Cardio

Question 1

What does the truncus arteriosus become?

Answer 1

1. Ascending aorta

2. Pulmonary artery

Question 2

What does the bulbus cordis become?

Answer 2

Becomes the conus cordis with inturn becomes the smooth part of L/R ventricular outflow tracks

Question 3

What does right / left horn of sinus venosus become?

Answer 3

Right: Smooth part of right atrium
Left: coronary sinus

Question 4

What forms the SVC?

Answer 4

Right anterior cardinal vein and common cardinal vein

Question 5

Where does the SVC drain?

Answer 5

Right side of heart

Question 6

When does heart start beating?

Answer 6

4th week, think, “4 chambers” and also 4 limbs

Question 7

What is dextrocardia?

Answer 7

When heart is located in right side of thorax

- Spleen and liver often commonly switched as well

Question 8

What is kartagener syndrome?

Answer 8

Mutation in L to R dynein microtubule protein of cillia:

1. Dextrocardia
2. Infertility
3. URIs

Question 9

What is the septum primum?

Answer 9

• Small piece of tissue to come down between L / R atria forming the ostium primum
• Reaches down to fuse w/ endocardial cushion
• Once it connects to cushion on bottom, top undergoes apoptosis forming ostium secundum

Question 10

What happens when septum primum fuses with endocardial cushion?

Answer 10

• Ostium secundum forms where septum primum was so R/L atria still have a communication
• Septum secundum begins to come down to flap over it `
• Septum 1 / 2 are now flapping next to each other with one coming from top and one from bottom

Question 11

What is an ostium?

Answer 11

Synonym for foramen

Question 12

What becomes the foramen ovale?

Answer 12

The foramen secundum

Question 13

What is the goal in forming foramen ovale?

Answer 13

• Creating a valve / flap to prevent blood flowing from left to right atrium
• The septum primum at bottom is acting as valve with higher pressure in R atria allowing it to open
• Blood can / and is wanted to flow R / L allowing oxygenated blood from mother to enter L atria

Question 14

What happens to foramen ovale at birth?

Answer 14

• Pressure in R atria drops dramatically as pulm circuit opens when baby breathes

Question 15

What is the fossa ovalis?

Answer 15

Remnant of the foramen ovale once pulm circuit opens and the septum 1 / 2 push together and fibrose

Question 16

What is an embolism on brain indicative of?

Answer 16

Patent foramen ovale allowing DVT to move from R to L atria and into brain
***Normally DVTs will embolize in lung

Question 17

What is cause of paradoxic embolism in brain?

Answer 17

Patent foramen ovale

Question 18

Does muscular part of ventricular septum form from top of bottom of chambers?

Answer 18

Left and right ventricular muscular walls meet medially at bottom pushing muscle up from bottom to top
- Interventricular foramen is left and will be close by membranous interventricular septum coming from top

Question 19

What is membranous interventricular septum derived from?

Answer 19

• Endocardial cushion
• Comes from top to bottom to close ventricular foramen
• **More likely to break as muscle is stronger

Question 20

What causes transposition of great vessels?

Answer 20

Failure of AV septum to properly rotate is it descends

Question 21

What is problem of great vessel transposition?

Answer 21

• Aorta connected to RV

- Pulm A connected to LV

Question 22

What is necessary for great vessel swapping to be viable?

Answer 22

One of the following allowing blood to mix:

1. VSD
2. ASD
3. Patent ovale

Question 23

Cause of tetralogy of fallot? What is seen?

Answer 23

Anterior and lateral displacement of of ventricular septum:

1. Pulmonary stenosis
2. Open VSD with R -> L shunt
3. RVH
4. Overriding aorta: sits over VSD

Question 24

What is persistent truncus arteriosus?

Answer 24

• No septum formed to separate pulm artery and aorta

- One vessel draining both ventricles

Question 25

What forms valves?

Answer 25

Endocardial cushion tissue

Question 26

What is an atretic valve?

Answer 26

Valve that does not form

Question 27

Which side is tricuspid on?

Answer 27

RIght

Question 28

What is an atretic tricuspid valve?

Answer 28

• One that does not effectively separate Right A / V

- RV becomes extremely tiny and LV is huge

Question 29

What is ebstein’s anomaly?

Answer 29

• Problem with apoptosis of tricuspid = leaflets tethered to myocardium
• Right ventricle becomes atrialized as it appears RA descends into RV

Question 30

When does fetal erythropoiesis being?

Answer 30

Week 3 in the yolk sac

Question 31

When and where is fetal blood made?

Answer 31

"Young liver synthesizes blood"
Yolk sac 
Liver: week 6 - birth 
Spleen: 10 - 28 week 
Bones: week 18

Question 32

What happens in beta thalassemia?

Answer 32

Hepatosplenomegaly because parts of body that synthesized blood in utero not begin to do so again

Question 33

Why does fetal hemoglobin have higher O2 binding affinity?

Answer 33

Binds 2-3 BPG much less avidly

Question 34

What is 2-3 BPG byproduct of? What does it do?

Answer 34

• Glycolysis
• Binds and stabilizes deoxy hgB decreasing O2 binding
• This occurs to increase O2 delivery

Question 35

Where is highest fetal O2 saturation?

Answer 35

Umbilical vein

Question 36

Fate of blood in umbilical vein?

Answer 36

Portal circulation / vein: 1/3

Ductus venosus: other 2/3 bypasses liver

Question 37

What does ductus venosus connect to?

Answer 37

IVC bypasses liver

Question 38

What do the great vessels supply?

Answer 38

The brain

Question 39

What type of blood is in SVC in fetus? To where does it go

Answer 39

• Very low oxygenation as it is returning blood from brain
• Heads to RV or lungs
• The rest is shunted across ductus arteriosus which is AFTER great vessels as we do not want low O2 blood going to brain
• Allows deoxygenated blood to aorta then to veins and umbilical artery

Question 40

What happens to DA when baby is separated from placenta?

