diff --git a/cbme2022/CMBE21_ale.tex b/cbme2022/CMBE21_ale.tex
index 5687caa..a67bec7 100644
--- a/cbme2022/CMBE21_ale.tex
+++ b/cbme2022/CMBE21_ale.tex
@@ -109,7 +109,7 @@ We will show the extension to a CT scheme. Namely, in that case the following in
 \end{equation}
 for $(\mathbf{u}^n, p^n)$ the velocity/pressure pair solution at time $t^n$, in the reference domain $\Omega^0$, for operators to be specified in the talk. 
 
-Our finding will be supplemented with an application to fluid-solid interaction in an idealized cardiac geometry, exploiting the splitting nature of the CT scheme with a well-known coupling approach \cite{bertoglio2013sisc}. \textcolor{red}{cita el paper original de fernandez, gerbau y grandmont porfa}
+Our finding will be supplemented with an application to fluid-solid interaction in an idealized cardiac geometry, exploiting the splitting nature of the CT scheme with a well-known coupling approach \cite{bertoglio2013sisc, fernandez-gerbeau-grandmont-06}.
 %In such a case, we will exploit the fluid pressure projection step, coupling it with the solid problem in an efficient fashion. Simulations of such a case will be provided, as well as the current research done in more realistic geometries.
 \begin{figure}[!hbtp]
 	\centering
@@ -118,7 +118,7 @@ Our finding will be supplemented with an application to fluid-solid interaction
 	\label{fig:comparison_figure}
 \end{figure}
 
-%\newpage
+\newpage
 
 
 \bibliography{biblio_merged.bib}