Test 2 ...need to focus Flashcards

Question 1

Q

In tricuspid or mitral regurgitation, what murmur would you expect to hear?

Answer

A

Holosystolic

Question 2

Q

With a VSD, what murmur would you expect to hear?

Answer

A

Holosystolic

Question 3

Q

With a Mitral valve prolapse, what murmur would you expect to hear

Answer

A

Late systolic

Question 4

Q

With pulmonary and aortic stenosis, what murmur would you expect to hear?

Answer

A

Ejection (early systolic) with click

Question 5

Q

what type of murmurs are always pathologic

Answer

A

diastolic

Question 6

Q

In aortic regurgitation, what murmur would you expect to hear?

Answer

A

Early diastolic that radiates to the apex

Question 7

Q

In pulmonary regurgitation what murmur would you expect to hear?

Answer

A

Early diastolic that radiates along the left sternal border

Question 8

Q

In mitral stenosis what murmur would you expect to hear?

Answer

A

Mid-diastolic heard at the apex

Question 9

Q

In tricuspid stenosis, what murmur would you expect to hear?

Answer

A

Mid-diastolic heard at the left lower sternal border

Question 10

Q

• Infants: tachypnea, feeding difficulties (e.g., decreased volume or increased time spent feeding), poor weight gain, excessive perspiration (especially when feeding), and excessive irritability. Wheezing and tachypnea from pulmonary congestion often mistaken for bronchiolitis.
Children: fatigue, exercise intolerance, anorexia, abdominal pain, dyspnea, and cough.
Infants and children:
• Tachycardia, decreased peripheral pulses, delayed capillary refill, and cool extremities. • Abdominal pain is a common presenting complaint and may be overlooked or dismissed. Hepatomegaly, ascites can be present with abdominal distension. • Edema may be present in dependent portions of the body (e.g., lower extremities in an ambulatory child; body wall and sacrum if nonambulatory).

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 410). Wolters Kluwer Health. Kindle Edition.

Answer

A

Congestive heart failure

Question 11

Q

what pH inbalance would you see in Congestive heart failure

Answer

A

Metabolic acidosis

Question 12

Q

Acute HF is used to describe a functional change in the heart that can occur quickly leading to what 4 functional problems

Answer

A

congestion
mal-perfusion
tachycardia
hypotension

Question 13

Q

4 main characteristic signs and symptoms of Heart failure mentioned in Bolick

Answer

A

edema
resp distress
growth failure
exercise intolerance

Question 14

Q

what 2 vitamin deficiencies can cause Heart failure in infants

Answer

A

Vit D
Hypocalcemia

Question 15

Q

where is PMI felt

Answer

A

It comes from the RV
felt along L mid clavicular line
at the 4th intercostal space in infants and 5th intercostal space in older patients

Question 16

Q

Treatment for heart failure

Answer

A

Diuretics

ACE Inhibitors - reduce activation of RAA system (perpetuator of HF cycle) and helps prevent remodeling
or
ARBS reduce activation of RAA system (perpetuator of HF cycle) second choice when has dry cough on ACE

B blockers- slow heart rate, prevent arrhythmias, reduce myocardial apoptosis and fibrosis and reduce afterload

aldosterone agonists - similar to ARB but predisposes patients to hyperkalemia

digoxin - increases contractility

inotropes
mechanical support

Question 17

Q

Diuretics used in HF

Answer

A

1st line:
Furosemide (Lasix)

Chlorothiazide (Diuril)

2nd line:

Bumetanide (Bumex)

Question 18

Q

What diuretic used in HF increases sodium excretion

Answer

A

Furosemide (Lasix)

Question 19

Q

Which can cause ototoxicity

Chlorothiazide (Diuril)

Bumetanide (Bumex)

Furosemide (Lasix)

Answer

A

Furosemide (Lasix)

Question 20

Q

what medication used in HF in used for its antifibrotic effects and promotes remodeling

Answer

A

Spironolactone (Aldactone)

Question 21

Q

Your patient is on Spironolactone (Aldactone) which is an aldosterone antagonist and an ACE (Captopril, Enalapril or Lisinopril). What do you need to monitor more closely

Answer

A

This combination may produce hyperkalemia

Question 22

Q

What side effect can be seen in males for Spironolactone

Answer

A

Male Gynecomastia

Question 23

Q

what ACE inhibitor for HF is preferred in infants and neonates

Answer

A

Captopril

Question 24

Q

What ACE inhibitor for HF can cause angioedema

Answer

A

Enalapril

Question 25

Q

What ACE inhibitor for HF is preferred in adolescents due to daily dosing

Answer

A

Lisinopril

Question 26

Q

What do you need to monitor closely when a pt is on Enalapril

Answer

A

Renal function
potassium levels

Question 27

Q

What is preferred in heart failure and why

ACE or ARBS

Answer

A

ACEs because ARBS do not increase bradykinin levels.

ACEs can cause a dry cough

Question 28

Q

What ARB is used in Heart failure

Question 29

Q

What B blocker has been shown to significantly reduce mortality in heart failure

Answer

A

Carvedilol

Question 30

Q

Which B Blocker selectively blocks B-1 receptors with little or no effect on B2 receptors and reduces inappropriate tachycardia

Answer

A

Metoprolol succinate

Question 31

Q

How is Digoxin excreted

Question 32

Q

What inotrope used in HF has a 1-4 hr half life, decreases afterload and increases cardiac output without increasing myocardia oxygen consumption

Answer

A

Milrinone

Question 33

Q

What inotrope is used for short term rescue therapy in HF however can increase arrhythmias and myocardial oxygen consumption

Answer

A

Epinephrine

Question 34

Q

• Inotropic support with β-agonists such as ______ or ______ can improve cardiac output.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 412). Wolters Kluwer Health. Kindle Edition.

Answer

A

dopamine
dobutamine

Question 35

Q

Phosphodiesterase inhibitors (e.g., milrinone) are both an _______ and a _______.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 412). Wolters Kluwer Health. Kindle Edition.

Answer

A

inotropic agent

vasodilator

Question 36

Q

If inotropic support is needed in HF treatment, discontinue chronic _______ therapy.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 412). Wolters Kluwer Health. Kindle Edition.

Answer

A

beta-blocker

Question 37

Q

• _______increases myocardial contractility; maintain normal _______ levels in the setting of heart failure.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 412). Wolters Kluwer Health. Kindle Edition.

Answer

A

Calcium
ionized calcium levels

Question 38

Q

_____ is a potassium-sparing diuretic that has the added benefit of preventing cardiac remodeling in Hf treatment

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 412). Wolters Kluwer Health. Kindle Edition.