Answer 40

• High O2 in lungs = dilation

- Cutting cord = great decrease in PGE2 causing uterus and DA to contract

Question 41

What is ligamentum arteriosum?

Answer 41

Remnant of ductus arteriosus

Question 42

What drug closes PDA?

Answer 42

• Want to inhibit COX to drop PGE

- INDOMETHACIN is drug of choice

Question 43

What is allontos?

Answer 43

• Outgrowth of yolk sac helping form umbilical vessels
• Proximal portion drains urinary bladder and becomes urachus
• Normally becomes median umbilical ligament

Question 44

What do umbilical arteries become?

Answer 44

Medial umbilical ligament

Question 45

What is median umbilical ligament derived from?

Answer 45

Urachus

Question 46

What does umbilical vein become?

Answer 46

Ligamentum teres hepatis

Question 47

What is fossa ovalis?

Answer 47

Remnant of foramen ovale

Question 48

What is remnant of ductus arteriosus?

Answer 48

Ligamentum arteriosum

Question 49

What loops the ligamentum arteriosum?

Answer 49

Left recurrent laryngeal nerve

Question 50

What does PDA sounds like?

Answer 50

Pan systolic / diastolic machine like murmur

Question 51

Infection associated with congenital PDA?

Answer 51

Rubella

Question 52

What is a holosystolic murmur at left sternal border?

Answer 52

VSD

Question 53

What does sorbitol dehydrogenase turn sorbitol into?

Answer 53

Fructose

Question 54

What does RNA polymerase I, II, III do?

Answer 54

I: Ribosomal RNA, only in nucleolis
II: Messenger RNA
III: tRNA

Question 55

Does a larger or smaller alveoli have higher pressure in it?

Answer 55

Smaller, causing air to flow into larger alveoli

Question 56

What does surfactant do?

Answer 56

Decreases surface tension

Question 57

What allows for an indirect inguinal hernia?

Answer 57

Patent processes vanginalis

Question 58

What can patent process vanginalis lead to?

Answer 58

1. Hydrocele

2. Indirect inguinal hernia

Question 59

Type of hernia seen in kids?

Answer 59

Indirect inguinal

Question 60

Difference between malingering and factitious disorder?

Answer 60

In malingering you are looking to gain something tangible, nothing other than attention is gained in factitious
*Goal is to assume sick role in factitious

Question 61

What does the 12th rib overly?

Answer 61

Kidney

Question 62

Treatment to prevent HIV transmission if woman is pregnant?

Answer 62

Antiretrovirals

Question 63

What does V1 / 2 stimulation cause?

Answer 63

V1: vasoconstriction and PG release
V2: ADH response

Question 64

What do the Various HPVs cause?

Answer 64

1 - 4: skin warts
6, 11: Condyloma accuminata
16, 18: Cancer

Question 65

What drains the testes?

Answer 65

Para aortic nodes

Question 66

What do the deep inguinal nodes drain?

Answer 66

1. Glans penis
2. Superficial nodes
3. Posterior calf

Question 67

What do superficial inguinal node drain?

Answer 67

1. Scrotum

2. Nearly all cutaneous lymph from belly button to feet

Question 68

Sign of chronic organ rejection?

Answer 68

1. Vascular wall thickening q

2. Fibrosis

Question 69

What are the causes of early cyanosis?

Answer 69

Right to left shunts “eaRLy”

1. Truncus arteriosus
2. Transposition of great vessels
3. Tricuspid atresia
4. Tetralogy of Fallot
5. TAPVR

Question 70

What is persistent truncus arteriosus? Other defect often associated?

Answer 70

• Septum that divides ascending aorta and pulm artery did not develop
• Caused by failure of neural crest cells
• Blood from R/L V are mixing before leaving heart
• *Almost always seen with VSD as the septum that would divide great vessels would also form membranous portion of ventricular septum

Question 71

What is transposition of great vessels?

Answer 71

• Aorta comes off RV
• Pulm artery comes off LV
• **Blood does not mix at all so another defect is necessary to make viable

Question 72

What is tricuspid atresia? What is needed to make viable?

Answer 72

• Little to no communication between RV/RA

* **ASD and VSD necessary for life

Question 73

What is happening in tetralogy? Treatment?

Answer 73

1. VSD
2. Overriding aorta
3. Pulmonary artery stenosis: forces blood through VSD which is where cyansosis comes from
4. RVH
   ***Boot shaped heart seen on CXR
   Fix the VSD

Question 74

What is boot shaped heart on CXR indicative of?

Answer 74

Tetralogy of Fallot

Question 75

What is a tet spell?

Answer 75

• Cyanosis seen in kid with tetralogy of fallot due to decreased O2 flow to brain
• Fix by doing a squat to increase PVR which forces blood back through pulmonary circulation

Question 76

What is a kid squatting indicative of?

Answer 76

Tetralogy of fallot

Question 77

What is TAPVR?

Answer 77

• Both R/L pulmonary vein drain to RA

- Should be going to LA so no oxygenated blood is making to body

Question 78

What is Ebstein anomaly? Cause?

Answer 78

• Often caused by Li
• Tricuspid valve does not separate and is tethered down to RV wall causing extension into RA “Atrialization of RV”
• Massive tricuspid regurg since valves can’t close
• Right sided HF is main game

Question 79

What is atrialization of RV indicative of?

Answer 79

• Ebstein anomaly

Question 80

What are the L -> R shunts in order of frequency?

Answer 80

VSD > ASD > PDA

*VSD most likely to close on own

Question 81

Normal cause of VSD?

