Clinical Research Directory

A Pilot Study of a Portable Head-Only MRI Scanner

This is a pilot study to demonstrate human brain imaging with a new portable 0.7 Tesla (T) MRI brain scanner recently developed at the CMRR.

Assessment of Early Post-operative Nuclear Imaging in Neurosurgery: a Safety and Feasibility Study in Patients Operated for Glioblastoma

This clinical trial aims to evaluate the feasibility and safety of early post-operative brain PET-MRI imaging in adult patients who have undergone surgery for suspected glioblastoma. The study also seeks to validate specific nuclear imaging parameters for better detection of residual tumor tissue compared to standard gadolinium-enhanced MRI. The main objectives are to determine whether early PET-MRI within 48 hours post-surgery is feasible, to assess potential side effects related to imaging procedures, and to explore if PET parameters such as SUVmax, metabolic volume, and tumor-to-striatum ratio can improve the detection of tumor residue. A total of 15 patients will be included at a single site in France. Participants will undergo PET-MRI using 18F-DOPA and gadolinium, and will be monitored for radiation exposure and possible adverse events up to 24 hours after imaging.

The Impacts of Chronic Non-specific Low Back Pain on Cognitive Functions of Older Adults: A Longitudinal Study

Chronic non-specific low back pain (CNSLBP) is a common condition among older adults and has been associated with an increased risk of executive function impairment. Research shows that older adults experiencing chronic pain are more likely to show worse cognitive performance compared to healthy individuals. While there is a bidirectional relationship between pain and executive functions, cognitive performance especially for some executive functions (e.g. inhibition, switching, working memory) is crucial for managing pain in older adults. Furthermore, executive dysfunctions are associated with decline in functional status among the population, particularly in performing instrumental activities in daily living. Therefore, maintaining executive function emerges as a pivotal consideration for older adults with CNSLBP. Studies provide preliminary evidence that connects brain changes with chronic pain and cognitive functions. For instance, multisite chronic pain may increase the risk of cognitive decline through structural changes like hippocampal atrophy. Besides, functional brain changes in chronic pain may reduce deactivation several key default mode network regions, predisposing individuals to cognitive impairments. Despite the aforementioned brain changes, no direct evidence supports the hypothesis that structural and functional brain changes caused by CNSLBP in older adults may be associated with cognitive decline. It remains unclear that whether structural changes (e.g. reduced hippocampal, cerebellar gray matter, white matter volume in the right frontal region) and/or functional changes (e.g. deactivation of default mode network regions, heightened activation in the anterior cingulate cortex) cause by CNSLBP are associated with cognitive decline. With neuroimaging techniques, brain mechanisms connecting CNSLBP and executive function deficits can be explained. To deepen understanding of the brain mechanisms underlying executive function decline in older adults with CNSLBP, this study will directly compare pain intensity, executive functions, brain structure, and functional changes of the brain between older adults with CNSLBP and age-matched healthy controls. A longitudinal approach is established to quantify the relationship between CNSLBP-related brain changes and executive functions in older adults, providing insights into the development of new treatment strategies to improve or prevent executive function decline in older adults with CNSLBP.

The Impacts of Chronic Non-specific Low Back Pain on Cognitive Functions of Older Adults

Chronic non-specific low back pain (CNSLBP) is a prevalent condition among older adult and has been associated with an increased risk of executive function impairment. Studies have shown that older adults with chronic pain are more likely to show poor cognitive performance than healthy controls. Cognitive performance is particularly important when managing pain in older adults, especially for some executive functions (e.g., inhibition, switching, working memory) because pain and executive functions have their bidirectional relationship. Further, executive dysfunctions are associated with a decline in functional status among older adults, particularly the impairment of instrumental activities of daily living. Given the above, the preservation of executive functions emerges as a pivotal consideration among old adults with CNSLBP. Studies have provided preliminary evidence of the correlation between brain changes associated with chronic pain and cognitive functions. For example, multisite chronic pain may contribute to an increased risk of cognitive decline via structural change in hippocampal atrophy. For another example, functional brain changes in chronic pain reduced the deactivation of several key default mode network regions, thereby predisposing individuals to cognitive impairments. Despite the aforementioned brain changes, no research has provided direct evidence to support the hypothesis that structural and functional brain changes caused by CNSLBP in older adults may be associated with cognitive decline. Specifically, whether CNSLBP may lead to structural changes (e.g., smaller hippocampal, cerebellar gray matter, white matter volume in the right frontal region) and/or functional changes (e.g., deactivation of default mode network regions, heightened activation in the anterior cingulate cortex) associated with cognitive decline remains unclear. With the help of neuroimaging, the knowledge about the underlying brain mechanisms between CNSLBP (chronic non-specific low back pain) and executive functions can be explained. To gain a better understanding of the brain mechanisms underlying executive function decline in older adults with CNSLBP, this study will directly compare pain intensity, executive functions, brain structure, and functional changes of the brain between older adults with CNSLBP and age-matched healthy controls. The results of this study have the potential to quantify the association between CNSLBP-related brain changes and executive functions in older adults, and provide insights into the development of new treatment strategies to improve or prevent executive function decline in older adults with CNSLBP.

Orchestra in Class, a Novel Booster for Executive Functions and Brain Development in Young Primary School Children

How to optimally stimulate the developing brain is still unclear. Executive functions (EF) exhibited substantially stronger far transfer effects in children who learned to play a musical instrument than in children who acquired other arts. What is crucially lacking is a large-scale, long-term genuine randomized controlled trial (RCT) in cognitive neuroscience, comparing musical instrumental training (MIP) to another art form and a control group. Collected data of this proposal will allow, using machine learning, to build a data-driven multivariate model of children's interconnected brain and EF development over the first 2 years of their academic curriculum (6-8 years), with or without music or other art training.