Page 5 - 84 human physiolofy part-1
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Homeostasis
Positive and Negative Feedback
When a change of variable occurs, there are two main types of feedback to which the system
reacts:
• Negative feedback: a reaction in which the system responds in such a way as to reverse the
direction of change. Since this tends to keep things constant, it allows the maintenance of
homeostasis. For instance, when the concentration of carbon dioxide in the human body
increases, the lungs are signaled to increase their activity and expel more carbon dioxide.
Thermoregulation is another example of negative feedback. When body temperature rises (or
falls), receptors in the skin and the hypothalamus sense a change, triggering a command from
the brain. This command, in turn, effects the correct response, in this case a decrease in body
temperature.
• Home Heating System Vs. Negative Feedback: When you are home, you set your
thermostat to a desired temperature. Let's say today you set it at 70 degrees. The thermometer in
the thermostat waits to sense a temperature change either too high above or too far below the 70
degree set point. When this change happens the thermometer will send a message to the
"Control Center", or thermostat, Which in turn will then send a message to the furnace to either
shut off if the temperature is too high or kick back on if the temperature is too low. In the home-
heating example the air temperature is the "NEGATIVE FEEDBACK." When the Control
Center receives negative feedback it triggers a chain reaction in order to maintain room
temperature.
• Positive feedback: a response is to amplify the change in the variable. This has a
destabilizing effect, so does not result in homeostasis. Positive feedback is less common in
naturally occurring systems than negative feedback, but it has its applications. For example, in
nerves, a threshold electric potential triggers the generation of a much larger action potential.
Blood clotting and events in childbirth are other types of positive feedback.
'*Harmful Positive Feedback' Although Positive Feedback is needed within Homeostasis it also
can be harmful at times. When you have a high fever it causes a metabolic change that can push the
fever higher and higher. In rare occurrences the the body temperature reaches 113 degrees the cellular
proteins stop working and the metabolism stops, resulting in death.
Summary: Sustainable systems require combinations of both kinds of feedback. Generally with
the recognition of divergence from the homeostatic condition, positive feedbacks are called into play,
whereas once the homeostatic condition is approached, negative feedback is used for "fine tuning"
responses. This creates a situation of "metastability," in which homeostatic conditions are maintained
within fixed limits, but once these limits are exceeded, the system can shift wildly to a wholly new (and
possibly less desirable) situation of homeostasis.
Homeostatic systems have several properties
• They are ultra-stable, meaning the system is capable of testing which way its variables
should be adjusted.
• Their whole organization (internal, structural, and functional) contributes to the
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