A&P The circulatory system: Heart Chapter 19
Left AV valve
"bicuspid or mitral valve", opens into the left ventricle
Myocardial infarction
(MI) Heart attack, interruption of blood supply to heart usually caused by fatty deposit or blood clot in coronary artery, long term coronary artery obstruction, cardiac muscle downstream dies, 27% of all deaths in US -Disrupt electrical conduction pathways, fibrillation, death
Alveoli
(singular alveolus.) Tiny sacs, with walls only a single cell layer thick found at the end of the respiratory bronchiole tree. Alveoli are the site of gas exchange in the respiratory system.
Aerobic respiration
(with oxygen) glucose is completely oxidized to carbon dioxide and water the total oxidation allows for the maximum amount of energy to be released, to make ATP mitochondria fill 25% of cell At rest heart gets 60% of energy from fatty acids 35% from glucose 5% from ketones, lactic acid, and amino acids
Fibrous rings
-(Anuli fibrosi) along with other masses of dense connective tissue in the portion of the septum between the ventricles constitute the skeleton of the heart, -holds orifices open and prevents them from excessively stretching when blood surges through them -nonconductor of electricity, serves as electrical insulation between atria and ventricles -Elastic recoil of skeleton may aid in refilling heart with blood after each beat -Anchors myocytes
Cardiac muscle requires ample supply of blood
-Coronary circulation-about 5% of blood flow (lots of blood goes to heart) -Collateral circulation important-anastomoses allow bypass of blockages (a lot) -Diastolic blood flow is greater than systolic blood flow, because things are relaxed
Pathway of blood through heart
1. Blood enters right atrium from superior and inferior vena cavae 2. Blood in right atrium flows through right AV valve into right ventricle. 3. Contraction of right ventricle forces pulmonary valve open. 4. Blood flows through pulmonary valve into pulmonary trunk 5. Blood is distributed by right and left pulmonary arteries to lungs where it unloads C02 and loads O2 6. Blood returns from lungs via pulmonary veins to left atrium. 7. Blood in left atrium flows through left AV valve into left ventricle 8. Contraction of left ventricle (simultaneous with step 3) forces aortic valve open. 9. Blood flows through aortic valve into ascending aorta 10.Blood in aorta is distributed to every organ in the body, where it unloads O2 and loads CO2 10. Blood returns to right atrium via venae cavae
Cardiac conduction system
1. SA node fires 2. Excitation spreads through atrial myocardium 3. AV node fires 4. Excitation spreads down AV bundle 5. Purkinje fibers distribute excitation through ventricular myocardium
Flow peaks when the heart relaxes
1. contraction of myocardium compresses coronary arteries and obstructs blood flow 2. When the ventricles contract, the aortic valve is forced open and its cusps cover the openings to the coronary arteries, blocking blood from flowing into them 3. When they relax, blood in aorta briefly surges back toward the heart. It fills the aortic valve cusps and some of it flows into the coronary arteries
Pacemaker
A group of cells located in the right atrium that sends out signals that make the heart muscle contract and that regulates heart rate
Sinoatrial node
A small mass of tissue that is made up of Purkinje fibers, ganglion cells, and nerve fibers, that is embedded in the musculature of the right atrium, and that originates the impulses stimulating the heartbeat -- called also S-A node, sinus node.
Inferior vena cava
A vein that is the largest vein in the human body and returns blood to the right atrium of the heart from bodily parts below the diaphragm.
Superior vena cava
A vein that is the second largest vein in the human body and returns blood to the right atrium of the heart from the upper half of the body.
Coronary sulcus
AKA atrioventricular sulcus, groove that marks border between atria and ventricles
Cups
AKA leaflets
Atrioventricular bundle
AV bundle or bundle of His, specialized muscle fibers connecting the atria with the ventricles and transmitting electrical impulses between them
Atriventricular node
AV node, cluster of pacemaker cells located posterior and medial to tricuspid valve; slower than SA node, with an intrinsic rate of only about 40 action potentials per minute
Atrioventricular valves
AV valves, regulate openings between the atria and ventricles.