Answer

A

Aldactone

Question 39

Q

Timeline to develop post pericardiotomy syndrome

Answer

A

within a few weeks to months after surgery

Question 40

Q

symptoms for post pericardiotomy syndrome

Answer

A

2 out of 5 present
fever without other cause
pleuritic chest pain
pericardial effusion
friction rub
new or worsening pleural effusion

as fluid accumulates around the heart, they become short of breath and tachypneic

may hear a pericardial friction rub

Pericardial tamponade occurs when the pericardial effusion is of a size where venous return is impeded and contractility impaired - SS are muffled heart sounds, JVD, hypotension (AKA Becks triad) along with decreased venous return, poor cardiac output -> resp failure, tachycardia, narrowed pulse pressure and poor peripheral perfusion

Question 41

Q

Treatment for post pericardiotomy syndrome

Answer

A

5-7 days of NSAID agents such as Ibuprofen or Ketorolac (this may need to continue for several weeks)

Systemic steroids

Methotrexate for chronic PPS symptoms

Colchicine for joint inflammation

Diuretics when there is edema due to CO

echo guided pericardiocentesis for tamponade - after drained, use isotonic IV fluid for volume replacement

Question 42

Q

cold shock vs warm shock presentation

Answer

A

Cold - features of low cardiac output

Tachycardia
AMS
Poor peripheral perfusion
mottled skin
prolonged cap refill

Warm- features of high cardiac output

vasodilation
Tachycardia
bounding pulses
brisk cap refill
flushed

Question 43

Q

Medication class that alters the force of energy of muscle contractions 
-Increases CO by increasing contractility

Answer

A

Inotropes

Question 44

Q

Med class that raises blood pressure by increasing vascular constriction

Answer

A

Vasopressors

Question 45

Q

Med class that alters heart rate

Answer

A

Chronotropes

Question 46

Q

med class that affects rate of myocardial relaxation (allows more filling time)

Answer

A

Lusitropes

Question 47

Q

space.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 348). Wolters Kluwer Health. Kindle Edition.

Answer

A

Cardiac Tamponade

Question 48

Q

Cardiac arrest ensues with uncorrected cardiac tamponade with what ECG finding

Answer

A

Pulseless electrical activity (PEA)

Question 49

Q

Presentation of Cardiac Tamponade

Answer

A

Beck Triad (classic)

Hypotension
JVD
Muffled heart sounds
pulsus paradoxus
Narrow pulse pressure
pericardial rub
shock with tachycardia, tachypnea, and depressed mental status

Question 50

Q

tests for cardiac tamponade

Answer

A

echo
chest x ray - globular heart shadow

ECG -
Low -voltage QRS in all leads

Abnormal ST segment

Question 51

Q

Treatment for cardiac tamponade

Answer

A

Medical emergency

needle pericardiocentesis with pigtail to prevent reaccumulating

Fluid resuscitation

Treat underlying disease process (infection)

Question 52

Q

In trauma patients, hypotension refractory to fluid resuscitation should prompt suspicion of

Answer

A

cardiac tamponade

Question 53

Q

Hypotension with distended neck vein should always include _____ in the differential diagnosis

Answer

A

cardiac tamponade

Question 54

Q

A dilation of the left or both ventricles with impaired contraction/systolic dysfunction in the absence of an abnormal loading condition (e.g., hypertension, valvular disease, or coronary artery disease).

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 351). Wolters Kluwer Health. Kindle Edition.

Answer

A

dilated cardiomyopathy

Question 55

Q

• Hypertrophied, nondilated ventricle in the absence of a hemodynamic disturbance that is capable of producing the existent magnitude of wall thickening (e.g., hypertension, aortic valve stenosis, catecholamine secreting tumors, hyperthyroidism).

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 351). Wolters Kluwer Health. Kindle Edition.

Answer

A

Hypertrophic cardiomyopathy.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 351). Wolters Kluwer Health. Kindle Edition.

Question 56

Q

Restrictive filling and reduced diastolic volume of either or both ventricles with normal to near normal systolic function and wall thickness.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 352). Wolters Kluwer Health. Kindle Edition.

Answer

A

• Restrictive cardiomyopathy.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 351). Wolters Kluwer Health. Kindle Edition.

Question 57

Q

• Ability of the ventricle to pump blood is impaired and cannot maintain adequate cardiac output to meet the body’s demand. • Over time, the ventricles become progressively stiff and do not fill appropriately. • Results in a backup of blood into pulmonary circulation, which causes pulmonary edema, pulmonary hypertension, and atrial enlargement.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 352). Wolters Kluwer Health. Kindle Edition.

Answer

A

Dilated cardiomyopathy.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 352). Wolters Kluwer Health. Kindle Edition.

Question 58

Q

The ventricles become thick and stiff, leading to impaired filling and the inability to meet the cardiac output demands of the body. • Over time, the ventricles become stiffer and can cause obstruction of blood flow out through the aorta.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 352). Wolters Kluwer Health. Kindle Edition.

Answer

A

Hypertrophic cardiomyopathy.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 352). Wolters Kluwer Health. Kindle Edition.

Question 59

Q

Leads to decreased filling compliance of the ventricles, causing severely elevated right atrial (RA) pressures and size. • The severely enlarged atrium can cause atrial arrhythmias (often difficult to control) as well as significant pulmonary hypertension.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (pp. 352-353). Wolters Kluwer Health. Kindle Edition.

Answer

A

Restrictive Cardiomyopathy

Question 60

Q

Management of Dilated Cardiomyopathy

Answer

A

Oxygen
Inotropic support
continuous tele
Fluid management- Be cautious with fluids

Diuretics - afterload reducers

VAD
ECMO
Transplant

Question 61

Q

management of Hypertrophic cardiomyopathy

Answer

A

No inotropes - can worsen systolic function

B-Blockers - help with chest pain and palpitations

Calcium channel blockers for angina and to improve diastolic function

Avoid dehydration - make sure heart has adequate preload

Question 62

Q

Management of Restrictive cardiomyopathy

Answer

A

No proven therapies currently exist

Anticoagulation is recommended

High risk for sudden embolic events

B Blockers
ACE inhibitors
Diuretics
Pacemakers

VAD
ECMO
Heart transplant - consider early bc pulmonary HTN is contraindication to transplant

Question 63

Q

Vascular communication between the left pulmonary artery (PA) and the descending aorta

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 358). Wolters Kluwer Health. Kindle Edition.

Question 64

Q

When does the PDA normally close

Answer

A

within the first 12-24 hours of life or by the first week

Answer 62

A

Systolic murmur Left sternal border (neonates)

Continuous murmur Left upper sternal border (older children)

loud continuous “Machinery-type” murmur throughout the precordium, bounding pulses

Answer 63

A

Widened pulse pressure with low diastolic pressure

Bounding peripheral pulses

all from over circulation
will have resp distress

Answer 64

A

increased pulmonary vascular markings and cardiomegaly from LA and LV enlargement.

Answer 65

A

left atrial enlargement and LV hypertrophy with possible biventricular hypertrophy in the presence of PH and obstructive vascular disease.

Answer 66

A

• Nonsteroidal anti-inflammatory drugs (NSAIDS): Indomethacin or a special intravenous (IV) form of ibuprofen has been used to help close a PDA; especially viable alternative for premature infants. Contraindicated in infants with intraventricular hemorrhage (IVH).

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (pp. 359-360). Wolters Kluwer Health. Kindle Edition.

Answer 67

A

if open past 3 months of age….Typically closure done in the first 6 months of life

closure via cath is now standard

Answer 68

A

Ostium secundum

Answer 69

A

Ostium primum

Answer 70

A

Sinus Venosus

Answer 71

A

Left to right

Answer 72

A

R atrial dilation, R ventricular volume overload and increased PBF

Atrial arrhythmias, CHF, Pulmonary hypertension

Answer 73

A

Depends on the size of the defect and the relative compliance of both the ventricles. Even with large ASDs and significant shunts, infants and children are rarely symptomatic

Most patients are asymptomatic but may experience fatigue and dyspnea with large shunts

Auscultation reveals a systolic ejection murmur at the L sternal border (pulmonary blood flow murmur), a wide fixed, split S2, and in large shunts a diastolic murmur from flow across the TV.

