Abstract
Background: The purpose of this systematic review was to identify characteristics of the chest pain associated with the presence of panic disorder, to determine the strength of the association between panic disorder and coronary artery disease (CAD), and to determine the association between panic disorder and known cardiovascular risk factors.
Methods: Potential studies were identified via computerized search using MEDLINE and PSYCINFO databases, and review of bibliographies. MeSH headings used included “panic disorder” with “chest pain,” “panic disorder” with “coronary disease or cardiovascular disorders or heart disorders,” and “panic disorder” with “cholesterol or essential hypertension or tobacco smoking.” Studies had to base their diagnosis of panic disorder on criteria from the Diagnostic and Statistical Manual of Mental Disorders, 4th Edition, and objective criteria of CAD and risk factors had to be used. Only case-control and cohort studies were included.
Results: The relative risk of panic disorder in patients with nonanginal chest pain is 2.03 [confidence interval (CI), 1.41 to 2.92]. Concerning the relationship between panic disorder and CAD, studies conducted in emergency departments found a relative risk of 1.25 (CI, 0.87 to 1.80). However, there is an inverse relationship between the prevalence of CAD in the study and the prevalence of panic disorder among the patients with CAD (r = −.469, P = .086). Panic disorder has also been linked to cardiac risk factors.
Conclusions: Panic disorder and CAD are correlated in noncardiology settings, and recurrent panic attacks may actually cause CAD. Recognition of either condition should lead the family physician to consider the other, resulting in increased vigilance and possible screening.
Chest pain is a common symptom in primary care populations, reported in 7% to 24% of patients,1–3 4.8% of whom are referred, usually to cardiologists.4 In addition, the presence of chest pain in primary care patients is associated with poorer functional status, especially in role functioning.3 Not surprisingly, chest pain results in substantial use of resources; 83% of primary care patients with chest pain receive diagnostic testing, at a mean cost of $272 per evaluation. Only 6% of these evaluations lead to an organic diagnosis, so the average testing cost per organic diagnosis made is $4354.1 Although among primary care patients with chest pain a cardiac diagnosis is made 8% to 34% of the time and a psychiatric diagnosis is made 6% to 37% of the time,1,5–7 the cause of the chest pain is frequently not determined.1
The literature on the consequences of chest pain and its relationship to anxiety disorders is extensive; most studies of patients with chest pain include adults ranging in age from 20 to 80 with means from 40 to 60 years. Comparing chest pain patients referred for angiograms with and without cardiac disease, both groups use similar coping strategies.8 However, the patients without significant coronary disease on angiography have significantly higher rates of emergency department utilization.9 Studies of chest pain patients with normal coronary angiograms report that 13% of these patients have symptoms of angina and 73% have atypical angina. Even after such patients are told the normal results of their angiography, 60% continue to have chest pain, 17% are rehospitalized, and 30% limit their physical activity.10
Many primary care patients with chest pain have anxiety disorders.3 Chest pain patients referred to gastroenterology after cardiology evaluation who have no cardiac or esophageal disease have high rates of panic disorder, obsessive-compulsive disorder, and somatic anxiety.11 However, patients with chest pain often assume that their pain is related to coronary artery disease (CAD). This explains why community- and psychiatry practice-based persons with panic attacks have frequently used cardiologists.12–14 Yet psychiatry patients with panic disorder are often more distressed than those with cardiac disease, report poorer role functioning than patients with congestive heart failure or after myocardial infarction, and poorer vitality and social functioning than patients after myocardial infarction.15
Thus, it is particularly important (and difficult) to distinguish between chest pain caused by panic disorder and that caused by CAD. But are panic disorder and CAD independent?
Chest Pain and Panic Disorder
Panic disorder is closely linked to chest pain. Chest pain is a common symptom in community-based patients with panic disorder and is included in the definitional criteria for panic disorder.16 Table 17,9,17–38 presents the prevalence of panic disorder in patients with chest pain. The prevalence of panic attacks, which fail to meet the criteria for panic disorder, is just as high.7,19,23,26
Prevalence of Panic Disorder in Patients with Chest Pain
Although panic disorder is commonly seen in patients with chest pain, the variability of chest pain during panic attacks may explain why physicians often fail to recognize panic disorder in patients seeking care for chest pain. In one study, none of the 26% of patients with panic disorder who presented to the emergency department with chest pain were correctly diagnosed.18 A similar study in a family practice setting found that only 4 of 26 (15%) patients presenting with chest pain were recognized as such, whereas 2 were diagnosed with coronary artery disease. However, 12 (46%) were recognized as having chest pain caused by anxiety or stress.7 Aikens et al39 have shown that primary care physicians are capable of differentiating between panic disorder and cardiac disease, although this study did not focus on patients with chest pain.
