Pediatric Cardiopulm conditions

Question 1

What postural/ trunk control consequences does weak abdominal obliques have?

Answer 1

1. Passive Lumbar Lordosis
2. Protruding Tummy
3. Lower Rib Flaring
4. Decreased Trunk Rotation
5. Unable to Weight Shift
6. Dependence on Rectus Abdominals

Question 2

What postural/ trunk control consequences does tight pec minors have?

Answer 2

1. Forward Shoulders
2. Scapular pulled laterally and anteriorly, away from thoracic wall
3. Upper Thoracic Flexion

Question 3

What postural/ trunk control consequences does weak serrates anterior have?

Answer 3

Weak upper fibers– medial edge of scapula leaves thoracic wall

Question 4

What postural/ trunk control consequences does decreased active upper thoracic extension have?

Answer 4

1. Kyphotic upper trunk

2. Passive overlengthening of scapular retractors (ineffective length-tension relationship as a result)

Question 5

What postural/ trunk control consequences does decreased rib stability have?

Answer 5

Serratus anterior will elevate the ribs rather than stabilize the scapular against the thoracic wall

Question 6

What respiratory consequences does weak abdominal obliques have?

Answer 6

1. Ineffective cough
2. High Chest
3. Retained horizontal rib alignment
4. Tight rectus leading to pectus excavatum
5. Child may use diaphragm for trunk control, limiting its function as a primary mm of respiration

Question 7

What respiratory consequences does tight pec minor have?

Answer 7

Anterior upper chest cannot adequately expand

Question 8

What respiratory consequences does weak serratus anterior have?

Answer 8

1. Decreased structural reinforcement of the posterior chest wall
2. Interdigitation of the lower fibers of serratus anterior with the external abdominal oblique will interact to affect the dynamic stability of the ri

Question 9

What respiratory consequences does decreased active upper thoracic extension have?

Answer 9

Approximation of the upper ribs decreased upper chest mobility decreased oxygenation of the upper lobe abdominal breathing

Question 10

What respiratory consequences does decreased ribcage stability have?

Answer 10

Decreased structural support for the respiratory muscles to work from

Question 11

What does the soda can model of respiratory and postural control mean?

Answer 11

• Structurally weak, yet functionally strong
• Unopened, very strong because pressure is exerted
• Opened becomes weak; Structural integrity of thorax not inherently strong; Spine and rib cage not able to maintain alignment
• Muscular support is required to help “close the can”
• Thoracic and abdominal chambers separated by diaphragm
• m support allows increases in internal pressure to withstand external forces

Question 12

What muscles, when contracted, can increase thoracic and abdominal pressures?

Answer 12

1. intercostals
2. diaphragm
3. back extensors
4. abdominals (transverse abdominus)

Question 13

What happens when the diaphragm contracts and inspires?

Answer 13

• Diaphragm contracts and central tendon descends; Create negative pressure in the thoracic cavity; Intercostals contract to prevent inward pull of negative pressure
• As diaphragm continues to contract; Abdominal pressure rises; There is equal negative pressure in the thoracic to the positive pressure in the abdominal pressure (absolute value)
• diaphragm plays less recognized role in trunk stability but creates pressure differences in cavities

Question 14

What forms the superior pressure valve?

Answer 14

the glottis

• important for talking and coughing
• If compromised, there is not way to control positive pressure created upon inspiration.
• Impairments in the glottis may result in speech or eccentric motor impairment

Question 15

What forms the inferior support of the “soda can”?

Answer 15

pelvic floor muscles

• If muscles are injured or ineffective, they will allow pressure to be released via the pelvic opening - Urinary stress incontinence; Less productive cough or sneeze
• Muscles are often affected after childbirth - Crossing legs is a compensatory support mechanism; LBP often decreases pelvic floor functioning

Question 16

What internal organs use changes in pressure to augment their function?

Answer 16

1. Lungs and esophagus
2. Heart
3. Lumbar stabilization
4. Gastrointestinal mobility; SCI and CP – why they have troubles with some bowel and bladder – abnormal gradients = inefficiency etc missed some
5. Lymphatic flow
6. Hemodynamic flow
   - Dysfunction of this mechanism - Hypotension, inefficient breathing, bowel and bladder emptying

Question 17

What is the reasons someone can develop pectus excavatum?

Answer 17

1. NM disease
2. Pulm dysfunction
3. Trauma

Question 18

What are S and S of pectus excavatum?

Answer 18

1. Cough, wheeze, decreased stamina, dyspnea, chest pain, throat pain and tightness
2. Parasthesias, heartburn, dizziness/syncope, frequent infections(due to not fully being able to inhale), stridor, muscle cramps
3. Paradoxical breathing – one b reathing pattern that should resolve in a normal child, but if it doesn’;t, may lead to this
4. lower inferior rib flare
5. Significant indentation at xiphoid process

Question 19

What are interventions for pectus excavatum?

