Advancing insights into in vivo meningeal lymphatic vessels with stereoscopic wide-field photoacoustic microscopy.
Fei YangZhiyang WangWenbin ShiMiao WangRui MaWuyu ZhangXipeng LiErqi WangWenjie XieZhan ZhangQi ShenFeifan ZhouSihua YangPublished in: Light, science & applications (2024)
Meningeal lymphatic vessels (mLVs) play a pivotal role in regulating metabolic waste from cerebrospinal fluid (CSF). However, the current limitations in field of view and resolution of existing imaging techniques impede understanding the stereoscopic morphology and dynamic behavior of mLVs in vivo. Here, we utilized dual-contrast functional photoacoustic microscopy to achieve wide-field intravital imaging of the lymphatic system, including mLVs and glymphatic pathways. The stereoscopic photoacoustic microscopy based on opto-acoustic confocal features has a depth imaging capability of 3.75 mm, facilitating differentiation between mLVs on the meninges and glymphatic pathways within the brain parenchyma. Subsequently, using this imaging technique, we were able to visualize the dynamic drainage of mLVs and identify a peak drainage period occurring around 20-40 min after injection, along with determining the flow direction from CSF to lymph nodes. Inspiringly, in the Alzheimer's disease (AD) mouse model, we observed that AD mice exhibit a ~ 70% reduction in drainage volume of mLVs compared to wild-type mice. With the development of AD, there is be continued decline in mLVs drainage volume. This finding clearly demonstrates that the AD mouse model has impaired CSF drainage. Our study opens up a horizon for understanding the brain's drainage mechanism and dissecting mLVs-associated neurological disorders.
Keyphrases
- high resolution
- ultrasound guided
- lymph node
- mouse model
- wild type
- optical coherence tomography
- single molecule
- cerebrospinal fluid
- high speed
- high throughput
- white matter
- high fat diet induced
- multiple sclerosis
- metabolic syndrome
- skeletal muscle
- single cell
- cerebral ischemia
- magnetic resonance imaging
- adipose tissue
- insulin resistance
- contrast enhanced
- electron microscopy