Functional Anatomy of the Cardiovascular System
Collateral Circulation
Alternate blood flow pathways
Blood Stroke Volume
Amount of blood squeezed from apex to base
Heart Chambers
Atria and ventricles of the heart
Mean Arterial Pressure
Average pressure in the arteries
Local Control
Blood flow regulation based on tissue metabolic rate
Coronary Arteries
Blood vessels that supply the heart
Vascular System
Blood vessels that transport blood throughout the body
AV Bundle
Bundle of His that conducts electrical impulse to the ventricles
Sarcolemma
Cell membrane of a muscle fiber
Myofibril
Contractile component of muscle fiber
Myosin and Actin
Contractile proteins in muscle fibers
Ventricular Emptying
Contraction and ejection of blood from the ventricles
Vascular System Regulation
Control of blood flow through local and central mechanisms
Central Control
Control of blood flow through the autonomic nervous system
Atrioventricular Node
Delays electrical impulse from atria to ventricles
Pulse Pressure
Difference between systolic and diastolic blood pressure
Bundle Branches
Divisions of the AV bundle
Right Coronary Artery
Dominant blood supplier to the heart
Consequences of Septal Defects
Effects of abnormalities in the septum
Titin
Elastic protein that tethers myosin fiber to Z-line
T-Tubules
Extensions of the sarcolemma that transmit electrical impulses
Determinants of Blood Pressure
Factors that affect systolic and diastolic blood pressure
Regulation of Pumping Activity
Factors that control the force and rate of heart contractions
Cardiac Skeleton
Fibrous annuli and valvular function
Perfusion Pressure
Forces responsible for blood flow through the vessels
Gross Anatomy of the Heart
Heart location and external features
Hypertension
High blood pressure with detrimental effects
Venous Reservoir
Highly distensible veins that store blood
Renin-Angiotensin-Aldosterone
Hormonal regulation of blood volume and pressure
Atrial Natriuretic Peptide
Hormone that promotes diuresis and lowers blood pressure
Antidiuretic Hormone
Hormone that regulates water reabsorption and blood volume
Frank-Starling Mechanism
Increased sarcomere length leads to increased cross-bridge cycling and stronger contraction
Respiratory Vagal Stimulation
Influence of respiration on heart rate
Heart Wall
Layers of the heart: epicardium, myocardium, endocardium
Pericardium
Loose-fitting membranous sac surrounding the heart
Cardiac Muscle Syncytium
Muscle mass acts as one fiber, all fibers contract together
Sarcoplasmic Reticulum
Network of tubules that store calcium ions
Mitochondria
Organelles that generate ATP for muscle contraction
Spiral Arrangement of Muscle Fibers
Orientation of muscle fibers in the heart
Intraatrial Septum
Partition between the atria
Intraventricular Septum
Partition between the ventricles
Ventricular Filling
Passive and atrial contraction phases of filling
Ejection Fraction
Percentage of blood ejected from the ventricles
Oxygen Extraction
Percentage of oxygen extracted from coronary blood
Hematocrit
Percentage of red blood cells in the blood
Isovolumetric Contraction
Phase of ventricular contraction with all valves closed
Ventricular Relaxation
Phase of ventricular relaxation with all valves closed
Central Venous Pressure
Pressure in the central veins
Peripheral Venous Pressure
Pressure in the peripheral veins
Right Atrial Pressure
Pressure in the right atrium
Arterial Blood Pressure
Pressure of blood in the arteries
Sinoatrial Node
Primary pacemaker of the heart
Cardiac Muscle Contraction
Process of muscle fiber contraction in the heart
Venous Characteristics
Properties of veins and venous return
Ventricular Outflow
Pulmonary and aortic valves
Right Atrium
Receives deoxygenated blood from superior vena cava, inferior vena cava, and coronary sinus
Left Atrium
Receives oxygenated blood from pulmonary veins
Baroreceptor Reflex
Reflex response to changes in blood pressure
Left Ventricular Afterload
Resistance faced by the left ventricle during ejection
Systemic Vascular Resistance
Resistance to blood flow in the systemic circulation
Afterload
Resistance to ejection of blood from the ventricles
Venous Return
Return of blood to the heart from the veins
Vasomotion
Rhythmic contraction and relaxation of blood vessels
Sarcomere
Segment of a myofibril between two Z-lines
Cardiac Cycle
Sequence of events in one heartbeat
Purkinje Fibers
Specialized cardiac muscle fibers that rapidly transmit electrical impulses
Cardiac Conduction System
Specialized cardiac muscle tissue responsible for electrical conduction
Autonomic Stimulation
Sympathetic and parasympathetic control of heart rate
Diastolic Time
Time during which coronary blood flow occurs
Atrial-Ventricular Valves
Tricuspid and mitral valves
Heart Valve Function
Valve opening and closing during the cardiac cycle
Semilunar Valves
Valves that close during ventricular relaxation
Coronary Veins
Veins that parallel coronary arteries and empty into the right atrium
Jugular Venous Distension
Visible bulging of the jugular veins
Stroke Volume
Volume of blood ejected with each heartbeat
Vasodilation
Widening of blood vessels
