Lecture 16, 23 Oct 2003 Chapter 12, Circulation Vertebrate Physiology ECOL 437
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Transcript of Lecture 16, 23 Oct 2003 Chapter 12, Circulation Vertebrate Physiology ECOL 437
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Lecture 16, 23 Oct 2003Chapter 12, Circulation
Vertebrate PhysiologyECOL 437
University of ArizonaFall 2003
instr: Kevin Boninet.a.: Bret Pasch
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Vertebrate Physiology 437
1. Circulation (CH12)
2. Announcements exams returned Tuesday seminars etc.
3. Jokes from the audience...
12-10 Randall et al.
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Amber Roberts(bandanna!)
Bret Pasch(your TA)
Vickie Emmanual(AZ cancer center)
Name that student/TA/person:
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Term Paper Tips:
-Physiology and science should be subject, not researchers and experiments-Hanging your paper on a question or a problem helps give direction and focus-More physiology-Subheadings often helpful
-More sophisticated Future Directions, including gaps in current knowledge, flaws in current studies, proposed detailed experiments, think outside the box
-Synthesize, not serial book reports-Abstract, role is summary of entire paper, not an intro to the intro
-Pronouns to be avoided (its, these, this, …which, there are)-Passive voice to be avoided (e.g., Avoid passive voice preferred)-Leading and following zeroes (0.5, .5, .50)-Page numbers-Citation format (Journal of Physiology)
-Turn in old, graded work with each new version
-Peer editing (read quickly, then read for content and writing, lots of comments)
-code names
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Vertebrate Circulation (too big for diffusion!)
Chapter Twelve
Divided into Central and Peripheral
Heart is main propulsive organ
Arterial system-distributes blood-regulates pressure
Capillaries-transfer between blood and tissues
Venous system-return blood to heart-storage reservoir
Focus on Mammalian Circulation with some exceptions
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Circulatory Roles and Components
Valves control direction of blood flow
Smooth muscle controls diameter of peripheral vessels, thereby altering resistance and flow to different tissues
Sherwood 1997
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Vander 2001
Circulatory Roles and Components
-Gases (CO2, O2)-Nutrients-Waste-Hormones-Antibodies-Salts-etc.
-Temperature Regulation
RBCs
-Blood volume 5-10% of body volume
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gills simple (and linear):1. Blood goes to gills2. O2-rich blood goes to tissues3. O2-poor blood goes to heart4. Blood gets pumped back to gills
lungs more complex because get 2 circuits in parallel:
1. Pulmonary circuit (lower pressure)2. Systemic circuit (higher pressure)
Development of Terrestrial Circulatory System:
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Fish Circulation through gills
(12-16)
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Addition of lungs more complicated
(12-16)
Watervs.air
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Two parallel closed circuits:
1. Pulmonary (lower
press.)2. Systemic
(12-3) Note venousreservoir
Mammalian Circulation
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9-3, Sherwood 1997
Tissue Beds in Parallel, not Series
All cells within 2-3 cells of a capillary
Can control amount of flow to each tissue independently
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In addition to Heart,
Blood also moved via1. Elastic recoil of arteries2. Squeezing of vessels during body movement3. Peristaltic contractions of smooth muscle in vessels
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(12-4)ToLungs
From
body
To BodyviaAORTA
FromLungs
Mammalian Heart
Chordae tendinae
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14-14,
Vander 2001
Mammalian Heart
No valves as
Enter Atria
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Amphibians and Reptiles (except crocodilians) with 3 chambers (= one ventricle, two atria)
- incomplete ventricular septum
- BUT separate rich and poor blood
- AND alter pressure in systemic and pulmonary
- able to alter flow to systemic or pulmonary circuit
Non-Mammalian Heart Examples:
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Amphibians:
only vertebrates where O2 poor blood to skin(as well as to lungs)
adults with paired pulmocutaneous arteriesdivide into two branches1. Pulmonary2. Cutaneous (to flanks and dorsum)
skin provides 20-90% O2 uptake30-100% CO2 release
Cardiovascular System
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FROG Heart (see 12-17)
conus arteriosus w/ spiral valve
trabeculae (create channels)
role of Tb and HR
CardiovascularSystem
Pough et al., 2001Fig 6-8
Gets poor
Gets rich
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Reptilian Heart (not crocs; see 12-18 and -20)
(no conus arteriosus, no spiral valve)
2 systemic arches and one pulmonary artery from single ventricle
BUT, single ventricle functions as THREE
3-chambered heart anatomically5-chambered heart functionally
Cardiovascular System RAA = right aortic archLAA = left aortic archPA = pulmonary artery
Muscular Ridge
Pough et al., 2001Fig 6-9a
RA = right atriumLA = left atrium
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Pough et al., 2001Fig 6-9
Reptilian Heart (not crocs) not “primitive”
RAA = right aortic archLAA = left aortic archPA = pulmonary artery
Muscular Ridge
CP = cavum pulmonaleCV = cavum venosumCA = cavum arteriosum
IVC = intraventricular canalAVV = atrioventricular valve
1
22
1 4
2
55
6
77
3-chambered heart anatomically5-chambered heart functionally
Muscular Ridge
3
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R to LO2 poor to systemic via aortic arches(short delay between valves opening)
L to RO2 rich to pulmonary artery(longer delay between valves opening)
Reptilian and Amphibian Circulation
Cardiac Shunts (in 3-chambered heart) 1. temperature regulation2. breath holding (diving, turtle in shell, inflated lizards)3. stabilize O2 content of blood when breathe intermittently
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Mammalian fetus:
Ductus arteriosus (R -> L shunt, lung bypass)-pulmonary artery to systemic arch-when lung inflate resistance down-when lose placental circ. resistance up-closes at birth
Foramen ovale (interatrial shunt R -> L)-hole in wall between atria-closes at birth
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Bird chick:
Chorioallantois = network of vessels under shell surface
MLQ
Interatrial septum-R -> L shunt, lung bypass-closes after hatching
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Vander 2001
Electrical Activity in the Mammalian Heart
Influenced by autonomic NS
RALA
LVRV
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Sherwood 1997
Cardiac Cells electronically linked by Gap Junctions
(except from atrial to ventricular cells…)
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Vander 2001
Electrical Activity in the Mammalian Heart
(see 12-12)
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Recall AP and refractory period differences…
(12-7)
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End