Publications by authors named "V Fonollosa Pla"
We here revisited the concept that glymphatic clearance is enhanced by sleep and anesthesia. Utilizing dynamic magnetic resonance imaging (MRI), single photon emission computed tomography (SPECT), and fluorescent fiber photometry, we report brain glymphatic clearance is enhanced by both sleep and anesthesia, and sharply suppressed by wakefulness. Another key finding was that less tracer enters the brains of awake animals and that brain clearance across different brain states can only be compared after adjusting for the injected tracer dose.
View Article and Find Full Text PDFHistological studies have for decades documented that each of the classical meningeal membranes contains multiple fibroblast layers with distinct cellular morphology. Particularly, the sublayers of the arachnoid membranes have received attention due to their anatomical complexity. Early studies found that tracers injected into the cerebrospinal fluid (CSF) do not distribute freely but are restricted by the innermost sublayer of the arachnoid membrane.
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- Researchers used a special imaging technique called two-photon optical imaging to study how cervical lymphatic vessels (cLVs) drain cerebrospinal fluid (CSF) in live mice, revealing that contraction of the vessel walls is the main driving force of this flow.* -
- They found that in older mice, the frequency of these contractions and the speed of fluid flow decreased, linked to lower levels of smooth muscle actin.* -
- By applying prostaglandin F to aged mice, the researchers were able to enhance muscle contraction and improve CSF drainage, suggesting that boosting cLV function could help clear waste from the brain in aging individuals.*
Consciousness is lost within seconds upon cessation of cerebral blood flow. The brain cannot store oxygen, and interruption of oxidative phosphorylation is fatal within minutes. Yet only rudimentary knowledge exists regarding cortical partial oxygen tension (o) dynamics under physiological conditions.
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