Sinus arrhythmia is a commonly encountered variation of normal sinus rhythm. Sinus arrhythmia characteristically presents with an irregular rate in which the variation in the R-R interval is greater than 0.12 seconds. Additionally, P waves are typically monoform and in a pattern consistent with atrial activation originating from the sinus node. During respiration, the intermittent vagus nerve activation occurs, which results in beat to beat variations in the resting heart rate. When present, sinus arrhythmia typically indicates good cardiovascular health.
Sinus arrhythmia is a common rhythm variation. It is seen more often in children and young adults. Respirations lead to vagal stimuli resulting in R-R interval variations. Typically its presence is an indicator of good cardiovascular health. Loss of sinus arrhythmia may indicate underlying heart failure or structural heart disease.
Sinus arrhythmia is most typically present in young, healthy individuals. Studies have attempted to establish an increased prevalence in patients with underlying hypertension, obesity, and diabetes. A published study from 2002 in the Journal of the American College of Cardiology suggested that sinus arrhythmia appeared to be less prominent in older individuals. The study evaluated two groups of healthy individuals without underlying cardiovascular disease. The first group evaluated patients between the ages of 50 and 71 years of age and the second, patients under the age of 31. Investigators found that the prevalence of respiratory sinus arrhythmia in older individuals was less than 20 percent of that in those less than 31 years of age. Some suspect that this is due to age-related changes in the compliance of arterial walls and diminished vagal responses.
Investigation on the pathogenesis of sinus arrhythmia continues but three main theorized mechanisms exist at this time. These include respiratory-phasic, nonrespiratory-nonphasic, and nonrespiratory-ventriculophasic sinus arrhythmia.
Respiratory sinus arrhythmia is a common finding. It is a normal alteration in cardiac rhythm generated from the stimulation of the vagus nerve and changes in cardiac filling pressures during respiration. Recently, there has been controversy regarding the underlying pathogenesis for sinus arrhythmia. Some studies have begun to associate sinus rhythm with obesity, diabetes mellitus, and hypertension while others continue to support a reduction in sinus arrhythmia when these conditions are present. Some studies suggest there may be some relationship to heart failure and other systemic conditions.
One study attempted to evaluate the influences of vagal and sympathetic efferent activity on sinus arrhythmia through the administration of hyoscine butylbromide and atenolol. Administration of hyoscine butylbromide resulted in the reduction of sinus arrhythmia while atenolol reduced vagal tone, prolonging the mean R-R and increasing sinus arrhythmia. The study suggested that mediation of sinus arrhythmia occurs through vagal stimulation. During the respiratory cycle, inspiration inhibits vagal tone leading to an increase in sinus rate, while expiration increases vagal tone resulting in decreased rate. This concept was supported by a later study that successfully mimicked the respiratory cycle via stimulation of baroreceptors in the carotid artery with cycles of phased neck suction at the frequency of normal respiration. The study suggested that baroreceptor signaling plays an important role in the generation of respiratory sinus arrhythmia. More recently, investigators have evaluated the effects of diabetes mellitus on sinus arrhythmia. They found that in patients with diabetes there is a reduction in sinus arrhythmia, which investigators attributed to the autonomic effects of the disease.
In nonrespiratory sinus arrhythmia, electrocardiograms will appear similar to the respiratory type. The two differ in that nonrespiratory sinus arrhythmia is not associated with the respiratory cycle. While it can occur within healthy individuals, more often this type correlates with an underlying pathology. Some have reported this finding with underlying heart disease or associated with digitalis overdose. One case report associated the finding with a traumatic intracerebral hemorrhage, which authors associated with vasospasm, hypoxia or increased intracranial pressure.
The ventriculophasic sinus arrhythmia, when present, typically occurs in patients with third-degree AV block. However, they demonstrate correlations premature ventricular contractions. Currently theorized mechanisms suggest that ventriculophasic sinus arrhythmia results due to a prolonged cardiac filling resulting in increased stroke volume. The increased stroke volume triggers a carotid baroreceptor response. On EKG this is represented by an interval shortening between the QRS and subsequent P wave.
