The increase in life expectancy in recent decades has led to a large number of people living into old age and an increased risk of developing Chronic Neurological Diseases (CNDs) such as neurodegenerative diseases. A higher cumulative risk of dementia has been largely demonstrated in Mild Cognitive Impairment (MCI) and Subjective Cognitive Complaints (SCCs) subjects and in Parkinson's Disease (PD) patients, as compared to the general population. These disorders result in an impairment of the individual's abilities to perform daily tasks. As their disease progresses, patients become dependent on medical services and on family support. Given the limited effectiveness of pharmacological treatments, non-pharmacological interventions to prevent and treat cognitive deficits and the associated difficulties with activities of daily living in neurodegenerative disease patients have gained attention in recent years and, among these, cognitive training offers a potential approach for dementia prevention and improvement of cognitive function. A critical aspect of cognitive training programs is that the most promising interventions have involved intensive in-person sessions that are unlikely to be cost-effective or feasible for large-scale implementation. Within the framework of non-pharmacological interventions, the use of technology to assist the person at risk and/or with mild dementia at home and to extend rehabilitation services in the treatment of dementia has gradually gained importance. Telerehabilitation technologies allow to provide services remotely in patients' homes, allowing access to health care to patients living in rural settings or with mobility difficulties. In addition, the telerehabilitation modality offers the advantage of providing rehabilitation within the natural environment of the patient's home, making the treatment more realistic and possibly more generalizable to the person's daily life. The present project proposes to test a home-based asynchronous cognitive telerehabilitation program aimed at enhancing the continuum of care for MCI, SCCs and PD, using technology. The proposed study is a single blind randomized controlled trial (RCT) involving subjects with CNDs randomly assigned to one out of two intervention groups: i) the tele@cognitive group, who will receive at-home cognitive telerehabilitation (tele@cognitive treatment); ii) the Active Control Group (ACG), who will receive at-home unstructured cognitive stimulation. The aim of the project will be threefold: \[1\] to test the short-term and long-term efficacy of tele@cognitive protocol as compared to an unstructured cognitive at-home rehabilitation in the treatment of a cohort of patients with CNDs; \[2\] to explore the changes induced by tele@cognitive intervention on biomolecular and neurophysiological markers; \[3\] to explore potential cognitive, neurobiological and neurophysiological predictors of response to tele@cognitive treatment.
60 subjects with MCI, SCC, PD will be recruited from IRCCS Istituto Centro San Giovanni di Dio, Fatebenefratelli, Brescia, Fondazione Don Carlo Gnocchi - ONLUS, Milan and IRCCS Centro Neurolesi Bonino Pulejo, Messina. Patients will include both male and female subjects affected by CND: PD (Hoehn \& Yahr\<3), MCI (with CDR scale≤0.5, MMSE ≥24) and SCC (Subjective Cognitive Complaints). All patients will undergo treatment sessions of 45 minutes, 3 days a week for 5 weeks: * 30 subjects will be assigned to the tele@cognitive group that will receive home-based cognitive telerehabilitation activities with an innovative digital solution for remote rehabilitation of cognitive difficulties according to the digital therapy delivery model; * 30 subjects will be assigned to the Active Control Group (ACG) that will receive home-based unstructured cognitive stimulation. The two groups will be matched for sex, age, education and performance in the MoCA test. All study participants will be administered a multidimensional assessment by an experienced neuropsychologist at baseline (T0), at post-treatment assessment (T1, 5 weeks from T0) and at 3-month follow-up (T2). In addition, participation in the research involves blood sampling and application of Transcranial Magnetic Stimulation (TMS) before (T0) and after (T1) treatment.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
60
Tele@cognitive treatment group will receive a total of 5 weeks (3 sessions/week, 45 minutes/session) of home-based cognitive rehabilitation activities with an innovative digital solution for remote rehabilitation of cognitive difficulties according to digital therapeutics delivery model. Subjects assigned to the tele@cognitive group can access the app RICORDO-DTx through a tablet showing the prescribed rehabilitation activities to be performed. Each cognitive exercise is structured into five levels of difficulty that adaptively increase (algorithm on both subject's performance and perceived difficulty). All data about patient progress and adherence will be collected with this digital solution and will be available to evaluate and monitor the results of rehabilitation.