The recognition of panic attacks in patients presenting with chest pain is critical if serious complications are to be avoided. The presence of chest pain during panic attacks has been linked to the presence and severity of phobic avoidance among community-dwelling persons (as opposed to hospitalized persons) with panic attacks,40 and the severity of the chest pain has been associated with decreased life satisfaction and quality of life in community-dwelling individuals with panic attacks41 and poor health status in emergency department patients presenting with chest pain.42 In addition, 60% of chest pain patients with recent suicidal ideation who present to emergency departments have panic disorder.43 Health care utilization is also affected. Community-dwelling patients with panic attacks cite their chest pain or belief that they are having a “heart attack” as the reason for seeking care 9% of the time.44 Chest pain during panic attacks is linked to increased hospitalization among emergency department patients42 and emergency department use,45 as well as utilization of personal physicians,45 family physicians, and psychiatrists among community-dwelling individuals.13 Patients with chest pain referred for angiography use more medications if panic disorder is present.35 Failure to recognize panic disorder in patients presenting with chest pain is associated with increased overall health care utilization46 and increased laboratory testing in community-based individuals,46,47 and higher follow-up visit costs in family practice patients,7 but fewer mental health referrals among patients in community and emergency department settings.19,46,47 In addition, failure to recognize panic is associated with fewer psychotropic medications prescribed in family practice and emergency department settings,7,46,47 yet 22% of primary care patients with chest pain are treated with cardiac medications.7 Thus, chest pain in panic disorder and failure to recognize panic are associated with serious consequences in terms of phobic avoidance, quality of life, and health care utilization.
The purpose of this systematic review of the relationship between panic disorder and CAD in patients with chest pain was to identify characteristics of the chest pain associated with the presence of panic disorder, to determine the strength of the association between panic disorder and CAD, and to determine the association between panic disorder and known cardiovascular risk factors.
Methods
Retrieval of the Literature
Potential studies were identified via computerized search of studies using MEDLINE and PSYCINFO databases as well as via review of bibliographies and reference lists of papers. Searches were not limited by study design or type of publication. The MeSH headings searched included “panic disorder” with “chest pain,” “panic disorder” with “coronary disease or cardiovascular disorders or heart disorders,” and “panic disorder” with “cholesterol or essential hypertension or tobacco smoking.” These 3 searches yielded 146, 117, and 121 articles, respectively.
Selection of the Literature
Only case control and cohort studies were included. Inclusion criteria required standard criteria for diagnoses. Hence, studies had to base their diagnosis of panic disorder on criteria from the Diagnostic and Statistical Manual of Mental Disorders (DSM) 4th Edition (see Table 2). In addition, objective criteria relevant to each question had to be used. Standard definitions of angina had to be specified, such as chest pain that was substernal, exertional, and relieved by rest or nitroglycerin. Objective criteria for coronary artery disease (eg, >50% stenosis on angiography) had to be used in studies looking at the relationship between panic disorder and CAD. Finally, objective levels of risk factors (eg, total cholesterol >200) had to be used in studies of risk factors. Abstracts of all potential articles were reviewed, and those seeming to address the inclusion criteria were reviewed in detail.
