injection of microbubbles into isolated mouse embryos: a technique to deliver microbubble contrast agents into the vasculature of living murine embryos

Injection of Microbubbles into Isolated Mouse Embryos: A Technique to Deliver Microbubble Contrast Agents into the Vasculature of Living Murine Embryos

Pipette the necessary volume of microbubbles stock solution and add to the aliquot of saline. Mix by stirring gently with the tip of the pipette. Then, use a 21-gauge needle to draw the diluted microbubble solution into a clean syringe. After removing the needle, eliminate any air bubbles from the syringe and attach the luer and tubing. Slowly push the solution to the end of the tubing, making sure not to generate any air bubbles.
Finally, insert the syringe into a syringe infusion pump set to dispense the microbubbles at a rate of 20 microliters per minute for a total volume of 20 microliters. Attach a pulled glass needle to the end of the tubing. Move the pump close to the injection stage. Use a perforated spoon to randomly select and remove one embryo from the chilled media dish. Place the embryo in a dissection dish located on the ultrasound stage under the stereoscope.
Next, locate the side of the embryo that appears the least vascularized. Here&#39;s an area of low vascularization, generally adjacent to the head region. Then, use fine forceps to cut or tear just enough of the yolk sac and amniotic membranes to be able to remove the embryo from within, but no more. Next, gently maneuver the sac from around the embryo. Then, position the embryo on its side with the placenta and umbilical vessels in front.
Stabilize the dissection dish using small pieces of plasticine. Using four insect pins, pin down the yolk sac and edges of the placenta, avoiding any major vessels. Using a syringe containing pre-warmed 45 degrees Celsius PBS, wash the embryo until blood can be seen flowing into the embryo. The umbilical artery is identified by the pulsatile, bright red blood. The umbilical vein and its associated vascular network have darker blood and usually overlay those from the umbilical artery on the placental side.
At this point, position the dish so the injection can be done comfortably. Once the embryo has revived, cover it, but not the placenta, with pre-warmed ultrasound gel. Use fine forceps to delicately remove any air bubbles from around the embryo and top up the dish with pre-warmed PBS. Throughout the procedure, keep an eye on the level of solution in the PBS and gel syringes and add backup syringes to the heating beaker as needed.
Next, mount the glass needle on a large ball of plasticine at the edge of the dissection dish and insert the needle end into the PBS. Choose a vein on the chorionic surface of the placental disc as far from the main branch as reasonable. Then, use scissors to trim the needle tip to match the vessel size, cutting the tip at a slight angle. Use the edge of the spring scissors to remove any jagged edges of glass.
Now, using the syringe pump, slowly inject the microbubble solution at 20 microliters per minute into the glass needle until all of the air is expelled from the needle tip and the microbubbles can be seen to flow freely into the PBS. Stop the pump and reset it for an injection volume of 20 microliters. Do not allow air to enter the injection needle so as to avoid injecting air into the embryo&#39;s vascular system.
Insert the glass needle tip gently into the selected vein in the placenta and ensure that it is immobile. Swing away the stereoscope head and position the ultrasound transducer so that the embryo is situated evenly between the foci at 6 and 10 millimeters. Next, initiate imaging and start the bolus injection of the microbubbles. After a minute, when the injection is complete, start the timer for the data acquisition step.

