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Chapter 9 Homeostasis & Behavior & Further Discussion of the Posterior Pituitary. 9.2 The thermostat is a common homeostatic device. 9.3 Behavioral thermoregulation in iguanas (Part 2). 9.3 Behavioral thermoregulation in iguanas (Part 1).
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Chapter 9 Homeostasis & Behavior & Further Discussion of the Posterior Pituitary
9.3 Behavioral thermoregulation in iguanas (Part 3) Iguanas were injected with an infectious agent and their survival was correlated with the temperature they were kept.
9.4 Body fluid is maintained in separate, but interacting, compartments
9.7 Two types of thirst result from different osmotic conditions Loss of fluids and solutes…. Such as in blood loss. CELL “DEHYDRATION”
9.9 Vasopressin (ADH) mediates water consumption Brattleboro rats lack Vassopressin (ADH) and are therefore perpetually thirsty.
9.10 Brain structures involved in the mediation of thirst and water intake
H. H. Dale – made the connection between extracts from the pituitary and the effect of uterine contraction.
Flank marking and grooming behavior (Mean ± SEM) following microinjection of arginine vasopressin (10 μM in 100 nl saline) in the anterior hypothalamus of golden hamsters treated with vehicle (Veh), clomipramine (Clom), desipramine (Des), and fluoxetine (Fluox). All animals were treated with 2 mg/day for 2 weeks. Craig F Ferris, Mads F Rasmussen, Tara Messenger and Gary Koppel University of Massachusetts ( Primary Research Group )
The neurohypophysial peptide, arginine vasotocin (AVT), is thought to function as an antidiuretic hormone in reptiles, helping to limit water loss from the kidneys by reducing the rate at which blood is filtered and also by facilitating water re-absorption in the kidney tubules.
9.12 Synthesis of angiotensin in humans A protein hormone, causes blood vessels to constrict, and drives blood pressure up.
9.16 Metabolic interactions among the major components of energy balance in the well-fed state
9.17 Metabolic interactions among the major components of energy balance in the fasting state
9.20 Current model of the role of the arcuate nuclei in monitoring metabolic fuels (Part 1)
9.20 Current model of the role of the arcuate nuclei in monitoring metabolic fuels (Part 2)
9.24 The role of the liver in insulin-induced feeding (Part 1)
9.24 The role of the liver in insulin-induced feeding (Part 2)
9.25 Effects of ovariectomy and progesterone treatment on body mass