Size Specs

Bone Cell (Osteocyte)

$12.95

Toe bone connected to the foot bone, the foot bone connected to the funny bone! Learn about how bone cells regulate minerals in our bodies.



Your purchase of our Bone Cell supports the National Osteoporosis Foundation, the nation’s leading health organization dedicated to preventing osteoporosis and broken bones. 10% of your purchase will be donated to NOF.

Sizes:

  • Bone Cell (Osteocyte)Bone Cell (Osteocyte) GMUS-PD-0085
    $12.95
    - +

Product Details

Additional Information

More Information
SizesGiantmicrobes are based on actual microbes, cells, organisms and other critters, only 1,000,000 times actual size!
Gigantic (GG) 16-24"
XL (XL) 10-15"
Original (PD) 5-8"
Keychain (KC) 2-4" with clip
MaterialsPlush from all new materials. Stuffed with polyester fiber fill. Surface washable: sponge with water & soap, air dry.
PackagingEach plush microbe includes a printed card with fun, educational and fascinating facts about the actual microbe or cell.
SafetyEvery product meets or exceeds U.S. and European standards for safety. For ages 3 and up.

All about Bone Cell (Osteocyte)

Your bones are made primarily of an intricate edifice of mineralized tissue laid down by bone cells like a coral reef.

At first, the work is exciting and productive, as young cuboidal osteoblasts dutifully secrete the osteoid tissue that forms the bone matrix. Unfortunately, as the bone is constructed, these cells soon find themselves imprisoned in their own handiwork, buried alive!

In order to survive, these now mature osteocytes occupy little spaces called lacunae and reach out desperately to nearby cells with thin extensions (or cytoplasmic processes) into little channels (or canaliculi) in the bone. When they make contact, they form a living network inside the bone that can exchange nutrients and waste. They can also communicate about which parts of the bone are being stressed and need to be strengthened – as well as determine which parts should be left to decay.

Which may create a glimmer of hope: as osteoclasts begin resorbing the bone matrix, the material covering the osteocytes is reduced. However, as bone stresses are constantly shifting, bones are typically remade, strengthening them and dooming the osteocytes to their fate.

Unfortunately, under certain circumstances the resorption rate of the osteoclasts exceeds the bone-formation rate of the osteoblasts, which can result in osteoporosis. This general weakening of the bones is of particular concern to women when their estrogen levels drop after menopause (though the reduction of testosterone levels in men can also provoke increased osteoclast activity). In severe cases, bones can become so weakened that they fracture easily. Fortunately, lifestyle changes, dietary supplements and medication can help prevent sufferers from becoming trapped by the condition.

 
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