus UCC. Statistical
limitations also did not allow direct comparisons of the acute and
subacute group outcomes in CPASS. Instead of shifting inpatient therapy
hours to the subacute phase, CPASS argues for preserving inpatient UCC.
We also recommend conducting multi-site dosing trials to determine
whether additional intensive motor therapy delivered in the first 2 to
3 months following inpatient rehabilitation can further improve
outcomes.
The
phase IIb Critical Periods After Stroke Study (CPASS) randomized 72
participants with mild to moderate upper limb impairment to receive an
additional 20 hours of intensive upper limb therapy, on top of their
usual and customary care motor rehabilitation (UCC), delivered starting
in the acute (0-1 month), subacute (2-3 months), or chronic (6-9 months)
phases post-stroke.1
CPASS was designed to closely mirror rodent studies showing enhanced
efficacy of forelimb training started within 1-month post-stroke
combined with environmental enrichment.2,3 In CPASS the 20 hours of participant-directed intensive upper limb therapy was, similarly, not delivered in isolation, but in addition to
UCC delivered as standard of care. The primary outcome measure was the
Action Research Arm Test (ARAT) assessed over the first 12 months
post-stroke. CPASS demonstrated that, compared to controls receiving
only UCC, the subacute group showed recovery beyond the minimal
clinically important difference4 (ARAT difference +6.78 ± 2.63, P = .009), the acute group showed significant recovery (ARAT difference +5.25 ± 2.59, P = .043),
and the chronic group did not show significantly greater recovery than
the control group (ARAT difference +2.41 ± 2.25, P = .29). Thus,
CPASS was the first study to provide evidence in humans for a critical
period early after stroke when patients may be more responsive to
rehabilitation therapies.
Given this first
signal for post-stroke critical period plasticity in humans, the ensuing
excitement has led to some misinterpretation of our findings that
requires further clarification. Most troubling is the suggestion that
early inpatient motor rehabilitation should be shifted to the
subacute phase. Reporters writing about CPASS concluded that “the best
time for rehabilitation after stroke may actually be 2-3 months later.”5,6
We want to clarify that the CPASS results do not suggest shifting
inpatient motor rehabilitation to the subacute phase: crucially, since
the participants in the 3 treatment groups received both UCC and
additional CPASS intensive motor therapy at different timepoints
post-stroke, one must consider the details of this combination as part
of the CPASS results. Instead, we propose that CPASS revealed that upper
limb motor therapy should be increased and enhanced in the acute and
subacute phases post-stroke as compared to current standard systems of
care, and also calls for future dosing trials to determine the optimal
amount of therapy that should be provided during these time windows.
Foremost
among the reasons to reject shifting UCC to the subacute phase is that
all participants in the CPASS trial received a substantial amount of UCC
during early rehabilitation. To provide details about this UCC, we
determined precisely how much occupational therapy (OT, which tends to
focus on the upper limb) participants received as part of UCC over the
12-months of their post-stroke rehabilitation. Participants received an
average of 27.9 hours of UCC (combined inpatient and outpatient OT)
during the first 2 months post-stroke (Figure 1)
and an average of 9.8 hours of UCC (outpatient OT only) during months 3
and 4 post-stroke. Thus, most of the therapy (UCC and CPASS intensive
motor therapy) for the acute group was clustered early in the
rehabilitation process, whereas for the subacute group the total dose of
therapy was spread more evenly over time. Our results show that
outcomes over 12 months must be considered not just with regard to the
timing of intensive CPASS motor training, but also in combination with
UCC, which was most concentrated early after stroke.
In
addition, there are important differences in the type of therapy
provided during the CPASS intensive experimental therapy as compared
with UCC that may have had a crucial impact on the study results. UCC
focuses on performing activities important for transitioning to the next
level of care (eg, self-care tasks and functional transfers), whereas
CPASS intensive motor therapy focused on upper limb activities selected
by and deemed most important to the participant for their recovery (eg,
cooking dinner, driving, or reading the Bible). UCC sessions are also
known to include relatively little task-oriented training,7
whereas the CPASS intensive motor therapy focused solely on
task-oriented training. Psychological studies suggest that giving
participants more autonomy and focusing on the end goal instead of the
component parts leads to enhanced motor learning.8
The CPASS study incorporated the basic principles of motor learning in
that successful completion of tasks results in positive reinforcement
and willingness to take on more challenging tasks. The progression of
task demands from simple to more complex is designed to facilitate the
successful completion of the desired activities. This process
strengthens the coupling of goals to actions.
Finally,
there are statistical considerations that suggest we should not shift
all UCC to the subacute phase. CPASS was designed to test whether there
were any differences between the groups over 12 months. The null
hypothesis was rejected when the acute and subacute groups each
demonstrated significant improvement over control in the repeated
measures model. However, the CPASS study was not designed to determine
whether the improvement for the subacute group was significantly greater
than that for the acute group. Further research is necessary to
determine the critical period windows with greater resolution in humans.
If
shifting inpatient rehabilitation hours to the subacute phase is not
recommended, then what are the clinical implications of CPASS? Given
that CPASS was a phase II study, the results should not change current
rehabilitation practice until further studies are conducted. However,
the CPASS results do hint at many exciting future directions for
research. CPASS should be replicated in a phase III trial to more
definitively establish the existence of a post-stroke critical period in
humans and clarify how long this window lasts. In addition,
investigators should perform trials to establish the optimal dose of
upper limb therapy to deliver in the acute and subacute phases. Assuming
the findings are replicated in trials of larger sample size, CPASS may
have uncovered a way to enhance our current systems of post-stroke
care—namely, that we should increase and perhaps alter the nature and
amount of upper limb therapy delivered during the first 3 months.
Indeed, over the last 2 decades the average inpatient rehabilitation
stay in the U.S. declined from 18 to 12 days,9,10
and as we demonstrate here, the dose of UCC drops off dramatically in
the outpatient setting. We suspect that stroke patients who are either
discharged directly home or to skilled nursing facilities following
their acute hospitalization would also benefit most from upper limb
therapy delivered in the first 3 months, but this requires further
study.
In conclusion, the CPASS trial shows
the important benefits of intensive upper limb motor therapy
continuously and cumulatively provided during the acute and subacute
phases; but there are many reasons why the comparison between these 2
early phases is less clear and further research is necessary. CPASS was
designed to closely emulate rodent studies that combined forelimb
training and environmental enrichment; a later study showed that this
combination was more effective than either intervention alone.11
Rather than shifting inpatient therapy to the subacute phase, we
recommend preserving inpatient UCC and conducting future trials to
determine how combining this with additional intensive motor therapy
delivered in the first 3 months following inpatient rehabilitation can
further improve outcomes.
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