Potential Mechanisms of Interior Lymphatic Vessel Primo Vessels in Tissue Repair

Hall, Jared; Yates, Nicholas; Bauer, Philip J.; Perez-Abadia, Gustavo; Maldonado, Claudio

doi:10.18103/mra.v10i12.3438

Cited by 1 publication

(1 citation statement)

References 47 publications

(139 reference statements)

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“…Moreover, the starting point of PVs is at the superior sagittal sinus and it is also symmetrically distributed along the SSS (Figure a). The PVs is a circulatory system outside of the vascular and lymphatic systems that has been found to play an important role in biological processes, including tissue regeneration, inflammation, and cancer metastasis. − As indicated by the red arrows in Figure d and e, there is a pipe with a certain thickness in the periphery of the PVs, which we named PP–PVs. We found that where PP–PVs bifurcated, the PVs were also distributed in the direction of PP–PVs bifurcation and PVs did not exist until PP–PVs formed capillaries.…”

Section: Resultsmentioning

confidence: 99%

Fluorescent Pdots Facilitate High-Resolution Mapping of the Intact Meningeal Vascular Network and Eye–Brain Connections

Li,

Lu,

Zhang

et al. 2024

ACS Nano

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Meningeal vascular network is significant in neurology and neurosurgery. However, high-resolution imaging of intact meningeal vascular network is lacking. In this work, we develop a practical experimental method to ensure that the intact meninges are morphologically unfolded and fixed in an agarose gel. With the help of high-brightness polymer dots (Pdots) as probe, macroscopic and detailed imaging of the vascular network on the intact dorsal meninges can be performed. Meningeal vessels are symmetrically distributed along the superior sagittal sinus, and the distribution of meningeal vessels had a certain degree of hierarchy. The meninges are thicker blood vessels and capillary networks from the outside to the inside. Moreover, the diameter of the capillaries is 3.96 ± 0.89 μm. Interestingly, meningeal primo vessels in the central nervous system of mice is imaged with the diameter of 4.18 ± 1.18 μm, which has not been reported previously. It is worth mentioning that we found that orthotopic xenografts of brain tumors caused the appearance of corneal neovascularization and morphological changes in optic nerve microvessels. In conclusion, our work provides an effective Pdots-based imaging method for follow-up research on meningeal vascular-related diseases, and illustrates that the eye can serve as a window for the prevention and diagnosis of brain diseases.

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