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1. Microbubble Preparation
<ol>
	<li>Preparing microbubbles for injection 
	NOTE: The assistant performs this step when &#8216;Injection of Microbubbles (MB) into Embryos&#8217; is commenced. Each embryo is injected once, with the type of microbubble chosen for each injection to be randomly selected by the assistant such that all types of microbubbles are evenly distributed throughout the procedure but given in a random order. Ensure the surgeon is blind to the type of bubble being injected.
	<ol>
		<li>Determine the volume of stock bubble solution required to produce a final concentration of 1 x 108&#160;MB/mL in a volume of 400 &#181;L (calculate the volume using the stock concentrations). Aliquot the corresponding volume of saline into an empty microcentrifuge tube.</li>
		<li>Gently agitate the selected microbubble vial and draw an excess volume (~50 &#181;L greater than that calculated above) of the solution into a 1 mL syringe using the 21 G needle. Inject the microbubbles into an empty microcentrifuge tube.</li>
		<li>Pipette the necessary volume of microbubble stock solution and add to the aliquot of saline. Mix by stirring gently with the tip of the pipette.</li>
		<li>Draw the diluted microbubble solution into a clean syringe using the 21 G needle. Removing the needle, eliminate any air bubbles from the syringe and attach the luer and tubing. Slowly push the solution to the end of the tubing making sure not to generate any air bubbles.</li>
		<li>Insert the syringe into a syringe infusion pump set to dispense the microbubbles at a rate of 20 &#181;L/min for a total volume of 20 &#181;L. Attach a pulled glass needle to the end of the tubing. Move the pump close to the injection stage.</li>
	</ol>
	</li>
</ol>
2. Injection of Microbubbles into Embryos
<ol>
	<li>Randomly select and remove (with perforated spoon) one embryo from the chilled media dish. Place in dissection dish located on the ultrasound stage under the stereoscope and remove the yolk sac and amniotic membranes with the fine forceps, cutting/tearing from the side that appears least vascularized (the antimesometrial side). This is most easily achieved by piercing an area adjacent to the head region.
	<ol>
		<li>Cut enough to remove the embryo from within, but no more. Stabilize the dissection dishes using small pieces of plasticine.</li>
	</ol>
	</li>
	<li>Gently maneuver the sac from around the embryo. Position the embryo on its side, with the placenta and umbilical vessels in front. Using the insect pins, pin down the yolk sac (4 pins recommended) and edges of the placenta as necessary to affix in place. Avoid major vessels.</li>
	<li>Wash the embryo with pre-warmed 45&#176;C PBS until the embryo revives. Identify the umbilical vein and its associated vascular network. Position the dish so that injection can be done comfortably.&#160;&#160;&#160;&#160;&#160; 
	NOTE: Once warmed, blood in the embryo will begin to flow, visibly pumping in the umbilical artery. When flow first begins, the veins will be a bright red, with the blood in both vessels quickly appearing identical. The branches arising from the umbilical vein usually overlay those from the umbilical artery on the placental surface.</li>
	<li>Once the embryo has revived, cover it (but not the placenta) with pre-warmed US gel, being sure to delicately remove any air bubbles (using the fine forceps) from around the embryo. Top up the dish with pre-warmed PBS.&#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160; 
	NOTE: Keep an eye on the level of solution in the PBS and gel syringes and add backup syringes to the heating beaker as needed.</li>
	<li>Mount the glass needle on a large ball of plasticine at the edge of the dissection dish and insert the needle end into the PBS. Choosing a vein on the chorionic surface of the placental disc, as far from the main branch as reasonable, trim the tip to size using scissors. Injection is easiest if the tip is cut at a slight angle. Remove any jagged edges of the glass using the edge of the spring scissors.</li>
	<li>Using the syringe pump, slowly inject the microbubble solution at 20 &#181;L/min into the glass needle until all of the air is expelled from the needle tip and microbubbles can be seen to flow freely into the PBS. Stop the pump and reset for an injection volume of 20 &#181;L. Do not allow air to enter the embryo&#8217;s vascular system during injection.</li>
	<li>Insert the glass needle tip gently into one of the veins in the placenta and ensure it is immobile. Swing away the stereoscope head and position the transducer above the embryo. Initiate imaging.</li>
</ol>

