View clinical trials related to Frontotemporal Degeneration.
Filter by:Neuroinflammation is a significant component of Frontotemporal Disorder (FTD). Our preliminary unpublished data demonstrated that regulatory T cells (Tregs) have a compromised phenotype and reduced suppressive function in FTD patients, skewing the immune system toward a proinflammatory status and potentially contributing to disease progression. Low dose interleukin-2 (IL-2) is now viewed as a very promising immunoregulatory drug with the capacity to selectively expand and restore functional Tregs. Our preclinical data also demonstrated synergistic effect of interleukin-2 and abatacept (CTLA4-IgG) in remodeling immunologic pathways. Abatacept is an FDA approved medication that has been indicated as a monotherapy or concomitantly with other anti-inflammatory drugs to modulate inflammation in autoimmune disorders. This study is a phase I, open-label study to assess safety and tolerability of low dose IL-2 plus abatacept immunotherapy in FTD individuals. In the first part of this study, 5 FTD patients will be recruited. These five individuals will receive subcutaneous abatacept (125 mg) followed by five-day-courses of IL-2 (1MUI/day) every four weeks for a total of 21 weeks (part-1 of the study). If the treatment strategy is safe and well-tolerated, up to 5 additional FTD subjects will be recruited to receive subcutaneous abatacept (125 mg) followed by five-day-courses of IL-2 (1MUI/day) every two weeks for a total of 21 weeks (part 2 of the study).
1. Background Cognitive screening procedures via performance-based tests represent an essential, albeit preliminary, element within the diagnostic and interventional process as addressed to patients with chronic neurological disorders. Furthermore, in these populations, cognitive screening measures are often employed as outcomes in epidemiological settings, as well as endpoints in clinical trials. Therefore, cognitive screeners need to possess robust clinimetric and clinical usability properties - the investigation of which must be country-specific (i.e., specific to each language and culture). The need for such clinimetric and feasibility studies is even more true if referred to telephone-based cognitive screening (TBCS) procedures - which, until recently, have been mostly neglected in Italy, despite having the potential to bring clear benefits to clinical practice and research. In fact, TBCS techniques allow, through the use of a very widespread, accessible and easy-to-use telecommunication medium, to break down the geographical, logistical, socio-demographic and organizational barriers that make it difficult and/or prevent 1) access to these clinical services and 2) the continuity of their provision, as well as the creation and completion of 3) large-scale epidemiological studies and 4) decentralized clinical trials. However, although some TBCS tests have recently been developed and standardized in Italy, their clinimetric properties and clinical usability in populations with chronic neurological disorders have not yet been investigated. Furthermore, currently, the "paper-and-pencil" version of the international gold-standard for TBCS procedures . i.e. the Telephone Interview For Cognitive Status (TICS), which has been recently standardized in this country - is not available within the Italian scenario. In fact, although the feasibility of a de visu version of the TICS (i.e., In-Person TICS; IP-TICS) has been demonstrated in this country, an actual standardization of this test has not yet been implemented to date. Such a tool would, however, allow flexible use of screening assessments, regardless of the delivery method, both in clinical and experimental contexts. 2. Aims The present study primarily aims to provide exhaustive evidence regarding the psychometric, diagnostic and both cross-sectional and longitudinal clinical usability of TBCS that are currently available within the Italian scenario in populations with chronic neurological disorders. Secondly, this study aims to derive, in normotypical Italian subjects, 1) normative data for the IP-TICS and 2) the conversion algorithms between the latter (and other widely used "paper-and-pencil" screeners ) and the TICS. 3. Methods The study is monocentric, observational, prospective. Over a period of 3 years, patients who have already undergone an in-person cognitive screening session within 6 months prior to recruitment and falling under the following diagnostic categories will be recruited: 1) amyotrophic lateral sclerosis (N≥88); 2) Alzheimer's disease (N≥66); 3) Lewy body dementia (N≥30); 4) frontotemporal dementia (N≥30); 5) chronic cerebrovascular disorders (N≥66). Furthermore, N≥287 normotypical subjects representative of the Italian population will be recruited. The following TBCS tests will be administered to patients: 1) TICS; 2) Telephone-based Frontal Assessment Battery; 3) Telephone Language Screener; 4) Telephone-based Verbal Fluency Battery; 5) ALS Cognitive Behavioral Screen-Phone Version. Additionally, patients will undergo a functional evaluation using caregiver-report questionnaires evaluating instrumental and non-instrumental skills of daily living and behavioral changes. Normal subjects will instead be administered: 1) TICS; 2) IP-TICS; 3) Mini-Mental State Examination (MMSE); 4) Montreal Cognitive Assessment (MoCA). In patients, telephone follow-ups are expected after 6, 12 and 18 months. Statistical analyses will be carried out aimed at 1) the detailed study, in patients, of the psychometrics, diagnostics and cross-sectional/longitudinal clinical usability of the aforementioned TBCS test, as well as at 2) the derivation, in normotypical subjects, of the normative data of the IP-TICS and MoCA Memory Index Score (MIS), as well as the conversion algorithms between TICS and IP-TICS/MMSE/MoCA.
