Week 2 Flashcards

Question 1

Q

What is the epidemiology of HTN?

Answer

A

HTN is the leading risk factor for CVD mortality (13% of global deaths)
Only about half % of people with HTN are compliant with medications
Leading cause of CVD worldwide
“Silent killer” often asymptomatic even at extremes

Question 2

Q

What kind of disabilities increases the chances of a patient getting HTN?

Answer

A

Mobility limitation
Cognitive limitation
Vision limitation
Hearing limitation

Question 3

Q

What are the fast mechanisms for the regulation of fast BP?

Answer

A

Baroreceptor located primarily in the Aortic Arch and Carotid Sinuses

Question 4

Q

What are the slow mechanisms for the regulation of fast B

Answer

A

• Renin-Angiotensin System (Kidneys)
• Natriuretic peptides (ANP in the atria and BNP in the ventricles) (Heart)
- Act as a counter to RAAS system. released from heart

Question 5

Q

How does the regulation of arterial blood flow work?

Answer

A

• Sympathetic neural activity: norepinephrine (norEph)
- Goal is to redistribute blood to areas of need, more global
- Arterioles are innervated by sympathetic, which release norEph
- norEph binds to alpha-1 receptors causing vasoconstriction
• Circulating epinephrine
• Circulating hormones: angiotensin II
• Local metabolites: prostaglandins
• Mechanical Factors: muscle contraction, vessel stretch (CA2+ influx)

Question 6

Q

What does circulating epinephrine bind to?

Answer

A

Beta 2 receptors located in arterial cells. Beta 2 receptors dilate blood vessels, bu they aren’t that many of them

Question 7

Q

What do local metabolites cause in working muscle?

Answer

A

They cause vasodilation to the working tissue which will allow us to deliver more blood flow, and oxygen and to get rid of waste

Question 8

Q

What is functional sympatholysis?

Answer

A

How our body regulates BP during exercise

Question 9

Q

What is functional sympatholysis tightly related to?

Answer

A

The endothelial function, if there is impaired endothelial tissues in the blood some of the function of the functional sympatholysis can be impaired

Question 10

Q

What is hemodynamics?

Answer

A

Blood flow parallels Cardiac Output

CO = HR X SV

Question 11

Q

How do you find CO?

Answer

A

Driving pressure divided by resistance to flow.

Or

(MAP-CVP) divided by total peripheral resistance (TPR)

Question 12

Q

What are the things that affects BP within blood vessels?

Answer

A

Radius
Viscosity (hematocrit)
Length of vessel
Resistance

Question 13

Q

Though our larger vessels can undergo larger changes in diameter, the bulk of the resistance in our bodies is in the _____

Answer

A

Though our larger vessels can undergo larger changes in diameter, the bulk of the resistance in our bodies is in the *micorvasculature (smaller vessels), which is why its so important to maintain normal endothelial function in that tissue

Question 14

Q

What is the role that the PT plays to reduce the risk of hypertension?

Answer

A

Exercise
Education
Interdisciplinary communication

Question 15

Q

What is the mean arterial pressure for the regulation of BP using baroreflex/baroreceptors?

Answer

A

85 to 100mmHg in adults

Question 16

Q

What do baroreceptors respond to?

Answer

A

Stretching of the arterial wall

Question 17

Q

What are the characteristics of baroreceptors responding to stretching of arterial walls?

Answer

A

Negative feedback loop with the Vagus and Glossopharyngeal nerves
Arterial pressure suddenly rises, the walls of these vessels passively expand, increases the firing frequency of receptor action potentials.
If arterial blood pressure suddenly falls, decreased stretch of the arterial walls leads to a decrease in receptor firing.

Question 18

Q

In the regulation of BP using baroreceptors, what pressures do carotid sinus receptors respond to?

Answer

A

Pressures ranging from 60-180 mmHg

Question 19

Q

What is the difference between aortic arch receptors and carotid sinus receptors in the regulation of BP with the use of baroreceptors?

Answer

A

Aortic arch receptors have a higher threshold pressure and are less sensitive than the carotid sinus receptors

Question 20

Q

What is renin?

Answer

A

An enzyme that is released into the circulation by the kidneys due to the detection of low blood flow through the arteries

Question 21

Q

What is the release of renin stimulated by?

Answer

A

• Sympathetic nerve activation (acting
through β1 -adrenoceptors)
• Renal artery hypotension (caused by systemic hypotension or renal artery
stenosis)
• Decreased sodium delivery to the distal tubules of the kidney

Question 22

Q

What is an essential hypertension?

Answer

A

Interaction between environmental factors and genetics. Accounts for 95-99% of cases

Question 23

Q

What is a secondary hypertension?

Answer

A

Result of some biochemical or mechanical pathology, potentially reversible

Question 24

Q

What are the contributors to HTN?

Answer

A

Diet…Salt Sensitivity
Inactivity
Obesity
Abnormalities of the adrenal cortex
Sleep Apnea
Sympathetic Nervous System Activity
Kidney Disease
Congenital Vascular Disorders
Recreational Drugs and Alcohol

Question 25

Q

What are the normal BP values for adults?

