Term
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Definition
rapid beating of the heart |
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Term
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Definition
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Term
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Definition
(left ventricular) ejection fraction |
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Term
What is ejection fraction? What is its normal value? |
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Definition
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Term
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Definition
end diastolic volume end systolic volume stroke volume |
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Term
systolic failure indicated by |
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Definition
low EF and reduced dP/dT during ventricular systole |
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Term
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Definition
disorder in cardiac relaxation such that ventricle doesn't fill effectively (e.g. walls are non-compliant) |
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Term
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Definition
cardiac output = HR * SV = 70 beats per min * 70 ml. per beat = 5 L |
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Term
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Definition
layer of squamous epithelial cells lining cardiac chambers and valves |
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Term
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Definition
megakaryocytes breaking down (which is normal) |
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Term
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Definition
serum is plasma MINUS blood clotting components |
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Term
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Definition
blood clot in a deep vein, commonly affecting leg veins |
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Term
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Definition
a condition of overproduction of RBC have higher risk of thrombotic events - deep venous thrombosis
- pulmonary embollism
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Term
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Definition
RBCs as proportion of blood volume |
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Term
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Definition
about 45%, less for females, more for males |
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Term
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Definition
anemia (-) overhydration (-) dehydration (+) polycythemia (+) production of RBCs (+) destruction of RBCs (-) |
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Term
disseminated Intravascular Clotting (DIC) |
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Definition
numerous small clots -> exhaustion of clot factors -> infarction (risk of hemorrhage) |
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Term
Reactions to trasfusion of foreign ABO-mismatched blood |
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Definition
agglutination of RBC's and hemolysis causing:- (early) chills, fever, high HR
- (severe) back pain, hibes, rash, dyspnea, low BP, anaphylaxis
- renal shutdown is major concern
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Term
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Definition
"Rh Disease" OR Hemolytic disease of the newborn mother is Rh- 2 pregnancies with Rh+ baby (from father) First baby's RBCs get into maternal circulation causing sensitization Prevention: Rho-Gam removes Rh+ from maternal circulation Tx: repeated transfusions after birth to get rid of anutbodies |
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Term
Form of iron that binds to O2 |
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Definition
Ferrous (Fe2+), not Ferric (Fe3+) |
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Term
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Definition
immature RBCs composing about 1% of RBCs (are also non-nucleated) |
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Term
jaundiced color caused by |
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Definition
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Term
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Definition
detoxifed (and soluble) form of bilirubin, excreted into the bile canaliculi |
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Term
rule of thumb of high risk profile for gall bladder stones |
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Definition
fat, female, fertile, flatulent |
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Term
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Definition
conjugated bilirubin backup into the blood |
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Term
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Definition
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Term
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Definition
5000 to 10000 per cu. mm. blood |
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Term
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Definition
reduction in RCB,WBC,platelets |
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Term
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Definition
stem cell disorder characterized by:- reduction of hematoporietic tissue in bone marrow
- fatty marrow replacement
- pancytopenia(reduction in RCB,WBC,platelets)
Caused by some drugs, toxin exposure, radiation Tx: transfusions, splenectomy, bone marrow transplants |
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Term
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Definition
- normocytic,normochromic
- macrocytic,normochromic
- microcytic,hypchromic
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Term
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Definition
reduced production of intrinsic factor by the gastric parietal cells of the stomach due to autoimmune attack- leads to poor Vit B12 absorption
- most common in elderly females
Tx: corticosteroids, Vit B12 shots |
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Term
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Definition
inherited disease of RBCs, with reduced rate of normal globin chains, resulting in rapid injury and death of RBCs |
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Term
location of hemoglobin breakdown |
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Definition
reticuloendothelial tissues of red bone marrow, spleen, liver |
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Term
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Definition
- stimulates RBC production
- produced by kidney
- stimulated by hypoxia
