lect21 ch20 respiration sp2008 - ua site name05 march 2008 vertebrate physiology ecol 437...
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1. Respiration (Ch 20-21)
http://eebweb.arizona.edu/eeb_course_websites.htm
Lecture 2105 March 2008
Vertebrate PhysiologyECOL 437 (MCB/VetSci 437)Univ. of Arizona, spring 2008
Kevin Bonine & Kevin Oh
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Housekeeping, 05 March 2008
Upcoming ReadingsWed 05 Mar: Ch20, 21 (respiration)LAB Wed 05 Mar: Dickinson reading on websiteFri 07 Mar: Ch 21Mon 10 Mar: Ch 21, 22Wed 12 Mar: Ch 23 (circulation)LAB Wed 12 Mar: no readingFri 14 Mar: EXAM TWO (through respiration)SPRING BREAK
Lab discussion leaders: 26 Mar1pm – Vangie & Christina3pm – Prasun & Ajay
Lab discussion leaders: 05 March1pm – Julia, Matt C.3pm – Dalziel, Nick
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The Edges of Life – 7pm at Centennial Hall
Wednesday, March 5Life's Technological Edge: The Singularity is Near: When Humans Transcend Biology
Ray Kurzweil, via Teleportec TeleporterFounder, Chairman and Chief Executive Officer, Kurzweil TechnologiesHumanity is on the edge of a vast transformation, when what it means to be human will be both enriched and challenged. Inventor and futurist Ray Kurzweil will introduce this radically optimistic singularity, an era when we break our genetic shackles to create a nonbiologicalintelligence trillions of times more powerful than today. In this new world, humans will transcend biological limitations to achieve entirely new levels of progress and longevity.This lecture co-sponsored by: UA College of Engineering and UA College of Science
These do not count as physiology lectures.
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Vertebrate
Respiration
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9Hill et al., 2004, Fig. 21.1
Respiration… (Ch20-21, then 22&23)
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Gas transfer
1. Breathing (supply air or water to respiratory surface)
2. Diffusion of O & CO across resp. epithelium
3. Bulk transport of gases by blood
4. Diffusion across capillary walls (blood mitochondria)
2 2 (humans = 50-1002 m SA)
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Lung Anatomy
Nonrespiratory-Trachea ->-Bronchi ->-Bronchioles ->
Respiratory-Terminal bronchioles ->-Respiratory bronchioles ->-Alveoli
-Cilia and Mucus
(Eckert, 13-21)
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(Eckert, 13-22)
-Gas Diffusion Barriers:
14Hill et al., 2004, Fig. 20.4
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15Hill et al., 2004, Fig. 20.4
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Lung Ventilation
-Small mammals with greater per gram O2 needs and therefore greater per gram respiratory surface area?
-Dead Space (anatomic and physiological)
Swan (Eckert, 13-24)
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17(Eckert, 13-23)
Lung Ventilation
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Mammalian Ventilation
-lungs are elastic bags
-suspended in pleural cavity within thoracic cage (ribs and diaphragm define, fluid lines)
-low volume pleural “space” between lung and thoracic wall
-negative pressure to inflate lungs (increase volume)
-pneumothorax
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Mammalian Ventilation (Eckert, 13-28)
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Mammalian Ventilation
(Eckert, 13-30)
-expiration usually passive
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21Knut Schmidt_Nielsen 1997
MammalianLung
Alveoli and Capillaries
RBC (not to scale)
22Knut Schmidt_Nielsen 1997
Bird Lung Ventilation
Unidirectional!!
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Bird Ventilation
(Eckert,13-32)
-lung volume changes very little, air sacs instead
Unidirectional
(Eckert,13-32)
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Knut Schmidt_Nielsen 1972
Bird LungParabronchi
Mammal LungAlveoli
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Frog Ventilation
(Eckert, 13-33)
-Positive pressure ventilation
1. Into mouth (buccal cavity)
2. Close nares, open glottis and force air into lungs by raising buccalfloor
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Pulmonary Surfactants-Reduce liquid surface tension in alveoli
-Lipoproteins
-keep alveoli from getting stuck closedAtelectasis = collapsed lung
-premature babies may need artificial surfactant
-Allows for compliance and low-cost expansion of lung
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27Knut Schmidt_Nielsen 1972
Panting Dogs?
28Knut Schmidt_Nielsen 1997
Fish Gill
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29Hill et al., 2004, Fig. 20.3