Cardiovascular Diseases

Question 1

Cardiovascular Diseases

(5)

Answer 1

1. Acute Coronary Syndrome
2. Congestive Heart Failure
3. Pulmonary Edema
4. Pulmonary Embolism
5. Peripheral Vascular Disease

Question 2

Acute Coronary Syndrome

Definition

Answer 2

A term used to describe a spectrum of clinical presentations which result from impairments in the blood supply to the heart

Conditions include: myocardinal ischemia & myocardial infarction

Question 3

Myocardial Ischemia

(3)

Answer 3

Insufficient blood flow to the myocardium

• Typically presents with angina pectoris - chest pain / pressure due to insufficient blood flow
• When no symptoms are present it is referred to as silent myocardinal ischemia

Question 4

Angina

(3)

Answer 4

Diffuse retrosternal pressure, heaviness, rightness or constriction in the chest caused by reduced blood flow to the myocardium

• Patient may clench their fist over their sternum (Levine sign) - fist or claw
• May radiate to the LT jaw, LT arm, &/or upper back between the scapula

Question 5

What is the Levine Sign?

Answer 5

When a patient may clench their fist over their sternum

Question 6

Angina: Types

(3)

Answer 6

1. Stable Angina
- Precipitated by activities that increase myocardial oxygen demand (ie physical activity, secual activity, emotional stress, cold (vasoconstriction > prevent heat loss by constricting), or lying down in supine (INC venous return = INC preload).
- Relieved by rest or nitroglycerin (NTG) - oral (sublingual) or spray
- Demand > supply

Stress = release of hormones (cortisol & adrenline) > INC BP - vessels vasoconstrict… 2 affects:
1. Peripheral vasoconstriction= INC BP & heart has a harder time pumping out blood because of INC resistance = contracting harder = need fore more O2 > need more energy
2. Coronary arteries constrict = DEC supply of blood to the heart mm = DEC supply of oxygen to heart mm

2. Unstable Angina - Chronic mismatch
- Occurs at rest without any obvious precipitating factors or with minimal exertion
- Not relieved by rest - tissue is still alive but VERY ischemic
- May not be relieved by nitroglycerin (NTG)
- Required immediate medical attention as there is a high risk for myocardial infarction

3. Varient Angina
- Vasospasm of coronary arteries
- Does not respond to NTG

Question 7

Frank-Sterling Law

Answer 7

Frank-Sterling Law

INC EDV = INC SV independent of everything else = greater CO

Question 8

Myocardial Infarction

Answer 8

Death of cardiac mm cells d/t lack of blood flow - tissue death b/c lack of O2 = necrosis

• Caused by a sudden complete occlusion of one or more coronary arteries
• The term injury refers to acutely injured myocardial tissue during a sudden heart attack
• The term infarction referes to myocardial tissue that was injured & progressed to irreversible dead tissue as seen in old heart attacks

Question 9

MI: Evaluation Triad

(3)

Answer 9

1. Symptoms
2. ECG changes
3. Cardiac Biomarkers

Question 10

Symptoms

(7)

Answer 10

1. Angina pectoris
2. Anxiety
3. Diaphoressi (unusal amount of sweating)
4. Dyspnea
5. Dizziness
6. Fatigue
7. Nausea

Question 11

MI: ECG changes

(3 Scenarios)

Electro-cardio-gram

Answer 11

If ischemia (decreased perfusion) is present:
- ST-segment depression
- Inverted T-wave
** Only present while the heart is ischemic

Small acute MI w/ no injury to myocardial tissue:
- No ST-segment change (small = not going to show a visual representation)
- Referred to as non-ST segment elevation myocardial infarction (NSTEMI) or non-Q-wave myocardial infarction (NQMI)

Large acute MI w/ injury to myocardial tissue:
- 1st = ST-segment elevation > once the infract is not acute…
- Pathological Q-wave (hours or days following the acute process)
- Referred to as ST segment elevation myocardial infarction (STEMI) or Q-wave myocardial infarction (QMI) ** May not even have a Q-wave (pathological)