Answer

A

Systolic: 100-120mmHg

* Diastolic: 60-80mmHg

Question 26

Q

How does the RAAS system work?

Answer

A

Renin is released from the kidneys due to a number of possible causes
Renin interacts with angiotensinogen with is released from the liver
Angiotensinogen converts renin to angiotensin 1
Angiotensin 1 travels through blood flow to the lungs, and interacts with angiotensin converting enzyme, which converts angiotensin 1 to angiotensin 2

Question 27

Q

What are some causes for the release of renin?

Answer

A

SNS activity

- Low perfusion of the juxtoglomerular apparatus

Question 28

Q

What is angiotensin 2?

Answer

A

A potent vasoconstrictor that also works to increase fluid retention. And may also facilitate further SNS activity

Question 29

Q

What is aortic coarctation?

Answer

A

A congenital narrowing of the aorta

Question 30

Q

What is the “ideal” BP?

Question 31

Q

What is elevatedd BP?

Answer

A

SBP: 120–129 mm Hg
DBP: <80 mm Hg

Question 32

Q

What is HBP (hypertension) stage 1 BP?

Answer

A

SBP: 130–139 mm Hg
DBP: 80–89 mm Hg

Question 33

Q

What is HBP (hypertension) stage 2 BP?

Answer

A

SBP: ≥140 mm Hg
DBP: ≥90 mm Hg

Question 34

Q

What is an hypertensive crisis BP, where emergency care is needed?

Answer

A

Higher than 180 or higher than 110

Question 35

Q

What is a hypertensive urgency?

Answer

A

A patient with elevated pressures with BP > 180/110 and they show no signs of organ damage

Question 36

Q

What is a hypertensive emergency?

Answer

A

A patient with elevated pressures with BP > 180/120 and they show signs and symptoms of organ damage

Question 37

Q

What are the signs of a hypertensive urgency?

Answer

A

Headache (22%)
Epistaxis (Nose Bleed) (17%)
Faintness/SOB (10%)
Agitation/Anxiety (10%)

Question 38

Q

What are the signs of a hypertensive emergency?

Answer

A

Chest pain (27%)
Dyspnea (22%), and
Neurological deficit (21%)

Question 39

Q

What are the common end-organ damage associated with HTN emergencies?

Answer

A

Acute pulmonary edema
Acute left ventricular dysfunction
Acute coronary syndrome (including acute myocardial infarction).
Cerebral infarction
Hypertensive encephalopathy

Question 40

Q

In very severe cases of elevated pressure, we can see acute hypertensive nephrosclerosis, what is it?

Answer

A

An acute injury to the kidneys which occurs typically when pressures exceed 300/150 mm Hg

Question 41

Q

What is hematuria?

Answer

A

The kidney demonstrates focal small hemorrhages, resulting in blood in the urine. (more common)

Question 42

Q

What is another way to assess BP?

Answer

A

Pulse pressure

Question 43

Q

What is pulse pressure?

Answer

A

The value retrieved when you subtract systolic BP - diastolic BP (SBP-DBP)

Question 44

Q

What is normal pulse pressure?

Answer

A

~40-60mmHg

Question 45

Q

Why might pulse pressure be a better predictor of CV risk than SBP?

Answer

A

• Low: <40mmHg may indicate pulse narrowing
• Elevated: >60mmHg PP associated with higher CVD morbidity and mortality rates.
• More reflective of microcirculation dysfunction
• Mechanism may be due to endothelial damage from large oscillations in pressure
each cardiac cycle.

Question 46

Q

How is heart rate assessed?

Answer

A

By palpation or ECG

Question 47

Q

What is normal heart rate in normal adults?

Answer

A

60-100bpm adults

Question 48

Q

What is higher resting heart rate independently associated with?

Answer

A

Increased risks of all cause and cardiovascular mortality

• Risk of all-cause and cardiovascular mortality increases by 9% and 8% for every
10 beats/min increment of resting heart rate.
• Especially HR >90

Question 49

Q

Is HR higher in children or in adults and why?

Answer

A

Higher in children, because their heart is not fully developed yet and doesn’t do so until the age of 12

Question 50

Q

What is brachial BP?

Answer

A

Standard BP measurement on the upper arm

Question 51

Q

What are some errors with brachial blood pressures?

Answer

A

• Brachial BP may not accurately reflect central pressure
• A lot of cuffs underestimate systolic and over estimate diastolic
- Better than NOT taking though
• Static/Rest BP is only a snap shot, doesn’t reflect response to load
- Though the more often we take, the better it helps clarify patients normal hemodynamics and aids medical assessment
- Exercise is when adverse events happen
• Might be best to assess response to low to moderate exercise
- Unmasks masked HTN, identifies hyper/hypo responders
- This should be a component of all exams

Question 52

Q

What are some confounding variables with taking a BP?

Answer

A

• Ambulatory (ABPM) vs home readings (HBPM)
- Every 20min vs 4 times per day, ABPM found to be more accurate however expensive.
• Normal Diurnal variation (Higher in AM vs PM)
- Most people demonstrate a 10%–20% decrease in BP during the evening
• Masked HTN
- Normal office blood pressure and elevated out-of-office blood pressure
• White Coat Syndrome
- Elevated BP in clinic (140/90mmHg) despite normal ABPM or HBPM
• Reading Errors

Question 53

Q

What can a full bladder do to BP?

