New Onset Atrial Fibrillation in Health Profession Student with Newly Diagnosed ADHD: A Case Report on Wellness and Cardiovascular Consequences of Burnout

Atrial fibrillation (AF) is an arrhythmia of the heart, typically caused by damage to the myocardium or its electrical pathways, resulting in characteristic “irregularly, irregular” contractions of the atria [1]. It is the most common arrhythmia worldwide, with over 33.5 million people affected [2]. Advanced age, male sex, and geographic location have all been linked to increased rates of AF [1,2]. According to the American Heart Association, heart disease is the most common risk factor for AF, while hypertension, obesity, smoking, diabetes mellitus, and other cardiac comorbidities have also been shown to play a role [3]. Conversely, lone AF has been used historically to describe AF in patients with structurally and functionally normal hearts [4].

Lone AF is typically seen in younger age groups (< 65) as many AF risk factors develop with increasing age [4,5]. In general, AF is relatively rare in children and younger patients and is often associated with congenital heart diseases [6]. In the absence of such conditions and when working up the potential for lone AF, it is important for physicians to perform a detailed history and physical exam to determine any exogenous causes [3]. Often overlooked, medications can be a cause of paroxysmal or chronic lone AF, with the most common being corticosteroids, ondansetron, antineoplastic agents, and select cardiovascular drugs such as adenosine, dobutamine, and milrinone [7].
Here we describe a case of methylphenidate-induced lone AF in a young health professional student that had recently been diagnosed with ADHD, with a review of literature surrounding stimulant use and its relation to wellness and burnout in the health professional education system. revealed no acute cardiopulmonary findings. Due to his age and relatively healthy status prior to this event, he was placed in observation and given 25 mg Lopressor (metoprolol tartrate). In the next eight hours, repeat troponin levels showed a mild elevation which eventually decreased over a 6-hour period (0.025 to 0.106 to 0.066), with spontaneous conversion to normal sinus rhythm in the 70 s and complete resolution of his initial symptoms. Subsequent transthoracic echocardiogram after sinus conversion revealed normal left ejection fraction of 50-55%, resulting in deferral of a transesophageal echocardiogram.

Case RePORt
The patient was discharged on 25 mg Toprol XL (metoprolol succinate) and advised to discontinue his Ritalin until cleared by his primary care physician and outpatient cardiology. With no new cardiac symptoms, age-appropriate male with no appreciable gross abnormalities. Cardiovascular exam revealed a normal S1 and S2 on auscultation with no murmurs, gallops, or rubs. Osteopathic structural exam revealed viscerosomatic reflexes visualized at the level of T1-T4.
Initial electrocardiogram revealed atrial fibrillation with rapid ventricular response ( Figure 1). Intravenous fluids and two boluses of 10mg intravenous Cardizem (diltiazem) resulted in a temporary decrease of pulse rate to the 120 s and blood pressure increase to 108/60. Repeat ECG revealed persistent atrial fibrillation with rapid ventricular response with pulse rate in the 140 s ( Figure 2).
Initial laboratory testing demonstrated a normal complete blood count, serum electrolytes, creatinine, thyroid stimulating hormone, and troponin I. Chest x-ray  Methylphenidate and other stimulant medications can also have similar cardiovascular side effects ranging from use-dependent palpitations to Raynaud's phenomenon and chest pain, but these medications have not been known to precipitate AF [10]. Advances in understanding, screening, and diagnosis of neurodevelopmental and mental health coupled with de-stigmatization of attention deficit hyperactivity disorder (ADHD) has led to increased rates of prescription and utilization of stimulants for treatment [9,10] Greater availability and portrayal in media have also fueled recreation and performance uses for stimulants in undergraduate and graduate education, especially in relation to important examinations [14]. Health profession students, in particular, are not immune from academic stress and the pressure to perform, resulting in the procurement and use of stimulants through legitimate health diagnosis or via third party sources [11]. Minimal literature exists of the health ramifications of stimulant medications in the context of the health professional educational system [14,15].
Research on AF has primarily been focused on the early identification and diagnosis of risk factors as well as the development of novel pharmaceutical agents for treatment [1,3]. Due to advances in cardiac imaging and intervention, researchers have strayed away from using lone AF, resulting in the inconsistent application and reporting of lone AF in literature [5]. Even in recent case reports and series, lone AF has been a proxy for idiopathic AF and its use has been subject to the discretion of authors, editors, and reviewers, thus making it difficult to compare and draw conclusions [4,6]. Coupled with a generally positive prognosis and identical treatment options amongst various AF subtypes, studies have been limited in further elucidating the possible causes of lone AF [5]. In the absence of electrical or structural damage of the heart, lone AF can still be a useful term to describe situations where external stimuli may induce AF, such as in the presented case. Methylphenidate and other similar ADHD stimulant medications have not been known to induce AF and further studies should be performed to see if long term or non-prescription base use can precipitate lone AF [10]. Specifically, it is unknown if medication induced lone AF may ultimately increase the risk of developing future cardiac pathology or AF [4][5][6]. Future studies may look into better quantifying and qualifying ADHD incidence and stimulant use/misuse in health profession students and creating systems to change the culture surrounding burnout and mental health.
Methylphenidate-induced atrial fibrillation is a rare phenomenon, with hallmarks of lone AF due to the lack of damage to cardiac structures or electrical pathways. Rising rates of ADHD due to increased understanding and diagnosis has resulted in greater use of stimulant medications for longer periods of time. Generally safe, stimulant medications have mild cardiovascular side the patient was restarted on his Ritalin at his 8-week follow-up appointment in addition to continuing with the Toprol XL. At the three-month follow up, he noticed occasional increased heart rate after Ritalin use but has had no recurrent episodes of atrial fibrillation.

