Computerized Cognitive Training in Neurodegenerative Diseases (NDD2019)

Serious games (SG), are digital applications specialized for purpose other than entertaining. These technology devices could help to overcome the limits of traditional paper-and-pencil approaches. These traditional interventions, even if particular familiar to older patients, involve indeed some disadvantages, such as data management and analysis particularly complex for therapists; possible learning effects related to stimuli, boredom and reduction of the patient's compliance.

Conversely, SG uses motivational cues and provides real-time feedback; task complexity and response time demands may change frequently during and across sessions, in accordance with changes in individual performance. This allows to avoid over- or under-stimulation and to train areas of relative weakness. Computer support also saves time for therapists in the preparation of exercises and allows to record all session parameters for further statistics. Talking about disadvantages, the more critical is that elderly people might have poor information technology skills with a consequent lack of familiarity with technological devices. These difficulties derive from the fact that most of the SG used have been developed for entertainment purposes (e.g., the Nintendo Wii Fit, Wii Sports, and Big Brain Academy) and for a "typical healthy user" in mind. Some practical recommendations for the usability and usefulness of SG as clinical tools in dementia-related disorders were collected, but there is still no a general consensus about how, when and for what purpose these digital games should be developed. In fact, in the contest of neurodegenerative disease, cognitive intervention to be effective must be proportionate to the degree of cognitive deterioration and consequently it is necessary to take into account the phases of the disease, the specific disease characteristics and the specific cognitive domains affected. Some studies suggested that computerized CT is efficacious at the early phases of the disease, or where MCI is present, while it may not be beneficial at the dementia stage. Though these emerging results are encouraging, some issue about the use of this computer-based solution as clinical tools remain unresolved.

In this frame, we develop a computer-based CT (CoRe software) for the training of logical-executive and working-memory functions. We aim to assess the efficacy of this computer-supported CT compared to a paper-and-pencil CoRe version. This could be useful for two main reasons: 1) understand the comparability of the two interventions; 2) explore possible extra advantages of the CoRe software with respect to the paper-and-pencil version that could make it more suitable for the clinical routine.

CoRe is an ontology-based software tool that allows several degrees of personalization and the possibility to generate different patient-tailored exercises; for a more detailed description see previous papers.

Inpatients with idiopathic PD are recruited from the Neurorehabilitation Unit of the IRCCS Mondino Foundation. The diagnosis of mild dementia or PD-MCI is formulated on the basis of a comprehensive neuropsychological evaluation (baseline cognitive assessment - T0) according to the guidelines presented in the literature. The following standardized tests assessing different domains are used:

• global cognitive function: Mini-Mental State Examination (MMSE) and Montreal Montreal Overall Cognitive Assessment (MoCA);
• memory: verbal (Verbal Span; Digit Span) and spatial (Corsi's blocktapping test - CBTT) span; verbal long-term memory (Logical Memory Test immediate and delayed recall; Rey's 15-word test immediate and delayed recall); spatial long-term memory (Rey Complex Figure delayed recall - RCF-dr);
• logical-executive functions: non-verbal reasoning; frontal functionality (Frontal Assessment Battery - FAB); semantic fluency (animals, fruits, car brands), phonological fluency (FAS);
• attention: visual selective attention (Attentive Matrices); simple speed processing and complex attention (Trail Making Test parts A - TMT A and part B - TMT B);
• visuospatial abilities: constructive apraxia Rey Complex Figure copy - RCF-copy.

The same battery is also used at the post-training assessment (T1) and at the follow-up visits six months (T2) and one year after (T3). Parallel versions are applied when available (verbal long-term memory tests), in order to avoid the learning effect. All the test scores are corrected for age, sex, and education and compared with the values available for the Italian population.

At the baseline, the cognitive reserve is assessed using Cognitive Reserve Index questionnaire (CRIq). The patients' functional status is assessed using Activities of Daily Living (ADL) and Instrumental Activities of Daily Living (IADL) at the baseline and at the last follow-up visit after one year (T3). Moreover, mood is assessed using the Beck Depression Inventory (BDI) at the baseline and at the follow-up visits (T1, T2 and T3), while quality of life is assessed using the 36-Item Short Form Health Survey questionnaire (SF-36) at the baseline and at the follow-up visits six months (T2) and one year (T3) after training.

This study is a prospective, double-blind Randomized Controlled Trial. All the patients recruited undergo baseline cognitive assessment (T0). Patients who meet the inclusion and exclusion criteria are enrolled and randomly assigned to the experimental group (CoRe software) or control group (paper-and-pencil CoRe version). CT program consists of 12 individual sessions (3 sessions/week) each lasting 45 minutes of computer-based or paper-and-pencil logical-executive and working-memory tasks.

All the patients are evaluated at the end of the 3-weeks training (T1), to detect the training effect, and six month (T2) and one year (T3) after the end of CT to assess the persistence of the training-related improvement and also to evaluate the impact of CT on the evolution of cognitive decline.