Answer

A

Make BP appear higher by 10-15 mmHg

Question 54

Q

What can an unsupported back do to BP?

Answer

A

Make BP appear higher by 5-10 mmHg

Question 55

Q

What can an unsupported feet do to BP?

Answer

A

Make BP appear higher by 5-10 mmHg

Question 56

Q

What can crossed legs do to BP?

Answer

A

Make BP appear higher by 2-8 mmHg

Question 57

Q

What can an unsupported arm do to BP?

Answer

A

Make BP appear higher by 10 mmHg

Question 58

Q

What can a cuff over clothing do to BP?

Answer

A

Make BP appear higher by 10-40 mmHg

Question 59

Q

What can a patient talking or having a conversation do to BP?

Answer

A

Make BP appear higher by 10-15 mmHg

Question 60

Q

What are the normal results of BP when a patient is in pain?

Answer

A

Systolic BP increases by 15-25mmHg
Diastolic BP increases by 10-20mmHg

Values greater than normal considered to
be “hyper-reactive”. Hyper-reactors have increased risk of developing HTN

Question 61

Q

What are the characteristics of chronic pain and hemodynamics?

Answer

A

• Diminished tolerance to painful stimuli
• Reduced blood pressure response and baroreflex to painful stimuli
• Higher (HR) than healthy subjects at baseline and to painful stimuli
• Lower parasympathetic and increased sympathetic activity.
- Significantly lower HRV
• Increased prevalence of HTN

Question 62

Q

Why is exercising BP better?

Answer

A

Resting BP not necessarily indicative of true BP

* Response to exercise may be more useful

Question 63

Q

What is a hypertensive response?

Answer

A

Exaggerated hemodynamic response to exercise at maximal efforts
(SBP) >220mmHg for men; >190mmHg for women.
(DBP) >10 mmHg or >90 mmHg

Question 64

Q

What are the characteristics of a hypertensive response?

Answer

A

• Demonstrated in normal and patients with HTN
- Even with well controlled resting BP.
- Can be predictive of future HTN diagnosis
• However can be demonstrated at even low to moderate intensities (3-5METs)
- May be useful for the unmasking of HTN in clinical settings

Answer 64

A

10 mmHg/met systolic

0- 10 mmHg/met diastolic

Answer 65

A

• LowExBP was associated with increased risk regardless of clinical presentation
exercise mode or exercise intensity (moderate or max)
• 10 mmHg decrease in exercise SBP was associated with higher risk for fatal and
non-fatal cardiovascular events and all-cause mortality.
- An earlier (<5min) the decrease may be worse

Answer 66

A

• Pulse pressure (PP=SBP-DBP) might be a better predictor of CV risk than SBP
• Elevated >60mmHg PP associated with higher CVD morbidity and mortality rates
• Mechanism may be due to endothelial damage from large oscillations in pressure
each cardiac cycle.
• More reflective of microcirculation dysfunction

Answer 67

A

• The results of BP testing, specifically Pulse Pressure may provide direction for risk assessment and/or the management of patients across populations.
• Elevated Pulse Pressures have been associated with increased arterial stiffness
and the development of atherosclerosis.
• Vascular profiling may enhance the risk assessment and clinical reasoning process for manual therapists.

Answer 68

A

• Past history of trauma to cervical spine
/ cervical vessels
• History of migraine-type headache
• Hypertension
• Hypercholesterolemia / hyperlipidemia
• Cardiac disease, vascular disease, previous cerebrovascular accident or transient ischemic attack
• Diabetes mellitus
• Long-term use of steroids
• Blood clotting disorders / alterations in blood properties (e.g. Anticoagulant Rx)
• History of smoking
• Recent infection
• Immediately post partum
• Trivial head or neck trauma Absence of a plausible mechanical explanation for the patient’s symptoms.

Answer 69

A

Proceed with usual care
• Contact PCP
• Monitor closely

Answer 70

A

Hold resistance exercise, consider aerobic
exercise
• Contact PCP
• Monitor closely

Answer 71

A

Hold Exam
• Examine for organ damage
• Contact PCP
• Consider contacting EMS/911

Answer 72

A

• Acutely lower blood pressure in an “asymptomatic” (ie not in crisis) patient with
elevated BP
• The cutoff scores for aerobic exercise is 180/110
• Try low grade exercise 5-10minutes, monitor response and recovery
• Effects can last long enough and gives you a reflection on appropriateness for therapeutic interventions
• Use your judgement to manage each case, if you don’t feel comfortable contact referring provider.

