Final

Question 1

Chest X-Ray

Croup vs. Epiglottitis

Answer 1

Croup- Steeple Sign; Subglottic narrowing lower in the airway. Linear narrowing of trachea (wedge shaped)

Epiglottitis- Thumb Sign; Swollen epiglottis higher in the airway

Question 2

Bronchiectasis

Answer 2

Irreversible dilation and disortion of bronchial tree

Result of airway obstruction, chronic infection, and extensive inflammation

Dilation due to destruction of bronchial cartilage elastic fibres, blood vessels and smooth muscle

Congenital condition in a small number of patients

Question 3

Bronchiectasis and Secretions

Answer 3

Leads to insufficient airway secretion clerance due to inadequate ciliary activity

Poro bronchial toliet will increase the risk of infection

Question 4

Croup Treatment

Answer 4

Supportive Care-Humidity, Oxygen, Corticosteroids, Dexamethasone, Recemic Epinephrine (1:1000 mg- 5 ml)

Try to have minimal diagnositic and handling

May lead to intubation if obstruction become serious

Question 5

Other Name for Croup

Answer 5

Laryngotracheobronchitis

Question 6

Croup Clinical Manifestation

Answer 6

Barking, seal like cough

Hoarse voice and stridor

Low to moderate fever and dehydration

Question 7

Pediatric Signs of Impending Respiratory Failure

Answer 7

Increased work of breathing at rest with intercostal and substernal retractions

Increasing O2 requirements and lethargy are signs of impending respiratory failure

Question 8

Epiglottitis Pathophysiology

Answer 8

Acute bacterial infection

Inflammation of supraglottic structure producing an enlagred cherry red epiglottis which can partially or completely obstruct airway

Age on onset: < 6 years of age

Question 9

Primary Cause of Epiglottitis

Answer 9

Haemophilusinfluenzae Type B

Rarer due to vaccinations*: 95% reduction in cases

Question 10

Non-Infectious Causes of Epiglottitis

Answer 10

Aspiration of hot liquid

Multiple intubations

Question 11

Pathology of Foreign Body Aspiration

Answer 11

Distal areas will become atelectatic and increased shunt

Can lead to infection

Question 12

What are the 2 types of congenital diaphragmatic hernia

Answer 12

• Bochdalek Hernia
  
  • Lateral and posterior defect
  • Usually will occur in the left hemidiaphragm
  • Most common
  • Occurs 90% of the time
• Morgagni Hernia
  
  • Medial and anterior
  • Occurs on both sides
  • Liver will prevent some up the upwards movement

Question 13

Congenital Diaphragmatic Hernia

Pathophysiology

Answer 13

Lung Hypoplasia because it does not have enough room to properly develop

Decreased pulmonary vasculature (Pulmonary hypertension and decreased alveolar count)

Question 14

Congenital Diaphragmatic Hernia

Chest X Ray

Answer 14

Loop and air in the thoracic cavity

Mediastinum will be pushed to the right

Question 15

Congenital Diaphragmatic Hernia

Clinical Manifestations

Answer 15

• Significant respiratory distress at birth with severe hypoxia and acidosis
• Scaphoid Abdomen (Depressed Triagular shape)
• Barrel Chest
• Heart displaced to the opposite side of the hernia
• Increased PVR with a persistent shunt
  
  • Worsening right to left shunt

Question 16

Angioplasty

Answer 16

Can be done at the same time as a angiography if needed

A catheter will be floated through the artery and then the balloon is repeated inflated and deflated to flatten the plauqe againt the artery wall

If this is the only treament given then renstenosis may be needed later on

Question 17

Coronary Artery Disease

Coronary Angiography

Answer 17

Gold standard for diagnosis CAD will evaluate the extent and location of blockages

Only test that indicate which treatment to use

A catheter is inserted into an artery (usually femoral) which is threaded up into coronary artery

Dye is injected at this point and fluoroscopy captures the image of the blood flow

Question 18

B Blockers

Answer 18

HR and contraction of the heart will decrease = Decrease BP

Will block the effects of epinephrine causing vasodilation

These drugs will end in -olol

Not used for people with asthma

Question 19

ACE Inhibitor

Answer 19

Will inhibit ACE enzyme = decrease production of angiotensin II

As a result, blood vessels enlarge or dilate, and blood pressure is reduced.

