To begin, coat a butterfly needle and its tubing with 1%potassium EDTA solution. Cut the tubing just behind the needle in order to collect blood dropwise. Place an anesthetized rat on the stereotaxic frame while maintaining anesthesia through a face mask.
Put a heating pad under the animal, keeping a part of its tail in direct contact with the pad. Move the animals back such that it faces sideways, and the lateral tail vein is visible at the top. Dip the tail in warm water to dilate the lateral vein.
Then wipe the tail with 70%ethanol. Put warm light onto the tail using a regular incandescent bulb. Insert the 21G butterfly needle into the lateral tail vein at an angle of 20 degrees to a depth of five millimeters.
Next, collect blood in a 500 microliter vacuum collection tube containing five milligrams of potassium EDTA as an anticoagulant. Remove the needle and stop the flow of the blood by putting pressure on the puncture site. Return the rat to its home cage.
Next, gently invert the tube 10 times to mix anticoagulant in the blood. Make 1.5 centimeter deep holes in the ice and place the tubes in them vertically. Within one hour of collection, centrifuge the blood sample in a refrigerated centrifuge to separate the plasma.
Then aspirate about 200 microliters of plasma, avoiding the red and white blood cell layer. Place the withdrawn plasma into a 0.2 milliliter sterile microtube. Put aside five microliters of the sample for quality control and store the remaining sample at minus 80 degrees Celsius until analysis.
Blood was withdrawn from rats at five time points using different methods, such as the vacuum technique on day 52, tail milking on day 55, and drop techniques on days 58 to 64. The quality of plasma samples evaluated using UV spectrophotometry showed that the plasma was pink-colored with a mean absorbance value of 0.647 when using the vacuum technique. Similarly, the tail milking technique resulted in pink-colored plasma with mean absorbance of 0.620.
In contrast, with the gravity-enabled drop withdrawal system, clear plasma samples were obtained with significantly reduced mean plasma absorbance values, suggesting that this procedure is optimal for getting high quality samples for analyses.