Answer 81

• Endocardial cushion defect leading to failure of membranous portion of septum

Question 82

What makes the ostium secundum? What causes senundum ASD?

Answer 82

• Perforation in septum primum during development

- Septum secundum does not grow to cover ostium

Question 83

Where does the DA connect?

Answer 83

• Connects aortic arch distal to L subclavian
• Is connecting the pulm artery and aorta
• Allows blood to flow from RV to aortic arch while in womb to go to lower body
• Foramen ovale is sending blood from R->L though great vessels to upper extremities

Question 84

What happens in PDA?

Answer 84

• Pulm vascular resistance has dropped so oxygenated blood from aorta is shunted back into lungs rather than rest of body

Question 85

Continuous machine like murmur?

Answer 85

PDA

Question 86

Presentation of PDA?

Answer 86

• Machine like murmur
• Upper extremities well perfused because great vessels are before PDA
• However, when heads for descending, blood is shunted to lungs as lower resistance = lower extremity cyanosis

Question 87

What is eisenmenger syndrome?

Answer 87

• Reversal of L/R shunt to R/L shunt
• Increase in pulmonary flow from L/R = vascular remodeling and pulm HTN = reversal of shunt as systemic is now lower pressure
• **Late cyanosis as remodeling takes time

Question 88

What does endothelin 1 do?

Answer 88

1. Vasoconstric

2. Recruit vascular smooth muscle

Question 89

How does clubbing occur?

Answer 89

• Low O2 in blood

Question 90

Associations with Coarctation of aorta?

Answer 90

1. Turner syndrome

2. Bicuspid aorta

Question 91

Presentation of coarctation?

Answer 91

• BP in upper extremities > lower

Question 92

Blood flow in coarctation?

Answer 92

1. Narrowing of descending aorta pushes blood to Internal thoracic
2. From thoracic to anterior intercostals, to posterior intercostals
3. Posterior connects with aorta distal to coarctation = normal flow resumed
   * **Leads to characteristic notching under ribs

Question 93

Where do intercostals run related to ribs?

Answer 93

Inferior

Question 94

What is rib notching indicative of?

Answer 94

Coarctation of aorta

Question 95

What is misplaced in tetralogy?

Answer 95

Infundibular septum

Question 96

Presentation of fetal alcohol syndrome?

Answer 96

1. Thin upper lip
2. Small eye openings
3. Smooth philtrum
4. Short palpebral fissures
5. VSD / ASD / PDA

Question 97

Cardiac effects of Down syndrome?

Answer 97

• Endocardial cushion defects as chromosome 21 codes for this area
• Cushion = septum formation
• Ostium primum ASD

Question 98

CV problems in diabetic mother?

Answer 98

• Transposition of great vessels

Question 99

CV problem in marfans?

Answer 99

1. Mitral valve prolapse
2. Aortic regurg
3. Aortic aneurism from weak walls

Question 100

What does Li put the heart at risk or?

Answer 100

Ebstein’s anomaly

Question 101

Heart association in turner’s?

Answer 101

1. Bicuspid aorta

2. Coarctation

Question 102

Cardiac anomaly in Williams syndrome?

Answer 102

• Supravalvular aortic stenosis

Question 103

What does mutation in 22q11 cause re. heart?

Answer 103

1. Tetralogy
2. Truncus arteriosus
   * *Problem with neural crest communication

Question 104

What does BP need to be for HTN and urgency?

Answer 104

HTN: > 140
Urgency: > 180

Question 105

Normal cause of secondary HTN?

Answer 105

RAAS activation:

1. HYPERaldosteronism
2. Decreased RBF

Question 106

What is fibromuscular dysplasia?

Answer 106

• Cause of secondary HTN in young women

- Fibrosis of tunica media leading to aneurysmal like dilatation of artery blocking renal blood flow

Question 107

Tunica layers of vessels from in to out?

Answer 107

1. Intima
2. Media
3. Externa

Question 108

What is happening in papilledema?

Answer 108

• Swelling of optic disk
• Sign of hypertensive emergency
• Caused by swelling = decrease drainage of CSF out of eye area
• Increased pressure damages retinal A/V

Question 109

What is vasa vasorum?

Answer 109

Small vessels providing outer layers of vessels with flow

Question 110

What is corneal arcus?

Answer 110

• Blue ring in cornea from deposition of cholesterol

Question 111

Difference between arteriosclerosis and arteriolosclerosis?

Answer 111

Arteriolosclerosis: Extra LO means smaller vessels

Question 112

When is hyaline arteriolosclerosis seen?

Answer 112

1. HTN - high pressure pushes proteins in basement membrane damaging endothelium = collagen
2. Diabetes mellitus - non enzymatic glycosylation = ROS
   - Damages endothelium via cytokines

Question 113

When is onion skinning seen?

Answer 113

Extremely high BPs

Question 114

What happens in monkeberg?

Answer 114

• Idiopathic deposition of Ca

- Pipe stemming of arteries

Question 115

Female risk factor for atherosclerosis?

Answer 115

> 50 yo: post menopause as estrogen was protective by increasing HDL

Question 116

What does LDL do to vessels?

Answer 116

• Attached to proteoglycans in vessel wall so attach
• Become oxidized = ROS damaging endothelium
• Endothelial cells express VCAM1 “Vascular cell adhesion molecule 1”
• Also release MPC1 “Monocyte chemotactic protein 1”
• **Combination of these 2 allow macs to enter vessel walls

Question 117

What is VCAM1?

Answer 117

“Vascular cell adhesion molecule 1”

- Produced by endothelial cells in response to LDL damage

Question 118

What recruits smooth muscle in atherosclerosis?

Answer 118

• Macs production of PDGF moves muscle from media to intima

- Fibroblast GF tells fibroblasts to deposit as well

Question 119

Where is greatest risk for AAA and why?