Answer 73

A

• Improves strength comparable to concentric training.
• Lower RPE, SVR, oxygen consumption, Cardiac Index, peak SBP and HR at similar workloads to concentric.
• May increase muscle soreness more
than CON training

Answer 74

A

• Patients neck pain with CVD are at greater potential risk for adverse events following cSMT
• Thoracic manipulation is an effective
intervention for neck pain
• Very little response to hemodynamics or
autonomic system
• Does not involve perturbation to cervical
arteries or carotid sinus

Answer 75

A

• Physical Activity Readiness Questionnaire (PARQ)
  - Easy to use, Medicare
• Duke Activity Status Index (DASI)
  - Predictive for Mortality
  - Related to Peak VO2
• AHA/ACSM Physical Questionnaire
  - Easy to use, Fitness Industry
• Questionnaires can be effective for investigating heath history in PT practice

Answer 76

A

Disease and dysfunction to the myocardium and blood vessels, includes numerous problems, many of which are related to a process called atherosclerosis. Defined by the presence of stenosis which impairs blood flow, flow limiting lesion.

Answer 77

A

Atherosclerosis
Thrombo-embolism
Vasculitis

Answer 78

A

• Gender (Male>Female)
• Age
  - Male >40
  - Female >50 (post menopause)
• Race (African American or Asian)
• Family History: 1st degree blood relative that has had coronary heart disease, stroke or heart attack before the age of 55 for males or 65 for females

Answer 79

A

• Hypertension
• Tobacco use
• Elevated blood glucose (IFG/diabetes)
• Physical inactivity
  - 150min/week Moderate (3-6METs)
  - 75min/week Vigorous (<6METs)
• Overweight and obesity
  - Overweight BMI 25-29.9
  - Obese BMI >30
• Cholesterol/lipids
  - Total <180 mg/dL is considered optimal.
  - HDL 40-60mg/dL
  - LDL 100-129mg/DL

Answer 80

A

The hardening of the arteries.

Answer 81

A

A dynamic chronic inflammatory condition

Answer 82

A

• Slow, progressive disease
• Starts in 2nd &amp; 3rd decade of life
• Very long incubation period
• Often undetectable
  - Even with moderate to high grade 
• Initially Plaques are sparsely distributed
• Increase in number and size over time
• Can affect any artery

Answer 83

A

• EC normally produce antithrombotic molecules that prevent blood clots.
• EC modulate the immune response by resisting leukocyte adhesion and therefore inhibiting inflammation.
• Laminar shear stress favors leads to
- NO production
- Kruppel Like Factor 2 (KLF-2); mediates the immune response, prevents deposition
- ++ Superoxide Disumutase (SOD) protects against reactive oxygen species (ROS).
• Branch points are subjected to turbulent flow and tend to lack these effects.

Answer 84

A

EC can also produce prothrombotic molecules.
• In response to injury or infection,
• EC secrete chemokines and produce cell surface adhesion molecules

Answer 85

A

Characterized by lipid-filling smooth muscle cells

* Potentially reversible

Answer 86

A

• Lipoproteins transport/deposits LDLs into the arterial intima
• Fatty streak is covered by collagen and calcium deposits forming a fibrous plaque
that appears grayish or whitish
• Result = Narrowing of the vessel lumen

Answer 87

A

Continued inflammation can result in plaque instability, ulceration, and rupture.
Lipid core is exposed to the blood stream, platelets accumulate, and thrombus forms.
Result = Narrowing of lumen or thrombo embolotic event

Worse in younger people

Answer 88

A

Endothelial dysfunction
Inflammatory process involving many cellular markers within the lesion
Deposits of fatty streaks initiating event
Lesions occur in large and medium sized vessels
Maybe present throughout a person’s life-time

Answer 89

A

Calcification of atherosclerotic plaque
Rupture or ulceration
Hemorrhage into the plaque -> further narrowing
Embolization
Weakening of the vessel wall -> aneurysm

Answer 90

A

In the intima

Answer 91

A

Intima
Media
Adventitia

Answer 92

A

Inc Adhesiveness of the endothelium (Inc expression of vascular cell adhesion moleculesfor leukocytes, T cells, platelets and inc to oxidized LDL).
Macrophages engulf oxidized LDL and become foam cells
Endothelium becomes procoagulant vs. anticoagulant and local adhesion of the above molecules is associated with secretion of cytokines and growth factors
Transmigration of molecules (e.g., leukocytes) into the wall

Answer 93

A

Endothelial function

Answer 94

A

Branches of the iliac arteries
Popliteal arteries
Carotids, especially where they branch
Left subclavian artery
Coronary artery

Answer 95

A

A slow and progressive circulation disorder

caused by narrowing, blockage, or spasms in a blood vessel.

Answer 96

A

Arteries (PAD)
Veins (CVI)
Lymphatic vessels

Answer 97

A

Branches of the iliac arteries
Popliteal arteries
Carotids, especially where they branch
Left subclavian artery
Coronary artery

Anywhere we see branches or turbulent flow

Answer 98

A

Intermittent claudication most common symptom but many patients are asymptomatic or have atypical symptoms
Pallor on Elevation
Dependent Rubor
Impaired capillary refill
Impaired Peripheral Pulses
Affected limb may show signs of cyanosis
Feel cool to the touch
Numbness or tingling reported in affected area
Skin may appear shiny, thin, pale, and hairless.
Nails become thickened and brittle.