Conclusions
ADHD is a multifactorial neurodevelopmental disorder characterized by difficulty in focusing and enacting actions or emotions without consideration of consequences [8]. Over the past 30 years, the diagnosis and treatment of ADHD and related neuropsychiatric conditions have increased as a reflection of better disease process understanding, changing societal perceptions, and increased awareness [9]. Initial studies have shown a prevalence of 6% in various populations; however, with revisions to the Diagnostic and Statistical Manual of Mental Disorders and the refinement of stimulants to longer acting formations, current reports have found rates between 10-15% [8][9][10]. Although controversial, hereditary and environmental factors have also been studied and implicated in the potential development of ADHD across multiple familial generations [8]. As educators and physicians become more adept in screening and recognition of ADHD, pediatric patients are diagnosed earlier, thus starting stimulants at a younger age and for longer periods of their life [9]. The subsequent effects of stimulants on pediatric cardiophysiology have been inconclusive due to limited studies and small patient pools [4][5][6].
ADHD is commonly diagnosed in the preadolescent age group, with an average age of 7 years old [8]. In contrast, health profession students are often diagnosed with ADHD later in life due to a combination of adaptive compensation in behavior modulation, fear of stigmatization, and introduction of new life stressors associated with entering the health profession [11,12]. ADHD has been shown to be a potential underlying factor to burnout -a syndrome of emotional, physical, and mental exhaustion caused by excessive and prolonged stress that has not been successfully managed [11,13]. Recent surveys and anecdotal evidence have detailed rising rates of burnout and suicide in graduate and post-graduate health professions, in which bureaucratic administrative decisions, complicated recordkeeping systems, and quickly evolving requirements create an environment that eliminates a work-life balance and prioritizes efficiency and productivity [12]. Research on the development of response mechanisms in relation to resiliency and wellness increasingly implicate the importance of cultivating healthy habits during the undergraduate health profession years [11][12][13]. Limited studies have shown that health profession students may utilize stimulants in an effort to improve academic performance; however, no long-term studies exist regarding its effects on cardiovascular health or its use as a coping mechanism [11,14]. effects that are often overlooked relative totreatment benefit and its use as a colloquially known underground study aid in higher education. Health profession students are not excluded from such pressures, however limited data exists. In light of efforts to increase healthcare wellness and career longevity, evaluating the overall environment and its relation to coping behaviors and mechanism may be crucial in preventing adverse events related to burnout and medication misuse.