chapter 1 homeostasis: a framework for human physiology · 2017-12-20 · 1. cells, the fundamental...
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1. Cells, the fundamental units of life, exchange nutrients and wastes with their surroundings:
The intracellular fluid is “conditioned by”…
the interstitial fluid, which is “conditioned by” …
the plasma, which is “conditioned by” …
the organ systems it passes through.
Chapter 1 Homeostasis: A framework for human physiology
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2. Homeostasis refers to the dynamic mechanisms that detect and respond to deviations in physiological variables from their “set point” valuesby initiating effector responses that restorethe variables to the optimal physiological range.
Chapter 1 Homeostasis: A framework for human physiology
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Figure 1-1
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Table 1-1, on page 5 in the text, outlinesthe structural components and functions of
the major organ systems in the body.
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Exchange and communication are key conceptsfor understanding physiological homeostasis.
ICF ISF plasma organsexternal
environmentinternal environment
Figure 1-2
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Interpret the arrows intextbook’s flow charts as“leads to” or “causes.”
e.g., decreased room temperature causes increased heat loss from the body, which leads to a decrease in body temperature, etc.
Figure 1-3
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“Active product” controls the sequence of chemical reactions by inhibiting the sequence’s rate-limiting enzyme, “Enzyme A.”
Figure 1-4
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example: concentration of glucose in the blood
example: 70 to 110 mg glucose/dL of blood
example: diet and energy metabolism
A strategy for exploring homeostasis (see Tables 1-2 & 1-3)
• Identify the internal environmental variable.
• Establish the “set point” value for that variable.
• Identify the inputs and outputs affecting the variable.
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example: resting versus exercising
example: certain endocrine cells in the pancreas“sense” changes in glucose levels
example: a hormone that increases glucosesynthesis by the liver
Many homeostatic mechanisms utilize neural communication.
• Examine the balance between the inputs and outputs.
• Determine how the body monitors/senses the variable.
• Identify effectors that restore the variable to its set point.
A strategy for exploring homeostasis (see Tables 1-2 & 1-3)
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Afferent and efferent pathways in temperature homeostasis.
Figure 1-5
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Communication systems use signals that bind to receptors.
Figure 1-6
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Endocrine: signal reaches often-distant targets after transport in blood.
Paracrine: signal reaches neighboring cells via the ISF.
Autocrine: signal affects the cell that synthesized the signal.
Communication signals in three categories:
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Multi-factorial control of signal release adds more complexity.
A given signal can fit into all 3 categories:
e.g., the steroidhormone cortisolaffects the very cells in which it is made, the nearby cells thatproduce other hormones, and many distant targets, including muscles and liver.
Figure 1-7
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A full analysis of the hormone cortisol requires not only knowledge of thesignals that cause itssynthesis and secretionbut also consideration of biological rhythms.
asleep asleep
Figure 1-8
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Some of the potential inputs and outputs that can affect the “pool” of a material (like glucose) that is a dynamically regulated physiological variable.
Figure 1-9
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Sodium homeostasis: Consuming greater amounts of dietary sodium initiates a set of dynamic responses that include greaterexcretion of sodium in the urine. Though not shown here, the amount excreted would likely exceed the amount ingested until the “set point” is restored.
Figure 1-10
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The End.