Answer 74

A

Chest radiograph: cardiomegaly with increased PVM.
Electrocardiography: R-axis deviation with right ventricular hypertrophy (RVH) and right bundle branch block (RBBB) pattern.
Echocardiogram: sufficient for diagnosis; can miss associated PAPVR.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 362). Wolters Kluwer Health. Kindle Edition.

Answer 75

A

3-5 yrs old

Answer 76

A

Perimembranous - doesnt usually close on own

Answer 77

A

Perimembranous VSD

Answer 78

A

Outlet type (subarterial) VSD

Answer 79

A

Inlet type (canal) VSD

Can be associated with Atrioventricular (AVC) defect

Answer 80

A

Muscular VSD

many of these close spontaneously and do not require surgery

Answer 81

A

Left to Right

Answer 82

A

Pulmonary vascular resistance (PVR)

Answer 83

A

Harsh holosystolic murmur at LSB

may have thrill and/or middiastolic rumble at apex

A systolic regurgitant murmur along the L sternal border is present in all VSDs and may be louder in smaller defects. (loud/harsh)

S1 is normal and the S2 is loud and split. There may be a an S3, thrill at the L sternal border, an active precordium, and a diastolic rumble at the left sternal border in large defects.

Answer 84

A

Enlarged L atrium with prominent main PA

Answer 85

A

As the PVR drops in the in the infant, generally 4-6 weeks of age, VSDs allow shunting from the high-pressure LV to the low-pressure RV across the ventricular septum and into the PA, leading to increased PBF, LA dilation, and LV volume overload.

Qp (quantity of blood to lungs) > Qs (quantity of blood to body)

Answer 86

A

Large VSDs on ECG will show LA enlargement, L axis deviation, BBB, LV hypertrophy and possible RVH.

Answer 87

A

Rightward Axis due to the thickness of the R ventricles

QRS is going down in II and up in aVF for Rightward axis

Answer 88

A

Northwest axis deviation (extreme)

QRS is down in both I and aVF

Answer 89

A

Normal

up in I and aVF

Answer 90

A

Left superior axis

up in I

down in aVF

Answer 91

A

Rightward axis

down in I

up in aVF

normal in infancy

Answer 92

A

Initial therapy is directed at controlling CHF symptoms through medical management with diuretics, afterload-reducing medications (digoxin), and nutritional support.

If the pt is asymptomatic without evidence of PH, waiting until 4 to 5 years of age is warranted to maximize the potential for spontaneous defect closure.

Spontaneous closure is possible with perimembranous and muscular defects; therefore, surgical repair may be avoided and is only recommended for defects that cannot be medically managed. -half close by age of 2, and 90% by age 6

Surgery is indicated for patients with symptoms of CHF despite maximal medical therapy, growth failure despite supplementation, PH, or LV volume overload.

Typically surgery is done within the 1st year of life.

Most are repaired via an opening in the RA and visualized through the Tricuspid valve; and closed with a synthetic or pericardium patch. Care is taken to avoid the AV conduction tissue in the septum. Transesophageal echo can be utilized to rule out residual VSDs.

Small VSDs can be closed during cardiac catheterization using “clam shell” method.

Answer 93

A

Atrioventricular Canal (AVC)

Answer 94

A

Transitional

Answer 95

A

Systolic regurgitant murmur at the Left lower sternal border

FTT

Resp distress

CHF

Answer 96

A

Electrocardiography: left axis deviation, biatrial and biventricular hypertrophy.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 370). Wolters Kluwer Health. Kindle Edition.

Answer 97

A

Pulmonary stenosis

Right Ventricular hypertrophy

Overide of Aorta

VSD

Answer 98

A

Pink TET - L to R with CHF and pulmonary overcirculation

or

Too little pulmonary flow

R to L shunt with hypoxia (SaO2 70-80%)

Answer 99

A

R axis deviation with RVH

Answer 100

A

Harsh systolic ejection murmur at Upper Sternal border

Answer 101

A

Asymptomatic patients: B blocker

Symptomatic/TET spells - infundibular muscle spasms -> R to L shunting through VSD

-Supplemental oxygen, sedation, volume expansion, Knee-chest position

Severe cases - phenyl epinephrine, emergency surgery, ECMO

Answer 102

A

most often viral origin; bacterial etiology is rare, but S. aureus and Streptococcus pneumoniae are most common

Collagen vascular diseases: rheumatic fever, Kawasaki,

Autoimmune: lupus, scleroderma, Rheumatoid Arthritis

Postpericardiotomy syndrome- common form that follows heart surgery

Dressler syndrome (post ischemia)

Uremic Pericarditis

Answer 103

A

Over time it becomes hard for the heart to relax or expand due to perisistent inflammation fibrosis which is caused by the immune cells making the pericardium more stiff

Stroke volume down

HR up

Similar to Tamponade physiology but happens more gradually

Answer 104

A

Fever

Chest pain that is worse with heavy breathing

improves with sitting up and leaning forward

Answer 105

A

Decreased Heart sounds

Decreased Cardiac output -> leads to

Shortness of breath
Low BP
Lightheadedness

Answer 106

A

ST segment elevations

PR segment depressions

then

T waves Flatten

then

T waves invert

eventually return to normal

Answer 107

A

Low voltage on QRS or Alternans (QRS complexes have diff heights)

Answer 108

A

Pericardial Effusion

Answer 109

A

Endocarditis

Answer 110

A

Previous Endocarditis
Prosthetic Valve or Pacemaker
Valvular or Congenital Heart Disease
IV drug use
IV catheter
Immunosuppression
Recent Dental or Surgical Procedure

Answer 111

A

Leading: (high fever and hemodynamic instability - Suspect these 2)

Staphylococcus Aureus and MRSA
strep pneumonia
B homlytic Strep

Also:

Less Virulent:

1. Enterococci
Coagulase-neg Staphylococci

More Virulent:

Staphylococcus aureus
Streptococcus Pneumoniae
B-Hemolytic Streptococci
Aspergillus

Neonates:

S. aureus
Coagulase-neg staphylococci
candida
less frequent - GBS, gram neg rods and S.pneumoniae

Gram negative organisms and fungus - sneaky and can culture neg (HACEK)

Haemophilus
Aggregatibacter
Cardiobacterium
Eikenella
Kingella
6.

Answer 112

A

Acute vs Subacute/chronic
- Acute - 2 weeks
- Subacute- happens over a few months
Heart murmur (from blood passing vegetation) - Turbulance
Septic Emboli - vegetation breaking off
- Splinter Hemorrhage (under fingernails)
- Janeway lesions (hands and feet) - painless
- Stroke
- Pulmonary infarts
- Conjunctival hemorrhage
Bacterial Antigen-Antibody Complexes
- Osler’s Nodes (painful) - Finigers and Toes/feet
- Roth Spots (eyes)
- Glomerulonephritis (kidneys)

Neonates

fever or hypothermia
seizures
hemiparesis

Subacute

Arthralgias
myalgias
headache
malaise
relapsing fever
poor appetite

Answer 113

A

Dukes Major

two positive blood cultures for a typical pathogen
two or more positive cultures for less common organisms,
significant Echo findings.