- declines in renal disease
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Term
erythropoiesis nutrient requirements |
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Definition
Fe, Vit B12, folic acid, Cu, instrinsic factor (produced by stomach gut), and other trace minerals |
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Term
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Definition
- hemocytoblast
- erythroblast
- reticulocyte
- erythrocyte
Takes about one week to complete about 1% of the RBCs circulating are reticulocytes |
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Term
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Definition
changes in heart muscle performance, independent of alterations in preload and afterload |
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Term
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Definition
a reduction in blood supply |
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Term
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Definition
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Term
The most common cause of congestive heart failure (CHF) is |
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Definition
myocardial ischemia from coronary heart disease |
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Term
What part of the nervous system influences the heart rate? |
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Definition
the Autonomic Nervous System |
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Term
What factors influence the stroke volume? |
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Definition
A. the mean arterial pressure B. the end diastolic volume and contraction strength |
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Term
(T or F) Without neuronal influences the heart beats according to the rhythm set by the SA node |
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Definition
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Term
What is the major means by which the heart rate is regulated? |
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Definition
sympathetic and parasympathetic neurons to the SA node |
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Term
What three variable regulate stroke volume? |
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Definition
A. END DIASTOLIC VOLUME - the volume of blood in the ventricles at the end of diastole B. TOTAL PERIPHERAL RESISTANCE - the frictional resistance to the blood flow in the arteries C. CONTRACTILITY - the strength of ventricular contraction |
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Term
What does the EDV represent? |
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Definition
The EDV represents the workload on the heart prior to contraction |
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Term
What is the result of an increased EDV? |
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Definition
An increase in EDV results in greater stroke volume (Starlings law) |
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Term
With what does the strength of contraction vary directly with? |
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Definition
The strength of contraction varies directly with the EDV |
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Term
What is total peripheral resistance (TPR)? What causes the resistance? |
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Definition
TPR is the resistance to the ejections of blood from the ventricle TPR is due to the diameter of the arteries |
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Term
The pressure in the arteries before the ventricle contracts is a function of the __________. |
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Definition
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Term
Explain the Frank-Starling law of the heart. |
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Definition
a. there are varying degrees of stretching of the myocardium by the EDV b. as the EDV increases it contracts more forcefully c. as the ventricles fill, the myocardium stretches d. it allows more force to develop and explains how the heart can adjust to a rise in TPR |
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Term
Define contractility Is it controlled intrinsicly or extrinsicly? |
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Definition
the strength of contraction at any given fiber length Contractility is controlled extrinsicly by the sympathetic and adrenal hormones |
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Term
What hormones increase contractile strength? What is this effect called? |
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Definition
NE and Epi Positive intropic effect NOTE: the parasympathetic stimulation has a negative CHRONOTROPIC effect and DOES NOT directly influence contraction strength |
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Term
What is the driving force for the return of blood to the heart? |
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Definition
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Term
Do veins have a higher compliance or stretchability than arteries? |
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Definition
Yes They also have thinner walls |
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Term
At any one time, about how much of the total blood volume is in the veins? |
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Definition
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Term
What three things are controlled by factors that affect the venous return? |
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Definition
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Term
About how much of the total body water is within the intracellular compartment? |
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Definition
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Term
About how much of the total body water is within the extracellular compartment? How much of that is in the interstitial fluid and the blood plasm? |
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Definition
One-third 80% in the interstitial fluid and 20% in the blood plasma NOTE: there is a constant balance between water loss and gian in these compartments |
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Term
What is the net filtration pressure? |
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Definition
It is the hydrostatic pressure of the capillaries minus the hydrostatic pressure of the interstial fluid |
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Term
What is the colloid osmotic pressure? |
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Definition
It is the pressure exerted by plasma proteins or interstitial proteins |
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Term
What is the oncotic pressure? |
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Definition
