Is Irregular Life Style Can Causes The Slow Heart Rate

Is Irregular Life Style Can Causes The Slow Heart Rate/Yes, Bradycardia is defined as a resting heart rate below 60 beats per minute (b.p.m.). A slow heart rate can occur naturally under various circumstances and is not necessarily associated with a medical condition. For example, some highly trained athletes have bradycardia. However, there is also pathological bradycardia, which is caused by conditions that affect the electrical conduction system of the heart, including sick sinus syndrome (SSS) and/or atrioventricular (AV) block.^[rx] Bradycardia does not necessarily require treatment unless it causes symptoms. People suffering from symptomatic bradycardia can present with dizziness, confusion, palpitations, breathlessness, exercise intolerance and syncope (blackout or fainting). However, bradycardia and symptoms related to it may be intermittent or may be non-specific, particularly in the elderly.

Bradycardia is a condition typically defined wherein an individual has a resting heart rate of under 60 beats per minute (BPM) in adults.^[rx] Bradycardia typically does not cause symptoms until the rate drops below 50 BPM. When symptomatic, it may cause fatigue, weakness, dizziness, sweating, and at very low rates, fainting.^[rx] During sleep, a slow heartbeat with rates around 40–50 BPM is common and is considered normal. Highly trained athletes may also have athletic heart syndrome, a very slow resting heart rate that occurs as a sport adaptation and helps prevent tachycardia during training.

Pathophysiology

A heart has numerous pacemaker sites within its conduction system which are independently able to keep the heart beating. And the rate of a heartbeat depends upon the pacemaker site, and as we go down its conduction system, the rate of spontaneous depolarization at pacemaker sites decrease. [rx][rx][rx]

Pacemaker sites and their depolarization rates are listed below

• Sinoatrial node – 60 to 100 beats per minute
• Atria – Less than 60 beats per minute
• Atrioventricular node – 40 to 60 beats per minute
• Ventricles – 20 to 40 beats per minute

Types of Bradycardia

• Sinus – Atrial bradycardias are divided into three types. The first, respiratory sinus arrhythmia, is usually found in young and healthy adults. Heart rate increases during inhalation and decreases during exhalation. This is thought to be caused by changes in the vagal tone during respiration.^[rx] If the decrease during exhalation drops the heart rate below 60 bpm on each breath, this type of bradycardia is usually deemed benign and a sign of good autonomic tone.
• Atrioventricular nodal – Atrioventricular nodal bradycardia or AV junction rhythm is usually caused by the absence of the electrical impulse from the sinus node. This usually appears on an EKG with a normal QRS complex accompanied with an inverted P wave either before, during, or after the QRS complex.^[rx]An AV junctional escape is a delayed heartbeat originating from an ectopic focus somewhere in the AV junction. It occurs when the rate of depolarization of the SA node falls below the rate of the AV node.^[rx] This dysrhythmia also may occur when the electrical impulses from the SA node fail to reach the AV node because of SA or AV block.^[rx]
• Ventricular – Ventricular bradycardia, also known as ventricular escape rhythm or idioventricular rhythm, is a heart rate of less than 50 BPM. This is a safety mechanism when a lack of electrical impulse or stimuli from the atrium occurs.^[rx] Impulses originating within or below the bundle of His in the atrioventricular node will produce a wide QRS complex with heart rates between 20 and 40 BPM. Those above the bundle of His, also known as junctional, will typically range between 40 and 60 BPM with a narrow QRS complex.^[rx][rx] In a third-degree heart block, about 61% take place at the bundle branch-Purkinje system, 21% at the AV node, and 15% at the bundle of His.^[rx] AV block may be ruled out with an EKG indicating “a 1:1 relationship between P waves and QRS complexes.
• Infantile – For infants, bradycardia is defined as a heart rate less than 100 BPM (normal is around 120–160). Premature babies are more likely than full-term babies to have apnea and bradycardia spells; their cause is not clearly understood. The spells may be related to centers inside the brain that regulate breathing which may not be fully developed. Touching the baby gently or rocking the incubator slightly will almost always get the baby to start breathing again, which increases the heart rate. Medications (theophylline or caffeine) can be used to treat these spells in babies if necessary.

Causes of Bradycardia

Common causes of sinus bradycardia in children include increased vagal tone, hypothyroidism, hypothermia, adrenal insufficiency, and increased intracranial pressure. Inherited arrhythmias and cardiomyopathies may also cause bradycardia. Catecholaminergic polymorphic ventricular tachycardia (CPVT) is a rare inherited disorder.

Pathological causes of sinus bradycardia

• A congenital defect –or problem you’re born with
• Thyroid disease –an imbalance of hormones in the body
• Obstructive sleep apnea – when your breathing pauses many times throughout the night
• Drugs—for example, β blockers, digoxin, amiodarone
• Problems with the sinoatrial (SA) node – sometimes called the heart’s natural pacemaker
• Problems in the conduction pathways of the heart that don’t allow electrical impulses to pass properly from the atria to the ventricles
• Metabolic problems such as hypothyroidism (low thyroid hormone)
• Damage to the heart from heart disease or heart attack
• Certain heart medications that can cause bradycardia as a side effect
• Acute myocardial infarction
• Obstructive jaundice
• Raised intracranial pressure
• Sick sinus syndrome
• Hypothermia
• Hypothyroidism

Sinus bradycardia has many intrinsic and extrinsic etiologies[rx]][rx][rx][rx][rx][rx].

