NSG 3313 Exam 3 Study Guide PDF

Summary

This document is a study guide for NSG 3313 Exam 3. It covers various topics related to cardiovascular physiology, including preload, afterload, cardiac output, and related stress tests, as well as different kinds of heart rhythms, such as sinus bradycardia and sinus tachycardia.

Full Transcript

NSG 3313 Exam 3 Study Guide

Chapter 21

Preload, Afterload, Cardiac Output, CVP, SV
o Preload: refers to the degree of stretch of the ventricular cardia muscle fibers at
the end of diastole
▪ Volume of blood in ventricles at the end of diastole (end of diastole
pressure)
▪ Increased in: Hypervolemia, Regurgitation of cardiac valves, heart failure
o Afterload: resistant to ejection of blood from the ventricle, the second
determinant of stroke volume.
▪ Resistance left ventricle must overcome to circulate blood
▪ Resistance going out pressure exerting to push blood flow out of
ventricles
▪ Increased in: Hypertension, Vasoconstriction
▪ Increased Afterload= increased Cardiac workload
o Cardiac Output: a product of the stoke volume (the amount of blood ejected from
the left ventricle during systole) and heart rate.
▪ CO- the total amount of blood ejected by one ventricle in one minute
▪ Stroke volume + heart rate = cardiac output
o CVP:
▪ Central Venous Pressure (GOOGLE ANSWER)
▪ The blood pressure in the vena cava, near the heart’s right atrium
▪ It’s a measure of how much blood is returning to the heart and how well the
heart can pump blood back into the arterial system
o SV:
▪ SV= the amount of blood ejected from one ventricle per heartbeat

Stress Test:
o Purpose:
▪ Determines what heart condition you have by putting stress on the heart
▪ Why they are having shortness of breath, chest pain and other symptoms
▪ Changes in ECG
o Assessment:
▪ Make sure patient is stable
▪ Monitor vital signs
▪ Looking for ECG changes
▪ Example: pt on treadmill, starts having shortness of breath
Nurse intervention: have patient stop and rest

Chapter 22
 Conduction of heart (need to know normal pathway
o SA node, AV node, the bundle of HIS, left and right bundle branches, Purkinje fibers
o 60-100 bpm
o SA Node is Pacemaker

EKGs- what each wave indicates
Analyzing the ECG strip
o Used to determine cardiac rate and rhythm
o A 1-minute strip contains 300 large boxes and 1500 small boxes
o Count large boxes from QRS to QRS and divide into 300
Example – if you count 2 large boxes between QRS – 300/2 = 150bpm

o P wave: atrial depolarization
o QRS: ventricle depolarization/ repolarization
o Normal Sinus Rhythm
▪ Rate: 60-100 bpm
▪ Rhythm: regular
▪ P wave normal
▪ PR-i: consistent 0.12-0.20 sec
▪ P: QRS is 1:1
▪ Indicative of good cardiovascular health. However, an increase of 10 bpm or
more in the resting heart rate increases the risk for sudden cardiac death,
atrial fibrillation, heart failure, CAD, stroke, and cardio disease
 Sinus Bradycardia
o Less than 60 beats per minute
o P wave normal and consistent in front of QRS
o PR-i: consistent interval between 0.12 and 0.20 sec
o P: QRS- 1:1
o Management
▪ Depends of s/s
▪ If symptomatic- may need atropine
▪ Transcutaneous pacing
▪ Use of catecholamines
o Nurse Action
▪ Assess patient (make sure led are on)
▪ Ask patient fatigue, light-headed (symptoms of
bradycardia)
▪ Treatment is determined by if they are symptomatic
▪ Atropine, pacer (may be needed if symptoms)
▪ No symptoms- monitor ECG and vital signs

Sinus Tachycardia
o Rate is greater than 100 bmp
o Rhythm is regular
o P wave is normal and consistent but may be buried in T wave
o PR-i: consistent but may be buried
o 1:1 ratio
o Management
▪ Depends on s/s
▪ If symptomatic may need to be synchronized
cardioversion
 ▪ Adenosine
▪ AV blocking meds
o Nurse Actions
▪ Assess patient
▪ Treating underlying cause
▪ Make sure its an accurate reading
▪ Does patient have fever, in pain, dehydrated
o If you find a patient is unresponsive
▪ Assess patient first
▪ Check for pulse
▪ Airways (make sure they are breathing
▪ Call for help and start CPR if no pulse or breathing
Ventricular Dysrhythmias premature ventricular complex (PVC)
o An impulse that starts in the ventricle and is conducted before
the next NSR complex
o Ventricular rate- depends on underlying rhythm
o Irregular rhythm due to early QRS
o QRS is 0.12 sec or longer and shape is abnormal
o P wave- visibility depends on timing of PVC
o PRi is less than 0.12 sec
o Ratio is 0:1 or 1:1