Answer 99

A

Predictable time and intensity, reproducible, doesn’t change with posture,
Location of the diseased artery determines location of claudication.
Walking test

Answer 100

A

Insufficient arterial pressure to perfuse when leg elevated above level of heart.
Limb drains of blood turns pale (palor)

Answer 101

A

Blood pooling in maximally dilated capillary bed

Answer 102

A

Ankle-Brachial Index (ABI)

Answer 103

A

Pt in supine position
Measure brachial artery pressure using a Dopplar US
Apply same BP cuff to the ankle on the same side of the body
Palpate for the posterior tibial (PT) artery and take SBP reading.
Palpate for the dorsalis pedis (DP) artery and take pressure there.
Apply BP cuff to the opposite ankle and obtain Post Tib & DorPed pressures.
Repeat on the other arm

Answer 104

A

Normally ankle BP is as high as brachial, and thus ABI ≥ 1
ABI ≤ 0.9 is diagnostic of PAD
ABI 0.5 – 0.8 are found in patients with claudication
ABI < 0.5 indicates critical ischemia
An ABI of 0.9 or lower has a specificity of 83% to 99% and a sensitivity of 69% to 73% in detecting stenoses greater than 50%
The sensitivity of an ABI less than 1.0 approaches 100%

Answer 105

A

Under 2 secs

Answer 106

A

Sound made by turbulent flow vibrating against arterial wall

Answer 107

A

The presence of an arterial lesion/plaque

Answer 108

A

Causes the arterial wall to vibrate during systole

Answer 109

A

High risk individuals should be examined for PAD and AAA.
Important to monitor hemodynamics during exercise.
Patients with intermittent claudication usually have some sort of walking impairment that has shown to significantly improve with exercise training.
Exercise training has shown to be as effective as surgical interventions in reducing symptoms and improving walking distances.
Patients should be instructed in proper foot care, footwear, and hygiene
Might improve nocturnal pain by elevating head of bed slightly

Answer 110

A

The delayed bounce back when the skin is pulled

Answer 111

A

In dehydrated patients this return to the resting position is delayed.
May also observe hypotension, tachycardia, orthostasis, irregular heart rate and ECG

Answer 112

A

The transient impairments in perfusion that causes claudication during walking is also the stimulus for many of the favorable changes
For this reason, exercises that use muscles that do not result in claudication pain may not be beneficial for improving claudication symptoms
For more severe cases: Arm ergometry also improves walking performance.
Leg strength training improves walking time, although not as much as treadmill exercise training does.
Interval training with short rest periods for relief of claudication is most effective.

Answer 113

A

Exercise at least 3 x/week
Initial workload/intensity should induce claudication within 3-5 min
Continues at this workload until the pain is of mod severity (5/10)
Rest to allow the symptoms to resolve
Repeat exercise-rest-exercise cycle several with a goal of 30-35minutes for maximum benefits

Answer 114

A

Vasospasm causing reduced blood flow

Answer 115

A

More common in women, onset usually 15-
30, more typical in cold climates, family Hx,
no underlying disease

Answer 116

A

Less common but more serious. S&S usually appear later than primary, around age 40
Sceleroderma, Lupus, RA, repetitive trauma, smoking, atherosclerosis

Answer 117

A

Rare, could result in permanent hypoperfusion of digits

Answer 118

A

Localized abnormal dilation by at least 50% compared to normal.

Answer 119

A

According to cause, size and shape

Answer 120

A

Athreosclerosis, congenital infections, Marfans

Answer 121

A

• Cardiovascular disease and Risk factors for CVD
  - Especially smoking
• Male
• Genetics (marfans)
• 40-60 yr old
• Hypertension prevaleny

Answer 122

A

Small, spherical, 1-1.5 cm.

* Most common in brain tissue

Answer 123

A

Gradual more progressive

Answer 124

A

Blood filled channel within aortic wall

Answer 125

A

• Dull, tearing ache/pain in low back, groin
or mid abdominal left flank
• Chest Pain
• Weakness or transient paralysis of legs
• Palpable, pulsating (heart beat) adominal
mass >3cm
• Inter-arm systolic blood pressure
difference >20 mm Hg was an independent
predictor of AAD, with a positive predictive value of 98%
• Absent or decreased peripheral pulses aka
Pulse Deficit
• Tachycardia

Answer 126

A

• Relax the abdominal muscles completely
- Flex the hips and support head and legs w/ a pillow
• Start just left and superior to the umbilicus
• Apply firm pressure with flattened fingers of both hands.
• To measure width, place one index finger on either side
of the aortic pulse.
- To find each edge, Feel for the strongest pulse on either side then slightly back off.
- It is easier to palpate one side at a time.
- Each systole should move the fingers apart
• Obese individuals and those with massive abdominal musculature, it may be impossible to detect
• Width >2.5cm (approx 2 finger widths) warrant further medical examination

Answer 127

A

A condition that occurs when the vein wall and/or valves in the leg veins do not work effectively, which impairs the ability for blood to return to the heart from the legs, resulting in venous-stasis

Answer 128

A

Superficial, (lesser and greater saphenous)
Deep, (anterior and posterior tibial, peroneal, popliteal, deep femoral, superficial femoral, and iliac veins)
Perforating or communicating veins

Answer 129

A

Vein wall degeneration, post-thrombotic

valvular damage, chronic venous obstruction, or dysfunction of the muscular pumps.

