Quantitative Imaging of Brain Glymphatic Function in Humans
概览
- 阶段
- 早期 1 期
- 干预措施
- [11C]-PIB
- 疾病 / 适应症
- Parkinson Disease
- 发起方
- Vanderbilt University Medical Center
- 入组人数
- 140
- 试验地点
- 1
- 主要终点
- Diffusion Tensor Imaging Along Perivascular Spaces (DTI-ALPS)
- 状态
- 进行中(未招募)
- 最后更新
- 23天前
概览
简要总结
Recent immunological and physiological studies have provided evidence in support of a central nervous system (CNS) lymphatic drainage system in vertebrate animals, and preliminary evidence has suggested that a similar system exists in humans. If operative, this system may have central relevance to many vascular and fluid clearance disorders such as stroke, multiple sclerosis, Parkinson's disease, and Alzheimer's disease related dementia (ADRD): diseases which represent some of the most pressing healthcare challenges of the 21st century. Evaluating this possibility will require improved, robust imaging methods sensitive to lymphatic drainage dysfunction; as such, the goal of this work is to apply novel magnetic resonance imaging approaches, optimized already for evaluating lymphatic circulation in patients with peripheral lymphatic dysfunction, to quantify relationships between physiological hallmarks of ADRD and CNS lymphatic function in humans.
详细描述
The proposal involves magnetic resonance imaging (MRI) of healthy volunteers and patient volunteers suffering from Parkinson's disease. As part of the research study, volunteers will undergo 1-2 non-invasive MRI scans at a field strength of 3 Tesla. Each scan session will last 60-90 minutes, and will include the time when the volunteers will rehearse the experiment outside of the scanner, time for the volunteers and patients to be comfortably placed in the scanner, scanning, and finally time for the patients to slowly exit the scan room. All MRI methods are non-invasive and no exogenous contrast agents will be required. Patient volunteers will also undergo an C-11 PiB PET scan for Aim (2). This procedure utilizes a common radiotracer that is used routinely in clinical PET scans and will be purchased here from PETNET and certified for human use. All PET scans will be performed by a certified PET technologist at the Vanderbilt University Institute of Imaging Science. Finally, in Aim (3) of this study, measurements of glymphatic function will be performed before and during general anesthesia. Importantly, the general anesthesia will be administered as part of standard-of-care for clinically-indicated MRIs required for deep brain stimulation planning and electrode placement. Therefore, the intervention itself is not a research procedure. Additionally, the scan that will be performed, which is a modified diffusion tensor imaging (DTI) MRI approach, is already performed as part of this clinical protocol. Therefore, it is anticipated that the participant will not be sedated any longer than what would be required for clinical indication for this procedure. As such, while this study qualifies as a clinical trial by NIH criteria, it is expected to pose no more risk than what the participant will receive from their clinical standard-of-care procedure.
研究者
Manus Donahue
Professor of Neurology, Psychiatry and Behavioral Sciences, and Radiology and Radiological Sciences
Vanderbilt University Medical Center
入排标准
入选标准
- •diagnosis of Parkinson's Disease or controls
- •willing to participate in PET and MRI imaging
排除标准
- •recent stimulant use
- •unstable diabetes
- •prior stroke
- •claustrophobia
- •prior cancer treatment with chemotherapy
- •history of traumatic brain injury
- •any unstable medical condition
研究组 & 干预措施
Parkinson's Disease participants with MCI
Patient volunteers will also undergo a C-11 PiB PET scan. This procedure utilizes a common radiotracer that is used routinely in clinical PET scans and will be purchased here from PETNET and certified for human use. All PET scans will be performed by a certified PET technologist at the Vanderbilt University Institute of Imaging Science.
干预措施: [11C]-PIB
结局指标
主要结局
Diffusion Tensor Imaging Along Perivascular Spaces (DTI-ALPS)
时间窗: baseline, under anesthesia
Using a 3T MRI (body coil transmission and SENSE phased-array 32-channel reception), images will be taken. For analysis, a unitless ratio of diffusion along perivascular space relative to orthogonal to perivascular space at the level of the lateral brain ventricles will be calculated