VTACH

VFIB
 PEA

ASYSTOLE

Any pulseless rhythms must initiate CPR

Abnormal rhythms/Unresponsive patients- Assessment and treatment
o S3- third heart sound – can relate to heart failure
▪ Heard early in diastole during period of rapid ventricular filling as blood
flows from the atrium into a noncompliant ventricle
▪ Lub-dub-dub
▪ Best heard over the apical area with the patient in the left lateral position
▪ Heard after S2
o S4-Fourth Heart sound- Can relate to hypertensive heart disease
 ▪ Occurs late in diastole
▪ Heard just before S1 is generated during atrial contraction as blood
forcefully enters a noncompliant ventricle
▪ LUB lub dub
▪ Best heard over the tricuspid area with the patient in supine position
o Opening Snaps and Systolic clicks
▪ Open snaps: are abnormal diastolic sounds heard during opening on an AV
valve
Sound is caused by high pressure in the left atrium that abruptly
displaces, or snaps open a rigid valve leaflet
It occurs long after S2 to be mistaken for a split S2, and too early in
diastole to be mistaken for an S3
▪ Systolic click: stenosis of one of the semilunar valves creates short, high-
pitched sound in early diastole, immediately after S1
Results of the opening of a rigid and calcified aortic or pulmonic
valve during ventricular contraction
o Murmurs
▪ Are created by turbulent flow of blood in the heart
▪ Causes of turbulence may be a critically narrowed valve, a malfunctioning
valve that allows regurgitant blood flow, a congenital defect of the
ventricular wall
▪ Characteristics include timing in the cardiac cycle, location on the chest
wall, intensity, pitch, quality, and pattern of radiation
o Friction Rub
▪ A harsh, grating sound that can be heard in both systole and diastole
▪ It is caused by abrasions of the inflamed pericardial surfaces for pericarditis
▪ Can be confused for a murmur
CPR
o Know how to assess patient, rate of compressions and rate of rescue breathes
▪ Compressions in a minute
▪ Resue breathes
▪ Ratio to compressions to breathes 30 COMPRESSION-2 BREATHS
o Cardiopulmonary resuscitation provides blood flow to vital organs until effective
circulation can be reestablished. Following the recognition of unresponsiveness, a
protocol for basic life support is initiated.
o The resuscitation process begins with the immediate assessment of patient
breathing and consciousness, then call for assistance, as CPR is performed most
effectively with the addition health care providers and equipment

Chapter 23
Myocardial Infarction: Heart attack

-Acute Coronary Syndrome: Acute onset of Ischemia that leads to myocardial death

STEMI vs NSTEMI-

STEMI- Patient has ECG evidence of acute MI with characteristic
changes in two contiguous leads on a 12-lead ECG.
NSTEMI- Patient has elevated cardiac biomarkers but no definite
ECG changes (less damage to the myocardium)

EKG changes: 12 lead EKG, Cardiac Biomarkers, cardiac catheterization
Labs: Elevated Troponin (there is damage to the heart) *High cardiac troponin
Clinical manifestations: Angina, Substernal chest pain, elephant on chest
Treatment: Oxygen 1st Intervention, Nitroglycerin, Morphine, Aspirin
Nitro contraindication: Viagra and low blood pressure
Nursing interventions: hook them up to monitor, 12 lead, oxygen, start an IV
Patient education: lifestyle modifications, discharge teaching/monitoring for cardiac
symptoms, appropriate exercise, stopping smoking, low salt and fat diet, knowing
medications, and taking them correctly.
Cardiac cath:
-Post-care assessments/priorities. Check for puncture site and make sure there is no
hematoma or bleeding, look distally.
CAD- Risk factors-
Modifiable: (My notes) Hyperlipidemia, Tobacco use, Hypertension, Diabetes, Metabolic
syndrome, Obesity, Physical inactivity, Chronic inflammatory conditions (Lupus,
Rheumatoid arthritis, HIV/AIDS, and Chronic Kidney Disease.
Nonmodifiable: (My notes) Family history of CAD, increasing age, Gender, Race (higher in
African Americans), History of premature menopause and pregnancy associated disorders
such a preeclampsia, and primary hypercholesterolemia
Patient education: focus on modifiable Stop smoking, diet and exercise
CABG:
post-op priority care: making sure the heart is still pumping appropriately or fluid retention.
 Look at urine and blood pressure to see if still getting blood flow. (End organ perfusion)
Angina- Know the different types
Stable: can be relieved by rest, usually triggered by walk
Unstable: can’t be relieved with rest, can come on anytime, not triggered by activity or
event.
Variant : can vary
Know medications for MI/CAD and MOA and patient education:
It can vary depending on the patient BUT are they on Plavix or Aspirin (prevents
platelets from forming clots)
Heparin drip-
Lab to monitor: aPPT
Range: over 100 STOP the infusion
60: GOOD
30: LOW