The diagnosis of diseases causing memory difficulties or dementia is often challenging. Without the use of advanced methods such as cerebrospinal fluid tests, approximately 25-30% do not receive a correct diagnosis today. However, the investigators have recently developed new blood biomarkers with high diagnostic accuracy, and the investigators now want to investigate whether they can eventually replace cerebrospinal fluid tests. This is because blood tests are much more cost-effective and significantly easier for patients compared to cerebrospinal fluid tests. In this study, 1200 patients undergoing clinical evaluations at the Memory Clinic, Skåne University Hospital in Malmö, are included for blood and cerebrospinal fluid sample collection. The blood samples are sent for analysis using the new blood biomarkers. Subsequently, the results are compared with those from the clinical analysis of cerebrospinal fluid to determine how well they perform in routine clinical practice as an alternative to cerebrospinal fluid tests and whether the blood test improves patient care. This comparison is carried out by the attending physician in three steps: 1. Assessment without access to the results of either the blood test or cerebrospinal fluid test. 2. Assessment with access to only the results of the blood test. 3. Assessment with access to the results of both the blood test and cerebrospinal fluid test. Aim 1) To prospectively validate plasma Alzheimer's disease (AD) biomarkers for diagnosis of patients with cognitive symptoms who are evaluated in a specialist memory clinic. Aim 2) Determine whether blood AD biomarkers improve patient management in specialist memory clinic settings.
The overall aim of the study is to improve the diagnostic accuracy of AD and cognitive impairment in primary care settings to ensure better care and treatment as well as facilitate correct referrals to specialized memory clinics. The investigators will strive to recruit diverse and representative populations of patients with subjective cognitive decline (SCD), mild cognitive impairment (MCI) and mild dementia. The specific aims of the study are to: 1. Improve the detection of mild cognitive impairment (MCI) and dementia in primary care. 2. Develop and evaluate cognitive tests, blood-based biomarkers and brain imaging methods that are suitable for accurate and early diagnosis of Alzheimer's disease (AD) in primary care. 3. To prospectively validate plasma AD biomarkers for diagnosis of patients with cognitive symptoms who are evaluated in primary care. 4. Determine whether blood AD biomarkers improve patient management in primary care.
This study will compare the discriminative power of [18F]-SynVesT-1 PET and the standard-of-care [18F]-FDG PET in different cognitive disorders (Alzheimer's disease, Frontotemporal degeneration, dementia with Lewy bodies and late-life psychiatric disorders). Moreover, changes in [18F]-SynVesT-1 PET will be evaluated as well as their correlation with specific symptomatology.
The project PeptiClear aims to investigate whether the blood-brain-barrier (BBB) and the glymphatic system are compromised in atypical neurodegenerative diseases, and whether Alzheimer´s disease (AD)-related copathology, vascular lesions or sleep disturbances modify the clinical picture or structural and/or functional features of the diseases.
CAPTURE ALS is a long-term data and biorepository platform that will facilitate future ALS research. CAPTURE ALS will provide the standardized systems and tools necessary to collect, store, and analyze vast amounts of multimodal information about ALS. These multimodal datasets and biosamples will be made available for use by researchers or industry across Canada and around the world in accordance with the CAPTURE ALS Data Sharing Policy to advance research on ALS.
The Swedish BioFINDER 2 study is a new study that will launch in 2017 and extends the previous cohorts of BioFINDER 1 study (www.biofinder.se). BioFINDER 1 is used e.g. to characterize the role of beta-amyloid pathology in early diagnosis of Alzheimer's disease (AD) using amyloid-PET (18F-Flutemetamol) and Aβ analysis in cerebrospinal fluid samples. The BioFINDER 1 study has resulted in more than 40 publications during the last three years, many in high impact journals, and some the of the results have already had important implications for the diagnostic work-up patients with AD in the clinical routine practice. The original BioFINDER 1 cohort started to include participants in 2008. Since then there has been a rapid development of biochemical and neuroimaging technologies which enable novel ways to the study biological processes involved in Alzheimer's disease in living people. There has also been a growing interest in the earliest stages of AD and other neurodegenerative diseases. With the advent of new tau-PET tracers there is now an opportunity to elucidate the role of tau pathology in the pathogenesis of AD and other tauopathies. The Swedish BioFINDER 2 study has been designed to complement the BioFINDER 1 study and to e.g. address issues regarding the role of tau pathology in different dementias and in preclinical stages of different dementia diseases. Further, the clinical assessments and MRI methods have been further optimized compared to BioFINDER 1.
This study is designed to document the loss of sociomoral emotions (like empathy, guilt, and embarrassment) in patients with behavioral variant frontotemporal dementia. The loss of these emotions, which function as the motivators for social behavior, will manifest in specific interpersonal behaviors. These behaviors will correlate with regional changes in regional changes in medial frontal and anterior temporal lobes. These social and emotional changes will be compared with a young-onset Alzheimer's disease comparison group.