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For 1QQs

Answer the provided thermoregulation and glucose homeostasis questions, including topics such as clothing preferences, reflexes, negative feedback loops, and physiological responses to temperature changes. Complete the questions by Monday.

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For 1QQs

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  1. For 1QQs Last name, First name Question # a b c d e

  2. Announcements • Turn in Personal Information (place on Piano.) • Reading and Chapter Questions • Will finish Thermoregulation Today and • Glucose Homeostasis on Monday • By Monday,complete all Glucose Homeostasis Questions

  3. 1QQ Sample Questions Name on top edge, back side of paper Answer on blank side of paper. Answer one of the following: • The San people of Botswana were clothing made of tanned animal skins. A) What would be the preferred type of clothing for their hot desert environment, b) why would it be preferred (think heat exchange mechanisms) and c) why do you suppose they don’t wear what would be preferred? • What is the difference between a reflex and a negative feedback loop?

  4. 1QQ # 2 for 8:30 Name on top edge, back side of paper Answer on blank side of paper. • For the negative feedback loop for thermoregulation • The hypothalmus is an afferent pathway • Somatic nerves are the efferent pathway to sweat glands • Skeletal muscle tone would be increased as a response to a drop in core body temperature • Peripheral nerves are the afferent pathway that convey skin temperature information • Cutaneous arterioles would dilate in response to a drop in core body temperature.

  5. 1QQ # 2 for 9:30 Name on top edge, back side of paper Answer on blank side of paper. • For the negative feedback loop for thermoregulation • The hypothalmus is an efferent pathway • Somatic nerves are the efferent pathway to skeletal muscles • Skeletal muscle tone would be decreased as a response to a drop in core body temperature • Peripheral nerves are the afferent pathway that convey skin temperature information • Sympathetic nerves would lead to constriction of cutaneous arterioles in response to a drop in core body temperature.

  6. Convective heat loss Conductive heat loss Skin temp Radiative heat loss Detected by thermoreceptors in skin Hypothalamus Heat loss Sympathetic nerves Sweat Glands Muscle tone Heat production Relax smooth muscle in cutaneous arterioles Activity in sensory nerves Blood flow to skin Sweat production Evaporative heat loss And Core body temp Heat loss by conduction & radiation Core temp. Add coversor clothingor enter sleeping bag Central thermoreceptors Cerebral cortex Somatic nerves Voluntary behaviors Remove coversTurn on fan, etc via Somatic nerves Skeletal Muscles

  7. ~37oC Be able to explain the physiology in each of these situationswith a detailed diagram of negative feedback responses and the modes of heat exchange involved.

  8. Which roofers are most appropriately dressed for the job? No shirts Red shirts • 1st day on the job • Increase body temp….. Delayed sweating via negative feedback • 10th day on the job • Sweating precedes changes in core body temperature • and sweating is increased • And salt loss in sweat is minimized Responses begin even before core temperature increases! Not just negative feedback, this is Feedforward (requires experience). FF is evidence of Acclimitization. Advantage of feedforward: anticipates disruption and minimizes fluctuation from the set point.

  9. Acclimatization & Feedforward • Deviations from set point are minimized • Learned (by experience) • Anticipates changes of a physiological parameter • Response begins before there is a change in the physiological variable • Minimizes fluctuations

  10. Blood Pressure Blood Flow to brain Cutaneous vasodilation Disrupted functionof neurons Sympathetic outflow Sweating Heat Stroke Massive Cutaneous Vasodilation Excessive Sweating Blood volume Treating Heat Stroke

  11. Positive feedback • Inherently unstable • Examples of Positive Feedback in Physiology • Heat stroke • formation of blood clot • menstrual cycling of female sex hormone concentrations at ovulation • generation of action potentials in nerve fibers • uterine contractions during childbirth • Each of these examples terminate naturally (self limiting) Homeostasis is achieved by negative feedback loops: the integrator detects deviations from set point and orchestrates responses produced by effectors that return the parameter toward the set point.

  12. Central &PeripheralThermoreceptors p. 579 Fig 16-18 If setpoint is suddenly reset to a higher temperature, then actual temperature is LESS THAN the new set point, so one feels “cold” and adds clothing, curls up, and shivers. These are “Chills.” • Explain “chills” at onset of a fever • Explain “sweat” when a fever “breaks” • How does Tylenol reduce a fever? Tylenol and other non-steroidal anti-inflammatory drugs (NSAIDS) suppress the production of eicosanoids (IL-1, IL-6, etc) so effect of these on the set point in hypothalamus is minimized. If setpoint is reset to a lower temperature or back to normal, then actual temperature is GREATER THAN the new lower set point, so one feels “hot” and removes clothing, fans, and sweats. These are “the sweats” when a fever breaks. To reach new, Higher set point

  13. Plasma Glucose Homeostasis • Glucose metabolism • Hormonal Control • Disruptions of glucose homeostasis • A Case Study

  14. Homeostasis of Plasma Glucose Concentration • Normal physiological range: 65-100 mg/dl • What is the set point? • Why is too much plasma glucose harmful? • Plasma glucose concentration = glucose entering the plasma – glucose leaving the plasma • What are the mechanisms that regulate plasma glucose concentration? • What are the components of the negative feedback loop: • Glucose receptors? • Afferent pathway? • Integrator? • Efferent pathway(s)? • Effector organ(s)? Phases:absorptive, post-absorptive, and fasting

  15. Graph your daily caloric intake over a 48 hour period PlasmaGlucose ? ? Calories consumed 6am Noon 6am 6am Noon MN Noon MN 6pm 6pm Overlay absorptive and post-absorptive phases on the graph

  16. =sink Fig. 16.01 Lipoprotein Lipase Absorptive Phase Hepatic Portal System Once inside, glucose is converted to something else, thereby maintaining a concentration gradientfor facilitated diffusion ofglucose into cells.

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