Chapter 25
Heart failure: Key Diagnostic Test- B-type natriuretic peptide
Clinical manifestations (Right vs Left),
Right: edema , distended kneck veins, ascites
Left: Lungs, dyspnea, orthopnea
Risk Factors: MI, increased aging, valve abnormalities
Patient education: Low sodium diet, Daily weights (same scale everyday at the same
time, same clothing)
Heart failure- decrease in cardiac output
Compensatory mechanisms: RAAS and Sympathetic nervous system
Vital Sign changes: increase in Blood pressure

RAAS activation System:

Mechanism: Reduced renal blood flow triggers the release of renin, which converts
angiotensinogen to angiotensin I, then to angiotensin II, a potent vasoconstrictor.
Angiotensin II stimulates aldosterone release, leading to sodium and water retention.

Effect: Vasoconstriction increases blood pressure, and fluid retention increases blood
volume, both aimed at improving perfusion. However, these lead to increased afterload,
worsening the heart's workload and contributing to fluid overload (edema).
Pulmonary edema
Clinical manifestations: pink frothy sputum, crackles
Nursing interventions: sit them up, elevate the head of the bed, and use diuretics to pull
fluid off
LVAD: (Left Ventricular Assist device)
Utilized for patients with heart failure, buys them time until heart transplant (portable)
Chapter 26
Atherosclerosis- plaque build-up
Risk factors: Modifiable/Nonmodifiable (page 828) (smoking, diabetes, hypertension,
high fat diet, stress, sedentary lifestyle /// non mod age, genetics
Patient Education: modifiable risk factors, exercise, diet ect.
PVD/PAD/Venous Insufficiency- Clinical manifestations, patient educations,
complications, and treatments

Peripheral artery disease (PAD) is a common circulatory problem in which narrowed arteries
reduce blood flow to the limbs, usually the legs.

Clinical Manifestations: More common in the lower extremities
- Hallmark manifestation is intermittent claudication: 5 P’s (Pain, Pale, Paresthesia, Pulseless,
Paralysis), Ulcerations, gangrene, nail changes, and muscle atrophy, Pulse changes
- Manifestations in the upper extremities include: arm fatigue and pain

Patient Education: Daily foot hygiene- wash between toes with mild soap and lukewarm water,
rinse, pat dry. Cut toe nails straight across after showering, wear soft loose cotton socks (allows
air to circulate), wear extra socks when cold, avoid heating pads, hot tubs, inspect feet daily for
redness, cuts, blisters, dryness (if occurs call provider), avoid sandals, wear leather shoes with
extra depth toe box, use cream and lotions with emollient, avoid compression socks, do not cross
legs, stop using nicotine products, participate in regular exercising such as walking to stimulate
circulation, no medication used on feet unless prescribed, avoid using alcohol, iodine, adhesive
products, etc -Shiny color, no hair on legs, *FEET DOWN* PAD- A as in feet down

Complications: Urine output, venous pressure, mental status, pulse rate and volume- indicates
fluid imbalances; Bleeding can result from the heparin given during surgery or form an
anastomotic leak; A hematoma may form; Thrombosis (from leg crossing); Severe leg crossing;
Severe edema, pain, decreased sensation of toes and fingers indicate compartment syndrome

Treatments: Pharmacologic- Trental or Pletal, Antiplatelets and Statins, Cilostazol-
phosphodiesterase III inhibitor (a direct vasodilator that inhibits platelet aggregation)
Endovascular- Stents, balloon angioplasty, and atherectomy
Surgical- Endarterectomy, Bypass Grafting

Chronic Venous Insufficiency/ PVD: Results from obstruction of the valves in the veins or a
reflux of blood through the valves. PVD- V as in feet up, elevate legs / inspect daily
Pathophysiology: Venous Hypertension, Distended veins, Inability of valves to close

Clinical Manifestations: resulting edema, altered pigmentation, pain, and stasis dermatitis. The
patient may see s/s less in the morning and more at night.

