Cardiovascular System: Vessels and Circulation (Chapter 21)

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Cardiovascular System: Vessels and Circulation (Chapter 21) Lecture Materials for Amy Warenda Czura, Ph.D. Suffolk County Community College Eastern Campus Primary Sources for figures and content: Marieb, E. N. Human Anatomy & Physiology 6th ed. San Francisco: Pearson Benjamin Cummings, 2004. Martini, F. H. Fundamentals of Anatomy & Physiology 6th ed. San Francisco: Pearson Benjamin Cummings, 2004. Amy Warenda Czura, Ph.D. 1 SCCC BIO132 Chapter 21 Lecture Slides

Six main classes of blood vessels (on handout) Amy Warenda Czura, Ph.D. 2 SCCC BIO132 Chapter 21 Lecture Slides

Wall structure of arteries and veins (on handout) Amy Warenda Czura, Ph.D. 3 SCCC BIO132 Chapter 21 Lecture Slides

Comparison: Arteries vs. Veins (on handout) Vessel Types and Structures (histology) Ateries (on handout, typed) Amy Warenda Czura, Ph.D. 4 SCCC BIO132 Chapter 21 Lecture Slides

pressure points: can be pinched off to control bleeding (muscular arteries) Amy Warenda Czura, Ph.D. 5 SCCC BIO132 Chapter 21 Lecture Slides

Health Problems with Arteries - aneurysm: pressure of blood exceeds elastic capacity of wall, causes bulge or weak spot prone to rupture, caused by chronic high BP or arteriosclerosis - arteriosclerosis: variety of pathological conditions causing changes in walls that decrease elasticity ( thickenings ): -focal calcification: smooth muscle degenerates, replaced by calcium salts -atherosclerosis: lipid deposits -stroke = cerebrovascular accident (CVA): interruption of arterial supply to portion of brain (embolism, atherosclerosis), brain tissue dies and function is lost Amy Warenda Czura, Ph.D. 6 SCCC BIO132 Chapter 21 Lecture Slides

Capillaries (on handout, typed) -only vessels with thin enough wall structure to allow complete diffusion -all cells are within 125µm of capillary -fun fact: 25,000 miles of capillaries continuous fenestrated sinusoid Amy Warenda Czura, Ph.D. 7 SCCC BIO132 Chapter 21 Lecture Slides

-not enough total blood to fill all capillaries at once: flow through capillary bed must be controlled based on need via precapillary sphincters Vasomotion: cycle of contraction/relaxation -sphincter relaxed = flow in capillary bed -sphincter constricted = capillary bed empty, flow through anastomoses Amy Warenda Czura, Ph.D. 8 SCCC BIO132 Chapter 21 Lecture Slides

Veins (on handout, typed) -Pressure from heart drives blood flow in arteries, but pressure in veins often too low to oppose gravity -Skeletal muscle movement required to squish blood through veins Amy Warenda Czura, Ph.D. 9 SCCC BIO132 Chapter 21 Lecture Slides

-valves in tunica intima insure one way movement Health problems with veins: -resistance to flow (gravity, obesity) causes pooling above valves, veins stretch out: -varicose veins -hemorrhoids Blood reservoir: -venous system contains 65-70% total blood volume; can constrict during hemorrhage to keep volume in capillaries & arteries near normal Amy Warenda Czura, Ph.D. 10 SCCC BIO132 Chapter 21 Lecture Slides

Anastomoses (on handout, typed) Physiology of Circulation Blood flow = volume of blood flowing through a vessel in given period (total body flow = CO) Blood pressure = force per unit area exerted on vessel by blood (mmhg) blood flows from high pressure low Resistance = opposition to blood flow, friction blood viscosity = resistance vessel length = resistance vessel diameter = resistance Vasoconstriction = flow, BP, resistance Vasodilation = flow, BP, resistance -blood pressure changes throughout body: greatest in arteries leaving heart, lowest in veins returning to heart -person s BP measured at arteries near heart: systolic pressure / diastolic pressure (from ventricles, squeeze / rest) normal = 110/70 mmhg Amy Warenda Czura, Ph.D. 11 SCCC BIO132 Chapter 21 Lecture Slides

Hypertension -arterial pressure >150/90mmHg -causes workload for heart -untreated = enlarged left ventricle, requires more O 2, heart can fail As arteries branch, area for blood increases, pressure decreases and becomes constant. Blood at arteriole ~35mmHg capillary Blood at venule ~18mmHg Pressure continues to decline as veins increase diameter Amy Warenda Czura, Ph.D. 12 SCCC BIO132 Chapter 21 Lecture Slides

Capillary Exchange -functions to feed tissues and remove wastes -due to filtration and diffusion -dependent on good blood flow and pressure 1. Filtration - pressure forces substances through a membrane -Blood hydrostatic pressure in capillaries drives water and solutes out of plasma to tissues, 24 L/day -most recollected by osmosis (plasma proteins) back into capillary (filtered at arteriole end, absorbed at venule end) - 3.6 L/day flows through interstitial spaces, recollected by lymphatic system: -accelerates distribution of nutrients -flushes out toxins and pathogens (will be removed/detoxified by immune cells in lymphatic system) Amy Warenda Czura, Ph.D. 13 SCCC BIO132 Chapter 21 Lecture Slides

2. Diffusion - movement of substances from an area of high concentration to low - small ions transit through endothelial cells (e.g. Na + ) - large ions & small organics pass between endothelial cells (e.g. glucose, amino acids) - lipids pass through endothelial membranes (e.g. steroid hormones) - large water soluble compounds diffuse at fenestrated capillaries (e.g. in intestine) - large plasma proteins diffuse only at sinusoids (e.g. in liver) Edema = buildup of fluid in the tissues, due to too much diffusion or filtration, not enough osmosis, or blocked lymphatics Cardiovascular Regulation(on handout) -flow, BP, & resistance must be controlled to insure delivery of nutrients and removal of wastes in tissues Amy Warenda Czura, Ph.D. 14 SCCC BIO132 Chapter 21 Lecture Slides

Cardiovascular Response to Hemorrhaging - Short Term (aimed at BP and flow: blood flow to brain kept constant while other systems adjust, can compensate for ~20% blood loss) 1. C.O., trigger peripheral vasoconstriction to BP 2. Venoconstrict to mobilize venous reserve to blood volume 3. Release NE, ADH, Angiotensin II to BP - Long Term (aimed at restoring normal blood volume after hemorrhage) 1. Recall fluid from interstitial spaces 2. Release ADH for fluid retention at kidney 3. Increase thirst 4. Release EPO to RBCs Shock = low BP and inadequate blood flow Amy Warenda Czura, Ph.D. 15 SCCC BIO132 Chapter 21 Lecture Slides

Due to: -loss of >30% blood volume -damage to heart -external pressure on heart -extensive vasodilation Results in: hypotension, rapid weak pulse clammy skin, confusion, heart rate urine production, blood ph Body focuses on supplying blood to brain at expense of other tissues Circulatory collapse - blood flow stops completely as muscles in vessels no longer contract due to lack of oxygen, no blood flow = death Amy Warenda Czura, Ph.D. 16 SCCC BIO132 Chapter 21 Lecture Slides

Aging and the Cardiovascular System: - decreased hematocrit - increased thrombus formation - venous valves function, blood pools in legs - reduction in max CO - increased arteriosclerosis *Anatomical locations of individual major blood vessels will be examined in detail in lab! Amy Warenda Czura, Ph.D. 17 SCCC BIO132 Chapter 21 Lecture Slides

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