Question 12

MI: Cardiac Biomarkers

(4)

Answer 12

The following cardiac biomarkers found in blood work may determine the presence of a MI:
1. Troponin I
2. Troponin T
3. Myoglobin
4. Creatine kinase - Myocardial Band (CK-MB)

Question 13

MI: Medical Management

(2)

Answer 13

Percutaneous Transluminal Coronary Angioplasty (PTCA)
- Stunt in the artery - keeping the vessel open

Coronary Artery Bypass Graft (CABG)
- Take a vessel from somewhere else in the body - used to pass the coronary artery - this provides a new way to provide blood to the area
Donor Vessels:
- Saphenous vein
- Internal throacic artery
- Radial artery of nondominant arm

Question 14

MI: Medications

(6)

Answer 14

Vital signs will be impacted by these medications

1. Betablockers
   Less energy required by the heart = DEC HR & contractility
2. Calcium Channel Blockers
   DEC BP & prevent smooth mm vasospam
3. Nitrates
   Vasodilator = INC BF to myocardial & less resistance for the heart to overcome
4. Angiotensin-converting enzyme (ACE) Inhibitors
   Inhibit/ prevent vasoconstriction = DEC BP
5. Angiotensin Receptor Blockers (ABR)
   Inhibit vasoconstriction & sympathetic activity = DEC BP
6. Supplemental oxygen
   Myocardium may need more O2 along w/ other organs (muscles)

Common theme = decrease BP

Question 15

MI: Physical Therapy Management -
Goals

(5)

Answer 15

1. Improve exercise capacity (ability to do more work)
2. Improve exercise efficiency (ability to do same work with less cost)
3. Improve exercise tolerance (ability to do same work with less signs & symptoms)
4. Improve self-management
5. Improve quality of life

Question 16

Cardiac Rehabilitation

Definition

Answer 16

A comprehensive exercise, education, & lifestyle modification program designed to optimize physical, psychological, social, and vocational functioning

Beneficial to reduce disability. Not only exercise training but EDUCATION

Question 17

Phases of Cardiac Rehabilitation

(4)

Answer 17

Phase I: Acute/ Inpatient Phase
Phase II: Subacute/ Conditioning
Phase III: Intensive Rehabilitation Phase
Phase IV: Maintenance Phase

Question 18

Phase I: Acute / Inpatient Phase

(5)

Answer 18

• Traditionally begun in the acute hospital or rehab setting
• Role of PT is to prepare for discharge, monitor activity tolerance, support risk factor modification techniques, provide emotional support, build self-efficacy, & educated the patient on how to recognize adverse signs & symptoms w/ activity, and collaborate with other members on the team
• All aspects of education should be initated in Phase I
• Focus on interventions is on assessing hemodynamic responses to activity, & indpendence in functional mobility activities (ie bed mobility, transfers, ambulation, stair climbing, & ADLs)
• Vital signs should be monitored before and after (& during if possible)
• INTENSITY should be low level

Question 19

Phase I: Acute / Inpatient Phase -
LEVELS

(4)

Answer 19

Level 1 (1 METs)
- Patient in ICU & has been medically stable for 24 hours
- Bed rest but allow gentle AROM exercises for upper & lower extremities & DP

Level 2 (2 METs)
- Allow sitting up in a chair for meals, performing ADLs, and walking to the bathroom or inside the rom (up to 50ft) a few times a day

Level 3 (3 METs)
- Ambulate up to 250 ft a few times a day

Level 4 (4 METs)
- Perform ADLs independently & ambulate up to 1000 ft a few times a day
- Allow climbing of 1 flights of stairs

General guidelines & standards for goal setting
Continuum

Question 20

Phase II: Subacute / Conditioning Phase

(2)

Answer 20

• Typically begins after discharge from the hospital in the outpatient setting
• Conditioning exercises are done with close cardiac monitoring