DSM-IV Criteria for Diagnosis of Panic Disorder
Analysis
A standard abstraction form was used that included study design, criteria for diagnoses and exposure, potential confounding variables, the presence of chest pain in subjects, site of the study, and results as 2 × 2 tables. No cohort studies were identified. Because this literature comes from several settings (community populations, primary care, emergency departments, cardiology settings), quantitative summaries were only conducted within similar settings. A minimum of 3 studies using standard criteria conducted within similar settings was required before quantitative summary was attempted. Study results were expressed using the natural logarithmic transformation of the relative risk. Weighted means were then calculated using methods described by Greenland.48
Results
Characteristics of Chest Pain
For most characteristics, there were insufficient numbers of homogeneous studies to quantitatively summarize the relationship between pain characteristics and panic disorder. However, 3 studies17,18,42 conducted in emergency departments were sufficiently similar to combine. Table 3 summarizes these studies. The weighted combined results show that the relative risk of panic disorder in patients with nonanginal chest pain is 2.03 (CI, 1.41 to 2.92). However, other specific characteristics of the chest pain may help to distinguish between panic disorder and other causes of chest pain. Some characteristics normally thought to indicate coronary disease are associated with anxiety or panic disorder in previous studies, such as the occurrence of chest pain with exertion, a pressure sensation,7,49 and a substernal7 or precordial location49,50 But chest pain with anxiety or panic has also been described as nonexertional,49 dyspeptic,21 associated with meals21 or nervousness,21 present at night,7 and located in the chest wall,50 right hand27, or forearm but not in the left back.18 Exertional pattern and relief with nitroglycerin have poor predictive validity for CAD in primary care settings.51
Included Studies Assessing the Relationship between Nonanginal Pain and Panic Disorder in Patients Presenting to Emergency Departments for Chest Pain
Association between Panic Disorder and CAD
Table 4 presents the studies17,18,22,24,33,35,52,53 that investigated the association between CAD and panic disorder, which were conducted on patients with chest pain in emergency departments or cardiology settings. There were insufficient population-based or primary care studies to summarize. Combining studies conducted in emergency departments found a relative risk of 1.25 (CI, 0.87 to 1.80). Cardiology-based studies are difficult. Combining those studies that excluded patients with prior evidence of CAD found a relative risk of 0.19 (CI, 0.10 to 0.37), whereas those studies basing the diagnosis of CAD on either thallium treadmills or angiography found a relative risk of 0.11 (CI, 0.05 to 0.26). However, the selective nature of the samples prevents a strong conclusion about the association between CAD and panic disorder from being made. Using all 10 studies conducted in patients with chest pain, there is an inverse relationship between the prevalence of CAD in the study and the prevalence of panic disorder among the patients with CAD (r = −.469, P = .086); thus, the more selective the sample, the lower the detected association between panic disorder and CAD.
Included Studies Assessing the Association between Panic Disorder and Coronary Artery Disease in Patients with Chest Pain
Association between Panic Disorder and Cardiovascular Risk Factors
There were insufficient numbers of homogeneous studies to quantitatively summarize the relationship. In addition, none of the studies of the relationship of panic disorder and cardiovascular risk factors were longitudinal, so the evidence of associations is not strong. However, several known cardiac risk factors have been reported to be present in people with panic disorder. Dammen et al22 reported no association with hypertension, diabetes, obesity, or hyperlipidemia, Bajwa et al54 reported no association with BMI, and Roy-Byrne et al55 reported no association with hypercholesterolemia. However, most studies have clearly linked panic disorder to cardiac risk factors. Not only do people with panic disorder frequently have a family history of CAD, but the total number of risk factors is increased as well.22
Panic disorder is linked to increases in both systolic and diastolic blood pressures,56,57 and the diagnosis of hypertension is associated with both panic disorder28,55,58–61 and panic attacks.7,58,62 These studies were conducted in the general population and clinical settings (primary care, cardiology, and psychiatry) with sample sizes from 4856 to 487460; all 3 primary care studies55,58,59 found an association between panic disorder and hypertension. This may explain why 9% to 32% of patients with chest pain and normal coronary angiograms have hypertension.63
Similarly, panic disorder is associated with lipid abnormalities. Specifically, total cholesterol levels are increased in those with panic disorder.54,64 However, significant associations between panic disorder and hyperlipidemia were found only in psychiatry-based studies of small sample size54,64; studies in cardiology22 and primary care settings55 involving larger sample sizes have not found this association. If they exist, elevations in cholesterol may be caused by increased catecholamines64 and may explain the correlation between total cholesterol and fear of dying in patients with panic disorder.65 This is further supported by studies that have documented elevated cholesterol levels in 8% to 55% of patients with chest pain and normal coronary angiograms.63 Furthermore, women with panic disorder frequently have elevated LDL levels with decreased HDL levels, whereas men with panic disorder frequently have elevated triglyceride levels.64 However, elevated LDL levels in patients with anxiety disorders is not limited to those with panic disorder.66