Subjects assigned to the home-based unstructured cognitive stimulation will be requested to work on detailed activities for the same duration of the tele@cognitive intervention (3 sessions/week, 45 minutes/session). They will receive, from the therapist, an instructions booklet and a participant diary.
IRCCS Istituto Centro San Giovanni di Dio Fatebenefratelli
Brescia, IT, Italy
RECRUITINGIRCCS Centro Neurolesi Bonino Pulejo
Messina, IT, Italy
RECRUITINGFondazione Don Carlo Gnocchi - ONLUS, Milan
Milan, IT, Italy
RECRUITINGChange in global cognition as assessed by Montreal Cognitive Assessment (MoCA)
Montreal Cognitive Assessment (MoCA) is a screening test for global cognitive functioning. It includes tasks involving several cognitive domains: visuospatial, executive function, naming, selective and sustained attention, language, abstraction, memory and orientation (score range min= 0, max= 30, higher score=better outcome).
Time frame: Baseline up to 5 weeks and 3 months
Change in long-term episodic verbal memory as assessed by Free and Cued Selective Reminding Test (FCSRT)
Free and Cued Selective Reminding Test (FCSRT) is a measure of long-term episodic verbal memory. It provides five scores: Immediate Free Recall (IFR, spontaneous recall across three trials; score range min= 0, max= 36), Immediate Total Recall (ITR, total recall across three trials; score range min= 0, max= 36), Delayed Free Recall (DFR, score range min= 0, max= 12), Delayed Total Recall (DTR, score range min= 0, max= 12). Higher scores indicate better performance. Finally, the Index of Sensitivity to Cueing (ISC, score range min= 0, max= 1) reflects the difference between the number of items recalled spontaneously and the number of items recalled with the help of cues. A higher ISC indicates a greater sensitivity to cues.
Time frame: Baseline up to 5 weeks and 3 months
Change in measure of quality of life as assessed by EQ-5D-5L
EQ-5D-5L is a measure of health status consisting of five dimensions (mobility, self-care, usual activities, pain/discomfort and anxiety/depression). Each dimension has three response levels (no problems, some problems, unable to/extreme problems). In addition, the questionnaire includes a visual analog scale that records the patient's perception of his or her overall health (score range: min= 0, max= 100, higher score=better outcome).
Time frame: Baseline up to 5 weeks and 3 months
Change in measure of non-motor experiences of daily living as assessed by MDS-UPDRS scale, part I
MDS-UPDRS scale, part I (only for PD patients) is a measure of non-motor experiences of daily living consisting of a total of 13 questions (score range min= 0, max= 52, higher score= worse outcome).
Time frame: Baseline up to 5 weeks and 3 months
Change in measure of motor abilities as assessed by MDS-UPDRS scale, part III
MDS-UPDRS scale, part III (only for PD patients) is a measure of motor abilities consisting of a total of 18 questions with 33 individual items. Each item has a 0-4 rating, where 0 = normal, 1 = slight, 2 = mild, 3 = moderate, and 4 = severe (score range: min= 0, max= 132, higher score=worse outcome).
Time frame: Baseline up to 5 weeks and 3 months
Change in depressive symptoms as assessed by Hamilton Depression Rating Scale (HDRS)
Hamilton Depression Rating Scale (HDRS) is a measure of severity of depressive symptoms consisting of a total of 21 items (score range min= 0, max= 64, higher score=worse outcome).
Time frame: Baseline up to 5 weeks and 3 months
Change in anxiety symptoms as assessed by State-Trait Anxiety Inventory (STAI-Y)
The STAI-Y consisting of two 20-item scales providing separate measures of state and trait anxiety (S-Anxiety and T-Anxiety). Each scale has a score range from a minimum of 20 to a maximum of 80 and a higher score on the scale indicates a worse outcome.
