Cardiovascular System and Diffusion

1. Cardiovascular System and Diffusion Katerina Lin Kiran Pandher Rachel Gibbs Group 5

2. Goals • Explain how gas exchange takes place at the cellular level. • What prevents gas from being exchanged in non-optimal places?

3. An Overview:The Respiratory System • Respiratory system: takes oxygen from the air into the body and releases CO2, the waste product. • Gas exchange occurs because of partial pressure gradients (oxygen and CO2). Higher pressure = more diffusion. • Lungs: Gases pass through capillaries and alveoli down partial pressure gradients. Capillaries and alveoli share a membrane (Starr). • Body: Gases diffuse through capillaries.

4. Oxygen… • Simple diffusion • Lungs: oxygen flows from the alveoli (high) to the bloodstream (low) (“Respiration”). • More pressure/higher temp/lower pH = more oxygen diffuses (Starr). • Most (98.5%) of the oxygen flowing into the bloodstream binds onto the hemoglobin in RBCs (Starr). • Oxygen does not dissolve well in blood so needs help from hemoglobin (Starr).

5. Carbon Dioxide… • Simple diffusion • Body: diffuses from interstitial fluid (high) into capillaries and carried in blood (low): • 10%: dissolves in blood • 30%: binds to hemoglobin (carbamino hemoglobin) • 60%: becomes bicarbonate (HCO3-) when CO2 dissociates in water or with enzyme (carbonic anhydrase) • Lung: from the bloodstream (high) to alveoli (low) (“Respiration”). • CO2 is released from the CO2 bound to hemoglobin and HCO3- dissolved in the blood (Freudenrich).

6. Diffusion of Carbon Dioxide

7. What prevents gas from being exchanged in non-optimal places? • Surface areas and rates of flow influence gas exchange • The more surface area and larger the partial pressure gradient, the faster diffusion will occur (Fick’s law) (Starr). • Alveoli sacs provide a lot of surface area for optimum diffusion. • Gas exchange is most efficient when the rate of air coming into the body equals blood flow (Starr).

8. What prevents gas from being exchanged in non-optimal places? • Different parts of body have characteristics that help create optimal gas exchange. • Capillaries • Very small and only one cell thick (“Capillaries”). • Network throughout body • Blood flow slows down • Alveoli • respiratory surface: thin layer of epithelium/other tissue that is moist at all times  gas molecules can diffuse only when dissolved in a liquid (Starr). • Quick diffusion because very thin and a lot of surface area (Starr). Electron Micrograph of a Capillary

9. Gas Exchange Simulation!

10. References • “Capillaries: Connecting Arteries and Veins.” 1996-2009. The Franklin Institute. 10 Nov. 2009. <http://www.fi.edu/learn/heart/vessels/capillaries.html>. • Freudenrich, Craig. “How Your Lungs Work.” 30 Oct. 2008. How Stuff Works. 8 Nov. 2009. <http://health.howstuffworks.com/lung2.htm#>. • <http://i.ehow.com/images/GlobalPhoto/Articles/5159074/266617_Full.jpg>. • <http://student.ccbcmd.edu/courses/bio141/lecguide/unit4/innate/images/12188b.jpg>. • <http://www.cdli.ca/~dpower/resp/exchange.htm>. • <http://www.health.com/health/static/hw/media/medical/hw/n5551117.jpg>. • “Human Physiology: Respiration.” 7 Nov. 2009. <http://people.eku.edu/ritchisong/RITCHISO//301notes6.htm>. • Starr, Cecie, and Ralph Taggart. Biology: The Unity and Diversity of Life. 9th ed. United States: Brooks/Cole, 2001. Note: pictures are also cited throughout this powerpoint in the “Notes” section at the bottom of the screen.