Answer 119

• Below renal bifurcation as vessel here has no vaso vasorum

Question 120

Presentation of aortic aneurism?

Answer 120

1. Pulsatile mass

2 Low BP: from bleeding

Question 121

Risk factors for thoracic aortic aneurism?

Answer 121

1. HTN
2. Marfan’s
3. Ehlers Danlos
4. Tertiary syphilis: enter vaso vasorum leading to inflammation

Question 122

What is cystic medial degeneration?

Answer 122

• Degeneration of elastin and vascular smooth muscle in media = tissue replaced with cysts
• Cause of thoracic aneurysm

Question 123

What do deceleration injuries often cause?

Answer 123

Thoracic aneurysm

Question 124

What is aortic isthmus?

Answer 124

Transition zone between ascending and descending aorta at most risk for rupture

Question 125

Last thing to tear before aortic rupture?

Answer 125

Adventitia

Question 126

What is happening in aortic dissection? Presentation?

Answer 126

• Intimal tear allowing blood flow into media
  Presents with:
  1. Sudden onset, tearing chest pain radiation to back
  2. Unequal BP in arms: compression of left subclavian but not right
  3. Tamponade blood around heart

Question 127

What is “Sudden onset tearing chest pain radiation to back” indicative of?

Answer 127

Aortic dissection

Question 128

Type A or B dissection more dangerous?

Answer 128

A, which is Ascending and unstable with risk of tamponade

Question 129

What is stable angina?

Answer 129

• Chronic, fixed stenosis of vessel causing angina in times of increased demand
• Only impact SUBendocardial layer
• Resolves with rest
• ST depression seen

Question 130

What is prinzmetal angina?

Answer 130

• TRANSMURAL ischemia from vasospasm = ST elevation

Question 131

Things that can cause prinzmetal?

Answer 131

1. Triptans
2. Tobacco
3. Cocaine

Question 132

Treatment of prinzmetal?

Answer 132

1. Remove triggers
2. Ca blocker to stop spasm
3. Nitrate: dilation

Question 133

Does unstable angina improve with rest?

Answer 133

No

Question 134

What is chronic ischemic heart disease?

Answer 134

• Chronic ischemic events = fibrosis

- Leads to HF

Question 135

What causes ST elevation?

Answer 135

Transmural ischemia

Question 136

What causes ST depression?

Answer 136

Subendocardial depression

Question 137

What does the right coronary supply?

Answer 137

SA / AV nodes

Question 138

Why does MI pain radiate to arm?

Answer 138

Both areas use same dorsal root ganglia in C7 - T5 distribution

Question 139

What is seen and risk in 0-4 hours post MI?

Answer 139

Seen: nothing
Risk:
1. Arrhythmia
2. HF
3. Cardiogenic shock 
*Anaerobic metabolism = decrease ATP = malfunctioning Na/Kase and K accumulation in extracellular = arrhythmia

Question 140

What is seen and risk in 4-24 hours post MI?

Answer 140

Seen:
1. Early coag necrosis
2. Release of cellular debris 
3. Edema / hemorrhage 
4 PMNs
5. Reperfusion
Complications:
1. Arrhythmia
2. HF
3. Cardiogenic shock

Question 141

What is seen and risk in 3-14 days post MI?

Answer 141

Seen:
1. Macs
2. Granulation tissue at borders 
Risk:
1. Free wall rupture
2. Mitral regurge 
3. Septal rupture 
4. LV pseudoaneurysm

Question 142

What does tetrazolium stain do?

Answer 142

Bind LDH spilled by necrotic cells in MI to visualize it

Question 143

What is seen and risk in > 2 weeks post MI?

Answer 143

Seen:
1. Scar
Risk:
1. Dressler syndrome
2. HF
3. Arrhythmias
4. True ventricular aneurysm

Question 144

What is seen and risk in 1-3 days post MI?

Answer 144

Seen: 
1. Extensive coagulative necrosis
2. Acute inflammation with neutrophils
Risk:
1. Postinfarction  Fibrinous pericarditis

Question 145

What does infarct of LAD lead to

Answer 145

Rupture of septum and VSD

Question 146

Vessel feeding papillary muscle?

Answer 146

Posterior descending

Question 147

What is pseudoaneurysm?

Answer 147

Aneurysm at high risk for rupture because it only has 1 layer instead of 3

Question 148

What is dressler syndrome?

Answer 148

Macs are eating cardiac tissue and accidently present to T cell causing immune system to attack heart
- Seen > 2 weeks post MI

Question 149

What is ischemia?

Answer 149

Decreased blood flow to a tissue

Question 150

Do cells die in stable angina?

Answer 150

No, this is reversible injury

Question 151

What is hallmark of reversible injury?

Answer 151

Cellular swelling

Question 152

% stenosis required for angina?

Answer 152

70%

Question 153

How long does pain in stable angina last?

Answer 153

> 20 minutes: after this irreversible cell death

Question 154

Hall mark of subendocardial ischemia?

Answer 154

• ST depression, this is what occurs in stable angina

Question 155

Is unstable angina complete or incomplete occlusion?

Answer 155

Incomplete

Question 156

Unstable angina ST elevation or depression?

Answer 156

Depression: both stable and unstable are depressed

Question 157

What infarcts in LAD MI?

Answer 157

Anterior LV and anterior portion of ventricular septum

Question 158

What infarcts in Right coronary artery MI?

Answer 158

Posterior LV and posterior portion of ventricular septum

Question 159

Most sensitive and specific marker of MI?

Answer 159

Troponin I

• Rises in 2 - 4 hours
• Peaks in 24
• Returns to normal in 1 week

Question 160

Use of CKMB?

