Use code RJTJFG for 20% off at checkout. Until 5/31/20
Boundary: Bleed area may not be visible.
by Anatomical Travelogue
$15.00
Size
Image Size
Product Details
Our spiral notebooks are 6" x 8" in size and include 120 pages which are lined on both sides. The artwork is printed on the front cover which is made of thick paper stock, and the back cover is medium gray in color. The inside of the back cover includes a pocket for storing extra paper and pens.
Design Details
Medical visualization taken from human scanned data showing erythropoiesis, or the production of a red blood cell. This process takes place within... more
Ships Within
2 - 3 business days
Photograph
Canvas Print
Framed Print
Art Print
Poster
Metal Print
Acrylic Print
Wood Print
Greeting Card
iPhone Case
Throw Pillow
Duvet Cover
Shower Curtain
Tote Bag
Round Beach Towel
Zip Pouch
Beach Towel
Weekender Tote Bag
Portable Battery Charger
Bath Towel
Apparel
Coffee Mug
Yoga Mat
Spiral Notebook
Fleece Blanket
Tapestry
Jigsaw Puzzle
Sticker
Medical visualization taken from human scanned data showing erythropoiesis, or the production of a red blood cell. This process takes place within bone marrow, and is necessary as red blood cells are incapable of reproduction. Erythropoiesis follows 7 stages, including 3 phases of development. The first stage is a hemocytoblast stem cell which begins the stem cell development. The hemocytoblast becomes a myeloid progenitor stem cell (stage 2), and finally a unipotent stem cell (stage 3, pictured). The stem cell transforms into a committed cell or proerythroblast (stage 4, pictured), and then moves on to phase 1 of the developmental pathway as a basophilic normoblast or early erythroblast (stage 5, pictured). Erythropoietin (a hormone that is produced by the kidneys) binds to the cell to make the late erythroblast or polychromatophilic erythroblast (stage 6, pictured), which begins phase 2 of the developmental pathway. As its name suggests, the polychomatophilic erythroblast has multipl...
$15.00
There are no comments for Erythropoiesis #1. Click here to post the first comment.