Complications: Severe post thrombotic syndrome, stasis ulcers, *Venous ulcers*, DVT’s, Stasis
Ulcer; Warm, red, swollen / Lots of fluid
Patient Education: Skin kept clean, dry, and soft. Signs of ulceration are immediately reported
to physician, make sure to elevate the legs for 15-20 4xd, compress the legs, at night elevate the
foot of the bed about 15 cm (6 inches). Avoid crossing legs, and legs dangling on the side of the
bed.

CVI Management/ Treatment: Elevate the legs, Avoid Constrictive clothing, Compression
Stockings, Encourage Activity (Walking), Report signs of ulceration, Nursing education

Raynaud’s disease- form of intermittent arteriolar vasoconstriction that results in coldness, pain,
and pallor of the fingertips.

clinical manifestations : Pallor-→ Cyanosis→Redness
Treatment: CCB’s calcium channel blockers, such as amlodipine, avoid triggering stimuli
(emotional factors/cold, avoid smoking, cold, and otc decongestions) **Educate and avoid
triggers**

Femoral, popliteal bypass:
-Post-op care: Assess pulse of affected extremities every 15 minutes at first. pedal pulses
are there and distal to graft site you know you have blood flow.
Ulcers- Venous vs Arterial. ** Know the defining characteristics of the different ulcers
Venous: shallow leg or ankle, irregular border, discoloration (ischemia and cell death)
Arterial: Top of foot, toes or heels, ischemia → severe pain
 **MAIN DIFFERENCE** venous superficial irregular border, arterial “whole
punch appearance.”

Abdominal Aortic Aneurysm-
-Most common cause: atherosclerosis
-if untreated will result in rupture and death

- Clinical manifestations: masses, scars, mass pulsating, may have pain
Signs of HF or listening for bruit
more common in men, whites, and age of 65 and older, and smokers
Nursing action/treatment: blood pressure control/ prevent the rupture

**NORMAL ANERURYSM: A weak point in the wall of an artery.

Chapter 27
Hypertension- 130/80 NEW 140/90Test
Types/Categories: Pre, stage 1 and 2 (pg 166)
 Primary vs Secondary
Primary: no identifiable cause 90-95% of Americans have it

Secondary: has an identifiable cause (thyroid, drug use, hyperparathyroidism)
5-10% of Americans have it

Complications: prevent death and damage of arterials, like TIA/ stroke, Left ventricular
hypertrophy, MI, HF, Chronic kidney disease, Retinal Hemorrhage
Patient education: Pt needs to understand disease, lifestyle changes, medications, smoke
cessation, exercise promotion, limit alcohol, and reduce salt intake
Dietary modifications: low sodium/fat diet

Risk Factors: aging, African American, CKD, diabetes, alcohol, family HX, men more
likely than women until older, being obese, poor diet, poor exercise, tobacco use

Clinical Manifestations: vision changes and headache otherwise **silent killer

Medications – patient education page 872-873

Thiazide diuretics: first line diuretics hydro, cloprothiazole
Side effect: dry mouth, thirst, weakness, drowsiness, lethargy, muscle aches, muscular
fatigue, tachycardia, GI disturbances
Therapeutic effects: Decrease in blood volume, renal blood flow, and cardiac output
(decreased blood pressure); Depletion of extracellular fluid; Overall treatment to remove
excess fluid/ over-load condition to lower blood pressure.
Ace inhibitors: RAS system – Can cause hyperkalemia
Side effect: dry cough
CCB: amlodipine, nifedipine: vasodilation
**foot/ankle swelling
Patient Education:
-written instructions on medication regimes
- follow up appointments
-avoid abrupt withdrawal

Hypertensive Crisis- BP >180/100 – 180/120
Two types: Emergency and Urgency

Emergency: (damage to target organs) (ELEVATED BUN AND CREATININE)

Decrease mean arterial pressure (MAP) by 20- 25% for the first hour (IV MEDS)
Treatment for Emergency: Vasodilators- Nitroglycerin and Sodium Nitroprusside: Slow
push for IV medications

Urgency: No evidence of emergency, YET over 24-48 hours

Severe headache, nosebleeds

(close monitoring) Oral agents are Okay

Three causes: poorly controlled, undiagnosed, abruptly stop medication.

Risk: smoking, obesity, poor diet high sodium