From d6a7f89813240483d62a6b504d53d2fb1c2f9b12 Mon Sep 17 00:00:00 2001 From: Marta Girona Alarcon <marta.gironaalarcon@uzh.ch> Date: Thu, 3 Oct 2024 17:19:42 +0200 Subject: [PATCH] update --- .../20240901_Marta_GironaAlarcon/Publication_page.qmd | 6 +++--- 1 file changed, 3 insertions(+), 3 deletions(-) diff --git a/webpage_contents/publications/20240901_Marta_GironaAlarcon/Publication_page.qmd b/webpage_contents/publications/20240901_Marta_GironaAlarcon/Publication_page.qmd index d28aa66..f0e72e5 100644 --- a/webpage_contents/publications/20240901_Marta_GironaAlarcon/Publication_page.qmd +++ b/webpage_contents/publications/20240901_Marta_GironaAlarcon/Publication_page.qmd @@ -31,7 +31,7 @@ In this [DOI](https://doi.org/10.5281/zenodo.13773081), we provide full resoluti In a previous beamtime (ESRF, 2020, December), *ex vivo* imaging was performed. The goal of the pilot experiments was to chose a contrast agent for the presented *in vivo* experiments. The list of used contrast agents is available under the Zenodo download entry "tables_exVivo.7z". We considered the Barium-based contrast agent (CA) to be the most promissing one and therefore decided to employ it for the *in vivo* experiments (Fig. 1). - +{fig-align="center"} > Fig. 1. Ex vivo coronal slices of three different mice injected with (left) Mouse.number 23, Gadolinium-based, (middle) Mouse.number 19, Barium-based and (right) Mouse.number 30, Gold-based contrast agent. @@ -91,7 +91,7 @@ We have additively manufactured the mouse holder that is optimized for vertical ::: {layout-ncol="2"} {width="650" fig-align="center"} -{width="250" fig-align="center"} +{width="350" fig-align="center"} ::: > Fig. 4. (Left) Visualization of the mouse holder mounted on the imaging rotational stage. (Right) Translucent visualization of body mouse holder part containing the water channels to ensure physiological temperature of the mouse. @@ -100,7 +100,7 @@ We have additively manufactured the mouse holder that is optimized for vertical For the surgery room, we assambled a customized animal box to increase the starting body mouse temperature. We set the desired temperature to 33°C. Additionally, to facilitate the surgical interventions, we manufactured a mouse stage for tracheotomy and cisterna magna infusion (Fig. 5). ::: {layout-ncol="2"} -{width="500" fig-align="center"} +{width="600" fig-align="center"} {width="500" fig-align="center"} ::: -- GitLab