Introduction
The ACLS (advanced cardiovascular life support) bradycardia algorithm is a protocol that healthcare providers use to manage patients with bradycardia. Bradycardia is a condition that slows down the heart rate to less than 50-60 beats per minute. Signs and symptoms of bradycardia include altered mental state, fatigue, hypotension, sweating, ischemic chest discomfort, acute heart failure, or signs of shock. In most cases, an individual with bradycardia does not get sufficient oxygenated blood to various parts of their body. Failure to treat bradycardia can lead to severe conditions such as syncope. However, it is worth noting that an individual may also experience a slow resting heart rate due to age or physical fitness activities. This blog will help you understand the ACLS bradycardia algorithm, its key steps and how to identify the underlying cause.
Causes of bradycardia
Identifying the main causes of bradycardia is important for effective treatment and management of the condition. Some of the factors that may cause bradycardia include:
- Hypothyroidism
- Inflammatory diseases
- Imbalance of electrolytes
- Myocarditis
- Obstructive sleep apnea
- Hypertension
- Tissue damage due to heart attack, heart disease, or aging
- Congenital heart defect
Essential steps in the ACLS bradycardia protocol
Understanding and effectively applying the ACLS bradycardia algorithm can be life-saving in critical situations. Every step is designed systemically to address and manage the symptoms of bradycardia and stabilize the patient’s condition promptly. Here are the steps of ACLS bradycardia:
- Airway opening:
Ensure the patient’s airway is open. If not, you must assist the patient9 with breathing. You can do so while using the following steps:
- Airway management: Begin by conducting an assessment of the patient’s airway. This will inform you if it is clear or not. Obstruction of the airway leads to inadequate oxygenation and may further exacerbate bradycardia. To assist the patient in maintaining the airway, you can apply techniques like jaw-thrust or head-tilt. If need be, you can also consider advanced airway management.
Assisting breathing: Once you establish that the patient is not breathing well, assist their breathing with ventilation using a bag-mask device or provide supplemental oxygen. Proper ventilation is crucial to improve the patient’s oxygen supply and lower the risk of further complications.
- Administer oxygen if hypoxemic:
To measure the patient’s level of oxygen saturation in the body, use a pulse oximeter. Low oxygen levels, usually below 94%, mean that you must administer supplemental oxygen. You can deliver this either through a non-rebreather mask or a cannula. The method you will use depends on how severe the hypoxemia is. Moreover, it is not enough to administer oxygen. You need to conduct a continuous assessment of the patient’s oxygen saturation. This will guide you on how to adjust the flow rate of oxygen accordingly to ensure sufficient oxygenation.
- Attach cardiac monitor for rhythm identification, monitor blood pressure and oximetry:
Use a cardiac monitor to evaluate the patient’s heart rhythm. This will guide you to know if the bradycardia is caused by a conduction problem or if it’s due to a particular type of arrhythmia. Secondly, you must measure the patient’s blood pressure to assess for hypotension. This is a critical indicator as it shows the patient’s hemodynamic stability. With bradycardia, a patient can experience lowered blood pressure and reduced cardiac output. Lastly, you must keep a record of the oxygen saturation levels. This information is necessary to ensure that the patient has adequate oxygen being delivered to body tissues.
- Establish IV access:
To facilitate the administration of fluids, medicine, and other forms of treatment, you must obtain intravenous (IV) access. Consider using a large-bore catheter if it’s available. This allows you to infuse medication or fluids more rapidly if necessary. Get ready to administer medications like atropine or other drugs as indicated in the bradycardia algorithm. If the patient is in shock or hypovolemic, provide them some fluids.
- Obtain a 12-lead ECG:
To obtain a 12-lead electrocardiogram (ECG), place electrodes on the patient. This will provide a comprehensive view of the patient’s heart’s electrical activity, allowing you to diagnose the type of bradycardia. You will also be able to identify other underlying ischemic or structural changes in the patient’s heart. Additionally, conduct an analysis of the ECG to determine which type of bradycardia the patient has. It might either be an atrioventricular block or sinus bradycardia. This information will guide you on the treatment decisions to take.
- Evaluate for symptoms:
Evaluate the patient’s symptoms to determine if bradycardia is causing major symptoms. Look out for symptoms such as signs of shock, altered mental status, ischemic chest discomfort, or acute heart failure. If any of these symptoms is present, proceed with the algorithm. Follow the protocol to administer the necessary interventions and appropriate treatments. Interventions taken should be guided by how severe the underlying causes and symptoms are. You can choose to provide pacing, pharmacological treatment, or any other measure as indicated in the algorithm.
- Pharmacological treatment:
After evaluating the symptoms, you can go on and administer the pharmacological treatment. Consider the following options as guided by the protocol:
- Atropine: This is the first-line drug administered for symptomatic bradycardia. Administer 1 mg IV push, and you can repeat this every 3-5 minutes up to a total dosage of 3 mg. If the patient is not responding to atropine, consider giving transcutaneous pacing. The other option is epinephrine infusion (2-10 mcg/kg per minute. This should be titrated to the patient’s response). You can also administer dopamine infusions (5-29 mcg/kg per minute, titrated to the patient’s response).
- Consider expert consultation:
After attending to the patient and if they fail to respond to treatment, seek expert consultation. If transcutaneous pacing is unavailable or ineffective, consider using transvenous pacing.
Conclusion
Bradycardia affects individuals of different age groups based on factors such as age, diet, and certain medical conditions. As per the ACLS bradycardia algorithm, you must evaluate a patient’s symptoms to determine how severe the condition is. This will guide you on the appropriate treatment measures to take to help save a life and prevent further complications for a patient.