Dukes Minor

predisposing conditions such as CHD,
fever,
embolic vascular phenomena
immunologic phenomena,
Single blood culture

Definite IE includes satisfaction of two major criteria, one major and three minor criteria, or five minor criteria

Transthoracic echo vs Transesophageal echo

Transthoracic is cheaper and less expensive but lower sensitivity
Transesophageal is higher sensitivity

Answer 114

A

Heart Block

Conduction delay with an isolated prolonged PR interval

Answer 115

A

6 weeks of IV antibiotics
Follow up with blood cultures every 48-72 hours
NSAIDS and PPI
If autoimmune etiolgoy - corticosteroids
If they have a prostetic valve - typically requires surgical replacement

Empiric

2 broad spectrum antibiotics that covers
- MRSA (staph)
- MSSA (staph)
- Streptococci
- Enterococci
Tailored to type of valve
- Native Valve or older prosthetic valve
  - Ampicillin-Sulbactam
  - Gentamicin
  - Cant tolerate Beta Lactams?
    - Vancomycin
    - Gentamicin
    - Ciprofloxacin
- Newer Prostetic Valve (less than 12 months)
  - Vancomycin
  - Gentamicin
  - Rifampin

Blood Cutures show MSSA Native Valve Endocarditis

Nafcillin or Oxacillin
Allergic to PCN?
- Cephalosporin

Blood Cultures show MRSA Native Valve Endocarditis

Vancomycin

Blood Cultures show Staph aureus prostethic valve endocarditis

Vancomycin
Gentamicin
Rifampin

Streptococcal Endocarditis

PCN G or Ceftriaxone for 4 weeks
Add Gentamicin to either to shorten treatment to 2 weeks
If allergic to B lactams or have a resistant…Vancomycin monotherapy

Enterococcal Endocarditis

Gentamicin plus either PCN, Ampicillin or Vancomycin for 6 weeks
If vancomycin resistant enterococcus -> Teicoplanin or Daptomycin

HACEK Endocarditis

Native Valve: Ceftriaxone for 4 weeks
Prostetic valve: Ceftriaxone for 6 weeks

Answer 116

A

Oral Amoxicillin 1 hr before the procedure

or

IV/IM Ampicillin 1 hr before the procedure

if Allergic to PCN

Azithromycin, Clarithromycin, Cephalexin or Clindamycin orally 1 hr prior

Answer 117

A

Rheumatic Fever

(from Strep Pyogenes “Strep Throat”)

Answer 118

A

Sudden-onset sore throat
fever
difficulty swallowing
scarlatina rash (Erythema Marginatum)
nausea
vomiting
abdominal pain
enlarged anterior lymph nodes
tonsillopharyngeal erythema.
Migratory arthritis
pancarditis
PANDAS

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (pp. 438-439). Wolters Kluwer Health. Kindle Edition.

Answer 119

A

Jones Criteria

Polyarthritis

Carditis

Subcutanious nodules

Erythema Marginatum

Syndenham Chorea

+ previous Strep infection - Streptococcal antibody test (antistreptolysin O titer) is the most reliable lab evidence of prior infection.

Minor criteria

Fever
Raised ESR//CRP
Arthralgia
Prolonged PR interval
Previous RF

ECHO may be obtained to assess for valvular abnormalities (mitral valve thickening, chordae tendineae lengthening, aortic valve insufficiency, or mitral valve insufficiency)

Answer 120

A

Rest

anti-inflammatory meds NSAIDs (naproxen/ Ibuproprofen) ASA or corticosteroid if no improvement

antibiotics to wipe out any strep hanging around

either Single dose of: Benzathine PCN (benzylpenicillin) - 1st choice or

course of oral PCN VK or amoxicillin

if they have a PCN allergy use a first generation cephalosporin (cephalexin)

clindamycin or a macrolide (Azithromycin or Clarithromycin)

to eradicate beta-hemolytic streptococcus, ASA for inflammation, and bed rest. Long-term PCN prophylaxis (preferably IM) is required

Answer 121

A

Regurgitation and Stenosis
- Mitral
- Aortic

Answer 122

A

Stills murmur

Answer 123

A

Systolic ejection murmur

LLSB or between LLSB and Apex

Grades I-II/VI

Vibratory , musical quality

Intensity decreases in upright position

Usually heard ages 3-6 yrs old

Answer 124

A

120-160 Kcal/kg/day to thrive

increase of 50-100% protein may be needed

omega 3 fatty acid supplements

may be at risk for Vit D deficiency → due to prolonged use of diuretics, limited mobility

Magnesium deficiency → patients on diuretic therapy

Zinc and selenium protect cell membrane from free radial injury and are cardioprotective against CAD and cardiac dysfunction

Answer 125

A

CBC (leukocytosis, eosinophila), procalcitonin (marker to evaluate presence of bacterial infection), blood cultures, and wound culutres if drainage is present, elevated inflammatory markers (CRP/ESR)

Troponin 1, CKMB, BNP, and lactate levels provide insight into myocardial injury and systemic perfusion

Answer 126

A

Rates in infants can be 300, adolescents even 220

Rate above 220 infant

children over 180

abnormal P waves

no beat to beat variability

narrow QRS complex tachycardia

Answer 127

A

SA node

AV node

Bundle of HIS

Purkinje Fibers

Answer 128

A

w/ poor perfusion synchronized cardioversion starting with 0.5-1 J/Kg and can be increased to 2J/kg

NEVER delay cardioversion while awaiting IV placement in unstable pt

IV access- 0.1mg/kg/dose adenosine (blocks AV conduction thereby terminating most SVT in which the AV node forms part of the reentry circuit)

Caution to use adenosine in astmatic pt as it can induce bronchospasm

Stable pt- vagal maneuvers

Bag of ice on forehead up to 10 seconds

Valsalva maneuver in older pt

Chronic mgmt- digoxin, propranolol, or nadolol

Other tx- antiarrhythmics flecainide, propafenone, sotalol, amiodarone

If other tx fails radiofrequency catheter ablation

Answer 129

A

Regular rhthym

Atrial 250-350 bpm

AV conduction ratio usually 2:1, can be 3:1 or 4:1

P waves that give off a saw tooth appearance

Answer 130

A

Medication

cardioversion

Definitive treatment -> Catheter ablation

rate control-slow ventricular rate digoxin, propranolol, CCB

pts receiving digoxin should avoid cardioversion unless arrhythmia is life threatening (associated with malignant ventricular arrhythmias) rapid atrial esophageal pacing may be effective

rhythm control- antiarrhythmic meds to suppress dysrhythmias

electrophysiology study and catheter ablation are a class 1 indication for recurrent or persistent AF pts over 15kg

Answer 131

A

Atrial Heart rate > 500 BPM

No P waves

No AV conduction ratio

Irregularly irregular rhythm

QRS complexes have no pattern

Ventricular rate of 120-80 bpm

Answer 132

A

Atrial Fibrillation occurs after Binge Drinking

Answer 133

A

Treatment- B blockers and CCB

Digoxin, propranolol, verapamil can be used to slow the ventricular rate and reduce patient symptoms

Antiarrhythmic meds reduce risk of recurrence – sotalol and amiodarone

anticoagulant therapy -at risk for clots due to pooling blood

Cardioversion

Answer 134

A

Accessory pathway that acts as a shortcut from Atria to ventricles

WPW syndrome

Answer 135

A

Autosomal dominant mutation of the PRKAG2 gene

Answer 136

A

antiarrhythmics - blocks sodium and k channels - quinidine, disopyramide, procainamide, lidocaine, mexiletine, flecainide, and propafenone

phenothiazines

tricyclics

ampicillin

organophosphate insecticides

Answer 137

A

To get QTc

Qt (ms)

divided by

The square root of RR(s) divided by 1s

Long QT is >440 ms males

>460 ms in females

Answer 138

A

Mag Sulfate (25-50mg/kg max 2g)