Time frame: Baseline up to 5 weeks and 3 months
Change in behavior and personality as assessed by Neuropsychiatric Inventory (NPI)
Neuropsychiatric Inventory (NPI) is used for assessing various neuropsychiatric symptoms. The inventory consists of 12 core domains, each reflecting specific neuropsychiatric symptoms. Each symptom is rated for both frequency and severity. (score range min= 0, max= 144, higher score=worse outcome).
Time frame: Baseline up to 5 weeks and 3 months
Change in memory complaints as assessed by Everyday Memory Questionnaire (EMQ)
Everyday Memory Questionnaire (EMQ) is a 20-items questionnaire that evaluate the frequency and impact of memory problems in daily life (score range min= 20, max= 180, higher score=worse outcome).
Time frame: Baseline up to 5 weeks and 3 months
Change in non-verbal abstract reasoning as assessed by Raven's Coloured Progressive Matrices
Raven's Coloured Progressive Matrices is a measure of non-verbal abstract reasoning (score range min= 0, max= 36, higher score=better outcome).
Time frame: Baseline up to 5 weeks and 3 months
Change in measure of attentional abilities as assessed by Trial Making Test (TMT)
Trial Making Test (TMT, part-A and part-B) is a measure of attentional abilities, visuo-conceptual and visual-motor tracking. TMT-Part A involves visual scanning, number recognition, number sequencing and motor speed. TMT-Part B assesses mental flexibility in managing more than one stimulus at a time and in shifting the course of an ongoing activity. High execution times indicate poor performance (score range: min= n/a, max= no limits).
Time frame: Baseline up to 5 weeks and 3 months
Change in measure of executive abilities as assessed by Stroop Test
Stroop Test is a measure of executive abilities, including visual attention, selective attention, cognitive flexibility and inhibitory control of behavior. Two scores are calculated considering the number of errors and the time taken to complete all parts. High execution times and high numbers of errors indicate poor performance.
Time frame: Baseline up to 5 weeks and 3 months
Change in measure of constructional praxia as assessed by Rey-Osterrieth Complex Figure-Copy
Rey-Osterrieth Complex Figure-Copy is a measure of constructional praxia (score range min= 0, max= 36, higher score=better outcome).
Time frame: Baseline up to 5 weeks and 3 months
Change in measure of fluency abilities as assessed by Verbal Fluency (semantic and phonemic)
Verbal Fluency (semantic and phonemic) is a measure of verbal and semantic fluency abilities, executive functions abilities, lexical store size, lexicon access, and lexical organization (score range min= 0, max= no limits, higher score=better outcome).
Time frame: Baseline up to 5 weeks and 3 months
Change in measure of nonverbal long-term memory as assessed by Rey-Osterrieth Complex Figure-Recall
Rey-Osterrieth Complex Figure-Recall is a measure of nonverbal long-term memory (score range min= 0, max= 36, higher score=better outcome).
Time frame: Baseline up to 5 weeks and 3 months
Change in NFL and Tau
Neurofilament light chain (NFL) and Tau levels
Time frame: Baseline up to 5 weeks
Change in Aß1-40, Aß1-42, p-tau-181; p-tau-231, alpha-synuclein
Aß1-40, Aß1-42, p-tau-181; p-tau-231, alpha-synuclein levels
Time frame: Baseline up to 5 weeks
Change in GFAP, chemokines and sTREM2
Glial Fibrillary Acidic Protein (GFAP), chemokines and sTREM2 levels
Time frame: Baseline up to 5 weeks
Change in Neurogranin and BDNF
Neurogranin and Brain-Derived Neurotrophic Factor (BDNF) levels
Time frame: Baseline up to 5 week
Change in plasma EVs
Size and the concentration of plasma Extracellular Vescicles (EVs)
Time frame: Baseline up to 5 weeks
Change in rMT
TMS resting Motor Threshold (rMT)
Time frame: Baseline up to 5 weeks
Change in MEPs
TMS Motor Evoked Potentials (MEPs)
Time frame: Baseline up to 5 weeks
Change in SICI
TMS Short-interval intracortical inhibition (SICI)
Time frame: Baseline up to 5 weeks
Change in SAI
TMS Short-latency afferent inhibition (SAI)
Time frame: Baseline up to 5 weeks
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