diff --git a/src/contents/methods.tsx b/src/contents/methods.tsx
index 5a3906b947e6fca84598cca9d50756e684b4732a..3bfe1fb86c07c468d36b83c429cdf8b51568e961 100644
--- a/src/contents/methods.tsx
+++ b/src/contents/methods.tsx
@@ -45,13 +45,13 @@ export function Methods() {
           <div className="row">
             <div className="col">
             <figure>
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+            <iframe title="Bielefeld-CeBiTec: ALI cell culture (2024) [English]" width="560" height="315" src="https://video.igem.org/videos/embed/ff557f5a-94be-45e6-90ca-0affa14423e3?autoplay=1&amp;muted=1" frameBorder="0" allowFullScreen={true} sandbox="allow-same-origin allow-scripts allow-popups allow-forms"></iframe>
               <figcaption> <b>Figure 4. </b> ALI cultures of hNECs: The active cilia beat frequency of differentiated human nasal epithelial cells (hNECs) in air-liquid interface (ALI) culture is visible. This ciliary movement is crucial for mucociliary transport, which contributes to the clearance of particles and pathogens in the respiratory tract. </figcaption>
             </figure>
             </div>
             <div className="col">
             <figure>
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+              <iframe title="Bielefeld-CeBiTec: AOAO cell culture (2024) [English]" width="560" height="315" src="https://video.igem.org/videos/embed/058d83cf-ab09-476e-9ab2-30cd114fbc0c?autoplay=1&amp;muted=1" frameBorder="0" allowFullScreen={true} sandbox="allow-same-origin allow-scripts allow-popups allow-forms"></iframe>
              <figcaption> <b>Figure 5. </b> Apical-Out Airway Organoid (AOAO) culture: 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.  </figcaption>
            </figure>
             </div>