Finally, although there are no primary care-based studies, smoking is linked to panic disorder in population-, cardiology-, and psychiatry-based studies with sample sizes from 102 to 3132.22,67,68 This may explain why 32% to 64% of patients with chest pain and normal coronary angiograms are smokers.63 However, the nature of this relationship is unclear. On the one hand, panic attacks are not believed to induce smoking,67 even though 19% of patients with panic disorder report that they increased their smoking because of their panic.68 On the other hand, 72% of panic disorder patients report smoking when their attacks began, with 55% and 26% reporting to have decreased or stopped smoking in response to their panic.68 Daily or continuous smoking are risk factors for the onset of panic, and the frequency of panic attacks correlates with the amount of smoking.67 However, panic attacks have also begun after short-term smoking abstinence.69
Discussion
Characteristics of Chest Pain in Panic Disorder
When looking at specific characteristics of chest pain, panic disorder has frequently been reported in those having atypical angina or atypical chest pain.18–20,31,32,35,42,70,71 This review supports these findings. However, panic disorder has also been seen in patients with typical angina (4% to 65%).28,63 Further complicating the angina-atypical angina link to panic disorder is that 10% of patients with ischemic chest pain have panic disorder.33 Conversely, only 64% of patients with heart disease have chest pain,21 atypical chest pain is seen in coronary artery disease,32 and only 79% of patients with significant coronary artery disease have angina.9 In emergency department patients with acute chest pain, angina was most common in those patients with both panic disorder and acute ischemia.17 However, there are studies that have either failed to find an association between panic disorder and angina72 or have found no difference in the prevalence of angina and atypical angina (19%) in patients with panic disorder.33 Thus, although certain atypical features may suggest panic disorder, many of the characteristics classically associated with CAD are common in patients with panic disorder or anxiety.
One reason that people with chest pain associated with panic disorder often seek medical care is the distress that accompanies the pain. Patients with panic disorder are emotionally sensitive.16 As a group, those with panic attacks are more concerned about pain, are more convinced that they have a disease, and are more phobic about disease and death than control subjects.73 Those with fear as part of their attacks have more panic symptoms with a more recent onset.30 Panic patients are selectively attentive to heart rate and electrocardiograms.74 The significance is that cardiopulmonary fear is the best predictor of the intensity of the cardiac complaints in patients with noncardiac chest pain.75 Even when panic disorder and CAD coexist, the distress perceived by patients with chest pain is typically caused by the panic disorder.52 On the other hand, highly anxious patients with panic disorder exhibit increased muscular activity in the chest wall after carbon dioxide inhalation, which predicts frightening cognitions.76 Thus, it is not surprising that people with chest pain caused by panic attacks readily seek care for their pain.
Panic Disorder and Cardiac Disease
This review failed to document an association between panic disorder and CAD. However, the less selective the sample, the higher the prevalence of panic disorder in CAD patients. Tables 5* and 618,28,32,34,35,55,60 show, respectively, that panic disorder occurs in 0% to 53% of patients with CAD and that CAD occurs in 4% to 55% of patients with panic disorder. Although panic disorder is usually more common in people without CAD than those with CAD,24,25,27,32 it is still seen in a significant portion of those with CAD. In fact, Kane et al21 found more panic disorder in patients with CAD than without it.
Prevalence of Panic Disorder in Patients with Coronary Artery Disease
Prevalence of Coronary Artery Disease in Patients with Panic Disorder
The comorbidity between CAD and panic disorder can have serious consequences. Not only can diagnosing panic disorder result in failure to recognize CAD, but panic disorder itself is often unrecognized,36,43 leading to increased social disability, medical costs, and disease progression.36 Men with panic disorder have an increased rate of cardiovascular mortality.80 The tachycardia observed during a panic attack could potentially lead to an acute myocardial infarction in someone with underlying CAD. This may reflect the increased sudden death and fatal cardiovascular disease observed in patients with anxiety in general.81
In addition to CAD, panic disorder is associated with other cardiac abnormalities. Patients with panic disorder have elevated standing heart rates82, and 10% have an arrhythmia.28 Panic disorder has also been associated with increased left ventricular mass and diameter.83 In addition, patients with panic disorder have poorer cardiovascular fitness, as demonstrated by lower Vo2max and decreased exercise tolerance compared with control subjects.84 Although panic disorder is reportedly associated with idiopathic cardiomyopathy,85 not all studies support this.86,87 Panic disorder has also been linked to a descending aortic aneurysm88 and pulmonary hypertension caused by an atrial septal defect with pulmonic valve disease.89 But the strongest association is with mitral valve prolapse (MVP).
