Difference between revisions of "Team:Tongji Shanghai/Safety"

 
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             <h2>Safety</h2>
 
             <h2>Safety</h2>
             <p>Safety is prior to all others.</p>
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             <p>Safety is prior to all.</p>
 
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                   <a href="#">Bio Safety</a>
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                   <a href="#">Environmental Safty</a>
 
                 </li>
 
                 </li>
 
                 <li>
 
                 <li>
                   <a href="#">Environmental Safety</a>
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                   <a href="#">Bio Safety</a>
 
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      <h3 class="classic-title" style="margin-top:0px"><span>Lab Safety</span></h3>
 
 
 
          <!-- Some Text -->
 
            <ul style="margin-left:0px; font-size:16px">Safety is prior to all other stuffs especially in the lab.<br><br>
 
  
The Administrative office of Laboratory and Equipment in Tongji University is responsible for the safety of biology labs. Before we freshmen get into the lab and do experiments, we must take some courses offered by Administrative office of Laboratory and Equipment and have several tests to qualify our safety training on the Tongji University website.<br><br>
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After taking the cources and passing the tests, we became familiar with some rules to secure the biosafety such as wearing the white coat and gloves is the necessity before doing the experiment, never bring the experiment materials out of the lab and never eat or drink inside the lab. And later all our members also sign up on a letter of commitment in which we promise to obey all the rules to secure the lab safety and the lab manager has the right to prevent us from continuing the experiments if we did something harmful to safety. We promise to obey all the rules to secure the lab safety as bellow:<br><br>
+
   
               
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    <h3 class="classic-title" style="color: #ee3733;"><span>Lab Safety</span></h3>
        1) Experiment participants need to understand the experiment completely.<br>
+
    <ul style="margin-left:0px; font-size:16px;">Safety is prior to all other stuffs especially in the lab.</ul>
        2) Wear rubber gloves in all experimenters.<br>
+
    <ul style="margin-left:0px; font-size:16px;">The Administrative office of Laboratory and Equipment in Tongji University is responsible for the safety of biology labs. Before we freshmen get into the lab and do experiments, we must take some courses offered by Administrative office of Laboratory and Equipment and have several tests to qualify our safety training on the Tongji University website.</ul>
        3) Necessary steps should be performed in bio-safety cabinet.<br>
+
    <br>
        4) Fire, electric heaters, microwave oven should not be left while being used.<br>
+
    <ul style="margin-left:0px; font-size:14px;">1) Experiment participants need to understand the experiment completely.</ul>
        5) Sterilize all liquid waste and solid waste containing living organism.<br>
+
    <ul style="margin-left:0px; font-size:14px;">2) Wear rubber gloves in all experimenters.</ul>
        6) Sterilize the lab using UV-light every week.<br>
+
    <ul style="margin-left:0px; font-size:14px;">3) Necessary steps should be performed in bio-safety cabinet.</ul>
        7) The last person to leave the lab should make sure that water, electricity, gas, and air conditioner has been closed, and doors and windows has been locked before leaving.<br><br>
+
    <ul style="margin-left:0px; font-size:14px;">4) Fire, electric heaters, microwave oven should not be left while being used.</ul>
<br>
+
    <ul style="margin-left:0px; font-size:14px;">5) Sterilize all liquid waste and solid waste containing living organism.</ul>
                Even though all the organism we work with are not harmful for the environment and health, we still assume that they may threaten the ecology, so we wear rubber gloves and lab coat when we do the experiments to keep it from direct touching with human body. We also do all the experiments with these living organism in the laminar flow bench to prevent those organism from getting into the outside air. After we do the experiments, we use NaclO solution to sterilizing waste such as the used agar plate and the used tips. What's more, everytime after we finish our work, we use UV light to sterilize the lab.<br><br>
+
    <ul style="margin-left:0px; font-size:14px;">6) Sterilize the lab using UV-light every week.</ul>
        </ul>
+
    <ul style="margin-left:0px; font-size:14px;">7) The last person to leave the lab should make sure that water, electricity, gas, and air conditioner has been closed, and doors and windows has been locked before leaving.</ul>
          <br>
+
    <br>
          <br>  
+
    <ul style="margin-left:0px; font-size:16px;">Even though all the organism we work with are not harmful for the environment and health, we still assume that they may threaten the ecology, so we wear rubber gloves and lab coat when we do the experiments to keep it from direct touching with human body. We also do all the experiments with these living organism in the laminar flow bench to prevent those organism from getting into the outside air. After we do the experiments, we use NaclO solution to sterilizing waste such as the used agar plate and the used tips. What's more, everytime after we finish our work, we use UV light to sterilize the lab.</ul>  <br> <br>
     