Answer 160

Good at detecting new MIs

• Peaks in 24
• Rises in 4
• Back to normal in 72
• ***As such you can tell if new MI after 3 days whereas with troponin it stays elevated for 10 days

Question 161

What is contraction band necrosis?

Answer 161

• From Ca entering necrotic cells via reperfusion causing them to contract

Question 162

Hallmarks of coagulative necrosis?

Answer 162

1. Pyknosis
2. Kereoexis
3. Karyolysis

Question 163

When is yellow pallor seen in MI?

Answer 163

Entire inflammatory phase of PMNs and macs:

- 1 - 7 days

Question 164

When are fibrinous pericarditis, chest pain, and friction rub seen?

Answer 164

• Days 1 - 3 as PMNs are mediating this

Question 165

What is cardiac tamponade?

Answer 165

When fluid gets between heart and pericardium (fibrous sac surrounding heart)
- Can be from LV rupture that occurs when mac each necrotic debris in days 4 - 7

Question 166

What feeds papillary muscles?

Answer 166

Right coronary artery

Question 167

What is hallmark of granulation tissue?

Answer 167

1. Plump fibroblasts
2. Collage
3. Blood vessels

Question 168

What type of collagen is present in scar?

Answer 168

Type I

Question 169

Normal cause of sudden cardiac death?

Answer 169

1. Fatal ventricular arrhythmia

Question 170

Which cardiomyopathies lead to left sided heart failure?

Answer 170

1. Dilated

2. Restrictive

Question 171

Signs of left sided heart failure?

Answer 171

1. Pulmonary edema
2. Dyspnea
3. Paroxysmal nocturnal dyspnea
4. Orthopnea
5. Crackles

Question 172

What are heart failure cells?

Answer 172

Hemosiderin laden macrophages
- From left sided heart failure when engorged capillaries rupture and blood pools in lung, macs eat them and become that color

Question 173

Systemic consequences of left sided heart failure?

Answer 173

1. Decreased forward perfusion

2. Causes RAAS activation

Question 174

Most common cause of right sided heart failure?

Answer 174

1. Left sided heart failure
2. Left to right shunt
3. Chronic lung disease = cor pulmonale

Question 175

Signs of right sided heart failure?

Answer 175

1. JVD
2. HSM
3. Dependant pitting edema
4. Cirrhosis / nutmeg liver

Question 176

Most common fetal heart defect and what is its association?

Answer 176

VSD associated with fetal alcohol syndrome

Question 177

Heart sound in ASD? Why?

Answer 177

Spit S2: extra volume on right side = delayed closure pulmonic valve

Question 178

Heart defect in rubella?

Answer 178

PDA

Question 179

What does the DA do?

Answer 179

Connect aorta to pulmonary artery after the great vessels

Question 180

What is cyanosis in lower extremities later in life indicative of?

Answer 180

PDA

Question 181

Where is coarctation in infantine form?

Answer 181

• Distal to arch, proximal to PDA
• Lower extremity cyanosis: Coaractation makes area distal to it lower pressure allowing blood from PDA to move to lower pressure area and head to lower exctremities as is distal to arch
• Often seen in turners

Question 182

How does adult coarctation present?

Answer 182

• Malformation distal to arch proximal to PDA
• Blood forced up great vessels = HTN in upper extremities
• HYPOtension and low pulse in lower extremities

Question 183

Association of adult coarctation?

Answer 183

Bicuspid aortic valves

Question 184

Markers of Group A strep infection?

Answer 184

1. Anti ASO titers

2. Anti DNAse B titers

Question 185

What is the JONES criteria?

Answer 185

Joints: migratory polyarthritis
O - Pancarditis 
Nodules in skin 
Erythema migratosums
Sydenham's chorea

Question 186

Valves involved in rheumatic fever?

Answer 186

1. Mitral - always and first

2. Aortic - rarely

Question 187

What are aschoff bodies and when are they seen?

Answer 187

• Fibrinoid material and macrophages seen in cardiac tissue in rheumatic fever myocarditis
• Anitschkow cells in middle - histiocytes with slender wavy nuclei

Question 188

When are Anitschkow cells seen?

Answer 188

Rheumatic fever myocarditis

Question 189

Most common cause of death during acute phase rheumatic fever?

Answer 189

Myocarditis

Question 190

How does pericarditis present?

Answer 190

Friction rub - seen in RF

Question 191

What is happening to valves in RF?

Answer 191

Mitral: thickening of chordae tendinae and cusps
Aortic: Fusion of commisures

Question 192

When is fusion of aortic commissures seen?

Answer 192

RF

Question 193

What distinguishes wear and tear aortic stenosis from that seen in RF?

Answer 193

RF will also have mitral valve issues and aortic valve will show fusion of commissures
- Normal aortic stenosis will not have these issues

Question 194

What is systolic click with crescendo decrescendo murmur indicative of?

Answer 194

• Aortic stenosis: crescendo is from blood rushing out then dying down as blood finally forces valve open

Question 195

Impact of aortic stenosis on left ventricle?

Answer 195

CONCENTRIC hypertrophy

Question 196

When is blood flowing in aortic regurg? Causes?

Answer 196

During diastole:

1. Most often caused by aortic root dilatation
2. Aortic aneurysm
3. Valvular damage from IE

Question 197

What is early blowing diastolic murmur indicative of?

Answer 197

Aortic regurg

Question 198

Presentation of aortic regurg?

Answer 198

“Hyperdynamic circulation”

1. Bobbing head
2. Bounding pulses
3. Pulsatile nail beds
4. Early blowing diastolic murmur

Question 199

What happens to LV in aortic regurg?

Answer 199

1. LV dilation

2. ECCENTRIC hypertrophy: involves one aspect of ventricle

Question 200

What is midsystolic click indicative of?