The panic-MVP relationship has been well documented.90 However, MVP is not likely to be the source of chest pain.91 The significance of the panic-MVP relationship is unclear. The presence of MVP does not alter psychiatric comorbidity92,93 or treatment response.94 The source of the linkage is also unclear. Although a MVP-to-panic sequence has been proposed,95 no evidence supports it. Indirect linkages via autonomic vulnerability or dysfunction have also been made.96 It is most likely that the decreased left ventricular volume caused by the tachycardia seen in panic disorder can produce MVP.97 The observation that the MVP disappears with remission of the panic disorder further supports this sequence.98
Thus, panic disorder has been linked to several forms of cardiac disease. Although a relationship with MVP is probably the most common, the association with CAD is the most significant. Not only does this lead to serious consequences but panic symptoms may also overshadow those of CAD, and the characteristics of the chest pain do not accurately distinguish between them.
Nature of the Panic-CAD Relationship
Although the source of chest pain in panic disorder could be chest wall activity76 or esophageal abnormalities,63 the most likely source is ischemia. Assuming that ischemia is the source, 3 possible mechanisms have been proposed as the source of chest pain in panic disorder.
Decreased Heart Rate Variability
First, patients with panic disorder exhibit decreased heart rate variability.99–102 Compared with control subjects, patients with panic disorder display higher maximal heart rates, higher heart rates on standing, and decreased PR intervals,29,56 all of which decrease heart rate variability.103 Tachycardia and diminished variability can lead to increased oxygen demand and ischemia.77 Decreased heart rate variability has also been linked to sudden death.104
Microvascular Angina
A second possible mechanism for ischemia in panic disorder is that of microvascular angina. Under this mechanism, hyperventilation associated with attacks results in increased contractility, stroke volume, and cardiac output. Increased catecholamines lead to increased peripheral resistance. Coupled with spasm of intramyocardial arterioles, this results in microvascular angina and, eventually, cardiomyopathy.57 Almost 50% of women with chest pain but no CAD have microvascular dysfunction unrelated to cardiovascular risk factors.105 In fact, 40% of patients with microvascular angina have panic attacks. Patients with panic disorder and those with microvascular angina have similar results for electrocardiography, exercise treadmill tests, and left ventricular ejection fraction.79 As part of Syndrome X, microvascular angina is associated with ongoing chest pain but has an excellent prognosis in terms of mortality.106
Coronary Artery Disease
Panic disorder and CAD often coexist, and the chest pain in panic disorder may be caused by true CAD. Although myocardial ischemia could cause panic attacks via increased catecholamines or cerebral carbon dioxide levels secondary to lactate,107 panic disorder is more likely to promote CAD through its relationship with cardiac risk factors. However, the nature of the relationships between panic disorder and the cardiac risk factors is unclear. Although it has been suggested that smoking could cause panic disorder secondary to associated lung disease67 and panic disorder has been linked to COPD,108 the weakness of this association refutes a causal relationship.
Implications
Recognition of Panic Disorder
Panic disorder is diagnosed via DSM criteria; although lactate infusion, CO2 inhalation, and hyperventilation can induce panic attacks in research settings, these tests are not sensitive enough to be useful clinically. However, certain patient characteristics can suggest which patients with chest pain should be targeted for screening. Table 717,18,22,27,42,50,109 presents correlates with the presence of panic disorder in patients presenting with chest pain. Consistent correlates of panic disorder are younger age, and psychiatric symptoms and diagnoses. Not all studies support the importance of age or gender.17,25,26,31,42 Atypical chest pain is also a correlate.31 In general, panic disorder should be suspected in patients with chest pain in the presence of atypical pain, lack of organic causes of chest pain, asymptomatic MVP, and palpitations without significant arrhythmia.110
Correlates with Presence of Panic Disorder in Patients with Chest Pain
Predictive models of panic disorder in emergency department and cardiology patients are 73% and 78% correct, respectively.18,27 However, the likelihood ratios in these models are not strong enough to recommend them. These models emphasize considering panic disorder in patients with chest pain who are younger, have agoraphobic cognitions, have noncardiac types of pain, and have pain in the right arm.