Size of human heart
About two fists clasped together and weighs about 300g
Anterior interventricular sulcus
Also called the left anterior descending artery
Ectopic focus
An abnormal pacemaker, SA node is damaged and may take over governance of heart rhythm
Desmosomes
Anchoring junctions that prevents cells subjected to mechanical stress from being pulled apart; button like thickenings of adjacent plasma membranes connected by fine protein filaments
Fascia adherens
Anchoring sites for actin
Diastolic
Blood pressure that remains between heart contractions.
Cardiovascular system
Blood vessels transport blood, which carries oxygen, carbon dioxide, nutrients, wastes, etc. The heart pumps blood.
Circumflex branch
Branch of the left coronary artery that curves around the left side and lies in the coronary sulcus.
Sympathetic stimulation
Can raise the heart rate to as high as 230 bpm
Parasympathetic stimulation
Can slow it to as low as 20 bpm or even stop heart of a few seconds
Cardiac plexus
Cardiac branches of the parasympathetic vagus nerve and cardiac branches from the cervical and upper thoracic sympathetic trunk unite around the heart to form a bundle of nerves
Intercalated dics
Cardiocytes are joined end to end by these thick connections. An intercalated disc is a complex step like structure with three distinctive features not found in skeletal muscle:interdigitating folds, mechanical junctions, electrical junctions
Right and left bundle branches
Carries the impulse throughout the ventricles.
Mediastinum
Central compartment of the thoracic cavity. It contains the heart, the great vessels of the heart, esophagus, trachea, phrenic nerve, cardiac nerve, thoracic duct, thymus, and lymph nodes of the central chest.
Valves are open and closed by?
Changes in blood pressure that occur as the heart chambers contract and relax.
Systemic circuit
Circuit of blood that carries blood between the heart and the rest of the body.
Coronary circulation
Circulation of blood through the coronary blood vessels to deliver oxygen and nutrients to the heart muscle tissue Supply about 250 mL of blood per minute
Angina
Condition of episodes of severe chest pain due to inadequate blood flow to the myocardium, ischemia, anaerobic respiration, lactic acid production
Systole
Contraction of the ventricles of the heart. Normal systolic pressure is 120 mm Hg.
Myocardial vortex
Created by how muscle spirals around heart. When ventricles contract, exhibit twisting or wringing motion that enhances ejection of blood.
Pulmonary veins
Deliver oxygen rich blood from the lungs to the left atrium
Pericardium
Double-layered membrane surrounding the heart.
Venous drainage
Drained primarily by three veins: vertebral, external jugular, internal jugular veins
Papillary muscle
Enlarged muscles in ventricles that are attached to chordae tendinae.
Coronary sinus
Enlarged vessel on the posterior aspect of the heart that empties blood into the right atrium
Visceral pericardium
Epicardium, Innermost layer of the serous membrane around the heart, isolates heart from other thoracic organs and allows it room to expand, but resists excessive expansion
Interdigitating folds
Folds interlock with each other, and increase surface area of contact
Electrical junctions
Gap junctions that allow ions to flow between cells - can electrically stimulate neighbors
Authorhythmic
Heart cells that initiate contractions
Nodal rhythm
If the heart's normal pacemaker is nonfunctional and the AV node 20-40 bpm, provides too little flow to the brain to be survivable. Calls for artificial pacemaker
Pericarditis
Inflammation of the pericardium, the membranes may become roughened and produce painful friction rub with each heartbeat
Endocardium
Inner lining of the heart around the chambers, simple squamous epithelium overlying thin layer of areolar tissue, no adipose tissue. Covers the valves and is continuous with endothelium of BV
Mechanical junctions
Keep the myocytes from pulling apart, tight junctions
Anterior interventricular branch
Left coronary artery branches travel down anterior ventricular sulcus to apex, rounds the bend and travels short distance up posterior side AKA left anterior descending branch (LAD)
Apex
Lower end of heart, just above the diaphragm
Posterior interventricular vein
Middle cardiac vein, Posterior branch of the right coronary artery; lies in posterior interventricular sulcus, collects blood from the posterior aspect of the heart
Collateral circulation
More than one artery supplying a muscle with blood, develops when chronic ischemia occurs to meet the metabolic demands; therefore an occlusion of a coronary artery in a younger individual is more likely to be lethal than in an older individual
Trabeculae carneae
Name the needle like ridges of muscle lining the ventricles. Serve to keep walls from clinging to each other like suction cups when heart contracts.
