Method for preparing canine fetal membrane mesenchymal stem cell and canine fetal membrane mesenchymal stem cell
A technology of stem cells and canine fetuses, which is applied in the field of stem cell therapy for canine diseases, and can solve problems such as being unsuitable for canine animals.
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Embodiment 1
[0046] Example 1. Preparation of mesenchymal stem cells from canine fetal membranes
[0047] (1) Disinfection and cleaning: take out the placenta from the placenta sample collection box, put it in a stainless steel cup, use alcohol (75% alcohol) and saline to rinse the surface repeatedly (alcohol soaking disinfection time 30s)), and disinfect the placenta Then use surgical forceps to slowly tear off the fetal membrane, and place it in a glass dish. After removing the blood vessels, use phosphate buffer (0.025M sodium dihydrogen phosphate buffer at pH 6.5) to rinse again to remove surface dirty blood, impurities;
[0048] (2) Digestion treatment: in another cell culture plate, the fetal membrane tissue obtained in step (1) is cut into tissue blocks (cubic blocks of about 0.1 cubic centimeters), and the tissue blocks are put into digestive enzyme solution (preparation method : Add 0.1g of type I collagenase to 100ml of DMEM-F12, then filter it with a 0.45μm filter to obtain the ...
Embodiment 2
[0052] Example 2. Preparation of mesenchymal stem cells from canine fetal membranes
[0053] (1) Disinfection and cleaning: In the biological safety cabinet, take out the placenta from the placenta sample collection box, place it in a stainless steel cup, use alcohol (75% alcohol) and normal saline to rinse the surface repeatedly (alcohol soaking disinfection time 30s)) , disinfect the placenta; then use surgical forceps to slowly tear off the fetal membranes and place them in a glass dish. After removing the blood vessels, use phosphate buffer (0.025M sodium dihydrogen phosphate buffer at pH 6.5) to rinse again , remove surface dirt and impurities;
[0054] (2) Digestion treatment: in another cell culture plate, the fetal membrane tissue obtained in step (1) is cut into tissue blocks (cubic blocks of about 0.1 cubic centimeters), and the tissue blocks are put into digestive enzyme solution (preparation method : Add 0.1g of type I collagenase to 100ml of DMEM-F12, then filt...
Embodiment 3
[0061] Embodiment 3, biological characteristic identification of fetal membrane MSC
[0062] The following tests were carried out on the canine fetal membrane mesenchymal stem cells obtained in Example 1 and Example 2, and there was no difference in the test results of the two kinds of stem cells.
[0063] 1. Cell growth and morphological characteristics
[0064] Through the isolation and culture of Example 1 and Example 2, the obtained canine fetal mesenchymal stem cells can be clearly seen under the microscope after 48 hours of culture. Spindle-shaped adherent cells will form turbine-shaped cell clones in about 8 days. After digestion and passage An adherent layer with about 75% fusion will be formed. During the culture process, it was found that the cell shape was relatively uniform, the proliferation speed was fast, the adhesion speed was fast, and it was easily digested by trypsin. After passage to 3-15 generations, its shape and growth characteristics did not change s...
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