Answer 130

A

A clinically apparent increase in the interstitial fluid volume

Answer 131

A

When Starling forces are altered so that there is increased flow of fluid from the vascular system into the interstitium.

Answer 132

A

Due to Increase in capillary pressure usually results from an elevation of venous pressure caused by obstruction to venous and/or
lymphatic drainage.

Answer 133

A

Heart failure, Hypo-albumenia, nephrotic syndrome, Cirrhosis, sepsis

Answer 134

A

Musculoskeletal Injury, DVT

Answer 135

A

In chronic cases

Answer 136

A

1+: Barely detectable impression when finger is pressed into skin.
2+ : Slight indentation. 15 seconds to rebound
3+: Deeper indentation. 30 seconds to rebound.
4+: > 30 seconds to rebound.

Answer 137

A

• Exercise increases muscle pump for
venous return and kidney function to
clear fluid
• Short walks with occupations involving prolonged sitting, weight shift in standing
• Elastic pressure stockings (effective up to knee- don’t need to go above the knee)
• Compression pump
   - below DBP, 90sec on:30sec off
(Generally)
• Unna boot 
• Edema massage helps prevent pitting
edema, which increases likelihood of
wounds

Answer 138

A

• Semirigid dressing, layered application
from 1st metatarsal to below tibial
tubercle.
• Cast dries 1h, wear 7 days. Muscle
contracts and presses against rigid Unna
boot to force fluid proximally

Answer 139

A

Uncompensated CHF, untreated infection or cellulitis, active cancer (check with MD), renal failure, and severe pulmonary problems

Answer 140

A

A persistent discontinuity in the integrity of skin despite sufficient time for healing

Answer 141

A

Maleolar location (usually Medial)
Irregular margins
Hemosiderin staining (browning)
Varicose veins and pitting edema

Answer 142

A

Doral or Distal location (toes)
Sharp margins
Painful
Pallor, loss of hair, nail dystrophy
Lateral malleolus

Answer 143

A

• Plantar location
  - Metatarsal heads (especially 2nd ), sole of
foot, balls of toes
• “Punched Out” margins, usually
correspond to pressure point
• Insensate, patient often diabetic with
peripheral neuropathy
• May have arterial insufficiency S/S
• In patients with diabetes

Answer 144

A

• Pain due to vascular causes increases with workload
• Neurogenic pain not affected by workload but by posture
• Edema typical with venous or lymph pathology not usuallu arterial
• Pain: ask about TYPE and LOCATION
- Intermittent claudication
- Pain increases with elevation and decreases with dependence arterial disease

Answer 145

A

• Cramping type pain, due to ischemia, better with rest- not typically “burning”
• Usually in calves, although can be thigh or buttock
• Pain correlates with area of obstruction: hip and buttock= aorto-iliac occlusion, thigh
pain=iliofemoral occlusion, prox 2/3 calf- superficial femoral artery, distal 1/3calf=
popliteal artery, foot= tibial artery

Answer 146

A

Active cancer (treatment within last 6 months or palliative) (+1)
Calf swelling >/= 3 cm compared to asymptomatic calf (measured 10 cam below tibial tuberosity) (+1)
Swollen unilateral superficial veins (non varicose, in symptomatic leg) (+1)
Unilateral pitting edema ( in symptomatic leg) (+1)
Previously documented DVT (+1)
Swelling of entire leg (+1)
Localized tenderness along the deep venous system (+1)
Paralysis, paresis or recent cast immobilization of lower extremities (+1)
Recently bedridden >/= 3 days or major surgery requiring regional or general anesthetic in the past 12 weeks (+1)
Alternative diagnosis at least as likely (-2)

Answer 147

A

• Score >2.0 — High (probability 53%])
• Score 1.0 to 2.0 — Moderate (probability 17%)
• Score <2.0 — Low (probability 5%)
• D-Dimer may be used in either case to
rule in/out DVT
• Moderate to High risk a vascular ultrasound is indicated

Answer 148

A

• Clinically suspected DVT — 3.0 points
• Alternative diagnosis is less likely than
PE — 3.0 pts
• Tachycardia (heart rate > 100) — 1.5 pts
• Immobilization (≥ 3d)/surgery in previous four weeks — 1.5 pts
• History of DVT or PE — 1.5 pts
• Hemoptysis — 1.0 pts
• Malignancy (with treatment within 6 months) or palliative — 1.0 pts

Answer 149

A

• Score >6.0 — High (probability 59%)
• Score 2.0 to 6.0 — Moderate (probability
29%)
• Score <2.0 — Low (probability 15%)
• Score > 4 — PE likely. Consider diagnostic
imaging.
• Score 4 or less — PE unlikely. Consider D-dimer to rule out PE

Answer 150

A

• Angina Pectoris
 - Stable Angina
 - Variant Angina
 - Unstable Angina
 - Silent Ischemia
• Myocardial Infarction

Answer 151

A

A condition of imbalance between myocardial O2 supply and demand often caused by atherosclerosis of the coronary arteries

Answer 152

A

Chest pain or discomfort caused due to cardiac ischemia

Answer 153

A

Heaviness, tightness, pressure
Discomfort gradually builds
Gradually subsides
Episode Lasts (1-15 minutes)
Often confused with digestive disturbances