Answer 200

MV prolapse

Question 201

What heart sound does MV prolapse make?

Answer 201

Midsystolic click

Question 202

What does papillary muscle rupture lead to?

Answer 202

• Mitral regurg

- Often seen post MI

Question 203

What is holosystolic blowing murmur usually indicative of? When is it louder?

Answer 203

MV regurg

- Louder on squatting and expiration

Question 204

Sound of MV regurg?

Answer 204

Holosystolic blowing murmur louder when exhaling / squatting

Question 205

Whey is mitral regurg louder on expiration?

Answer 205

• Expiration = more blood in LA increasing backwards pressure

Question 206

Difference in effect of active / chronic RF on valve?

Answer 206

Acute: regurg
Chronic: Stenosis

Question 207

Sound of mitral stenosis?

Answer 207

Opening snap followed by diastolic rumble

Question 208

What is following sound indicative of:

Opening snap followed by diastolic rumble

Answer 208

Mitral stenosis

Question 209

Sequelae of mitral stenosis?

Answer 209

1. Pulm congestion / HTN

2. A fib: from stretching of atrium = abnormal wall movement an thrombi

Question 210

What is endocarditis usually impacting?

Answer 210

• Inflammation of the endocardium that lines cardiac valves

- Usually caused by bacterial infection

Question 211

Most common cause of endocarditis? Tell me more about it?

Answer 211

Strep viridans

• Low virulence - Infects previously damaged valves
• Small vegetation that do not destroy valves

Question 212

Pathogenesis of strep v. ?

Answer 212

• Damage endocardial surface develops thrombotic vegetations of platelets and fibrin
• Transient bacteremia = bacteria being caught in these vegetations

Question 213

Most common cause of endocarditis in IV drug abuse? Characteristics?

Answer 213

S. Aureus

• High virulence
• Non damaged valves
• Large vegetations destroying valves
• Likes tricuspid as coming from circulation

Question 214

Bug in endocarditis of prosthetic valves?

Answer 214

S. Epidermidis

Question 215

Bug in endocarditis of colorectal carcinoma?

Answer 215

S. Bovis

Question 216

What is next step if ptn has endocarditis with S bovis?

Answer 216

Check for colorectal carcinoma

Question 217

What causes endocarditis with negative blood cultures?

Answer 217

"Hacek Group"
Haemophilus 
Actinobacillus 
Cardiobacterium 
Eikenella
Kingella

Question 218

Signs of endocarditis?

Answer 218

1. Fever
2. Murmur
3. Janeway lesions - non tender
4. Osler’s nodes - Painful
5. Anemia of chronic disease
6. Splinter hemorrhages in nail bed

Question 219

What does hepcidin do?

Answer 219

• Released by liver in disease states to trap iron
• Ferritin will be high
• TIBC will be how

Question 220

What is libman sacks endocarditis?

Answer 220

• Sterile vegetations from lupus
• *Vegetations on both sides of cardiac valve
• Mitral regurg

Question 221

What happens in dilated cardiomyopathy?

Answer 221

• Massive dilation of all heart chambers
• Leads to systolic dysfunction and BIventricular HF
• Mitral / tricuspid regurg and arrhythmia

Question 222

Causes of dilated cardiomyopathy?

Answer 222

1. Coxsackievirus
2. Alcohol
3. Cocaine
4. Doxorubicin
5. Pregnancy

Question 223

Cause of hypertrophic cardiomyopathy?

Answer 223

Autosomal dominant mutations in sarcomere proteins

Question 224

Features of hypertrophic cardiomyopathy?

Answer 224

1. Decreased CO: heart so tight can’t be filled
2. Sudden death from arrhythmias - young athletes
3. Syncope with exercise

Question 225

How does hypertrophic cardiomyopathy appear on imaging?

Answer 225

Myofiber hypertrophy with disarray

Question 226

What is happening in restrictive cardiomyopathy?

Answer 226

• Decreased compliance of ventricular endocardium

- Restricts filling during diastole

Question 227

Causes of restrictive myocardiopathy?

Answer 227

1. Amyloid
2. Sarcoid
3. Hemochromatosis
4. Endocardial fibroelastosis in kids
5. Loeffler syndrome

Question 228

What is Loeffler syndrome?

Answer 228

Eosinophilic infiltrate into wall of heart = fibrosis = restrictive cardiomyopathy

Question 229

Presentation of restrictive cardiomyopathy?

Answer 229

1. Low voltage EKG

2. Diminished QRS

Question 230

What is the following indicative of:

1. Low voltage EKG
2. Diminished QRS

Answer 230

Restrictive cardiomyopathy

Question 231

What does myxoma look like? Presentation?

Answer 231

• Benign mesenchymal proliferation
• Abundant ground substance
• Causes syncope from mitral valve obstruction

Question 232

When is rhabdomyoma seen in heart?

Answer 232

• Usually in ventricle of child

- Associated with tuberous sclerosis

Question 233

Most common tumor in heart?

Answer 233

Metastasis usually to pericardium

Question 234

When does acute rejection occur? What is seen?

Answer 234

1 - 4 weeks post transplant

• Dense infiltrate of macs and T cells
• Result of host T cell sensitivity to donor MHC

Question 235

What is cause of tetralogy of fallot?

Answer 235

• Deviation of infundibular septum due to abnormal neural crest cell migration

Question 236

Which heart chamber lays over esophagus?

Answer 236

LA

Question 237

What vessel is posterior to esophagus?

Answer 237

Descending thoracic aorta

Question 238

What is pulsus paradoxus? What does it indicated?

Answer 238

• Fall of systolic > 10 on inspiration

- Indicates cardiac tempanonde

Question 239

Triad of signs indicative of cardiac tamponade?