Electrical pacing

Mgmt- BB (propranolol 2-4mg/kg/day), atenolol (0.5mg/kg/day), surgical therapy (cardiac pacemaker, ICD, left cardiac sympathetic denervation surgery)

Answer 139

A

hypoxia, hyperkalemia, digoxin, or quinidine toxicity, MI, myocarditis, or complications from cardiothoracic surgery CHD

Answer 140

A

Ventricular Tachycardia

Answer 141

A

Synchronized cardioversion

0.5-1J/kg

Pulseless VT -> defibrilation of 2-4 J/kg

Stable -

antiarrhythmics such as amiodarone, sotalol or lidocaine

Answer 142

A

Tetralogy

Transposition

Tricuspid atresia

Answer 143

A

Patent ductus arteriosus

VSD

ASD

Answer 144

A

Truncus

TAPVR

HLH

Answer 145

A

Williams syndrome and Alagille syndrome

Answer 146

A

Pulmonary Regurgitation

Answer 147

A

Pulmonary stenosis

Answer 148

A

Tetrology of Fallot

Noonan’s Syndrome

Answer 149

A

Ejection click

with Turbulence - Crescendo-Decrescendo murmur Between S1 and S2

Answer 150

A

Concentric R ventricular Hypertrophy

(R ventricle is working harder to push blood past the stenosis…Sarcomeres in the cardic muscle are added in parallel)

Blood backs up -> R sided heart failure

Microangliopathic Hemolytic anemia (RBC are damaged having to fit through the valve…get broken into schistocytes and expelled in urine)

Hemoglobinuria

Symptoms

Blood Backs up
- Distended Neck Veins
- Swelling in ankles and feet
- hepatosplenomegaly
Cyanosis
Shortness of Breath
Fatigue

Answer 151

A

Balloon Valvuloplasty

possible PGE

Answer 152

A

Aortic stenosis

Answer 153

A

Stress over time in adulthood

Bicuspid Aortic Valve - wears down faster

Chronic Rheumatic fever (commisural fusion)

Answer 154

A

Ejection Click

crescendo-decrescendo murmur between S1 and S2

Answer 155

A

Concentric Left Ventricular Hypertrophy

(Sarcomeres added in parallel)

Heart Failure - exercise induced symptoms (angina, ect)

Microangiopathic Hemolytic Anemia

Hemoglobinuria

Answer 156

A

Initial medical management for a neonate who presents in a low CO state consists od CV resuscitation, inotropic and ventilatory support and initiation of PGE to restore systemic perfusion.

Possible biventricular repair if large enough

For infants catheter balloon valvuloplasty or surgical valvotomy is often initial treatment of choice.

Answer 157

A

Turner Syndrome (mosaicism)

Answer 158

A

coarctaion

sonmetimes seen in older children

Answer 159

A

Females

80% are associated with bicuspid aortic valve

work up for Turner’s syndrome

Answer 160

A

SBP > 15 mmHg than lower extremety

Answer 161

A

Initial stabilization includes an infusion of PGE, to restore ductal patency and distal perfusion

Continuous infusion of nipride or B-Blockers like esmolol are often required in the immediate post-op period. Then transition to oral therapy with ACE-I such as captopril or enalapril or B-Blocker like propranolol or atenolol prior to discharge.

Done by left thoracotomy

Answer 162

A

Supracardiac- most common form, in which the pulmonary veins drain into the SVC via the left vertical vein to the innominate vein.

Infracardiac- 2nd, th pulmonary veins drain into the portal vein, ductus venosus, hepatic vein, or inferior vena cava below the diaphragm. (Most likely to become obstructed).

Intracardiac- pulmonary venous hypertension with resultant pulmonary edema, PH, LCOS and severe hypoxemia.

Or mixed

Answer 163

A

Supracardiac

Answer 164

A

Infracardiac

Answer 165

A

Intracardiac

Answer 166

A

creates pulmonary venous hypertension with resultant pulmonary edema, PH, LCOS, and severe hypoxemia.

There is an increased RV impulse, a widely split and fixed S2 which can be increased, a systolic ejection murmur, and a diastolic rumble if there is excessive flow across the TV.

If there is PV obstruction present with marked cyanosis, LCOS, and respiratory distress in the neonatal period.

A heart murmur is often absent, but there may be a GALLOP!!!

Answer 167

A

R axis deviation and RVH

Answer 168

A

Absolutely no nitric oxide!! Giving NO will. Increase PBF to the lungs and is contraindicated in preoperative obstructed pulmonary veins.

These babies need emergent care and surgical repair.

Answer 169

A

Transposition of Great Arteries

Answer 170

A

Transposition of Great Arteries

Answer 171

A

Transposition of Great Arteries

Answer 172

A

The amound of mixing between the 2 sides (mostly at the ASD)

Answer 173

A

Transposition of Great Arteries

Answer 174

A

PGE may be needed to maintain ductal flow but can be trialed off once open atrial communication is confirmed. If desats occur, the infusion should be resumed, and ductal flow is necessary to increase pulmonary venous return to the LA, increasing the pressure gradient between the LA and RA, thereby aiding in atrial mixing.

Trickiest part is moving the coronary arteries to go with the aorta

Answer 175

A

Kawasaki disease

Answer 176

A

• Affects 9.1 to 32.5 per 100,000 children annually, with a small male predominance. • Most commonly affects patients under the age of 4 years, with a peak incidence between 18

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (p. 1350). Wolters Kluwer Health. Kindle Edition.

Answer 177

A

Specific criteria, in addition to fever for 5 days, must be met for the diagnosis of classic (4–5 criteria) or atypical or incomplete Kawasaki (2 criteria).
Bilateral painless bulbar conjunctival injection: without exudate.
Changes in lips and oral cavity: injected oral mucosa, dry/cracked lips, strawberry tongue.
Polymorphous exanthema.
Cervical lymphadenopathy (≥1.5 cm): typically unilateral.
Changes in extremities (e.g., palms of hands and/or soles of feet).

Acute: erythema and edema; convalescent: peeling/desquamation.

• Other findings. • Cardiovascular: heart murmur, congestive heart failure, pericardial effusion, ECG changes (e.g., arrhythmias, abnormal Q waves, prolonged PR or QT intervals, ST segment changes), and enlarged cardiac silhouette on chest radiograph, myocardial infarction, and arterial aneurysms throughout the body, including the coronaries. •

Gastrointestinal: abdominal pain, diarrhea, nausea and/or vomiting, hepatitis. •

Musculoskeletal: arthritis. • Pulmonary: upper respiratory tract symptoms, pulmonary infiltrate. • Genitourinary: sterile pyuria. •

Joint: arthralgias, arthritis. •

Skin: perineal rash; transverse furrows of fingernails (Beau lines). •

Laboratory abnormalities. • Leukocytosis; increased neutrophils, erythrocyte sedimentation rate (ESR), C-reactive protein (CRP), platelets, serum transaminases, and γ-glutamyl transferase; hypoalbuminemia, anemia. • Sudden-onset high fever: typically the first presenting sign.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (pp. 1350-1351). Wolters Kluwer Health. Kindle Edition.

Mnemonic CRASH and BURN

C= conjuntivitis

R= Rash

A= Adenopathy (Cervical)

S= Strawberry tongue (Oral Changes)

H= Hands and Feet (extremity changes)

BURN= fever >5 days

Mnemonic

A, Rash: Maculopapular, diffuse erythroderma, or erythema multiforme-like.

