Diabetes, hyperthyroidism, and obstructive sleep apnea.
Hypertension, heart failure, advanced age, and valvular disease.
History of smoking or excessive intake of alcohol.
Having a sedentary lifestyle or minimally exercising.

Most commonly caused by underlying ischemic heart disease.
Ischemic or non-ischemic dilated cardiomyopathy, electrolyte imbalances (hypokalemia, hypocalcemia, hypomagnesemia) structural heart disease, infiltrative cardiomyopathy, illicit drugs such as methamphetamine or cocaine, and digitalis toxicity. 

Underlying structural heart disease.
Clients with anterior wall infarction, a complete coronary occlusion found on an angiogram, pre-infarction angina, and atrial fibrillation and are more prone to develop VF.
Electrolyte abnormalities such as hypomagnesemia, hypokalemia or hyperkalemia, hypoxia, acidosis, hypothermia, congenital QT abnormalities, cardiomyopathies, family history of sudden cardiac death, and alcohol use.

Increasing of age, history of cardiac disease (MI or CAD), electrolyte imbalances (hypokalemia and hypomagnesemia), and certain antiarrhythmic medications. Infectious processes (endocarditis, rheumatic fever, COVID-19) Autoimmune disorders (rheumatoid arthritis, lupus, and sarcoidosis)
Athletes may unknowingly experience this caused by a higher resting vagal tone that allows for tolerance of slower heart rates.

Medications that decrease AV conduction (calcium channel blockers, beta-blockers, digitalis, amiodarone, and adenosine)
An increase in vagal tone, following cardiac surgery, autoimmune disorders, reversible myocardial ischemia, hyperkalemia, cardiomyopathy, Lyme disease, and myocarditis. Additional causes include rheumatic fever, hyperthyroidism, and malignancies.  

Anterior myocardial infarction (causes septal necrosis of the bundle branches)
Idiopathic fibrosis of the electrical conduction system, autoimmune disorders (SLE), myocardial disease related to sarcoidosis, electrolyte imbalances (hyperkalemia), medication-induced heart block from beta-blockers, calcium channel blockers, amiodarone, digoxin, or adenosine, or following cardiac surgery.

Bradycardia, chest pain, shortness of breath, generalized fatigue, or syncope. Clients may display a decreased level of consciousness and have hemodynamic instability. Clients with an acute MI and third-degree heart block will report chest pain or dyspnea. The client’s jugular vein pressure will reveal cannon A-waves due to the simultaneous contraction of the atria and ventricles. A large pressure will be palpated against a vein. The nurse should also assess the client for a murmur. Assess the client for any signs of infection or skin rashes indicative of rheumatic fever, Lyme disease, and endocarditis.

May be asymptomatic! 

Symptomatic:  irregular apical pulse, hypotension, heart palpitations, and increased heart rate.
Client may report chest discomfort, shortness of breath (either at rest or with activity), exertional fatigue, anxiety, dizziness or lightheadedness, and possible syncopal episodes. Weight gain and increased urination may also be reported. 

Palpitations, syncope, chest pain, shortness of breath, cardiac arrest, or even sudden cardiac death.

The nurse must determine the client has no pulse or respirations and verify the rhythm of VF on the monitor. ACLS protocols are initiated beginning with CPR. The nurse will administer epinephrine 1 mg every 3 to 5 minutes per protocol and amiodarone 300 mg (preferred) or lidocaine 1 to 1.5 mg/kg. The nurse will apply defibrillator pads and defibrillation will occur between each CPR cycle of two minutes. Clients in cardiac arrest will also require intubation for airway control.

Typically, clients experience no physical manifestations.
Presentation of dizziness with changes in position or shortness of breath with activity could indicate a worsening condition.

Identify potential causes for the arrhythmia and to identify any manifestations that could indicate progression to a higher degree heart block.

Bradycardia, fatigue, syncope, dyspnea, dizziness, palpitations, shortness of breath, and nausea.
Clients with severe bradycardia may present with subsequent hemodynamic instability, such as hypotension and decreased CO.
Following an MI may present with chest pain.

Initially the administration of IV atropine per ACLS guidelines. If ineffective, the next line treatments include dopamine and epinephrine. Transcutaneous pacing should be implemented if medication therapies are unsuccessful.
Pacemakers are artificial electrical pulse generators that can be adjusted and can be temporary or permanent. Clients who did not respond to medications or temporary pacing will need a permanent pacemaker inserted.

Administering rhythm control medications (diltiazem, verapamil, digoxin, beta blockers).
Anticoagulants
Monitor for stroke (blood pooling in the heart can lead to clots) 

Clients who are stable and have VT are treated with antiarrhythmic drugs.  

Clients who have a pulse but are hemodynamically unstable are treated with cardioversion. 

Clients in pulseless VT are resuscitated using ACLS protocol. Treatments include defibrillation, intubation of the airway, CPR, and administration of epinephrine and amiodarone or lidocaine IV.

Prior to the onset of VF, the client may present with palpitations, angina, orthopnea, dyspnea, paroxysmal nocturnal dyspnea, and pedal edema. Clients may also present in cardiac arrest.

Auscultate heart sounds and identify if S1 sound is diminished, or a murmur is heard.

If hypotension caused by bradycardia occurs, atropine is given IV. If the client is unresponsive to atropine, then transcutaneous pacing is utilized.
Clients on calcium channel blockers, beta-blockers, or digoxin will need reduction or discontinuation by the provider.

Transcutaneous pacing as this rhythm often deteriorates into third-degree heart block.
A pacemaker insertion may be necessary to keep the heart rate within the acceptable range and to restore hemodynamic stability.  

Pacemakers are typically placed by a transvenous route in a procedural suite or operating room. Clients are sedated or placed under general anesthesia for the placement of these devices. The pacemaker pulse width, rate, and voltage will be adjusted by the cardiologist. The nurse should inform the client and family about follow-up care, battery status, stimulation and sensing thresholds. These are dependent on the type of pacemaker the client has.