Question 21

Phase III: Intensive Rehab Phase

(2)

Answer 21

• Exercise in large groups
• Resistance training typically initiated in this phase

RT > Phase III

Question 22

Phase IV: Maintenance Phase

(1)

Answer 22

• Patient is encouraged to continue exercise training in a group setting or self-monitored program

Question 23

Education for Patients w/ Heart Disease

List (7)

Answer 23

1. Activity Guidelines
2. Self-Monitoring
3. Symptom Recognition & Response
4. Nutrition
5. Medications
6. Sexual Activity
7. Psychological/ Social Issues

Page 76-77 for more details

Question 24

Congestive Heart Failure

Definiton & Epidemiologu

Answer 24

A syndrome characterized by impairment in the heart pump function (LT or RT ventricle)

Epi:
- Leading cause of cardiac deaths in North America
- Most frequent cardiac diagnosis for hospital admissions
- M>F

Question 25

CHF: Types

(3)

Answer 25

1. Left-sided heart failure
   LT ventricle - trouble pumping into circulation > LT atrium fills > back-up into pulmonary veins (INC pressure) > fluid is going into interstitium > goes into lungs > PULMONARY EDEMA
2. Right-sided heart failure
   ~ cor pulmonale
3. Biventricular heart failure
   LT side failure is so bad > back-up from lungs > pulmonary artery is full (to much pressure) > RT ventricle has to much pressure to overcome > RT side heart failure = symptoms of LT + RT heart failure

Question 26

CHF: Pathophysiology

(5)

Answer 26

1. LHF > DEC SV > DEC LVEDV > INC LV pressure > INC LA pressure > fluid mvmt from veins to interstitial space of lungs (excess hydrostatic pressure) > pulmonary edema
2. LHF > DEC SV > INC SNS activation (compensatory) > INC HR > fatigued myocardium & fail
3. DEC CO > DEC arterial blood flow > DEC perfusion to the kidneys > renal failure
   BUN = blood, urea, nitrogen - will be elevated
4. Inactivity/bed rest > mm wasting, myopathies, osteoporosis
   PT role = INC functional mobility
5. Compensated vs uncompensated
   - Decompensated - severe damage - S/S of CHF
   - Compensated - influenced by something else to get enough CO to the system
6. INC SNS activation = INC HR
7. Medications
8. Hyptertrophy of the ventricle - stronger - results in other problems
9. ** Cognizant not to push the limits of a persons (cardiac dilation) compensated HF = ACUTE heart failure requiring medical attention

Question 27

CHF: Etiology

(7)

Answer 27

1. Cardiac mm dysfunction
2. Cardiac dysrhythmias (altered electrical function - can affect function & exacerbate)
3. Cardiomyopathies
4. Long-term CAD
5. Hypertension
   Harder for LT ventricle to pump against resistance - weaken - fail ““working in overdrive
6. Valve Abnormalities (regurgitation of blood/ backflow)
7. Pericardial pathology - pericarditis (INC pressure against the ventricle)

Question 28

CHF: LT Sided HF -
S/S

(6)

Answer 28

1. Dyspnea - V/Q mismatching, INC RR
2. Fatigue - tissues have less O2 to turn into energy
3. Weakness - tissues have less O2
4. Pulmonary edema
5. Paroxysmal nocturnal dyspnea
   Sudden episodes of SOB @ night > Orthopnea = SOB in recumberant position
   SUPINE - fluid is at an equal level so it is going to spreal all over the lung. Surface area of fluid covered alveoli iis much greater & makes gas exchange more difficult)
6. Orthopnea - semi-fowler: ~30-90 degrees

Question 29

CHF: RT Sided HF -
S/S

(8)

Answer 29

1. Dyspnea
2. Fatigue
3. Weakness
4. Jugular vein distension - HALLMARK OF RHF
5. Peripheral edema
   4-5 - Backflow of fluid. Hydrostatic pressure push fluid into periphery (systemic volume overload) > DEC SV actually signals to kidneys to retain fluid & make issues worse
   Heart is failing & now is getting overloaded w/ fluid
6. Pitting edema
7. Fluid weight gain
8. Ascities - excess fluid in belly area (RT & LT)