+
      <img src="https://static.igem.org/mediawiki/2016/2/2a/T--Tongji_Shanghai--Lab_1.jpg" style="width: 750px;">
            <h3 class="classic-title" style="margin-top:20px"><span>Bio Safety</span></h3>
+
    <br>
 
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    <p>Fig1.most of our work is finished in the laminar bench</p>
          <!-- Some Text -->
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    <br>
            <ul style="margin-left:0px; font-size:16px">The cell toxicity experime nt shows that the toxicity of the AuNRs is dose-related. When the AuNRs concentration is low, it shows no obvious cell toxicity, but it exhibits cell toxicity with the concentration increase.<br><br>The cell toxicity is the result of the AuNRs can induce cell apoptosis and autophagy by damaging mitochondria and activating intracellular reactive oxygen species (ROS). Surface modifications have been extensively used to improve the biocompatibility and stability of gold nanorods.<br><br> And our results show that with the surface modification of PEG, the toxicity of the AuNRs decreased dramatically. Also the mice we injected AuNRs do not show any different from the control group for now. In a word, all the results testify our material have well-controlled biosafety both in material stability and its cell toxicity. <br><br>
+
   
 +
    <img src="https://static.igem.org/mediawiki/2016/8/86/T--Tongji_Shanghai--Lab_2.jpg" style="width: 750px;">
 +
    <br>
 +
    <p>Fig.2 most of our equipment has been treated by high-pressure steam sterilization.</p>
 +
    <br>
 +
   
 +
    <img src="https://static.igem.org/mediawiki/2016/c/c2/T--Tongji_Shanghai--Lab_3.jpg" style="width: 750px;">
 +
    <br>
 +
    <p>Fig.3 the cells we used in our experiment is tested as mycoplasma free.</p>
 +
    <br>
 +
   
 +
    <img src="https://static.igem.org/mediawiki/2016/9/9e/T--Tongji_Shanghai--Lab_4.jpg" style="width: 750px;">
 +
    <br>
 +
    <p>Fig.4 we used the UV light to sterilize the laminar bench everytime before and after our experiment. In the experiment, we use spirit lamp to provide a microorganism-free environment.</p>
 +
    <br>
 +
   
 +
    <img src="https://static.igem.org/mediawiki/2016/0/06/T--Tongji_Shanghai--barrel.png" style="width: 750px;">
 +
    <br>
 +
    <p>Fig.5 the waste liquid is treated with sterile liquid to avoid causing harm to the environment.</p>
 +
    <br>
 +
   
 +
    <h3 class="classic-title" style="color: #ee3733;"><span>Environmental safety</span></h3>
 +
    <ul style="margin-left:0px; font-size:16px;">In our project, we use 6 kinds of organism, hcc1997,hela and 293T cell line plus virus ranked in the organisms of Level 2 risk group, while E.coli which is ranked in the organisms of Level 1 risk goup and the mouse which is kept in SPF level. The three cell lines is tested as mycoplasma free. All the risk level organism is treated with sterile liquid to avoid causing harm to the environment.</ul>
 +
    <br>
 +
   
 +
    <h3 class="classic-title" style="color: #ee3733;"><span>Bio Safety</span></h3>
 +
    <ul style="margin-left:0px; font-size:16px;">The cell toxicity experime nt shows that the toxicity of the AuNRs is dose-related. When the AuNRs concentration is low, it shows no obvious cell toxicity, but it exhibits cell toxicity with the concentration increase. The cell toxicity is the result of the AuNRs can induce cell apoptosis and autophagy by damaging mitochondria and activating intracellular reactive oxygen species (ROS) [1]. Surface modifications have been extensively used to improve the biocompatibility and stability of gold nanorods. And our results show that with the surface modification of PEG, the toxicity of the AuNRs decreased dramatically. Also the mice we injected AuNRs do not show any different from the control group for now. In a word, all the results testify our material have well-controlled biosafety both in material stability and its cell toxicity. </ul>
 +
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        <h3 class="classic-title" style="margin-top:20px"><span>Environmental Safety</span></h3>
+
        <!-- Cell Experiments-->
 
