diff --git a/src/contents/Human Practices/Conclisuin.tsx b/src/contents/Human Practices/Conclisuin.tsx
index dc2a2c6e9c1a2b1bd8a89eaae4017fe6d4d09eb1..fe2f7fdb27499355582bdfd464239ea39c6c26f8 100644
--- a/src/contents/Human Practices/Conclisuin.tsx	
+++ b/src/contents/Human Practices/Conclisuin.tsx	
@@ -371,12 +371,31 @@ function AnalyseMichaela(){
                     <img src="https://static.igem.wiki/teams/5247/scientific-figures/primary-cultures.webp " alt="" />
                     </figure>
                 </div> 
-                <div className="col gif-wrapper">
-                    <figure>
-                    <iframe title="Apical Out Organoids vs. Air Liquid Culture" width="560" height="315" src="https://video.igem.org/videos/embed/27ba6dab-ac52-4259-9a0e-153c9e626804?loop=1&amp;autoplay=1&amp;muted=1&amp;title=0" frameBorder="0" allowFullScreen={true} sandbox="allow-same-origin allow-scripts allow-popups allow-forms"></iframe>
-                    </figure>
-                </div>
             </div>
+            <div className="row" style={{ display: "flex", justifyContent: "space-between", gap: "10px" }}>
+        <div className="col" style={{ flex: "1" }}>
+          <iframe 
+            title="Bielefeld-CeBiTec: Air-liquid interface (ALI) culture of human nasal epithelial cells (hNECs) (2024)" 
+            width="100%" 
+            height="315" 
+            src="https://video.igem.org/videos/embed/52424a62-745a-454b-bff6-d61a13a5f967" 
+            frameBorder="0"  
+            sandbox="allow-same-origin allow-scripts allow-popups allow-forms">
+          </iframe>
+          <p>An air-liquid interface culture of human nasal epithelial cells, which have undergone differentiation into ciliated epithelium, may be employed as an example. The formation of ciliated epithelium is evident from the 'flickering'. This phenomenon involves the rhythmic movement of numerous cilia. Additionally, the uniform direction and tempo of cell debris movement, in contrast to the random movement observed in the absence of ciliated epithelium, provides further evidence of its presence.</p>
+          </div>
+        <div className="col" style={{ flex: "1" }}>
+          <iframe 
+            title="Bielefeld-CeBiTec: Apical-out airway organoids (AOAO) culture D19 (2024)" 
+            width="100%" 
+            height="315" 
+            src="https://video.igem.org/videos/embed/e70674d7-9f18-4ab5-b0ec-16a7801d01cd" 
+            frameBorder="0" 
+            sandbox="allow-same-origin allow-scripts allow-popups allow-forms">
+          </iframe>
+          <p>Apical-Out Airway Organoid (AOAO) culture D19: Visible apical-out airway organoids in action. These 3D structures, which mimic the airway epithelium, allow detailed study of cellular processes such as mucociliary transport and secretory activities, in which cilia and vesicles play a key role.</p>
+        </div>
+      </div>
         <p><strong>Hands-on experience:</strong> Gained practical insights from Michaela Bienert and Julie Watson into the cultivation methods for Air-Liquid Interface (ALI) and apical-out organoids.</p>
 
 <p><strong>Evaluation of culturing techniques:</strong> Assessed the advantages and limitations of different cultivation techniques, allowing us to make informed decisions about which methods to use in our research.</p>