The difference between the plasma osmotic pressure and interstitial osmotic pressure |
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Term
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Definition
Edema is excessive accumulation of tissue fluid |
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Term
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Definition
a. high arterial blood pressure b. venous obstruction (flebitis, blood clot) c. leakage of plasma proteins into interstitial fluid (holds fluid in those spaces) d. decreased plasma protein concentration (caused by liver failure) f. obstruction of lymphatic drainage in elepantiasis or cancer |
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Term
How can the volume of urine excreted be varied? |
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Definition
By changes in reabsorption of filtrate It is adjusted according to the needs of the body by the action of hormones |
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Term
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Definition
ADH is released by the posterior pituitary when osmoreceptors detect an increase in plasma osmolality It makes the collecting duct more permeable to water by making pores |
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Term
What is aldosterone? How does it work? |
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Definition
Aldosterone is a steroid hormone secreted by the adrenal cortex It stimulates a mechanism to maintain blood volume and pressure through the reabsorption and retention of sodium and chloride ions It stimulates the reabsorption of sodium chloride It indirectly increases the reabsorption of water It DOES NOT dilute the osmolarity |
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Term
What types of conditions cause the release of aldosterone? |
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Definition
salt deprivation reduced blood volume and pressure |
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Term
Explain the Renin-angiotensin-aldosterone system |
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Definition
1. When the blood pressure and flow are reduced in the renal artery, the juxtaglomerular apparatus (responsive to stress) secretes renin 2. Renin converts angiotensinogen to angiotension I 3. Angiotensin I is converted to angiotensin II by ACE (angiotensin converting enzyme) located within the lungs 4. Angiotensin II is a powerful vasoconstrictor, it stimulates the production of aldosterone, and it stimulates thirst. These both result in increased fluid retention and an increase in blood volume and pressure |
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Term
What is a typical drug that lowers blood pressure? |
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Definition
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Term
Resistance is directly proportional to the _____ of the vessel and to the ________ of the blood Resistance is inversely proportional to the _______ _______ of the ______ of the vessel |
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Definition
length, viscosity 4th power, radius |
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Term
What are the main regulators of blood flow through an organ? |
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Definition
a. mean arterial pressure b. vascular resistance to flow c. these are controlled by the ANS |
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Term
Discuss how the ANS regulates blood flow |
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Definition
1. sympathoadrenal stimulation increases cardiac output and the TPR 2. Alpha-adrenergic stimulation causes vasoconstricition of arteries in the skin and viscera 3. cholinergic sympathetic fibers cause vasodilation of skeletal muscles 4. the parasympathetic innervation is limited. It promotes vasodilation in the digestive tract, external genital, and the salivary glands |
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Term
Give an example of intrinsic regulation of blood flow |
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Definition
The intrinsic myogenic control mechanism It occurs because of the stretch of the vascular smooth muscle A decrease in systemic arterial pressure causes cerebral vessels to dilate |
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Term
What are some examples of metabolic control mechanisms that cause vasodilation? How does it work? |
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Definition
A. decreased oxygen B. increased carbon dioxide C. decreased pH D. increased potassium ion Intrinsic receptors sense chemical changes in the environment to cause vasodilation |
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Term
What physiological adaptations allow for the constant supply of aerobic requirements of the heart? |
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Definition
1. The coronary arteries supply an enormous number of capillaries 2. The myocardium contains large amounts of myoglobin to store oxygen to be released during systole 3. The heart contains an increased number of mitochondria and aerobic enzymes |
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Term
Give examples of how coronary blood flow is regulated |
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Definition
1. The sympathetic nervous system a. alpha receptors stimulate vasoconstriction at rest b. beta receptors stimulate vasodilation in flight or flight 2. Intrinsic regulators: a. increased metabolism of the myocardium causes increased carbon dioxide and potassium ion, and decreased oxygen b. these cause vascular smooth muscle to relax |
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Term
Give examples of how blood flow is regulated through the skeletal muscles |
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Definition
1. During rest, ??sympathetic alpha-adrenergic receptors stimulate vasoconstriction 2. During fight or flight, cholinergic and beta-adrenergic receptors stimulate vasodilation INTRINSIC mechanisms... During exercise decreased oxygen, increased carbon dioxide, increased potassium ion and a decreased pH all cause vasodilation of the arterioles |
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Term
Detail how circulation changes during exercise with respect to vascular resistance |
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Definition
vascular resistance decreases to skeletal muscles and blood flow increases The stroke volume and cardiac output increase Blood flow to the brain remains constant The heart rate increases to a max of 190 beats per minute The ejection fraction increases Vascular resistance to the GI tract and the skin increases and blood flow descreases |
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Term
What happens to cerebral circulation when exercising? |
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Definition
