diff --git a/src/App/App.css b/src/App/App.css
index 145647101383cbe4337b45f51a04da6288688683..333731dd2147e9e9708d0c1fdb5c69630d216d3e 100644
--- a/src/App/App.css
+++ b/src/App/App.css
@@ -67,7 +67,9 @@
 .col-1{
   width: 8.33333333% !important;
 }
-
+.col2punkt5{
+  width: 20% !important;
+}
 .col-max-10{
   flex: 0 0 auto;
   max-width: 83.33333333% !important;
diff --git a/src/contents/human-practices.tsx b/src/contents/human-practices.tsx
index 6289f72ec3fddfba76e19760f70ea7a81e252b9c..c5f46e2c2f24796861c90718c408384c0d4fce9a 100644
--- a/src/contents/human-practices.tsx
+++ b/src/contents/human-practices.tsx
@@ -210,6 +210,8 @@ let timelinepersontabs =[
        <img className="middle sechpro" src="https://static.igem.wiki/teams/5247/placeholders/placehilderperson.jpeg"/>
      </div>
    </div>
+   <img className="img-right img-half" src="https://static.igem.wiki/teams/5247/photos/for-wiki-texts/hp-patch-clamp/20240625-184032.jpg"/>
+   <div>
    <h4>Aim of contact</h4>
    <p>As part of our project, we aimed to demonstrate the functionality of the CFTR ion channel, after restoring
      it through our optimized Prime Editing, by using Patch-Clamp measurements. To ensure the optimal use of the
@@ -220,9 +222,15 @@ let timelinepersontabs =[
          Neurophysiology working group at Bielefeld University, seemed to be an ideal interviewee. His 
          knowledge and experience promised valuable insights and advice for conducting and optimizing our 
          experiments. </p>
-   <img src="https://static.vecteezy.com/system/resources/previews/016/916/479/original/placeholder-icon-design-free-vector.jpg" style={{width: "30%"}}/>
-   <h4>Insights</h4>
-   <p>Prof. Dr. Wischmeyer taught us about the workflow of the Patch-Clamp technique. He highlighted the need 
+   </div>
+   <br/>
+   <div className="row">
+    <div className="col2punkt5">
+        <img src="https://static.igem.wiki/teams/5247/photos/for-wiki-texts/hp-patch-clamp/bild-patch-clamp-isi-oliver.jpeg" />
+      </div>
+      <div className="col">
+      <h4>Insights</h4>
+      <p>Prof. Dr. Wischmeyer taught us about the workflow of the Patch-Clamp technique. He highlighted the need 
     for specialized electrodes and glass pipettes that must form a smooth surface devoid of the extracellular 
     matrix (ECM). Additionally, he pointed out that measuring CFTR conductivity with the Patch-Clamp technique 
     poses a technical challenge due to the low currents involved<a href="desc-2"><sup>2</sup></a>. He recommended using expression vectors 
@@ -235,25 +243,31 @@ let timelinepersontabs =[
     current electrophysiological measurement method alongside the Patch-Clamp technique. This method allows 
     the measurement of the membrane potential above and below a monolayer of confluent cells<a href="desc-3"><sup>3</sup></a>. Consequently, 
     it enables precise measurement of conductivity dependent on CFTR expression. </p>
-   <h4>Implementation</h4>
-   <p>We decided to use HEK293T cells lines from Mattijs Bulcaen from KU Leuven [Link] which do overexpress the 
+      </div>
+   </div>
+   
+   
+   <h4>Implementation</h4>  
+    <div className="row align-items-center">
+      <div className="col">
+      <p>We decided to use HEK293T cells lines from Mattijs Bulcaen from KU Leuven [Link] which do overexpress the 
     correct CFTR and those which express CFTR with F508del for the Patch-Clamp measurements. To conduct the 
     Patch-Clamp experiments, we contacted the Cellular Neurophysiology group to perform the necessary 
     measurements. It was a pleasure to work together with Dr. Oliver Dräger, who is working as a post-doc for 
     the Cellular Neurophysiology working group at Bielefeld University. He taught us about the Patch-Clamp 
     method and spent his valuable time supporting our project by guiding our Patch-Clamp measurements. </p>
-    <div className="row align-items-center">
-      <div className="col">
-      <img src="https://static.vecteezy.com/system/resources/previews/016/916/479/original/placeholder-icon-design-free-vector.jpg" style={{width: "30%"}}/>
-      </div>
-      <div className="col">
-      <img src="https://static.vecteezy.com/system/resources/previews/016/916/479/original/placeholder-icon-design-free-vector.jpg" style={{width: "30%"}}/>
-      </div>
-    </div>
-    <p>In summary, through the interview with Prof. Dr. Wischmeyer and the collaboration with his employee 
+      <p>In summary, through the interview with Prof. Dr. Wischmeyer and the collaboration with his employee 
       Oliver Dräger, we gained valuable insights and optimized our approach to effectively investigate and 
       measure the functionality of the CFTR ion channel, thereby determining the efficiency of our Prime 
       Editing strategy. </p>
+      </div>
+      <div className="col-5">
+      <img src="https://static.igem.wiki/teams/5247/photos/for-wiki-texts/hp-patch-clamp/bild-interssierte-wissenschaftler-oho.jpeg" style={{maxHeight: "300px"}}/>
+      </div>
+    </div>
+    
+    
+    
     <h4>References</h4>
     {/*<!-- Citation num 1--> */}
 <li typeof="schema:ScolarlyArticle" role="doc-biblioentry" property="schema:citation" id="desc-1">