Answer 154

A

Stable
Unstable
Printzemental

Answer 155

A

• Discomfort gradually builds
• Occurs with exercise at a
predictable and consistent intensity
• Gradually subsides with rest
• Typically Lasts (2-5 minutes)
• Rarely more than 5-10 mins
• Improve with nitroglycerin

Answer 156

A

• Recent or acceleration of angina
threshold; New onset < 2 months
• Symptoms at rest > 15-20 minutes.
• Gradually worsens in a crescendo-like pattern
• May not respond to Nitro or Rest
• Often precursor to MI

Answer 157

A

• Elderly patients: More likely to present with atypical symptoms (SOB, AMS).
• Diabetics: May not be able to accurately sense or describe pain
• Women: More commonly report nausea, emesis, jaw pain, neck pain, and back pain.
• The presence of multiple prescription medications, drugs, and alcohol will
also alter the patient’s ability to perceive discomfort.
• Cultural differences and language barriers.

Answer 158

A

Cell death in the heart muscle caused
by complete and prolonged occlusion
of a coronary artery

Answer 159

A

Exercise, Cold weather (increased vascular resistance), mental/emotional stress, spontaneous changes in HR and BP

Answer 160

A

Impaired aortic driving pressure, increased coronary resistance

Answer 161

A

Insufficient or no ATP delivered to break cross myofilament cross-bridge

Answer 162

A

• Patients frequently misinterpret the origin of visceral pain, as it is often referred to a
different area of the body.
- Ex“: Shoulder pain and myocardial ischemia
• Stimulation of visceral or somatic pain fibers results in two distinct pain syndromes.
• Somatic Fibers
- Usually easily described, precisely located, and usually experienced as a sharp sensation,
• Visceral pain fibers
- internal organs, such as the heart and blood vessels, the esophagus, and the visceral pleura,
- enter the spinal cord at multiple levels and
- Map to areas on the parietal cortex corresponding to the cord levels shared with somatic fibers.
- more often described as discomfort, heaviness, or aching.
• Pain from visceral fibers is more difficult to describe and is imprecisely localized.

Answer 163

A

Sudden death

Answer 164

A

Unstable angina
ST elevation myocardial infarction
Non ST elevation myocardial infarction

Answer 165

A

Classically seen in a person with myocardial infarction, because the cell membrane potential in the myocardium has been completely altered, which then alters the conductive properties of the heart which is reflected in the ECG on the ST segment

Answer 166

A

Flipped T wave
Potentially ST depression
Elevation in biomarkers

Answer 167

A

When there is only a depression in the ST segment. The person may only be ischemic

Answer 168

A

Using a biomarker assay, looking specifically at Troponin I and T.

Ischemic infarctions are reversible

Answer 169

A

<0.1 - 0.4 ng/ml

Answer 170

A

An inhibitory subunit

Answer 171

A

Tropomyosin- binding subunit

Answer 172

A

0-0.4 ng/ml

Answer 173

A

Elevation within 4 to 8 hrs after coronary artery occlusion, peak between 12 to 24 hrs and return to normal between 3 and 4 days

Answer 174

A

Elevations detectable as early as 2 hrs after MI, but not reliably elevated in all patients until 6 to 12 hrs

Answer 175

A

Wait for 2 consecutive downtrending values before initiating PT

Answer 176

A

Associated with exertion
Radiation to the left arm
Described as pressure

Answer 177

A

Described as positional
Described as sharp
Reproducible with palpation (easiest way)
Not associated with exertion

Answer 178

A

Age/sex: Men >55y/o; Women > 65 y/o (1)
Known Vascular Disease (CAD, (1)
Cerebrovascular Disease) (1)
Pain worse with exercise (1)
Pain not elicited with palpation (1)
Patient assumes pain is of cardiac origin (1)

Answer 179

A

Score +LR -LR
0 to 1 point 1.09 0
2 to 3 points 1.83 0.003
4 to 5 points 4.52 0.16

Answer 180

A

• Patients should always have with them their NTG during exercise sessions.
- Patients should report symptoms of chest pain and take NTG as directed.
- If symptoms persist 5 mins after NTG, dose can be repeated two more times with 5 min intervals between doses.
- If symptoms persist seek prompt medical attention.
- NTG can be used prophylactically 5-10 mins before activity.
• Physiologic responses to activity should be monitored (HR, BP, RPP)

Answer 181

A

Formerly known as angioplasty with stent) is a non-surgical procedure that uses a catheter and balloon to place a stent to open up blood vessels in the heart that have been narrowed by plaque buildup.

Answer 182

A

Bare Metal Stents

* Drug Eluting Stents

Answer 183

A

Surgical removal of part of the inner lining of an artery, any obstructive deposits
• (Usually atherosclerotic plaques)

Answer 184

A

In the carotid artery or femoral arteries

Answer 185

A

Temporary Epicardial Pacer
Pacemaker
Implantable Cardioverter Defibrillator (ICD)

Answer 186

A

• Epicardial pacing wires common after open heart surgery wires exit through mediastinal
incision.
• Cardiac surgery makes myocardium irritable and prone to arrhythmia
• Pacer is used to control heart rate due and rhythm.

