* Learning Objectives:
• Relate homeostasis to the internal
environment of the body.
• Explain how negative and positive
feedback maintain homeostasis.
Slide 2
Homeostasis is the regulation and maintenance of the internal environment.
•Homeostasis involves keeping the internal
environment within set ranges.Homeostasis is the regulation and
maintenance of the internal environment—temperature, fluids, salts, pH,
nutrients, and gases—within the narrow ranges that support human life. Your
internal control systems respond quickly to change, whether from outside
conditions or internal ones.
Rubrica: : Watch the video, take notes to explain how homeostasis help maintain your internal environment stable
Slide 4
Control systems help maintain homeostasis like
A.. Sensors =
gather data
senses
B. Control
Center=
receives data, interprets info, sends messages out.
Brain receives information from
the sensors. It then compares this
information to the set points, or ideal
values, at which the body functions
best. When conditions move above or
below a set point, the control center
responds by sending messages
through a communication system.
C.
Communication System=
delivers messages to target organs, tissues
PNS (e.g. motor neurons)
D. Targets =
respond to change.
muscles, glands (release hormones)
Sensors, control centers, communication systems, and targets work together in
what is known as a feedback loop. Feedback is information from sensors that
allows a control center to compare current conditions to a set of ideal values.
In a feedback loop, information moves continuously among sensors, a control
center, and a target. Most functions in the body are regulated by negative
feedback loops.
*
Negative
feedback loops are necessary for homeostasis. •Feedback compares current conditions to
the body’s comfort levels (=Set Ranges).
•Negative feedback counteracts change and brings the body
back to homeostasis. * ExampleAs you hold your
breath, sensors in the circulatory and respiratory systems send information to
the brain stem, the body’s respiratory control center. Sensors signal a gradual
increase in carbon dioxide (CO2) and a decrease in oxygen (O2). The control
center compares this information with the set points for these gases. When the
change becomes too great, the control center takes steps to counteract it.
Messages are sent to the muscles of the diaphragm and the rib cage to relax
and then contract, forcing you to exhale and then inhale deeply.
* There are many examples of how negative feed back loops help maintain homeostasis:1) Thermoregulation2) Regulation of blood glucose levels3) Water levels in the bodyTask-1Watch the videos, use the internetto describe how your body uses negative feedback loop to maintain homeostasis. {Groups} 15 min.
Note: rest of the videos are in the following slides
In positive feedback,
a control center uses information from sensors to increase the rate of change
away from the set points. Though not as common in the body, this type of
feedback is important whenever rapid change is needed.
For example, if you cut your finger, positive feedback mechanisms increase
the rate of change in clotting factors in the blood until the wound is sealed.
Once the injury heals, another positive feedback loop occurs as chemicals are
released to dissolve the clot. Positive feedback also occurs in the release of
certain growth hormones during puberty. Your body needs higher levels of
these hormones to accomplish all of the changes that take place at this time.
•Homeostasis can be disrupted for several
reasons.
1. sensors fail (don’t detect changes)
2. targets do not receive messages (nerve
issues)
3. injury (overwhelm homeostatic controls)
4. illness (viruses or bacteria)
*Disruption of homeostasis can begin in
one organ and cause a chain reaction in the others therefore causing a major
body disturbance.
Slide 11
Complete the questions in the worksheet and upload to Showbie.
Use the provided resources to recap the main concepts covered today.