+
                  <!-- Some Text -->
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                    <ul style="margin-left:0px; font-size:16px">In our project, we use 6 kinds of organism, hcc1937,hela and 293T cell line plus virus ranked in the organisms of Level 2 risk group, while E.coli which is ranked in the organisms of Level 1 risk goup and the mouse which is kept in SPF level. The three cell lines is tested as mycoplasma free. All the risk level organism is treated with sterile liquid to avoid causing harm to the environment.<br><br>
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        <!-- Materials Synthesis -->  
         
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  <!-- Style Switcher -->
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  <div class="switcher-box">
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    <h4>Style Switcher</h4>
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    <span>12 Predefined Color Skins</span>
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    <ul class="colors-list">
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        <a onClick="setActiveStyleSheet('blue'); return false;" title="Blue" class="blue"></a>
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        <a onClick="setActiveStyleSheet('green'); return false;" title="Green" class="green"></a>
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    <select id="topbar-style" class="topbar-style">
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    <span>Layout Style</span>
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      <option value="1">Wide</option>
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      <option value="2">Boxed</option>
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    </select>
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    <span>Patterns for Boxed Version</span>
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    <ul class="bg-list">
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        <a href="#" class="bg1"></a>
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Latest revision as of 02:48, 20 October 2016

Tongji_Shanghai-2016.igem.org Tongji Shanghai

Margo | Blog

Safety

Safety is prior to all.

Lab Safety

    Safety is prior to all other stuffs especially in the lab.
    The Administrative office of Laboratory and Equipment in Tongji University is responsible for the safety of biology labs. Before we freshmen get into the lab and do experiments, we must take some courses offered by Administrative office of Laboratory and Equipment and have several tests to qualify our safety training on the Tongji University website.

    1) Experiment participants need to understand the experiment completely.
    2) Wear rubber gloves in all experimenters.
    3) Necessary steps should be performed in bio-safety cabinet.
    4) Fire, electric heaters, microwave oven should not be left while being used.
    5) Sterilize all liquid waste and solid waste containing living organism.
    6) Sterilize the lab using UV-light every week.
    7) The last person to leave the lab should make sure that water, electricity, gas, and air conditioner has been closed, and doors and windows has been locked before leaving.

    Even though all the organism we work with are not harmful for the environment and health, we still assume that they may threaten the ecology, so we wear rubber gloves and lab coat when we do the experiments to keep it from direct touching with human body. We also do all the experiments with these living organism in the laminar flow bench to prevent those organism from getting into the outside air. After we do the experiments, we use NaclO solution to sterilizing waste such as the used agar plate and the used tips. What's more, everytime after we finish our work, we use UV light to sterilize the lab.



Fig1.most of our work is finished in the laminar bench



Fig.2 most of our equipment has been treated by high-pressure steam sterilization.



Fig.3 the cells we used in our experiment is tested as mycoplasma free.



Fig.4 we used the UV light to sterilize the laminar bench everytime before and after our experiment. In the experiment, we use spirit lamp to provide a microorganism-free environment.



Fig.5 the waste liquid is treated with sterile liquid to avoid causing harm to the environment.


Environmental safety

    In our project, we use 6 kinds of organism, hcc1997,hela and 293T cell line plus virus ranked in the organisms of Level 2 risk group, while E.coli which is ranked in the organisms of Level 1 risk goup and the mouse which is kept in SPF level. The three cell lines is tested as mycoplasma free. All the risk level organism is treated with sterile liquid to avoid causing harm to the environment.

Bio Safety

    The cell toxicity experime nt shows that the toxicity of the AuNRs is dose-related. When the AuNRs concentration is low, it shows no obvious cell toxicity, but it exhibits cell toxicity with the concentration increase. The cell toxicity is the result of the AuNRs can induce cell apoptosis and autophagy by damaging mitochondria and activating intracellular reactive oxygen species (ROS) [1]. Surface modifications have been extensively used to improve the biocompatibility and stability of gold nanorods. And our results show that with the surface modification of PEG, the toxicity of the AuNRs decreased dramatically. Also the mice we injected AuNRs do not show any different from the control group for now. In a word, all the results testify our material have well-controlled biosafety both in material stability and its cell toxicity.