Answer 19

1. Surgical - not going to talk about specifics – but would probably follow surgeon’s post-surgical protocol for these; Nuss procedure, Modified Ravitch
2. Conservative/Physical Therapy- Pull sunken anterior chest wall outward and forward (move xiphoid position); Stretch anterior and middle scalenes, sternocleidomastoid, serratus anterior and pec minor; Lower sternum and sunken ribs = Core stabilization

Question 20

CHD in which blood is adequately saturated with oxygen but may be poorly distributed to the body; Blood is shunted from the left side(well O2) to the right side of the heart, rather than going out to the body

Answer 20

Acyanotic

Question 21

CHD in which there is poor oxygen saturation; Includes shunting unoxygenated blood to the body; Blood is shunted from the right side of the heart to the left side, thus blood is unable to be oxygenated by the lungs before being ejected to the body

Answer 21

cyanotic

Question 22

What conditions result in acyanotic heart defects?

Answer 22

1. Atrial Septal Defects
2. Ventricular Septal Defect
3. Patent Ductus Arteriosis
4. coarction of the aorta
5. pulmonary stenosis
6. aortic stenosis

Question 23

What heart defects can cause CHF?

Answer 23

1. Ventricle septal defect (VSD)-opening between the right and left ventricles (Most common)
2. Patent ductus arteriosis (PDA)
3. Atrial septal defect (ASD)

Question 24

Acyanotic CHD resulting in persistent fetal circulation; In many cases of CHD, this may be done intentionally with pharmaceutical intervention to prevent further cardiac damage; Patency is located between the pulmonary artery and the aortic arch, allowing oxygenated blood to flow with unoxygenated blood in the pulmonary artery and go back to the lung

Answer 24

PDA

- Ductus areteriosus remains open (between the pulmonary artery and the aorta)

Question 25

What are symptoms of acyanotic CHD?

Answer 25

1. Pulmonary hypertension
2. Respiratory distress
3. Diaphoresis
4. Fatigue
5. Tachycardia
6. Weakness
7. Restlessness
8. Low BP
9. Cool extremities
10. Blue lips and nail beds
11. Poor feeding (Failure to thrive)

Question 26

What conditions result in cyanotic CHD

Answer 26

1. Tetralogy of Fallot
2. Transposition of the great arteries
3. Tricuspid atresia
4. Hypoplastic Left Heart Syndrome

Question 27

What are the 4 congenital heart abnormalities in the tetralogy of Fallot?

Answer 27

1. Stenosis of the pulmonary artery or pulmonary valve narrowing
2. Right ventricular hypertrophy
3. Enlarged aorta
4. Large VSD - Hole in the septum between right and left ventricles

Question 28

Acute cyanosis, which may be caused by feeding or crying, or may come on without warning

• Symptoms: anxiety, air hunger, respiratory distress, increasing cyanosis and an altered level of consciousness.
• Indicate an urgent need for repair of the heart defect.

Answer 28

Tet Spells

Question 29

What are PT interventions for tetralogy of Fallot?

Answer 29

1. Pre-op and Post-op care - Education on positioning
2. Positioning post surgically - Adult = dependent side-O2 perfusion; Child = up side- O2 perfusion
3. Positioning to encourage age-appropriate activities with lowered metabolic costs
4. Monitored exercise programs
5. Aerobic conditioning
6. Pulmonary Care
7. Post-surgically (after discharge from hospital), children may require physical therapy to assist with achieving age-appropriate gross motor skills

Question 30

Should you use a maximal or sub maximal test when performing an exercise test with pts who have CHD?

Answer 30

submaximal

Record:

• distance ambulated
• RPE
• Dyspnea
• Vital signs before, during and after

Question 31

how is m performance impacted by pulmonary disorders?

Answer 31

Studies indicate those with chronic pulmonary disease have maximal strength measures that are 80% of healthy peers

Question 32

What are airway clearance techniques used in chronic pulmonary disease?

Answer 32

1. Active Cycle of Breathing
2. PEP and oscillatory PEP
3. High Frequency Chest Wall Oscillation
4. Intrapulmonary Percussive Ventilation (vest)

Question 33

Asthma is increased amongst those of _______ ethnicity. Does it affect boys or girls more often?

Answer 33

Black and multiracial (non-hispanic); boys 2:1

- medical mngt = albuterol or anticholinergic (SNS) inhalers + corticosteroids (decr inflammation)

Question 34

What is the clinical presentation of CF?

Answer 34

1. Productive cough
2. Abnormally frequent and large stools
3. Failure to thrive
4. Recurrent pneumonia
5. Rectal prolapse – related to abnormally large stools
6. Nasal polyposis
7. Clubbing of the digits

Question 35

What does PT examination of CF include?

Answer 35

1. Assessment of effective cough
2. Auscultate for secretions
3. Strength
4. Aerobic Fitness – these are all Sub-max exercise tests: 6MWT, Step Test, Modified Shuttle Walk
5. Posture - Pec, pec minor, poor diaphragm b rewathing, abdominals
6. Chest Wall mobility