Heart and Great Vessels pt. 2 Flashcards
Location: Left, 3rd costal cartilage & rib
Auscultate: LSB 2nd ICS
Pulmonic Valve
Location: Left, 3rd ICS
Auscultate: RSB 2nd ICS
Aortic Valve
Location: Left 4th costal cartilage and rib
Auscultate: 5th ICS, MCL
Mitral Valve
Location: Right, behind sternum, 4th ICS
Auscultate: LSB, 4th ICS
Tricuspid Valve
Located on the right side of the heart and pulmonary trunk & arteries
-Low resistance, low pressure system
-Normally 25/10 mmHg
Pulmonary Circulation
Located on the left side of the heart and the Aorta.
-High resistance, high pressure system
-Normally <120/<80 mmHg
Systemic Circulation
-Comes off of the Ascending Aorta, distal to the Right Aortic Valve Cusp
-Gives off the Right Marginal Artery and the Posterior Descending Artery
-Anterior Right Atrial Branch
Right Coronary Artery
Artery that supplies the inferior aspect of the Right Ventricle.
-Branch of the RCA
Right Marginal Artery
Artery that anastomeses with the Anterior Descending Artery as they curl around the apex.
-Branch of the RCA
Posterior Descending Artery
-Comes off of the Ascending Aorta, distal to the Left Aortic Valve Cusp
-Branches into the Anterior Descending Artery (courses down to apex, gives off Diagonal Branch) and the Circumflex Artery (curves around the upper left side)
Left Coronary Artery
Branch off of the Right Coronary Artery that gives off another branch, called the Branch to the Sinoatrial Node
Anterior Right Atrial Branch
-Lateral Left Ventricular Branch
-Posterolateral Left Ventricular Branch
-Posterior Left Ventricular Branch
Branches of the Circumflex Artery
A physiologic shunt occurs because some veins dump blood into the LA and the LV.
-Slightly decreased SpO2, less than 100%
-Thebesian Veins empty into the LA/LV
-Also occurs due to some Bronchial veins anastomosing with Pulmonary Veins
Venous Admixture
-Runs with the Anterior Descending Artery down the Inter-ventricular Sulcus.
-Loops around apex and anastomoses with the Middle Cardiac Vein running posteriorly.
-Winds around upper left hand border and then descends in a diagonal fashion.
-Joined by the Oblique vein of Marshall (drains the left atrium)
Great Cardiac Vein
Occurs when the Great Cardiac Vein and the Oblique Vein of Marshall come together
-Drains into the RA, has a valve
Coronary Sinus
Drain the upper portion of the RV and terminate in the RA by themselves (not via the Coronary Sinus)
Anterior Cardiac Veins
Vein that drains the Left Atrium
Oblique Vein of Marshall
Veins that run with the Right Marginal Artery. Loop around the edge of the RA, and works itself back up to connect with other veins, usually the Middle Cardiac Vein
Small Cardiac Vein
Double layer membrane, inside hoods the heart very tightly (epicardium), then flips out and forms outside layer wrapped around great vessels at the top to suspend the heart in place.
-Visceral Layer: clings tightly to muscle of heart
-Outer layer: Parietal (Serous) and Fibrous
Between the two layers is a potential space called the Pericardial Cavity (Pericardial Space). Only contains a few mL of fluid.
Pericardium
Supplies sensory and motor innervation to the pericardial sac.
Phrenic Nerves
Supplied by the:
-Pericardiacophrenic Arteries (very tiny vessels that branch off of the Internal Thoracic Arteries and run with the Phrenic Nerve)
-Pericardial Arteries: small branches off of the Thoracic Aorta
Blood Supply to the Pericardial Sac
Spinal Cord segments (T1-T4,T5) give off SNS preganglionics (WRC) to the Sympathetic Chain. Fibers go to Inferior, Middle, or Superior Cervical Ganglion. Ganglia give off postganglionics (GRC) that go to the heart
SNS Innervation to the heart
Vagus nerve originates in the brain, goes to the heart where it ends just as it approaches the heart. The ganglion is right up against the wall of the myocardium. Gives off little tiny postganglionics (GRC)
PNS Innervation to the heart
A mixing of PNS and SNS fibers that overlies the great vessels.
Cardiac Plexus
Negative chronotropic effect (Slows heart down). Doesn’t eject as much blood
PNS Domination
Positive chronotropic effect (increases HR). Increases the amount of blood ejected with each contraction (increases stroke volume)
SNS Domination
Formed by the Subclavian Vein and Internal Jugular Vein
-Forms the SVC, which drains into the RA
Brachiocephalic Veins
-Brachiocephalic Trunk (that divides into R Subclavian A. and R CC A.)
-Left CC Artery (blood to head/neck)
-Left Subclavian Artery (blood to upper limb)
Branches off of the Aortic Arch
Exists in the fetal state, tying the aortic arch in with the left pulmonary artery.
-Lungs are collapsed in-utero and have high resistance to blood flow. In order to be pumped and circulated, blood flow takes another route.
-With birth, resistance in lungs goes way down, so this closes
-Not supposed to be present after birth.
Ductus Arteriosus
A piece of scar tissue, remnant of the Ductus Arteriosus.
-After 2 weeks post-birth, DA is scarred over and gives a true anatomic closure.
-Prevents venous admixture from occurring
-Risk of damage to Recurrent Laryngeal Nerve with surgical repair as it runs right down by it
Ligamentum Arteriosum
