ScienceIQ.com

What Are Blood Types, and Why Are They Important?

If your medical report reads A, Rh+, M, s, P1, Lua, K+, Kp(a-b+), Le(a-b+). Fy(a+), Jk(a+b+), don't run for a foreign language dictionary. The letters aren't Greek. They are simply the names given to various proteins that may or may not be present on the membranes of your blood cells. The proteins are grouped under names such as the Lutheran, Kell, ...

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BloodTypes
Geology

Retreating Glaciers Spur Alaskan Earthquakes

Could an extra warm summer cause an earthquake in your backyard? Probably not... unless you live in Alaska. You probably know that friction in the earth's crust causes earthquakes, but did you know ... Continue reading

AlaskanEarthquakes
Geology

Global Warming?

The contiguous United States experienced its 16th coolest summer on record and seventh coolest August, according to scientists at NOAA Climatic Data Center in Asheville, N.C. While much of the West, ... Continue reading

GlobalWarming
Biology

Electricity and the Brain

A child's electric train and our brains have something in common. They both require electricity for any activity to take place. But the brain uses electricity in a much different way than a toy train. ... Continue reading

BrainElectricity
Geology

The San Andreas Fault

Scientists have learned that the Earth's crust is fractured into a series of 'plates' that have been moving very slowly over the Earth's surface for millions of years. Two of these moving plates meet ... Continue reading

TheSanAndreasFault

Fahrenheit 100 and Rising

Fahrenheit100When you are well, your body temperature varies only a little around 37o C. (98.6o F.), whether you're sweating in a steam room or hiking in the Yukon. The hypothalamus in the brain controls body temperature. It works like a thermostat, sensing the temperature of your blood. When a pathogen (disease-causing microbe) invades, however, the body fights back with every weapon in its arsenal. Heat is one of them. The immune system sends chemical messages to the hypothalamus, signaling the need for a rise in body temperature. In response, the hypothalamus causes the pituitary to release a hormone called TSH (for thyroid stimulating hormone).

TSH travels through the blood and reaches the thyroid gland in the neck. There, it stimulates the thyroid to make another hormone, thyroxine. Thyroxine travels to all the cells of the body. It makes them burn food faster, generating more heat. The result is a fever--defined as a body temperature of 100o F. or greater. Many pathogens can't survive such high temperatures, so the fever kills them. As the pathogen begins to lose the battle, other chemical messengers travel to the hypothalamus. The hypothalamus signals the pituitary. TSH production decreases, thyroxine levels decrease, and body cells release energy more slowly. Body temperature returns to normal.

There's a lot more to a fever than a change in temperature. Researchers find high levels of immune chemicals including interleukin-6 in people with fevers. When healthy volunteers took IL-6 in a research project, they got fevers and flulike symptoms.