Procainamide is a medication primarily used for the treatment of certain heart rhythm disorders, particularly ventricular arrhythmias and atrial fibrillation or flutter. Here is some general information about procainamide:

General Action:

• Procainamide is classified as an antiarrhythmic drug, and its primary action is to stabilize abnormal heart rhythms by affecting the electrical properties of cardiac cells. It works by blocking sodium channels in the heart muscle cells, which helps to slow down the conduction of electrical signals in the heart.

Classification:

• Procainamide belongs to the Class Ia antiarrhythmic drugs, which are categorized based on their effects on cardiac sodium channels and action potential duration. Class Ia drugs, like procainamide, are used to treat various types of arrhythmias by decreasing the excitability and conductivity of cardiac tissues.

Side Effects: Procainamide can have various side effects, and individuals taking this medication should be closely monitored by a healthcare provider. Common side effects may include:

• Nausea and vomiting
• Headache
• Dizziness
• Fatigue
• Low blood pressure
• Skin rashes
• Changes in blood cell counts
• Fever
• Joint pain
• Gastrointestinal disturbances

Serious side effects are less common but can be more severe. These may include:

• Blood disorders (e.g., agranulocytosis, which is a severe decrease in white blood cell count)
• Heart rhythm disturbances (proarrhythmia)
• Systemic lupus erythematosus (an autoimmune disease)
• Liver toxicity

Rationale: Nutritional support is an important aspect of care for clients in shock. Clients in shock may require 3,000 calories daily. This caloric need is directly related to the release of catecholamines and the resulting increase in metabolic rate and caloric requirements. Albumin is not primarily metabolized as an energy source. The special nutritional needs of shock are not related to increased parasympathetic activity, but are instead related to increased sympathetic activity. GI function does not increase during shock.

Neurogenic shock can be caused by spinal cord injury. The client will present with a low blood pressure; bradycardia; and warm, dry skin due to the loss of sympathetic muscle tone and increased parasympathetic stimulation

•Can be caused by spinal cord injury, spinal anesthesia or nervous system damage 

Clinical Manifestations

Hypotension

Bradycardia

Syncope, fainting

Dry, warm skin

MANAGEMENT MEDICAL/NURSING

•Goal is to restore sympathetic tone through stabilizing spinal injury

•Treat underlying cause

•Prevent through proper patient position and immobilization if an injury

•Support cardiovascular and neurologic function

Any type of VT or VF in a client who is unconscious and without a pulse is treated in the same manner as ventricular fibrillation: Immediate defibrillation is the action of choice.

Verapamil is a medication that belongs to a class of drugs known as calcium channel blockers. It is primarily used to treat various cardiovascular conditions, including hypertension (high blood pressure), angina (chest pain), and certain types of arrhythmias (irregular heart rhythms). Here is some general information about verapamil:

1. General Action: Verapamil works by blocking calcium channels in the cells of the heart and blood vessels. This action reduces the influx of calcium into these cells, leading to several effects:

   • It relaxes and dilates blood vessels, which helps lower blood pressure and increase blood flow to the heart muscle, reducing the workload of the heart.
   • It can slow down the heart rate and decrease the force of contractions, making it useful for managing certain types of irregular heart rhythms.
   • Verapamil can also reduce the frequency and severity of angina attacks by improving blood flow to the heart.

2. Classification: Verapamil is classified as a calcium channel blocker, specifically a non-dihydropyridine calcium channel blocker.

3. Side Effects: Verapamil, like all medications, can have side effects. The severity and occurrence of these side effects can vary from person to person. Some common side effects of verapamil include:

   • Constipation
   • Dizziness
   • Headache
   • Low blood pressure
   • Swelling of the ankles, feet, or legs (peripheral edema)
   • Nausea
   • Fatigue
   • Flushing
   • Bradycardia (slow heart rate)
   • Heart rhythm disturbances (in rare cases)

4. Serious side effects are rare but can include severe low blood pressure, heart block, and other cardiovascular issues. It's essential to take verapamil as prescribed by a healthcare professional and to report any unusual or severe side effects promptly.

Dopamine is a sympathomimetic agent that has varying vasoactive effects depending on the dosage. When vasoactive medications are given, vital signs must be monitored frequently (at least every 15 minutes until stable, or more often if indicated), not “routinely.” Vasoactive medications should be given through a central, not peripheral, venous line because infiltration and extravasation of some vasoactive medications can cause tissue necrosis and sloughing. High doses can cause vasoconstriction, which increases afterload and thus increases cardiac workload. Because this effect is undesirable in clients with cardiogenic shock, dopamine doses must be carefully titrated.