B, Conjunctivitis: Bulbar conjunctival injection without exudate; bilateral.

C, Oral changes: Erythema and cracking of lips (cheilitis); strawberry tongue; erythema of oral and pharyngeal mucosa.

D and E, Palmar and plantar erythema: Usually accompanied by swelling; resolves with subsequent periungual desquamation in the subacute phase.

F, Cervical adenopathy: Usually unilateral, node ≥1.5 cm in diameter.

G, Coronary artery aneurysms:

H, Peripheral artery aneurysms:

Answer 178

A

Acute - weeks 1-2

Subacute: week 2-4

Convalescent - week 3 - 8

Answer 179

A

• Inflammatory markers: elevated CRP and ESR. • CBC: leukocytosis, neutrophilia, eosinophilia, anemia, and thrombocytosis. • Metabolic panel: hypoalbuminemia, hypokalemia, elevated transaminases and GGT, elevated pancreatic enzymes. • Coagulation factors: elevated fibrinogen.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (pp. 1351-1352). Wolters Kluwer Health. Kindle Edition.

Answer 180

A

Prompt diagnosis is key. •

IV immunoglobulin (IVIG) 2 g/kg. •

Aspirin (ASA) 80 to 100 mg/kg/day divided every 6 hours and weaned with defervescence. •

Long-term therapy: Treatment is tailored to the risk level identified and includes: •

Risk level I: no coronary involvement. ASA for 6 to 8 weeks with counseling follow-up every 5 years. •

Risk level II: coronary artery dilation with resolution by 8 weeks. ASA for 6 to 8 weeks with counseling follow-up every 3 years. •

Risk level III: coronary aneurysm measuring 3 to 6 mm. ASA until resolution of aneurysm and limited activity for 8 weeks if <10 years of age. Stress test every 2 years and prior to admission into sports for those >10 years of age. Annual echocardiography and angiography if abnormal stress test is observed. •

Risk level IV: nonobstructive coronary aneurysm measuring >6 mm and/or multiple complex aneurysms. Long-term ASA in addition to anticoagulation therapy. Annual stress test, biannual echocardiography and ECG in addition to a cardiac catheterization on a biannual or annual basis. No high-impact sports. Counseling. •

Risk level V: obstructed coronary aneurysms. All recommendations included in risk level IV in addition to β-adrenergic blocking agents.

Kline, Andrea M.; Haut, Catherine. Lippincott Certification Review: Pediatric Acute Care Nurse Practitioner (pp. 1352-1353). Wolters Kluwer Health. Kindle Edition.

DO NOT DELAY TREATMENT OF KD TO OBTAIN ECHOCARDIOGRAM CONFIRMING KAWASAKI DISEASE!

The mainstay initial treatment for both complete and incomplete KD is a single high dose of IVIG together with acetyl- salicylic acid (ASA), which is supported by clinical trial evidence. The efficacy of IVIG administered in the acute phase of KD is well established to reduce the prevalence of coronary artery abnormalities

ASA has been used in treatment of KD for many years. Although ASA has important anti-inflammatory activity (at high doses) and antiplatelet activity (at low doses), it does not appear to lower the frequency of development of cor- onary abnormalities.177 During the acute phase of illness,

Give High-dose IVIG (2 g/kg given as a single intravenous infusion) within 10 days of illness onset but as soon as possible after diagnosis,

Only give past the 10th day in presence of fever, and significant elevation of inflammatory markers, or coronary artery abnormalities

ASA is administered every 6 hours, with a total daily dose of 80 to 100 mg·kg. ASA is reasonable until the patient is afebrile

Corticosteroids have only been shown to benefit in very high risk cases

IVIG RESISTANCE

IVIG second course 2g/kg

Methylpred 20-30 mg/kg IV x 3 days

Infliximab may be given instead of second course IVIG

Answer 181

A

Neurocardiogenic:

90% of patients will have improved symptoms with increased fluid and salt intake. Goal for teen girls is 3L daily and goal for teen boys is 3.5L daily, along with 8 gm extra sodium

Abortive techniques: lying down with presyncope, compression stockings to prevent venous pooling, counter-pressure maneuvers like squatting and leg crossing, and avoiding stimuli that cause syncope

2nd line treatment includes midodrine, fludrocortisone, SSRIs, and beta blockers

Admit if central cyanosis, abnormal ECG, pathologic cardiac murmur, history of CHD repair, loss of consciousness >5min, neurological deficit, severe dehydration, severe anemia, adrenal crisis, severe hypoglycemia

Answer 182

A

Used for cyanotic lesions such as Pulmonary stenosis, Aortic Stensosis, Coarc, TOF, TGA, TAPVR

Answer 183

A

Liver -> systemic venous congestion

Spleen -> consider infective endocarditis

Answer 184

A

PDA, truncus arteriosus, AC malformations, aortic insufficiency

Answer 185

A

pericardial tamponade, aortic stenosis, HF

Answer 186

A

Chest CT angiogram

Answer 187

A

Important cause of laryngeal dysfunction

May be unilateral or bilateral

Mostly caused by damage to recurrent laryngeal nerve then by central lesion → Left recurrent laryngeal nerve passes around the aortic arch and is more susceptible to damage then right laryngeal nerve

Causes

Peripheral nerve damage (neck traction during delivery of infant or thoracic surgery), mediastinal lesions

Central causes → arnold-chiari malformation, hydrocephalus, intracranial hemorrhages

Answer 188

A

bipasic stridor

alterations in voice and cry, including weak cry in infants

Hoarseness

Aphonia

At risk for aspiration → manifested by cough/choking with drinking, coarse airway sounds audibly and by auscultation

Answer 189

A

patients with traumatic injury to recurrent larygneal nerve often have spontaneous improvement over time, usually within 3-6 months

if paralyzed vocal cord not recovered in 1 year of injury → likely permanently damanged

Gelform injection of a paralyzed vocal cord can responsition the cord and improved phonation and airway protection

patient who have severe airway obstruction and aspiration may need tracheostomy tube placement

Answer 190

A

Common organisms: GBS, E. coli, Listeria monocytogenes, S. aureus, Enterococcus species, HSV, CMV, Varicella-zoster virus, RSV, Candida species

ampicillin, gentamicin or cefotaxime, when HSV is suspected acyclovir

Answer 191

A

Amoxicillin or

Augmentin

Answer 192

A

Amoxicillin or penicillin

Answer 193

A

supportive care

immunocompromise receive

Cidofovir

Answer 194

A

Neonates < 30 days

Bacteria
- E.coli
- Group B Streptococcus
- Listeria Monocytogenes
Other Causes
- Bacteria
  - Group D strep
  - H. Influenzae
  - Strep pneumoniae
  - Ureaplasma urealyticum
  - Bordetella pertussis
- Viruses
  - Herpes simplex virus
  - Cytomegalovirus

1-3 months

Bacteria
- S. pneumoniae
- Chlamydia Trachomatis
- B.pertussis
Viruses
- RSV
- Influenza
- Parainfluenza
- Adenovirus
Other causes
- Bacteria
  - H.Influenzae
  - Moraxella catarrhalis
  - Staph aureus
  - U. urealyticum
- Virus
  - Cytomegalovirus
  - Metapneumovirus

