Intensity Dependent Effects of 'FAST-Table' on Physical Performance in Stroke

The effectiveness of a high-intensity task-oriented training (TOT) program seems related to higher intensity of practice and cardiorespiratory workload. Implementing a high number of repetitions and a high cardiorespiratory workload showed improvement in hemiparetic gait with feasibility and exceeds the effectiveness of a low-intensity physiotherapy program to walk capacity and walking speed. The Canadian Best Practice guidelines for rehabilitation recommend that patients should receive a minimum of three hours of task-oriented training, five days per week. However, Lee et al. stated that adhering to the repeated practices for a long duration of time often poses challenges to both stroke survivors and healthcare providers. Similarly, it is possible that within three hours one can do a few repetitions of TOT with long breaks in between and therefore, end up doing an inadequate number of repetitions than the number that may be required to attain the desired goal. It is possible within an hour to perform a large amount of TOT that would have undesired adverse effects such as fatigue and pain, which may subsequently affect recovery. The number of repetitions in a session of TOT, and the frequency of sessions per week that would promote motor learning in the upper extremity might differ from that of the lower extremity. Therefore, in administering TOT during stroke rehabilitation, the number of repetitions of TOT per treatment session may arguably be more useful than the number of hours covered while practicing. The effectiveness of the number of repetitions of TOT in a training session for stroke rehabilitation has been investigated in the literature; however, the studies were not in agreement on the number of repetitions of TOT per session required to produce the desired rehabilitation outcome for upper and lower extremities. Different studies have used varied numbers of repetitions per treatment session; however, the number of repetitions needed for optimal human learning without adverse effect is still contentious.

Previous literature has sufficient evidence about the effects of task-oriented training on the stroke population but there is limited evidence about the number of repetitions needed for optimal human learning without adverse effects is still unknown. Some studies compared the number of repetitions of tasks, some compared the number of sessions (single session/double session)/day or per week, some studies reported different duration per session, and some studies compared 3, 4, 6, 8 weeks duration. However, none of the studies have reported on all parameters of dosage at once. The current study aims to identify the effects of different dosages (standard, medium, and high intensity). Second, previous literature mainly focused on the repetition (reps) of a single task (mass practice), and limited functional tasks were available for practice, while the current study aims at providing more and more functional tasks with limited repetitions to maintain the interest level of patients for practice and allow for variability in task practice and to avoid the boredom that might come from performing ≥100 repetitions of a single task. Third, there is a variety of equipment available for stroke rehabilitation focusing on separate body domains, but no specific equipment focuses on complete stroke rehabilitation protocol. The current study aims to develop "Functional Activities Specific Training Table (FAST-Table), which will offer all functional tasks (whole-body rehabilitation protocol) on one table and this table will serve as an intervention and an assessment tool. Fourthly, previous literature has used a variety of tasks for stroke rehabilitation; the current study aims to develop 100 specific functional tasks for stroke to perform on FAST-table. 100 standard tasks for stroke, upper limb "30tasks*10 repetition of each task= 300 reps",lower limb "30tasks*10 repetition of each task= 300 reps",balance "30tasks*10 repetition of each task= 300 rep", cognition "10tasks*10 repetition of each task= 100 reps" and Total 1000 reps/session.