Magnetic resonance imaging of cerebrospinal fluid outflow after low-rate lateral ventricle infusion in mice
Yann Decker, Jonas Krämer, Li Xin, Andreas Müller, Anja Scheller, Klaus Fassbender, Steven T. Proulx
Yann Decker, Jonas Krämer, Li Xin, Andreas Müller, Anja Scheller, Klaus Fassbender, Steven T. Proulx
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Resource and Technical Advance Neuroscience Vascular biology

Magnetic resonance imaging of cerebrospinal fluid outflow after low-rate lateral ventricle infusion in mice

Abstract

The anatomical routes for the clearance of cerebrospinal fluid (CSF) remain incompletely understood. However, recent evidence has given strong support for routes leading to lymphatic vessels. A current debate centers upon the routes through which CSF can access lymphatics, with evidence emerging for either direct routes to meningeal lymphatics or along cranial nerves to reach lymphatics outside the skull. Here, a method was established to infuse contrast agent into the ventricles using indwelling cannulae during imaging of mice at 2 and 12 months of age by magnetic resonance imaging. As expected, a substantial decline in overall CSF turnover was found with aging. Quantifications demonstrated that the bulk of the contrast agent flowed from the ventricles to the subarachnoid space in the basal cisterns. Comparatively little contrast agent signal was found at the dorsal aspect of the skull. The imaging dynamics from the 2 cohorts revealed that the contrast agent was cleared from the cranium through the cribriform plate to the nasopharyngeal lymphatics. On decalcified sections, we confirmed that fluorescently labeled ovalbumin drained through the cribriform plate and could be found within lymphatics surrounding the nasopharynx. In conclusion, routes leading to nasopharyngeal lymphatics appear to be a major efflux pathway for cranial CSF.

Authors

Yann Decker, Jonas Krämer, Li Xin, Andreas Müller, Anja Scheller, Klaus Fassbender, Steven T. Proulx

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Figure 5

Histological validation of CSF tracer efflux through the cribriform plate to nasopharyngeal lymphatics and to deep cervical lymph nodes.

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Histological validation of CSF tracer efflux through the cribriform plat...
Fluorescently labeled ovalbumin (OVA) was introduced via low-rate intraventricular infusion (0.1 μL/min for 60 minutes), and at 90 minutes the mice were sacrificed for postmortem analysis of tracer efflux. (A and B) Coronal sections of decalcified skulls demonstrating substantial efflux of OVA into the nasal mucosal tissues. OVA (purple) can be seen crossing the cribriform plate alongside several olfactory nerve bundles (indicated with *). Lymphatic vessels (stained with LYVE-1 in green) can be found in proximity to the nasopharynx under the nasal turbinates. Scale bars: 500 μm (A), 200 μm (B). (CE) High-magnification view of the nasopharyngeal region indicated by the yellow box in B, demonstrating OVA signal within the LYVE-1+ lymphatic vessels. Scale bars: 10 μm. (F and G) Sections of deep cervical lymph nodes indicating close association of OVA signal within lymphatic sinuses stained with LYVE-1. Scale bars: 200 μm. (HJ) High-magnification view of the region indicated by the yellow box in F, demonstrating OVA signal within the LYVE-1+ lymphatic sinuses. Scale bars: 20 μm. Data are representative of n = 6 mice and 2 independent experiments.