3 mos - 5 years

Bacteria
- Mycoplasma pneumoniae
- C.Trachomatis
- S.pneumoniae
Virus
- RSV
- Influenza
- Parainfluenza
- Adenovirus
- Rhinovirus
Other
- Bacteria
  - H.Influenzae
  - M.catarrhalis
  - S. aureaus
  - Neisseria meningitis
  - mycobacterium tuburculosis
  - Varicella-zoster

5 years to adolescents

Bacteria
- M.pneumoniae
- C.Trachomatis
- S.pneumoniae
Other
- Bacteria
  - H.influenzae
  - Legionella Species
  - M. tuberculosis
  - S.aureus
- Virus
  - Adenovirus
  - Ebstein-Barr virus
  - Influenza virus
  - Parainfluenza
  - Rhinovirus
  - RSV
  - Varicella-zoster

Answer 195

A

Birth - 1 month: Parenteral Ampicillin and gentamicin. Can consider cefotaxime in addition to or in lieu of gentamicin

1 month to 3 months well appearing: Amoxicillin (high dose)

Alternative agents: Sulfamethoxazole/trimethoprim, amoxicillin-clavaulanic acid, or macrolide. Can also use parenteral ceftriaxone for first dose then change to oral amox

1 month to 3 months ill appearing: Parenteral cefotaxime or cefuroxime

consider addition of macrolide if concerns for pertussis or chlamydia

4 months to 5 years: Amox (high dose)

Alt: Sulfamethoxazole/trimethoprim, Augmentin or macrolide

>5 years to adolescence: Macrolide alone if low suspicion of Strep pneumoniae

Add: If persist or conern for S. pneumonia - Add B-lactam antibiotic such as amox or cephalosporin

Answer 196

A

Synagis is indicated for the prevention of serious lower respiratory tract disease caused by RSV in children at high risk of RSV disease

Infants born before 29 weeks, 0 days gestation who are younger than 12 months at the start of RSV season
For infants born during the RSV season, fewer than 5 monthly doses will be needed
If born greater than 29 weeks, 0 days may qualify for if
- Congenital heart disease
  - Acyanotic heart disease who are receiving medication to conrol congestive heart failure and will require cardiac surgical procedures and infants with moderate to severe pulmonary hypertension
  - Cyantoic heart disease- cardiac specialist decides
  - Recommendations apply to infants in the first year of life who are born within 12 months of onset of the RSV season
  - After surgical procedures that involve cardiopulmonary bypass, for children who are receiving prophylaxis and who continue to require prophylaxis after a surgical procedure, a post operative dose of palivizumab (15mg/kg) should be considered after cardiac bypass or at the conclusion of extra corporeal membrane oxygenation for kids <24 months
  - Children <2yo undergo cardiac transplantation during the RSV season may be considered for palivizumab
  - DO NOT give it to
    - Hemodynamically insignificant heart disease
      - Secundum atrial septal defect,
      - Small ventricular septal defect
      - Pulmonic stenosis
      - uncomplicated aortic stenosis
      - Mild coarctation of the aorta
      - Patent ductus arteriosus
      - Infants with lesions adequately corrected by surgery, unless they continue to require medication for CHF
      - Infants with mild cardiomyopathy who are not receiving medical therapy for condition
      - Children in the second year of life
- Chronic lung disease
  - Gestation age <32 weeks, 0 days and requirement of >21% Oxygen for at least the first 28 days of birth- during first year of life, during RSV season
  - Only recommended in second year of life if meat CLD requirement and continue to require medical support (chronic corticosteroid therapy, diuretic therapy, or supplemental oxygen) during the 6th months prior to the second RSV season
- Or another condition
  - Infants with neuromsk disease or congenital anomaly that ipparis the ability to clear secretions from the upper airway because of ineffective cough are known to be at risk for a prolonged hospitalization and should be considered during the first year of life
  - If <24mo and severely immunocompromised (chemo/ transplant/ etc) during the RSV season
  - Down syndrome only if they meet other qualifications (HD, CLD, premature)
  - Cystic fibrosis only if
    - CLD and/ or nutritional compromise in first year of life
    - Second year of life if severe lung disease or weight for length less than the 10th percentile
Typically NOT recommended in the second year of life
Unless CLD who continues to require medical interventions 6 months prior to the RSV season
If any infant/ child is hospitalized with RSV while receiving vaccine, the vaccine monthly should be discontinued bc the likelihood of a second infection is very low
Those in neonate area who qualify should receive the first dose 48-72 hours before discharge to home or promptly after discharge
Hospital prevention is based off of adherence to infection-control practices

RSV Seasonality

5 monthly doses at 15mg/kg will provide more than 6 months of serum palivizumab concentrations above the desired level
Not recommended to give more than 5 doses
Typically November- march (coverage till april)
If october -february (coverage till march)
If initiated in december- april (covers may)
If born in january receive last dose in march
*

Answer 197

A

Parainfluenza 1,2,3,4

RSV

Dex 0.6mg/kg x 1 dose

Racemic epi (peak effect 10-30 min fades 60-90 min)

Rebound effect may occur- monitor for 3 hours after rac epi

may repeat racemic epi every 20 min for 1-2 hrs max

Answer 198

A

Neonates <3 mth

GBS
E.Coli
Listeria monocytogenes
Other gram neg bacilli
HSV can cause severe encephalitis
Less common
- Listeria monocytogenes
- Enterococcus faecalis
- Neisseria Meningitis
- Strep pneumoniae
- other streptococci
- Citrobacter species
- Salmonella
- Pseudomonas aeruginosa
- Haemophilus influenzae
- Staphylococcus aureus

1-3 months

S.pneumoniae
Gram-neg bacilli
GBS
Less common
- N. miningitidis

> 3 months

S. pneumoniae
Neisseria meningitidis
less common
- Gram neg bacilli
- Group B strep

3 months- 9 years

Streptococcus pneumoniae & Neisseria meningitidis are the most common causes of acute bacterial meningitis.
Group B streptococcus is responsible for a small percentage.

10 years – 18 years

N. meningitis is responsible for the majority of bacterial meningitis.
H. influenzae should be considered for those unvaccinated from Hib vaccine and those from underdeveloped countries.

Enteroviruses are the most common cause of viral meningoencephalitis.

Arboviruses, transmitted commonly via vectors such as mosquitoes and ticks are responsible for some cases of meningoencephalitis in summer months.

West Nile, La Crosse, Powassan and St. Louis are the most common.

Answer 199

A

meningitis

Answer 200

A

Newborns (0-28 days)

Cefotaxime plus ampicillin with/without gentamicin
Alternative - ampicillin plus gentamicin

Infants and toddler (1 month to 4 yrs)

Ceftriaxone or cefotaxime plus vancomycin

Children and adolescents 5-13 plus adults

ceftriaxone or cefotaxime plus vancomycin
Alt Cefepime plus vancomycin

Children > 1 month

Empirical board spectrum antimicrobial coverage with vancomycin and either cefotaxime or ceftriaxone should be started.

Acyclovir should be initiated for all infants and children with suspected HSV encephalitis.

Duration of treatment (N. 388)

N. meningitidis is 5-7 days

H. Influenzae is 7-10 days

S. pneumoniae is 10-14 days

Gram-negative bacilli should be treated for a minimum of 21 days or 14 days beyond the first negative CSF culture, whichever is longer.