<table><tbody><tr><td>Ice</td><td></td><td></td><td></td></tr><tr><td>0.9% sodium chloride (saline)</td><td>Hospira</td><td>0409-7984-11</td><td></td></tr><tr><td>Phosphate Buffered Saline [1x]&amp;nbsp;</td><td>Sigma</td><td>D8537</td><td>1x, w/o calcium chloride &amp;amp; magnesium chloride</td></tr><tr><td>Ultrasound contrast agent, target ready and untargeted</td><td>MicroMarker; VisualSonics Inc.</td><td></td><td></td></tr><tr><td>Ultrasound gel (Aquasonic 100, colourless)</td><td>CSP Medical</td><td>133-1009</td><td></td></tr><tr><td>Ice bucket</td><td>Cole Parmer</td><td>RK 06274-01</td><td></td></tr><tr><td>Imaging Platform</td><td>VisualSonics Inc.</td><td>Integrated Rail System</td><td></td></tr><tr><td>Light source, fiber-optic</td><td>Fisher Scientific</td><td>12-562-36</td><td>Ideally has adjustable arms</td></tr><tr><td>Luers (12), polypropylene barbed female &amp;frac14;-28 UNF thread</td><td>Cole Parmer</td><td>45500-30</td><td></td></tr><tr><td>Micro-ultrasound system, high-frequency</td><td>VisualSonics Inc.</td><td>Vevo2100</td><td></td></tr><tr><td>Needles, 21 gauge&amp;nbsp; (1&amp;rdquo;)</td><td>VWR</td><td>305165</td><td></td></tr><tr><td>Perforated spoon (Moria)</td><td>Fine Science Tools</td><td>MC 17 10373-17</td><td></td></tr><tr><td>Pins (6), black anodized minutien 0.15 mm</td><td>Fine Science Tools</td><td>26002-15</td><td></td></tr><tr><td>Syringes, 1 mL Normject</td><td>Fisher</td><td>14-817-25</td><td></td></tr><tr><td>Syringe infusion pump&amp;nbsp;</td><td>Bio-lynx&amp;nbsp;</td><td>NE-1000</td><td></td></tr><tr><td>Pipettors [2-20 &amp;mu;L, 20-200 &amp;mu;L, 100-1,000 &amp;mu;L]</td><td>Eppendorf</td><td>Research Plus adjustable&lt;br/&gt; 3120000038;&lt;br/&gt; 3120000054;&lt;br/&gt; 3120000062</td><td></td></tr><tr><td>Pipettor tips [2-200&amp;nbsp;&amp;mu;L, 50-1,000&amp;nbsp;&amp;mu;L]</td><td>Eppendorf</td><td>epT.I.P.S.&lt;br/&gt; 22491334;&lt;br/&gt; 022491351</td><td></td></tr><tr><td>Scissors</td><td></td><td></td><td></td></tr><tr><td>Glass capillaries, 1 x 90&amp;nbsp;mm GD-1 with filament</td><td>Narishige</td><td>GD-1</td><td></td></tr><tr><td>Glass needle puller</td><td>Narishige</td><td>PN-30</td><td></td></tr><tr><td>Tubes, Eppendorf</td><td>VWR</td><td>20170-577</td><td></td></tr><tr><td>Tube racks (3)</td><td>VWR</td><td>82024-462</td><td></td></tr><tr><td>Hot plate</td><td>VWR</td><td>89090-994</td><td></td></tr><tr><td>Syringes (10), 30 mL</td><td>VWR</td><td>CA64000-041</td><td></td></tr><tr><td>Ultrasound transducer, 20 MHz</td><td>VisualSonics Inc.</td><td>MS250</td><td></td></tr></tbody></table>

Source: Denbeigh, J. M. et al. <a href="https://www.jove.com/video/52520" target="_blank">Contrast Imaging in Mouse Embryos Using High-frequency Ultrasound</a>. J. Vis. Exp. (2015)
This video demonstrates a procedure to inject microbubble contrast agents into an isolated late gestation stage mouse embryo. The microbubble contrast agent-based ultrasound imaging helps visualize and characterize the vascular environment of the embryo.

Source: Denbeigh, J. M. et al. Contrast Imaging in Mouse Embryos Using High-frequency Ultrasound. J. Vis. Exp. (2015)
This video demonstrates a procedure ...

For microbubble delivery, begin with a uniform suspension of endothelial cell-targeted lipid-shelled microbubbles comprising a gaseous core in a syringe connected to the tubing.
Load this assembly into a syringe pump and attach a glass needle to the tubing. Now, transfer a chilled mouse embryo expressing specific endothelial cell receptors into a dish placed on the stage of a stereoscope.
Gently exteriorize the embryo from the yolk sac and amniotic membrane. Secure the sac and the placental edges. Rinse the embryo with a warm buffer to restore its blood flow. Cover the embryo with pre-warmed ultrasound gel for optimal ultrasound wave transmission. Supplement with buffer to maintain its physiological conditions.
Carefully inject the microbubble suspension at the desired flow rate into a suitable vein on the fetal membrane surface of the placental disc using the syringe pump. The injected microbubbles travel through the circulation and bind to the specific receptors on the endothelial cells lining the blood vessels.
Use an ultrasound transducer to transmit high-frequency ultrasound waves to the embryo. The microbubbles&#39; highly compressible gas cores cause them to oscillate nonlinearly, scattering ultrasound waves with frequencies different from the incident waves. These signals and the tissue&#39;s linear signals return to the transducer.
The transducer relays them to an imaging system that differentiates the microbubble scattered signals from the tissue signals, producing contrast-enhanced ultrasound images of the embryonic blood vessels.

1.4K ビュー. 単離マウス胚へのマイクロバブルの注入:生きたマウス胚の血管系にマイクロバブル造影剤を送達する技術

Injection of Microbubbles into Isolated Mouse Embryos: A Technique to Deliver Microbubble Contrast Agents into the Vasculature of Living Murine Embryos

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Injection of Microbubbles into Isolated Mouse Embryos: A Technique to Deliver Microbubble Contrast Agents into the Vasculature of Living Murine Embryos