1. Cerebral blood flow is not normally influenced by sympathetic nerve activity 2. At a normal range of arterial pressures the cerebral blood flow is regulated by intrinsic mechanisms: a. myogenic - increased stretch decreases flow b. metabolic - increased carbon dioxide increases flow and other products |
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Term
What three things determine the pressure of arterial blood |
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Definition
blood volume TPR (diameter) cardiac rate |
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Term
Why is arteriolar resistance the greatest? |
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Definition
because they have the smallesst diameter |
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Term
What body systems can regulate the blood pressure? |
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Definition
kidneys and sympathoadrenal systems |
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Term
Describe the Baroreceptor reflex |
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Definition
1. Stretch receptors are located in the aortic arch and the carotid sinus 2. An increase in BP stretches the wall and increases the frequency of action potentials 3. The baroreceptors send action potentials to the vasomotor control and cardiac control centers in the medulla 4. The baroreceptor reflex is activated with changes in BP |
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Term
Describe atrial stretch reflexes |
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Definition
1. Receptors located in the atria of the heart 2. The receptors are activated by an increase in venous return 3.This stimulates reflex tachycardia 4. Inhibits ADH release 5. Promotes secretion of ANP |
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Term
How can we measure blood pressure? |
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Definition
1. Done by ascultation 2. Turbulent blood flow due to use of sphygmomanometer produces vibrations in the vessels that can be heard as Korotkoff sounds |
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Term
What is the average pulmonary BP? |
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Definition
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Term
What is pulse pressure? What is it normally? |
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Definition
Pulse pressure is the systolic pressure minus the diastolic pressure It is normally about 40 mm Hg |
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Term
What is the mean arterial pressure? How is it measured? |
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Definition
the average arterial pressure during the cardiac cycle it's the diastolic pressure plus one-third of teh pulse pressure |
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Term
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Definition
blood pressure in excess of normal range for age and gender Usually greater than 130/90 mm Hg |
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Term
What is essential hypertension? |
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Definition
primary or essential hypertension is the result of complex or poorly understood processes |
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Term
What is secondary hypertension? |
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Definition
hypertension due to a known disease process, usually the kidneys |
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Term
What kind of hypertension do most people have? |
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Definition
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Term
Give some characteristics of hypertension |
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Definition
A. increase in TPR is a universal characteristic B. the CO and the HR are elevated in many C. secretion of renin, angiotensis II, and aldosterone is variable D. sustained high stress and high sodium ion intake act to develop hypertension E. the adaptive response to hypertension is a thickening of the arterial wall causing atherosclerosis F. the kidneys may not be able to properly excrete sodium ion and water |
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Term
What are some of the dangers of hypertension? |
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Definition
a. it is a silent killer as patients are asymptomatic until the damage has occurred b. atherosclerosis c. increases workload of the heart d. causes congestive heart failure e. it damages the cerebral blood vessels |
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Term
What are some medications for hypertension? |
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Definition
1. diuretics to increase urine volume 2. beta-blockers to decrease the HR 3. Calcium antagonists to block calcium ion channels (decrease response to stress)4. ACE inhibitors to inhibit the conversion to angiotensin II 5. Angiotensin II receptor antagonists |
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Term
What causes hypovolemic shock? What are some compensations made? |
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Definition
Low blood volume causes a decreased CO and blood pressure Compensations are tachycardia and vasoconstriction of the GI tract, the skin, kidneys, and muscles Also the kidneys stimulate the production of the renin-angiotensin-aldosterone system resulting in vasoconstriction an increase in ADH also occurs |
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Term
What is septic shock? How does it occur? How is it treated? |
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Definition
Dangerously low BP as a result of sepsis It occurs through the action of baterial endotoxins that activate NO and cause vasodilation It is treated with drugs that inhibit the production of NO |
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Term
Describe congestive heart failure |
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Definition
Cardiac output is insufficient to maintain the blood flow needed by the body There is increased venous volume and pressure |
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Term
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Definition
a. myocardial infarction b. congenital defects c. hypertension d. aortic semilunar valve stenosis e. disturbed potassium and calcium ion concentrations |
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Term
What are the compensations to CHF? What are the treatments? |
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Definition
Compensations are tachycardia and vasoconstriction of the GI tract, the skin, kidneys, and muscles Also the kidneys stimulate the production of the renin-angiotensin-aldosterone system resulting in vasoconstriction an increase in ADH also occurs CHF is treated with digitalis, vasodilators, and diuretics |
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