Answer 187

A

Know upper limit of pacemaker, max HR to be 10bpm below pacer max
Target HR based on results of exercise test (symptom limited, vitals monitored)

Answer 188

A

It only fires when it detects an arrythmia

Answer 189

A

• Coronary artery bypass graft CABG
• Valve Replacement or repair
- Mitral (MVR) or Aortic (AVR)
• Heart Transplant

Answer 190

A

• Lobectomy
• Lung Transplant (Bilateral aka
“Clamshell” for COPD)

Answer 191

A

CABG, Valvular Surgery

Answer 192

A

Lobectomy (lung cancer)

Answer 193

A

One of the most frequent accesses in cardio-thoracic surgery
Vertical inline incision is made along the sternum.
Chest wall is retracted Mediastinum exposed

Answer 194

A

Reduced postoperative mortality and
morbidity, shorter hospital stay and
better cosmetics

Answer 195

A

Limited by the longer cross-clamp and cardiopulmonary bypass (CPB) times, which can lead to a clot.

Answer 196

A

1-2% mortality rate although 5-10% risk of MI during procedure
Graft vessels sewn to coronary arteries beyond blockage and attached to aorta
Triple, quadruple or quintuple bypasses are now routine
Most commonly used vessel for grafts is saphenous vein.

Answer 197

A

• CABG surgery takes ~4hours to complete.
• Aorta is clamped off for about 60 minutes
to allow bloodless field and allow bypasses to be connected to aorta.
• Heart is stopped using a chilled K+ solution
• Plastic tubes are placed in RA to channel
venous blood out of the body for passage
through heart lung machine
• Body is supported by cardiopulmonary
bypass for about 90 minutes.

Answer 198

A

•Gaining popularity especially for LAD
  - Proximal origin off left subclavian
maintained and distal end is separated
from the chest wall,
• Remain open longer (90% in 10yrs)
• Compared to 66% of vein grafts,
• Also maintain endothelial function
• Internal mammary arteries generally
not used for emergency CABG surgery

Answer 199

A

Limited length of vessel
May prolong surgery
Risk of sternal wound failure

Answer 200

A

• Valves can be mechanical or biological
- Biologic valves made of human, pig or cow tissue (xenografts)
- Typically requiring by-pass and a median sternotomy
• Mechanical typically bi-leaflet valve with 2
carbon leaflets covered with polyester knit fabric
• Mechanical last a lifetime but require
anticoagulant meds
• Young pts may be better candidate for
mechanical due to limited life of biological valve
• Mechanical higher risk for infection, thrombus and emboli. Will need life long anti-coagulation meds

Answer 201

A

DVT and/or Venous Thromboembolism (VTE)
Intra or Peri-operative MI
Pericarditis
Infection
Sternotomy Failure
Pulmonary Complications
Reduced bowel motility
Deconditioning
Neurocognitive decline
Chest wall pain and mobility issues

Answer 202

A

• Getting patient moving,
- Reduces risk of deconditioning, pulmonary complications (atelectasis and pneumonia), bed sores and DVT
• Goals:
- Determine stability for ambulation, transfers, stairs, ADLs, assistive device
needs, tolerance to activity, return to PLOF or as close possible
• Discharge Plans
- Always ask patient if they live alone/family, floors in home, steps to needs, can patient establish self of 1st floor bathroom) may need to talk to family.

Answer 203

A

CABG 4-5days
Valve Replacement: 2-3 days
HTx: 1-2weeks

Answer 204

A

• Post op day 0 pt transfers to chair with RN in AM
• Post op day 1 pt transfers from sit to stand, gets to doorway, pre gait
- Afternoon ambulation
• Post op day 2-3 chest tubes d/c, cardiac pacer d/c
- Pt must be supine for either and remain still for 1hr with pacer d/c)
- Stairs assessment
- Independent ambulation assessment
• Consider using a standardized assessment,
- 5meter Gait Speed, 6MWT, 2MST, Dynamic Gait Index, POMA

Answer 205

A

• No traction forces on sternum for 6-8 weeks,
- longer if osteoporosis or on steroid medication
• No shoulder flexion or abduction >90deg
• Lifting restriction 8-10 lbs 6wk, then 30lb for 3mo
• Minimal or no push/pull. This means
- Use log rolling to get out of bed, get to edge of chair before standing, use momentum and rocking, look up
• If sternal tissue fails, use rectus or pectoral flaps- severe ROM restriction of 20deg flex and abd, no lifting, push or pull
• Monitor incision: 30% mortality of skin opens and becomes infected
• Encourage splinting chest with pillow when coughing
• Avoid valsalva
• No driving due to medications initially, then need to avoid air bag for 4-6wks

Answer 206

A

Start patient on basic walking program

* Discuss and obtain referral for cardiac rehab!

Answer 207

A

External cutaneous
Temporary epicardial
Temporary endocardial
Permanent pacemaker

Answer 208

A

When there is some sort of temporary HR abnormality that should resolve over time
While waiting for a permanent pacemaker

Answer 209

A

One where everything is internal

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Week 2 Flashcards

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