Shock is a life-threatening condition with a variety of underlying causes. Shock is unpredictable and rapidly changing so the nurse must understand the underlying mechanisms of shock. The nurse must also be able to recognize the subtle as well as more obvious signs and then provide rapid assessment and response to provide the client with the best chance for recovery. Coping skills are important, but not the ultimate priority. Keeping the health care provider updated with the most accurate information is important, but the nurse is in the best position to provide rapid assessment and response, which gives the client the best chance for survival. Monitoring for significant changes is critical, and evaluating client outcomes is always a part of the nursing process, but the subtle signs and symptoms of shock are as important as the more obvious signs, such as blood pressure and skin temperature. Assessment must lead to diagnosis and interventions.

Medical and Nursing Management 

•Treat underlying cause

•Fluid replacement

•Supplementation oxygen, decrease patient anxiety

•Maintain BP and tissue perfusion

•Frequent assessment (subtle changes)

•LOC, I&O, respiratory and heart rate, BP (MAP of 65 mm Hg or less, narrowing or decreased pulse pressure)

•Promote safety (advanced directives)

Digoxin is a medication commonly used to treat heart conditions such as congestive heart failure and atrial fibrillation. However, it has a narrow therapeutic window, which means that the difference between a therapeutic dose and a toxic dose can be small. Digoxin toxicity can be serious and may lead to a range of signs and symptoms. Common signs and symptoms of digoxin toxicity include:

1. Nausea and vomiting: Gastrointestinal symptoms like nausea and vomiting are common early signs of digoxin toxicity.

2. Anorexia (loss of appetite): Patients may experience a decreased appetite.

3. Visual disturbances: These may include blurred vision, yellow or green halos around objects, or other vision problems.

4. Confusion or mental disturbances: Patients may become disoriented, experience delirium, or have changes in mental status.

5. Fatigue and weakness: Generalized weakness and fatigue can occur.

6. Bradycardia: Digoxin toxicity can lead to abnormally slow heart rates (bradycardia), which can be life-threatening.

7. Arrhythmias: Abnormal heart rhythms, such as atrial or ventricular tachycardia, may occur.

8. Gastrointestinal symptoms: Diarrhea can be a symptom of digoxin toxicity.

9. Hypokalemia: Low potassium levels can be associated with digoxin toxicity.

What nursing intervention  is given for digoxin toxicity?

• Discontinuing digoxin: The first step in managing digoxin toxicity is to stop or reduce the use of digoxin, under the guidance of a healthcare professional.

• Digibind is a brand name for a medication called Digoxin-specific antibody or Digoxin-specific Fab fragments. It is used as an antidote for the treatment of poisoning or overdose with the drug digoxin, which is a medication commonly used to treat certain heart conditions, such as congestive heart failure and atrial fibrillation.

epi anaphylaxis 1:1000        1mg/ml IM

epi cardiac       1;10,000      0.1 mg/ml 0.1m/ml  IV

Rationale: As sepsis progresses, tissues become less perfused and acidotic, compensation begins to fail, and the client begins to show signs of organ dysfunction. The cardiovascular system also begins to fail, the blood pressure does not respond to fluid resuscitation and vasoactive agents, and signs of end-organ damage are evident (e.g., acute kidney injury, pulmonary failure, hepatic failure). As sepsis progresses to septic shock, the blood pressure drops, and the skin becomes cool, pale, and mottled. Temperature may be normal or below normal. Heart and respiratory rates remain rapid. Urine production ceases, and multiple organ dysfunction progressing to death occurs. Adventitious lung sounds occur throughout the lung fields, not just in the upper fields of the lungs.

Cardiogenic shock occurs when the heart's ability to pump blood is impaired and the supply of oxygen is inadequate for the heart and tissues

•Occurs when the heart’s ability to contract and pump blood is impaired leading to inadequate supply of oxygen to the heart and tissues.

•Coronary or noncoronary causes

Clinical Manifestation

•Angina

•Arrhythmias

•Fatigue

•Feelings of doom

•ECG changes

•Increased cardiac enzyme levels and cardiac biomarkers

 may occur following an MI when a large area of the myocardium becomes ischemic, necrotic, and hypokinetic. It also can occur as a result of end-stage heart failure, cardiac tamponade, pulmonary embolism, cardiomyopathy, and dysrhythmias 

Anterior MI Pattern – (Tombstoning)