Answer 239

1. JVD
2. Muffled heart sounds
3. HYPOtension

Question 240

What is hibernating myocardium?

Answer 240

• Reduced myocardial metabolism and function due to chronic state of ischemia
• Normal function can return when reperfused

Question 241

How long after infarct will ATP levels drop to levels preventing contraction?

Answer 241

60 seconds

- Due to cessation of aerobic glycolysis and start of anaerobic

Question 242

After how long is myocardial ischemia irreversible?

Answer 242

30 Minuts, function will return if perfusion restored but there will be a lag

Question 243

Impact of adenosine on vessels?

Answer 243

Vasodilator - as ATP runs out and is broken down, it will help to keep blood flowing

Question 244

What is the following indicative of:

• Narrow QRS
• Absent B
• Irregularly irregular intervals

Answer 244

A-Fib: AV node controls rate of ventricular contraction

Question 245

What controls rate of ventricular contraction in A fib?

Answer 245

AV node

Question 246

What does myxomatous degeneration with pooling of proteoglycans in media indicate?

Answer 246

Cystic medial degeneration that can cause Aortic aneurysm

- Often seen in marfans

Question 247

What is clubbing and cyanosis in distal extremities indicative of?

Answer 247

PDA - PDA is delivering oxygenated blood distal to left subclavian which is providing it to the lower extremities

Question 248

What causes cells to swell during ischemia?

Answer 248

Increased intracellular [Na/Ca] due to failure of pumps from lack of ATP

Question 249

Facial features of downs?

Answer 249

1. Flat face
2. Protruding tongue
3. Small ears
4. Epicanthal folds
5. Upslanting palpebral fissures

Question 250

What is composition of amyloid found in atrai?

Answer 250

Missfolded beta pleated sheets of ANP

Question 251

What sounds would decreased compliance of hypertrophic atrial myocardium make?

Answer 251

Fourth

Question 252

Describe the marfanoid habitus?

Answer 252

1. Problem with eye lense
2. Increased arm:height
3. Breast bone abnormalities
4. Hypermobile joints
5. Scoliosis
6. Long fingers
7. Flat feet
8. Tall and slender
9. Decreased upper:lower body

Question 253

Mutation in marfans?

Answer 253

• Mutation in glycoprotein fibrillin 1

Question 254

Heart disease in marfan’s?

Answer 254

1. Mitral valve prolapse

2. Cystic medial degeneration of aorta = aortic disection which is most common cause of death

Question 255

Effects of ANP?

Answer 255

1. Vasodilation
2. Diuresis
3. Natriuresis
   * Dilates afferent, inhibits aldosterone, inhibits renin and Na resorption

Question 256

Causes of CONcentric LV hypertrophy?

Answer 256

Increased wall thickness:

1. HTN
2. Aortic stenosis

Question 257

Causes of ECCentric LV hypertrophy?

Answer 257

Increased cavity size:

1. Volume overload
2. Aortic / mitral regurg
3. MI
4. Dilated cardiomyopathy

Question 258

What is holosystolic murmur at left sternal border that increases with hand grip?

Answer 258

VSD

Question 259

Do nitro and morphine reduce MI mortality?

Answer 259

No, only provide symptomatic relief

Question 260

What happens in dilated cardiomyopathy?

Answer 260

• Myocyte damage leading to decreased systolic function
• This increases wall tension
• **Heart responds by adding sarcomeres in series

Question 261

When are sarcomeres added in series?

Answer 261

Dilated cardiomyopathy

Question 262

Causes of dilated cardiomyopathy?

Answer 262

1. Alcohol: acetaldehyde is toxic
2. Wet beriberi: Lack of B1, thiamine
3. Coxsackie B
4. T cruzi
5. Cocaine: mitchondrial damage
6. Doxorubicin: Intercalates DNA
7. Hemochromatosis
8. Pregnancy

Question 263

What does cytochrome C do?

Answer 263

• Activate caspases = apoptosis

Question 264

What heart sound heard in dilated cardiomyopathy?

Answer 264

S3

Question 265

2 people hypertrophic cardiomyopathy usually seen in?

Answer 265

1. Young athlete

2. Friedreich’s ataxia

Question 266

Genetics of hypertrophic cardiomyopathy? What is happening?

Answer 266

• AD mutation in beta myosin heavy chain leading to haphazardly arranged sarcomeres
• Inflammation leads to fibroblast deposition of collagen
• Sarcomeres added in PARALLEL = concentric thickening
• Causes diastolic dysfunction as ventricle is not compliant

Question 267

When are sarcomeres added in parallel?

Answer 267

Hypertrophic cardiomyopathy

Question 268

Heart sound heard in hypertrophic cardiomyopathy?

Answer 268

S4

Question 269

What happens in restrictive cardiomyopathy?

Answer 269

• Infiltration of myocardium restricts filling

Question 270

Causes of restrictive cardiomyopathy?

Answer 270

1. Endocardial Fibroelastosis
2. Loeffler
3. Sarcoid / Amyloid
4. Hemochromatosis
5. Radiation

Question 271

What happens to heart in Loeffler syndrome?

Answer 271

Eosinophils release MBP on heart = necrosis and fibrosis of heart

Question 272

Genetics of friedreich’s ataxia?

Answer 272

GAA repeat in frataxin gene

Question 273

What is problem in diastolic heart failure?

Answer 273

• Stiff ventricle / decreased compliance

Question 274

What are orthopnea and paroxysmal nocturnal dyspnea signs of?

Answer 274

Left sided HF

Question 275

What causes acute endocarditis and what are virulence factors?

Answer 275

S. Aureus

1. Hyaluronidase: damages valves
2. Leukocidin: creates pores in myocytes

Question 276

Signs of bacterial endocarditis?