Sinus arrhythmia is a common incidental finding seen on presenting EKGs. The finding is normal and found at a higher prevalence in younger individuals. Lack of sinus arrhythmia may be a sign of underlying chronic disease requiring further investigation. It is rare for patients with sinus arrhythmia to display symptoms. If present, symptoms such as shortness of breath, lower extremity edema, dyspnea on exertion, or peripheral neuropathy are likely due to some underlying cause and not sinus arrhythmia. Care should be taken to rule out other potential causes of sinus arrhythmia while taking history. History of trauma to the head or neck via fall or another mechanism, especially in the setting of anticoagulation use, may increase suspicion for underlying intracranial hemorrhage. Additionally, care should be taken on a review of initial EKG to rule out 3rd-degree heart block as a cause of sinus arrhythmia. No physical exam findings directly correlate to the diagnosis of sinus arrhythmia.
Often an asymptomatic and normal finding, the evaluation of sinus arrhythmia is limited. Care should be taken to rule out other causes of arrhythmia including atrial fibrillation, flutter or multifocal atrial tachycardia with an EKG. P-waves will show uniform morphology. On the EKG, sinus rhythm appears as a beat-to-beat variation in the P-P interval. Typically, this variation is greater than 120 msec: the P-P interval increases and decreases with inspiration and exhalation.
Sinus arrhythmia is a common finding on telemetry. It is considered to be a normal variation found in healthy young adults. Upon confirming the diagnosis of sinus arrhythmia on EKG, there are no further recommendations regarding treatment.
A differential diagnosis for sinus arrhythmia would include atrial fibrillation or third-degree AV block.
No required staging criteria exist for the evaluation of sinus arrhythmia.
Sinus arrhythmia typically presents as an indicator of cardiovascular health, most often found in young healthy patients. Sinus arrhythmia does not correlate with a decrease in life expectancy or other comorbidities. Its absence, however, has been associated with chronic diseases such as diabetes mellitus and heart failure.
Typically an incidental finding, there are rarely any complications associated with sinus arrhythmia.
Cardiology consults are not a requirement for patients with sinus arrhythmia.
Patients found to have sinus arrhythmia should receive education that this is a common finding seen in young healthy persons. It rarely requires further evaluation upon establishment of the diagnosis.
Sinus arrhythmia is a common incidental finding on routine EKG. It is most prevalent in young, healthy patients and is a prognostic indicator of good cardiac health. It decreases in prevalence in the elderly, and those with multiple comorbid conditions include diabetes and heart failure. Typically asymptomatic, patients rarely require evaluation by a cardiologist or additional treatment.
Sinus arrhythmia is a common incidental finding that often prompts evaluation by a cardiologist. This is likely due to low levels of provider confidence and education regarding this rhythm. Often found in young healthy persons, sinus arrhythmia typically does not require further evaluation. There are no indications at this time for medications for the treatment of sinus arrhythmia. Nursing staff may play an essential role in the evaluation of sinus arrhythmia, as they are often the first health professional to detect its presence on telemetry. Comfort with the identification of this rhythm is pivotal to decreasing healthcare costs and eliminating potential exposures of patients to anticoagulants. Patients should receive counsel that this finding is normal and serves as an indicator of cardiac health. Level of Evidence - II
|||Kaushal P,Taylor JA, Inter-relations among declines in arterial distensibility, baroreflex function and respiratory sinus arrhythmia. Journal of the American College of Cardiology. 2002 May 1; [PubMed PMID: 11985918]|
|||Coker R,Koziell A,Oliver C,Smith SE, Does the sympathetic nervous system influence sinus arrhythmia in man? Evidence from combined autonomic blockade. The Journal of physiology. 1984 Nov; [PubMed PMID: 6520795]|
|||Piepoli M,Sleight P,Leuzzi S,Valle F,Spadacini G,Passino C,Johnston J,Bernardi L, Origin of respiratory sinus arrhythmia in conscious humans. An important role for arterial carotid baroreceptors. Circulation. 1997 Apr 1; [PubMed PMID: 9107168]|
|||Smith SA, Reduced sinus arrhythmia in diabetic autonomic neuropathy: diagnostic value of an age-related normal range. British medical journal (Clinical research ed.). 1982 Dec 4; [PubMed PMID: 6814668]|
|||Barbosa Filho J,Barbosa PR,Cordovil I, Nonrespiratory sinus arrhythmia. Arquivos brasileiros de cardiologia. 2002 Apr; [PubMed PMID: 12011957]|
|||Deboor SS,Pelter MM,Adams MG, Nonrespiratory sinus arrhythmia. American journal of critical care : an official publication, American Association of Critical-Care Nurses. 2005 Mar; [PubMed PMID: 15728960]|