Question 30

CHF: Interventions

(6)

Answer 30

1. Positioning to reduce orthopnea - pillow to be in semi-fowler position (30-90 degrees)
2. Relaxed breathing exercises (ie diaphragmatic breathing)
   DEC energy expenditure to breath
3. Supplemental oxygen - low SpO2
4. Graded increased ambulation - progressively
5. Graded exercise (volume & intensity
6. Cardiac rehabilitation program

Question 31

Pulmonary Edema

Definition

Answer 31

An abnormal accumulation of fluid in the lungs

Fluid moves from the pulmonary capillaries > interstitial space > alveolar space

Question 32

Pulmonary Edema: Pathophysiology & Etiology

(4)

Answer 32

1. INC capillary membrane permeability (can change ossmotic pressure)
2. INC capillary hydrostatic pressure
3. DEC capillary osmotic pressure
   Move or keep fluid in - draw fluid to w/e side has the most solutes. Solutes cause the fluids to leave towards a place w/ INC osmotic pressure
4. Lymphatic insufficiency
   Normally drain excess fluid out - not doing a good job pulling that fluid out of intersitium = INC accumulation in the interstitium > moves into alveloar spaces

Question 33

Pulmonary Edema: Types

(2)

Answer 33

Cardiogenic Pulmonary Edema
- High pressure (INC pulmonary capillary hydrostatic pressure)
- Backflow of blood in the system due to kidney, heart mm, or valve damage leading to INC blood accumulation in pulmonary capillaries which INC pulmonary capillary hydrosstatic pressyre
- Ex. LHF

Non-Cardiogenic Pulmonary Edema
- LOW pressure
- INC permeability of the pulmonary capillaries & alveolar endothelium d/t trauma or toxins (altered osmotic pressure)
Draws the fluid out of the capillaries into where osmotic pressure is higher - inside the lungs
- Ex. ARDS
FLUID not secretions - mobilization techniques will not help
Not trying to loosen up anything. Suctioning may help but other techniques will not be used

Question 34

Pulmonary Edema: Clinical Presentation

Answer 34

Inspection:
- Dyspnea
- INC WOB
- Cyanotic - hypoxaemia - DEC diffusion of O2 into the circulatory system
- Orthopnea (SOB in supine)
- **Cough with pink, frothy sputum (cardiogeniic) **
Different from everything else we have seen & ONLY w/ cardiogenic type
- Swelling in lower extremities (gravity - dependent positions)

Palpation:
- Tactile fremitus: Normal or INC

Percussion:
- Dull

Auscultation:
- DEC BS
- Fine inspiratory crackles - fluid
- Egophoney: (-) - no consolidation or excess lung tissue

ABGs:
- DEC PaO2 - less O2 diffused through

CXR:
- Cardiomegaly (INC heart size)
- Enlarged pulmonary vessels
- White fluffy/hazy airspace
- Kerley B lines - short, horizontal lines near pleural surface (base of lungs)

Question 35

Pulmonary Embolism

Defintion

Answer 35

A blood clot that has been lodged in a pulmonary artery
- Commonly associated with DVT in the lower extremities (usually in calf)
- Life-threatening - impede BF & cause lung cell death

Question 36

Pulmonary Embolism: Pathophysiology

(3)

Answer 36

• Pulmonary embolus obstructs blood flow to an area of the lungs
• If blood flow to lung tissue completely blocked, can lead to infarction & necrosis of lung tissue
• Very large embolism can lead to INC pulmonary artery resistance > INC work load of right ventricle > RHF

Question 37

Pulmonary Embolism: Risk Factors

(3)

Same as DVT

Answer 37

1. IMMOBILIZATION (ie post-op) - Venous stasis
2. Secondary INC coagulation (ie oral contraceptions, cancer, polycythemia - thick blood d/t hemoglobin)
3. Other: CHF, Hx of DVT, obesity, pregnancy, stroke, trauma, varicose veins