Sinus rhythm
Normal heartbeat 70-80 bpm
Auricle
One of the two chambers of the heart which receives the blood from the veins. A small earlike extension
Pericardial sac
Or parietal pericardium, membrane around heart, has tough, superficial fibrous layer of dense irregular connective tissue and a thin, deep serous layer. Is anchored by ligaments to diaphragm
Epicardium
Outer layer of the heart, simple squamous epithelium overlying thin layer of areolar tissue, some areas have thick layer of adipose tissue
Interventricular Septum
Partition that separates the right and left ventricles
Left marginal branch
Passes down left margin of heart and furnishes blood to left ventricle.
Serous layer
Pericardial fluid that is within the pericardial cavity comes from which layer of he pericardial sac
Posterior interventricular branch
Posterior branch of the right coronary artery; lies in posterior interventricular sulcus. It ends by joining the anterior interventricular branch of the LCA.
Most of the mass of the atria is on which side of the heart?
Posterior side
Right coronary artery
RCA, courses to the right side of the heart; gives rise to the right marginal artery
Fibrillation
Rapid and uncontrolled heartbeat
Right atrium
Receives blood returning to the heart from the superior and inferior vena cava
Left atrium
Recieves blood from pulmonary veins, blood now oxy-rich
Great cardiac vein
Returns deoxygenated blood from anterior surfaces of ventricle
Aortic valve
Semi lunar valve situated between the left ventricle and the aorta
Interatrial septum
Separates atria
Fibrous skeleton
Serves as attachment site for valves and myocardium; electrical insulator of heart
Sulci
Shallow grooves that mark the four chambers of heart
Thesbian veins
Small cardiac veins that drain into the left atrium and ventricle also contribute to normal anatomic shunting
Cardiocytes
Striated, short, thick, branched cells, one central nucleus surrounded by light-staining mass of glycogen
Posterior interventricular sulcus
Sulcus on posterior part of heart
Right marginal branch
Supplies lateral aspect of right atrium and ventricle
Left ventricle
The chamber of the heart that receives arterial blood from the left atrium and pumps it into the aorta
Right ventricle
The chamber of the heart that receives venous blood from the right atrium and pumps it into the pulmonary artery
The coronary sulcus and two interventricular sulci harbor
The largest of the coronary blood vessels
Great vessels
The major arteries and veins entering and leaving the heart because of their relatively large diameters
Cardiac nerves
They include the Superior, Middle and Inferior Cardiac nerve
Myocardium
Thick middle muscle layer of the heart, performs work of the heart Cardiac muscle Forms myocardial vortex around the heart
Chordae tendineae
Thin bands of fibrous tissue that attach to the valves in the heart and prevent them from inverting (tendinous cords)
Pericardial fluid
This is used to reduce friction between the layers of membranes surrounding the heart.
Importance of electrical insulatin
Timing of electrical and contractile activity
Left marginal vein
Travels from a point near the apex up the left margin and empties into the coronary sinus
Right AV valve
Tricuspid, prevents backflow of blood into right atrium when ventricle
Base
Uppermost end of heart, where great vessels are attached
Pulmonary valve
Valve positioned between the right ventricle and the pulmonary artery
Aortic arch
a curved blood vessel from which arteries branch to the head and neck.
Myogenic
capable of contracting without stimuli from nerve cell
Pulmonary trunk
carries blood from right ventricle to pulmonary arteries
Pulmonary circuit
carries blood to the lungs for gas exchange and returns it to the heart
Pulmonary arteries
carry deoxygenated blood out of the right ventricle and into the lungs
Friction rub
described as grating, scratching sound of the heart indicative of pericarditis
Purkinje fibers
fibers in the ventricles that transmit impulses to the right and left ventricles, causing them to contract
Pericardial cavity
fluid-filled cavity between the pericardial layers, the heart is enfolded by it (like fist in balloon) 5-30 ml of serious fluid
Return of blood to right atrium
great cardiac vein, posterior interventricular vein (middle cardiac), left marginal vein, coronary sinus