Answer 276

1. Osler nodes - Ouch ouch
2. Janeway’s lesions
3. Roth spots
4. New onset murmur
5. Anemia of chronic disease

Question 277

Which valve does S aureus like to infect?

Answer 277

• Tricuspid: introduced to stream from IVDs

Question 278

What causes subacute endocarditis?

Answer 278

Strep Viridans

- Needs a previously infected valve to cause damage

Question 279

What are vegetations on both sides of valves indicative of?

Answer 279

SLE - libman sachs endocarditis

Question 280

What is pain on inspiration that is relieved by sitting up and leaning forward indicative of?

Answer 280

Acute pericarditis

Question 281

What is cardiac tamponade?

Answer 281

Pathologic compression of heart chambers by fluid in pericardial space

Question 282

Presentation of cardiac tamponade?

Answer 282

1. HYPOtension from decreased filling
2. Distended neck veins
3. Distant heart sounds: blocked by thick layer of fluid
4. Pulsus paradoxus

Question 283

Major fear in giant cell arteritis?

Answer 283

Blindness from involvement of ophthalmic artery

- Need to give steroids immediately to prevent this

Question 284

What do 50% of persons with giant cell arteritis have?

Answer 284

Polymyalgia rheumatica

Question 285

Disease associated with polyarteritis nodosa?

Answer 285

HBV

Question 286

Vessels commonly impacted by polyarteritis nodosa?

Answer 286

1. Renal - can activate RAAS
2. Hepatic
3. Splanchnic - Sharp abdominal pain

Question 287

Presentation kawasakis?

Answer 287

1. Red tongue
2. Desquamating rash on hands and feet
3. MI
4. Swollen eyes / lips

Question 288

Another name for granulomatosis with polyangiitis?

Answer 288

Wegener’s

Question 289

What is involved in wegener’s?

Answer 289

1. Kidneys
2. Lungs
3. Nasopharynx

Question 290

How does microscopic polyangiitis differ from wegener’s?

Answer 290

• No granulomas, no nasal involvement

* **Palpable purpura are seen

Question 291

Staining in wegener’s / microscopic?

Answer 291

Wegener’s: C-ANCA

Polyangiitis: P-ANCA

Question 292

What is seen in Churg strauss?

Answer 292

1. IgE
2. Eosinophils
3. Allergic rhinitis
4. Asthma
5. Neuropathy: wrist drop / foot drop

Question 293

What is perivascular foci of collagen and giant cells indicative of?

Answer 293

Rheumatic fever

Question 294

When is free wall likely to rupture in MI and what is presentation?

Answer 294

5 - 14 days:

1. Tamponade
2. JVD
3. Distant heart sounds
4. HYPOtension / shock

Question 295

When is IV septum likely to rupture and how does present?

Answer 295

3 - 5 days:

1. New holosystolic murmur
2. Stepped up O2 level between LV and RV

Question 296

When will papillary muscle rupture and presentation?

Answer 296

3 - 5 days

1. Acute pulmonary edema
2. Severe mitral regurg

Question 297

When does RV fail in MI and presentation?

Answer 297

Acute

1. Kussmaul sign
2. Hypotension with clear lungs

Question 298

Cardiac defect in turner’s?

Answer 298

1. Bicuspid aorta

2. Coarcted aorta

Question 299

Cardiac defect in tuberous sclerosis?

Answer 299

Rhabdomyoma

Question 300

Cardiac defect in marfan?

Answer 300

Cystic medial necrosis:

1. Aortic dissection
2. Aortic aneurysm
3. Mitral valve prolapse

Question 301

Cardiac abnormality in digeorge?

Answer 301

Tetralogy of fallot

Question 302

What would prevent diphtheria infection?

Answer 302

IgG against circulating protein capsule

Question 303

Sequelae of aortic regurg?

Answer 303

1. LV EDV increases
2. Eccentric hypertrophy
3. Hypertrophy increased chamber size and stroke volume

Question 304

What does ST elevation in 1/AVL indicate?

Answer 304

Left circumflex MI

Question 305

What does ST in V1-4 and V1-2 indicate?

Answer 305

V1-4: LAD infarct

V1-2: Distal LAD infarct

Question 306

What does ST in V1-6, I, and AVL indicate?

Answer 306

Left main coronary occlusion

Question 307

What does ST in II, III, AVF indicated?

Answer 307

Right coronary occlusion

Question 308

What is supine HYPOtension syndrome?

Answer 308

• From baby pressing against SVC giving mom HYPOtension when laying down

Question 309

What does pulmonary capillary wedge pressure approximate?

Answer 309

Left atrial pressure

Question 310

Cardiac tissue velocity from Fast to slow?

Answer 310

"Park At Ventura Avenue"
Purkinje
Atrial 
Ventricular 
AV node

Question 311

What is wide and fixed splitting of S2 indicative of?

Answer 311

ASD

Question 312

What is S3 indicative of and where is it best heard?

Answer 312

LV failure heard best with bell over apex in left lateral decubitus position

Question 313

Measurements seen in diastolic HF?

Answer 313

1. Increased LVEDP
2. Normal LVEDV
3. Normal EF

Question 314

First step in atherosclerosis?

Answer 314

Endothelial injury

Question 315

What causes coronary sinus dilation?

Answer 315

Elevated right heart pressure from pulmonary HTN

Question 316

Cause of pulsus paradoxus other than pericardial disease?

Answer 316

1. Asthma

2. COPD

Question 317

Presentation of osler weber rendu syndrome?

Answer 317

1. Nosebleeds

2. Mucosal telangiectasias

Question 318

What heart abnormality can berry aneurysms be associated with?

Answer 318

Coarctation of aorta

Question 319

What is cause of platelet rich non bacterial thrombi to mitral valve?

Answer 319

Malignancy