Inherent Etiologies

• Chest trauma
• Ischemic heart disease
• Acute myocardial infarction
• Acute and chronic coronary artery disease
• Repair of congenital heart disease
• Sick sinus syndrome
• Radiation therapy
• Amyloidosis
• Pericarditis
• Lyme disease
• Rheumatic fever
• Collagen vascular disease
• Myocarditis
• Neuromuscular disorder
• X-linked muscular dystrophy
• Familial disorder
• Inherited channelopathy

Extrinsic Etiologies

• Vasovagal simulation (endotracheal suctioning)
• Carotid sinus hypersensitivity
• Beta-blockers
• Calcium channel blockers
• Digoxin
• Ivabradine
• Clonidine
• Reserpine
• Adenosine
• Cimetidine
• Antiarrhythmic Class I to IV
• Lithium
• Amitriptyline
• Narcotics
• Cannabinoids
• Hypothyroidism
• Sleep apnea
• Hypoxia
• Intracranial hypertension
• Hyperkalemia
• Anorexia nervosa

Syndrome

• Heart tissue damage related to aging
• Damage to heart tissues from heart disease or heart attack
• Heart disorder present at birth (congenital heart defect)
• Infection of heart tissue (myocarditis)
• A complication of heart surgery
• Underactive thyroid gland (hypothyroidism)
• Imbalance of chemicals in the blood, such as potassium or calcium
• Repeated disruption of breathing during sleep (obstructive sleep apnea)
• Inflammatory diseases, such as rheumatic fever or lupus
• Medications, including some drugs for other heart rhythm disorders, high blood pressure and psychosis
• Common in sick sinus syndrome
• Characterized by bursts of atrial tachycardia interspersed with periods of bradycardia
• Paroxysmal atrial flutter or fibrillation may also occur, and cardioversion may be followed by a severe bradycardia

Symptoms of Bradycardia

• Fatigue or feeling weak
• Chest pain, which may signal reduced blood flow to the heart
• Dizziness or lightheadedness
• Confusion
• Fainting (or near-fainting) spells
• Shortness of breath
• Difficulty when exercising
• Cardiac arrest (in extreme cases)
• Confusion or memory problems
• Easily tiring during physical activity
• Heart palpitations or flutters
• Limited ability to exercise

Diagnosis of Bradycardia

• Electrocardiogram (ECG or EKG) – An electrocardiogram also called an ECG or EKG, is a primary tool for evaluating bradycardia. Using small sensors (electrodes) attached to your chest and arms, it records electrical signals as they travel through your heart. Because an ECG can’t record bradycardia unless it happens during the test, your doctor might have you use a portable ECG device at home. These devices include:
• Holter monitor – Carried in your pocket or worn on a belt or shoulder strap, this device records your heart’s activity for 24 to 48 hours. Your doctor will likely ask you to keep a diary during the same 24 hours. You’ll describe any symptoms you experience and record the time they occur.
• Event recorder – This device monitors your heart activity over a few weeks. You push a button to activate it when you feel symptoms so that it records your heart’s activity during that time.
• LINQ insertable cardiac monitor: This wireless, powerful, small insertable cardiac monitor is ideal for patients experiencing infrequent symptoms that require long-term monitoring or ongoing management.

Your doctor might use an ECG monitor while performing other tests to understand the impact of bradycardia. These tests include

• Tilt table test – This test helps your doctor better understand how your bradycardia contributes to fainting spells. You lie flat on a special table, and then the table is tilted as if you were standing up to see if the change in position causes you to faint.
• Exercise test – Your doctor might monitor your heart rate while you walk on a treadmill or ride a stationary bike to see whether your heart rate increases appropriately in response to physical activity.
• A stress test – can be helpful in bringing out either sinus node disease or heart block that becomes apparent only during exertion.

Treatment of Bradycardia

The treatment of bradycardia is dependent on whether or not the person is stable or unstable.^[rx] If oxygen saturations are low, supplemental oxygen should be provided.

• Stable – Emergency treatment is not needed if the person is asymptomatic or minimally symptomatic.^[rx]
• Unstable – If a person is unstable, the initial recommended treatment is intravenous atropine.^[rx] Doses less than 0.5 mg should not be used, as this may further decrease the rate.^[rx] If this is not effective, intravenous inotrope infusion (dopamine, epinephrine) or transcutaneous pacing should be used.^[rx] Transvenous pacing may be required if the cause of the bradycardia is not rapidly reversible.^[rx]
• In children – giving oxygen, supporting their breathing, and chest compressions are recommended.^[rx][rx]

References

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