Lipincot:

Recent neurosurgery or ventricular shunt: coagulase-negative staphylococci (Staphylococcus epidermidis), methicillin-susceptible and methicillin-resistant Staph. aureus (i.e., MSSA, MRSA), aerobic gram-negative bacilli (Pseudomonas aeruginosa), Propionibacterium acnes.

vancomycin + cefepime; vancomycin + ceftazidime; or vancomycin + meropenem.

Basilar skull fracture: Streptococcus pneumoniae, Neisseria meningitidis, Strep. pyogenes. •

Management: vancomycin + 3rd-generation cephalosporin.

Answer 201

A

strep pneumoniae
nontypable Haemophilus influenzae
moraxella catarrhalis
Group A strep - less frequent

Answer 202

A

The recommended first-line therapy for most children meeting criteria for antibiotic therapy is amoxicillin (80-90 mg/kg/day in two divided doses)
Some children with mild illness or uncertain diagnosis may be observed if appropriate follow-up within 48-72 hours can be arranged with initiation of antibiotic therapy if symptoms do not self-resolve.
The failure of initial therapy with amoxicillin at 3 days suggests infection with β-lactamase-producing H. influenza, M. catarrhalis, or resistant Strep. pneumoniae.
Recommended next-step treatments include high-dose amoxicillin-clavulanate (amoxicillin 80-90 mg/kg/day), cefdinir, or ceftriaxone (50 mg/kg IM in daily doses for 3 days).
IM ceftriaxone is especially appropriate for children with vomiting that precludes oral treatment.

Answer 203

A

Treatment options: *

Cefazolin, oxacillin, or nafcillin IV or cephalexin PO

Alternative options: Clindamycin or vancomycin IV; clindamycin PO

Answer 204

A

Treatment options:*

Vancomycin

Clindamycin - Some may become resistant; should be considered in refractory hypotension with concern for toxic shock.

Bactrim

Linezolid

Daptomycin - Not for treatment of pneumonia or children <1 yrs.

Answer 205

A

Piperacillin/Tazobactam (Zosyn)

Answer 206

A

Discontinue inciting abx

Metronidazole is currently the drug of choice for the initial treatment of children and adolescents with mild to moderate disease

Oral vancomycin or vancomycin administered by enema with or without intravenous metronidazole is indicated as initial therapy for patients with severe disease and for patients who do not respond to oral metronidazole.

Severe or fatal disease is more likely to occur in neutropenic children with leukemia, in children with intestinal stasis (eg, Hirschsprung disease), and in patients with inflammatory bowel disease.

Antiperistaltic medications should be avoided because they may obscure symptoms and precipitate complications, such as toxic megacolon.

Answer 207

A

Most common infecious causes: EBV, Bartonella henselae, UTI and osteomyelitis

Salmonellosis

Tuberculosis

Rickettsia diseases

Syphilis

Lyme disease

Cat-Scratch disease

Atypical prolonged common viral disease

EBV

CMV

Viral hepatitis

Coccidioidomycosis

Histoplasmosis

Malaria

Toxoplasmosis

Answer 208

A

Caused by an acid-fast bacilli of the mycobacterium tuberculosis complex

Most common cause is M. Tuberculosis

Also caused by M. bovis, africanum, bovis BCG, caprae, mungi, orygis, canetti, microti

Answer 209

A

Steroids as adjunctive therapy for TB meningitis reduce death and tuberculomas

Dexamethasone 0.3-0.4 mg/kg/day for first 2 weeks then tapered for 2 weeks
Prednisolone 2mg/kg/day for 2 weeks then tapered for 2 weeks

Used liquid and fixed dose formulation for best adherence

Child may always have “abnormal” CXR

Drug related hepatitis is concern with isoniazid and rifampin therapy

Peripheral neuritis is rare but can occur with INH therapy, can be prevented with concomitant administration of pyridoxine
Rifampin will change color or urine to deep organ red during initial part of therapy

Severe cases of TBM or military TB- do monthly liver function test

Contact clinician with signs of hepatoxicity- vomiting, abdominal pain, jaundice

Answer 210

A

P. falciparum

P. falciparum accounts for the majority of severe malaria and death
- The vast majority of of persons returning to the US infected with P. falciparum acquired the infection in sub-saharian Africa during the previous 1-2 months.
P. vivax, P. ovale, P. malariae, P. knowlesi

*A traveler returning from an endemic area with fever has malaria until proven otherwise*

Answer 211

A

Atovaquone-proguanil and artemether-lumefantrine are first-line treatments for chloroquine resistant malaria, which is present throughout the world with the exception of Central and South America and some countries in the Middle East.

For severe malaria, IV quinidine or artesunate are recommended.

Special attention should be given to blood glucose and cardiac rhythm with IV quinidine, given possible hypoglycemia and long QT syndrome.

Exchange transfusion may be considered when parasitemia reaches greater than 5-10%.

Consultation with subspeciality services is based on severity of presentation and patient’s response to therapy

Specialists from ID, neurology, GI, nutrition, critical care and rehabilitation medicine may be valuable.

Answer 212

A

Caused by Bordetella pertussis, a gram negative pleomorphic bacillus

Answer 213

A

Macrolide antibiotics (azithromycin, clarithromycin, or erythromycin)

erythromycin not recommended for neonates due to development of pyloric stenosis

Treatment during the catarrhal phase eradicates nasopharyngeal carriage of organisms within 3-4 days and may lessen symptoms

Treatment during the paroxysmal stage does not alter the course of the illness but decreases potential for spreading the disease to others.

Hospitalize young infants or any age group with moderate to severe resp distress, dehydration, or evidence of encephalopathy

Prevention: DTaP

Answer 214

A

Infection with Riskettsia rickettsii, an obligate intracellular gram (-) coccobacillus, results in vasculitis

from ticks or blood transfusion (Rare)

Answer 215

A

After inoculation of Borrelia burgdorferi spirochetes into the skin by the black-legged tisk, the organism disseminates to numerous organs → immune respone

Answer 216

A

Treatment

Doxcycline for 10 days (10 days or less are safe and have not been proven to cause dental staining in children less than 8 years old), Amoxicillin for 14 days, or Cefuroxime for 14 days

Alternative therapy includes azithromycin for 14 days

Arthiritis is treated using the same oral regimen as for early localized disease but for 28 days. For persistent or recurrent arthritis, the doxy course should be repeated or IV ceftriaxone for 14-28 days

Mycoarditis is treated with IV cetriaxone for 14-21 days

CNS disease is treated with IV ceftriaxone for 14 days

Answer 217

A

Treatment: may take several weeks to resolve

**Treatment should not await serologic confirmation in the appropriate epidemiologic and clinical setting**

Doxcycline is favored for all ages of children for 7-10 days and continue until fever has ceased for 72 hours and clinical disease has resolved.

Fluoroquinolones may be effective

Chloramphenicol was the previous standard but it no longer recommended

Answer 218

A

Usually self limiting

However if HSV suspected to be the cause -Acyclovir IV

Answer 219

A

RSV

Adenovirus

influenza

parainfluenza

Human metapneumovirus (hMPV)

Answer 220

A

Endomethacin

Answer 221

A

AV septal defect

VSD

PDA
TOF

Answer 222

A

Bacterial

Answer 223

A

Suspicious for HSV meningitis. Start Acyclovir

Answer 224

A

specifically

Coxsackie Viruses A and B

Parvovirus B19 and Human Herpesvirus type 6

not as common, Adenovirus

EBV

Hepatitis C

influenza

parainfluenza

HIV

CMV

unusual for herpes to be isolated and most commonly parvovirus or coxsackie viruses are isolated.

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