Ends in -pril

Question 20

Coronary Artery Disease

Stenting

Answer 20

Will commonly be done at same time as angiography

The goal is to help prevent restenosis, or at least lengthen the time before restenosis occurs

Use of drug-impregnated stents reduces risk of restenosis.

Question 21

What Are Most Myocardial Infarctions Caused by

Answer 21

Most MI’s are caused through a ruptured atherosclerotic plaque

The risk factors for the development of CAD are also risk factors for an MI

Question 22

Myocardial Infarction

Pathophysiology

Answer 22

Myocardium is deprived of oxygen which leads to ischemia ► Areas of Injury ►Infarction

Reperfusion injury is also an important component of the pathophysiology.

Question 23

Myocardial Area of Injury

Answer 23

An area of injury can repair itself but 100% as there is extra fibrinogen, fat deposits, etc

Question 24

Area of Infarction

Transmural

Answer 24

Full thickness of myocardium

Question 25

Area of Infarction

Subendocardial

Answer 25

Partial thickness of myocardium

Question 26

Myocardial Infarction

Blood Markers-Myoglobin

Answer 26

Very sensitive and early marker of myocardial necrosis, but is not specific for MI

Levels will begin to rise within 1 hour with peaks within 4-8 hours

Will return to normal by 36 hours

Question 27

Myocardial Infarction

Blood Markers Troponin I

Answer 27

1 test of choice

Marker of damaged tissue after an MI

Detectable at 3-6 hours and peaks at 26 hours

Remains elevated for 14 days

Highly sensitive test

Question 28

Myocardial Infarction

ECG-ST Segments

Answer 28

Depression (ischemia)

Elevation (infarction)

ST segment elevation is only considered pathologic if it occurs in two or more anatomically contiguous leads!

Question 29

Meconium Aspiration Syndrome (MAS)

Anatomic Alterations of the Lungs

Answer 29

Meconium can either fully or partially obstruct the airway and create a ball-valve effect - meaning that the air can enter the alveoli but not readily leave

Chemical Pneumonitis

Decreased Surfactant=RDS

Hypoxia-induced vasoconstriction and vasospasm. The vasospasm can pulmonary hypertension - right to left shunt

Question 30

Myocardial Infarction

Time Frames

Answer 30

• 0-30 Minutes
  
  • Reversible injury
• 1-2 Hours
  
  • Onset of irreversible injury
• 4-12 Hours
  
  • Beginning of necrosis

Question 31

How long does necrosis and scar tissue development after MI occur for

Answer 31

There will continue to be necrosis and development of scar tissues occurs up until 8th week post infarct

The risk for myocardial rupture is greatest at days 4-7 post infarct

As the tougher fibrotic scar tissue starts to form 7-10 days post infarct

Question 32

Myocardial Infarction

Blood Markers Total CK

Answer 32

Enzyme of cardiac damage

Question 33

Vessels Commonly Used for CABG

Answer 33

saphenous vein, internal mammary artery or radial artery

Question 34

Myocardial Infarction

Blood Markers CK-MB

Answer 34

Levels will begin to rise within 4 hours and peak at 24 hours

Levels will subside by 3 days

Not specific to MI

Question 35

Reperfusion therapy

Answer 35

Reperfusion therapy is a medical treatment to restore blood flow, either through or around, blocked arteries, typically after a MI

The goal is to reduce mortality and limit the infarct size

Question 36

Methods for Reperfusion Therapy

Answer 36

• Thrombolytics
  
  • Dissolve blood and platelet clots
  • Best is used within 60-90 minutes of onset
  • Should be given by EMT
  • Risk of bleeding must be considered, because you will have a time period when there is no clotting factors avalible
• Percutaneous Coronary Interventions (PCI)
• CABG

Question 37

Cor Pulmonale

Answer 37

Enlargement and failure of right ventircle due to increase resistance from lungs

Chronic pulmonary heart disease will usually result in right ventricular hypertrophy

Question 38

Left Sided Heart Failure

Answer 38

The left side of the heart is unable to properly pump blood=low systemic perfusion

