Path 3

Question 1

describe Pericardial disease

Answer 1

• Fluid accumulation, inflammation, fibrous constriction, or some combination of these processes, usually in association with disease elsewhere in the heart or a systemic disease

Question 2

define Tamponade

Answer 2

• Acute sydrome (stabbed in the heart)
• Heart can’t beat with the volume of blood in the pericardium
• COnstrictive problems

–> develops Becks triad = Low arterial blood pressure, JVD, muffled heart sounds

–> paradoxus pulse = drop of >10mmHg in arterial blood pressure on inspiration

Question 3

describe congenitial Heart disease (CHD)

Answer 3

• abnormalities of the heart or great vessels that are present from birth

–> most disorders arise from faulty embryogenesis during weeks 3-8.

• Most common is VSD > ASD > pulmonary stenosis > patent ductus arteriosus

Question 4

Define shunt

Answer 4

• abnormal cummunication or opening between cardiac chambers and/or blood vessels thru which abnormal blood flow will occur
• L to R OR R to L depending on pressure gradient

Question 5

define stenosis

Answer 5

• abnormal narrowing causing partial obstruction to normal blood flow

Question 6

define atresia

Answer 6

• failure of a normal anatomic feature, usually a cardiac valve, to form or develop to a functionally adequate state

Question 7

Left-to-right shunts

Answer 7

• Initially raise BOTH flow volumes and pressures in the normally low-pressure, low resistance pulmonary circulation

–> leads to right ventricular hypertrophy and atherosclerosis of pulmonary vasculature

• INITIAL INCREASE PULMONARY BLOOD FLOW and is not associated with cyanosis (NONCYANOTIC)
• Eventually pulmonary vascular resistance = systemic levels, thereby producing a RIGHT TO LEFT SHUNT that introduces unoxygenated blood into systemic circulation (LATE CYANOTIC) –> called Eisenmenger syndrome

Question 8

Ventricular septal defect

Answer 8

• most common (2/3 of cases associated with anomalies)
• mixed blood goes to heart
• functional consequences of VSD depend on the size of the defect and whether there are associated with right-sided malforamtions
• LARGE VSDs cause difficulties virtually from birth
• type of Left-to-right shunt

Question 9

Atrial septal defect

Answer 9

• Fixed opening in the atrial septum
• classified based on location

–> secundum (90% of all ASD) = result from deficient or fenestrated oval fossa near the center of atrial septum

–> Primum = results from defect in lower portion

–> sinus venosus = results from defect in upper portion

• Right-sided volume overload - pulmonary blood flow may be two or four times normal
• ASD are well tolerated and do not become symptomatic before age 30

Question 10

Patent ductus arteriosus

Answer 10

• results when the ductus arteriosus, an essential fetal structure that normally spontaneously closes, remains open after birth
• may be essential to preserve life (pulmonary circulation) in hypoplastic heart syndromes
• sounds like a harsh murmur (machinery like)
• Usually asymptomatic at birth, and a narrow PDA may have no effect on child’s growth and development

Question 11

Atrioventricular septal defect (AVSD)

Answer 11

• Result from embryologic failure of the superior and inferior endocardial cusions of the AV canal to fuse adequately with malformation of tricuspid and mitral valves
• Can be partial or complete

–> partial consists of primum ASD and a cleft anterior mitral leaflet, causing MITRAL INSUFFICIENCY

–> complete AVSD consisting of a large combined AV septal defect and a large common AV valve (essentially a hole in the center of heart)

Question 12

Right to left shunts

Answer 12

• Cause CYANOSIS EARLY in postnatal life
• Most common is teralogy of fallot (others are transposition of the great arteries)

Question 13

Tetralogy of Fallot (TOF)

Answer 13

• 4 pathologies in one

–> obstruction of the right ventricular outlow tract (subpulmonary stenosis)

–> right ventricular hypertrophy

–> aorta that overrides the VSD

–> large VSD

• Blood flow comes from right ventricle to the left ventricle –> cyanosis
• Pulmonic stenosis protects pulmonary arteries from HTN PVD

Question 14

what are the clinical complications + the types of Tetralogy of fallot

Answer 14

• TYPES:

–> subpulmonary stenosis is mild = resembles isolated VSD, and the shunt may be left-to-right without cyanosis (so-called pink tetralogy)

–> Severe subpulmonary stenosis = results in greater resistance to right ventricular outflow (Right to Left shunting and cyanosis)

• CLINICAL COMPLICATIONS:

–> systemic cyanosis, polycythemia/thromboses, endocarditis, cerebral abscess

Question 15

Transposisiton of the Great arteries

Answer 15

• Aorta arises from the right ventricle, and lies anterior and to the right of the pulmonary artery, which emanates from the left ventricle
• embryologic defect in complete TGA stems from abnormal foramtion of the truncal and aortopulmonary septa
• patients with TGA and a VSD may have a stable shunt
• patients with patent foramen ovale or ductus arteriosus have unstable shunts that tend to close and require immediate interention to creat a new shunt

Question 16

describe Obstructive congenital anomalies

Answer 16

• obstruction of blood flow may occur at the level of heart valves or within a great vessel

–>includes stenosis or atresa of the aortic or pulmonary valves and COARCTATION OF THE AORTA

• circulation must be shunted thru an ASD or PDA to sustain life

Question 17

coarctation of the aorta

Answer 17

• Narrowing, constriction of the aorta, high in frequency
• TWo forms:
• proximal to the patent ductus arteriosus (infant/child)

–> severe, do not survive the neonatal period without surgical or catheter-based intervention (CYANOSIS LOWER HALF OF BODY)

• distal to closed ductus arteriosus (ligamentum arteriosum) and distal to the arch vessels (adult)

–> Asymptomatic unless severe narrowing (may be weak pulses and hypotension in lower extremities, claudication, and coldness)

• Coarctation of aorta results in high blood pressure before point of coarctation and low blood pressure byond that point