Question 38

Pulmonary Embolism:
Clinical Presentation

(4)

Answer 38

Inspection:
- ACUTE onset of dyspnea - Hallmark
- INC RR
- Chest pain
- May have cough with bloody sputum (hemoptysis)

ABGs:
- DEC PaO2
- DEC PaCO2
- INC pH
- Respiratory Alkolosis

CXR:
- Infarcted area of lung appears white (rare)

Diagnosed using CT scan or V/Q scan

Question 39

Pulmonary Embolism: Intervention

4+5

Answer 39

Prophylactic Post-Op
- Anti-coagulation medications
- Bed exercises - ankle pumps - NEED to get the person moving
- Early mobilization
- Compression stockings - preventative measure
NOT as a Tx - contraindicated once pt has a DVT > chance to disloge the clot

If PE or DVT is suspectde or confirmed:
- Discontinue exercise & mobilization until further notice
- Notify a nurse or surgeon
- Document
- INC anti-coagulation medications
- Thrombolytic medications

Question 40

Peripheral Vascular Disease

Defintion

Answer 40

• Refers to disorder of the blood vessels of the body (arteries & veins)
• Primarily d/t to atherosclerosis - hardening & narrowing of vessels
• Significant narrowing of vessels must occur before there is enough occulsion of blood flow to produce symptoms

Question 41

PVD: S/S

Answer 41

1. Leg Pain (intermittent claudification)
2. Coldness in affected leg
3. DEC pulses in lower limb
4. DEC mobility & function of limb d/t pain
5. Possible numbness
6. Possible pain & paleness of leg with elevation (Buerger’s test)
7. DEC hair growth (circulatory problem)
8. Skin breakdown - ulcers
9. Ulcerations (arterial & venous insufficiency ulcers)
10. Gangrene (in very severe cases that were not well managed)
    Debride it - if it does not work - amputation

Question 42

PVD: Tests

(2)

Answer 42

1. Buerger’s Test - Elevation Palor
   Pt lying in supine - lift leg up (blood wil rush out - PALE)
   May be painful
2. Dependent Rubor
   When leg is pale - sit up - put leg down level of the body (where leg is in a gravity dependent position) - becomes RED (rubor)

Question 43

Intermittent Claudification

Def & Characteristics (4)

Answer 43

Pain or cramping that occurs in the buttock or legs (especially calves) as a result of poor circulations to the affected area

• INC pain w/ INC activity d/t to increased energy demands on the muscle which has poor circulation
  More anaerobic metabolism > to create ATP & as a result it going to produce a lot of LACTIC ACID = in excess, can cause PAIN
  DEMAND > SUPPLY
• DEC pain at rest (even in standing position)
• Must differentiate between Intermittent Claudification & Neurogenic Claudification (spinal stenosis)
  BOTH complain w/ walking

IC (vascular) vs NC (neuro)
“Bicycle Test” - bend forward FLEXION while leg mm are still working
Differentiate by: manipulating back position while walking
- Stooped posture = will NOT provoke symptoms in NC - IVF is gapped open

Spinal stenosis
- Nerve root is getting compressed when exiting the IVF (DDD, osteophytes, narrowing of the foramen
- Worse in extension

Question 44

Intermittent Claudification: Interventions

(3)

Answer 44

1. Progressive increase activity & aerobic exercise (may be painfuk)
   May stimulate the development of collateral blood vessels
   Graded Exercise (aerobic) = INC tolerance & stimulate the development of collateral blood vessels
2. Education on risk factors & self-management (PVD)
3. Self-assessment of skin & education on skin-care
   Check for ulcers or skin breakdown - infected - may lead to impaired wound healing or amputation

COMPRESSION STOCKINGS ARE CONTRAINDICATED
- Poor BF & will only compress the blood vessels further = make the BF even worse