Low systemic perfusion will then lead to vasoconstriction (increased SVR)

Blood may back into pulmonary system ►pulmonary congestion and right sided heart failure

When the RH fails there is a decreased pulmonary congestion giving a false look of improvement

Question 39

Right Sided Heart Failure

Hemodynamic Profile

Answer 39

• Increased
  
  • CVP

Question 40

Left Sided Heart Failure

Hemodynamics

Answer 40

• Increased
  
  • PAWP
  • HR
• Decreased
  
  • CO
  • Pulse pressure

Question 41

Right Sided Heart Failure

Forward Failure

Answer 41

Decreased RV output leading to venous congestion

Question 42

Right Sided Heart Failure

Backwards Failure

Answer 42

Decrease RV output -> Decreased pulmonary perfusion ->Decreased LV filling ->Decreased LV output -> systemic perfusion

Question 43

Myocardial Infarction

12 Leads and Coronary Arteries-Anterior Injury

Answer 43

V3, V4

Question 44

Myocardial Infarction

12 Leads and Coronary Arteries-Septal Injury

Answer 44

V1, V2

Question 45

Pulmonary Interstitial Emphysema (PIE)

Pathophysiology

Answer 45

The small airway rupture will compress the vasculature leading to decreased pulmonary perfusion, increase PVR, and incresae R-L shunt

There will be an increased airway resistance due to the decrease in the lumen of the bronchioles

Question 46

Neonatal Jaundice

Answer 46

Occurs in 50% normal births

Can occur due to delayed feeding, hemolytic disease, liver/gut defects.

Question 47

Kernicterus

Answer 47

Severe hyperbilirubinemia

Will toxifie the baby and lead to CNS impairment, seizures, and motor dsyfunction

Question 48

Treatment for Jaundice

Answer 48

Phototherapy (blue light) helps to form conjugated bilirubin to allow excretion, and exchange transfusion.

Question 49

Necrotizing Enterocolitis (NEC)

Answer 49

Inflammatory destructive bowel disease that is charaterized by necrosis of colon and ileum caused by intestinal ischemia

Necrosis will cause abdominal distension, sepsis, hypoxemia, respiratory failure, intestinal perforation

Gangrene can also occur

Related to asphyxia in utero

Question 50

Periventricular Leukomalacia (PVL)

Pathophysiology

Answer 50

Occurs in the white matter adjacent to the lateral ventricles

Injury occurs in response to hypotension, ischemia, and necrosis due to asphyxia.

Can also results from increased fluid or hemorrhage compressing arterioles in the white matter.

Question 51

IVH- Intraventricular Hemorrhage
Pathophysiology

Answer 51

Bleeding starts in the germinal matrix (a highly vascular network that matures and gets smaller with gestational age)

Blood fills the ventricles and compresses brain parenchyma

Any factor that increases or decreases cerebral blood flow will cause rupture

Question 52

Acute epiglottitis Vs Laryngotracheobronchitis(croup)

Cause

Answer 52

Croup- Viral (parainfluenza, RSV)

Epiglottis-Bacterial (harmophilius influenze type B)

Question 53

Bronchiolitis

Answer 53

Inflammatory disease of the bronchioles

Most common lower respiratory infection in pediatrics

Most common cause: RSV (Respiratory Syncytial Virus)

Question 54

Sweat Chloride Test

Infants Six Months or Younger

Answer 54

≤29 mmol/L: Normal (CF very unlikely)

30 to 59 mmol/L: Intermediate (Possible CF)

≥60 mmol/L: Abnormal (CF Diagnosis)

Question 55

Sweat Chloride Test

Infants Older than Six Months, Children and Adults

Answer 55

≤39 mmol/L: Normal (CF very unlikely)

40 to 59 mmol/L: Intermediate (Possible CF)

≥60 mmol/L: Abnormal (CF Diagnosis)

Question 56

Sleep Apnea

Answer 56

Cessation of bretahing for 10 sec or longer until the brain over comes the problem

Sleep apnea is diagnosed when there is more than 5 apneas per hour occurring over a 6 hour period

Question 57

How Do Third Degree Burns Heal

Answer 57

The resultant damage heals with hypertrophic scars (keloids) and chronic granulation