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Biology Art Print featuring the photograph Red Blood Cells, Rouleaux Formation, Sem #2 by Science Source

The watermark in the lower right corner of the image will not appear on the final print.

Frame

Top Mat

Top Mat

Bottom Mat

Bottom Mat

Dimensions

Image:

8.00" x 5.50"

Overall:

10.00" x 7.50"

 

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Red Blood Cells, Rouleaux Formation, Sem #2 Art Print

Science Source

by Science Source

Small Image

$53.00

Product Details

Red Blood Cells, Rouleaux Formation, Sem #2 art print by Science Source.   Our art prints are produced on acid-free papers using archival inks to guarantee that they last a lifetime without fading or loss of color. All art prints include a 1" white border around the image to allow for future framing and matting, if desired.

Design Details

Color enhanced scanning electron micrograph (SEM) of red blood cells found enmeshed in a fibrinous matrix on the luminal surface of an indwelling... more

Ships Within

3 - 4 business days

Additional Products

Red Blood Cells, Rouleaux Formation, Sem #2 Photograph by Science Source

Photograph

Red Blood Cells, Rouleaux Formation, Sem #2 Canvas Print

Canvas Print

Red Blood Cells, Rouleaux Formation, Sem #2 Framed Print

Framed Print

Red Blood Cells, Rouleaux Formation, Sem #2 Art Print

Art Print

Red Blood Cells, Rouleaux Formation, Sem #2 Poster

Poster

Red Blood Cells, Rouleaux Formation, Sem #2 Metal Print

Metal Print

Red Blood Cells, Rouleaux Formation, Sem #2 Acrylic Print

Acrylic Print

Red Blood Cells, Rouleaux Formation, Sem #2 Wood Print

Wood Print

Red Blood Cells, Rouleaux Formation, Sem #2 Greeting Card

Greeting Card

Red Blood Cells, Rouleaux Formation, Sem #2 iPhone Case

iPhone Case

Red Blood Cells, Rouleaux Formation, Sem #2 Throw Pillow

Throw Pillow

Red Blood Cells, Rouleaux Formation, Sem #2 Duvet Cover

Duvet Cover

Red Blood Cells, Rouleaux Formation, Sem #2 Shower Curtain

Shower Curtain

Red Blood Cells, Rouleaux Formation, Sem #2 Tote Bag

Tote Bag

Red Blood Cells, Rouleaux Formation, Sem #2 Round Beach Towel

Round Beach Towel

Red Blood Cells, Rouleaux Formation, Sem #2 Zip Pouch

Zip Pouch

Red Blood Cells, Rouleaux Formation, Sem #2 Beach Towel

Beach Towel

Red Blood Cells, Rouleaux Formation, Sem #2 Weekender Tote Bag

Weekender Tote Bag

Red Blood Cells, Rouleaux Formation, Sem #2 Portable Battery Charger

Portable Battery Charger

Red Blood Cells, Rouleaux Formation, Sem #2 Bath Towel

Bath Towel

Red Blood Cells, Rouleaux Formation, Sem #2 T-Shirt

Apparel

Red Blood Cells, Rouleaux Formation, Sem #2 Coffee Mug

Coffee Mug

Red Blood Cells, Rouleaux Formation, Sem #2 Yoga Mat

Yoga Mat

Red Blood Cells, Rouleaux Formation, Sem #2 Spiral Notebook

Spiral Notebook

Red Blood Cells, Rouleaux Formation, Sem #2 Fleece Blanket

Fleece Blanket

Red Blood Cells, Rouleaux Formation, Sem #2 Tapestry

Tapestry

Red Blood Cells, Rouleaux Formation, Sem #2 Jigsaw Puzzle

Jigsaw Puzzle

Red Blood Cells, Rouleaux Formation, Sem #2 Sticker

Sticker

Red Blood Cells, Rouleaux Formation, Sem #2 Ornament

Ornament

Art Print Tags

art prints biology art prints micrograph art prints electron micrograph art prints scanning electron art prints scanning electron micrograph art prints sem art prints

Photograph Tags

photographs biology photos micrograph photos electron micrograph photos scanning electron photos scanning electron micrograph photos sem photos

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Artist's Description

Color enhanced scanning electron micrograph (SEM) of red blood cells found enmeshed in a fibrinous matrix on the luminal surface of an indwelling vascular; Magnified 2849x. In this instance, the indwelling catheter was a tube that was left in place creating a patent portal directly into a blood vessel. Some of the erythrocytes are grouped in stacks known as a Rouleaux formation. Note the biconcave cytomorphologic shape of each erythrocyte, which increases the surface area of these hemoglobin-filled cells, thereby, promoting a greater degree of gas exchange, which is their primary function in an in vivo setting. In their adult phase, these cells possess no nucleus. What appears to be irregularly-shaped chunks of debris, are actually fibrin clumps, which when inside the living organism, functions as a key component in the process of blood clot formation, acting to entrap the red blood cells in a mesh-like latticework of proteinaceous strands, thereby, stabilizing and strengthening the...

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