With these studies considered, which patients presenting to primary care physicians should be screened for panic disorder? First, the high prevalence of panic disorder as documented in Table 17,9,17–38 suggests that physicians should have a high index of suspicion for panic disorder in every patient seen with chest pain. Second, certain demographic groups (younger age, female) deserve particular attention. In addition, pain characteristics (atypical chest pain, noncardiac description, pain in the right arm or hand) and agoraphobic cognitions or behaviors should increase the index of suspicion. Patients who lack organic causes of chest pain, who have MVP, or who have normal cardiac testing also deserve attention. These patients should be evaluated for panic disorder using DSM criteria.
If it is still unclear whether the patient has panic disorder, a drug trial may be useful. Although sublingual nitroglycerin may be helpful in angina, the frequent occurrence of esophageal abnormalities in panic disorder111 and the response of esophageal spasms to nitroglycerin suggest that response to nitroglycerin would not exclude panic disorder. A trial of high potency benzodiazepines may be helpful. Alprazolam has been shown to decrease chest pain and panic attack frequency in panic disorder patients with chest pain112 and clonazepam has been shown to decrease anxiety levels and panic attack frequency in panic disorder patients with chest pain and normal coronary angiograms. However, even a placebo can decrease panic attack frequency.113 Similarly, a trial of sertraline may not differentiate disorders because sertraline reduces pain levels in patients with noncardiac chest pain.114
If Panic Disorder Is Diagnosed
Because the presence of panic disorder does not exclude CAD (and, in fact, can be associated with it), which patients with panic disorder should be further evaluated for CAD? The most defensible strategy would probably be to work up any patient with cardiac risk factors, given that patients with both CAD and panic disorder tend to exhibit distress because of the panic attacks.52 Hence, the panic attacks may serve the valuable role of causing the patient with CAD to seek care and to alert the physician to the possibility of CAD. Because MVP can produce false-positive results on an exercise tolerance test, a thallium exercise tolerance test is probably the preferred test for CAD in the presence of panic disorder. Because patients with chest pain continue to have symptoms and disability after reassurance115 or a normal coronary angiogram,10 cardiac work-ups should not be performed with the goal of convincing patients that they have no cardiac disease. The lack of reassurance by patients may explain why only 56% of emergency department patients with chest pain begun on paroxetine for panic disorder are still taking it 1 month later.116
CAD with Panic Disorder
In the presence of CAD, panic disorder should be treated with a selective serotonin reuptake inhibitor (SSRI), a high-potency benzodiazepine, or cognitive-behavioral therapy. Although tricyclic antidepressants are effective in panic disorder, their cardiotoxicity precludes them as first line agents in the presence of CAD. In addition to possible cardiotoxicity, imipramine therapy for panic disorder has been shown to increase cardiovascular mortality risk secondary to increased blood pressure and heart rate.117 Although angina, hypertension, and hypercholesterolemia are rare side effects of SSRI therapy, hypertension is a risk (5%) in high-dose venlafaxine therapy.118 If the patient has multiple cardiac risk factors or an SSRI-exacerbated risk factor, a high-potency benzodiazepine or cognitive-behavioral therapy may be the best choice. Alprazolam has been shown to decrease not only catecholamine response to exercise119 but also can actually decrease total cholesterol when used to treat panic disorder.120 In addition, although alprazolam did not decrease the frequency or severity of anginal attacks in CAD patients on propranolol, it did decrease symptom severity and reduce nitroglycerin use.121 However, benzodiazepines should generally not be used in elderly patients or those with a history of substance abuse or personality disorders.
CAD and cardiac risk factors should also be treated aggressively. Smoking cessation should improve both CAD and panic disorder. Although cholesterol reduction is important, statin therapy has rarely been associated with increased anxiety. Because there is evidence that verapamil122 and clonidine123,124 have antipanic activity, these drugs may play a specific role in the treatment of hypertension in patients with panic disorder. Although propranolol is recommended after myocardial infarction and may reduce panic symptoms,125 it has also been associated with exacerbation of panic disorder.126 Finally, the combination of tricyclic antidepressants with nitrates and vasodilators can result in significant orthostatic hypotension.117
Conclusion
Chest pain is a common symptom in primary care patients, often leading to disability and care-seeking. Although both important causes of chest pain, panic disorder and coronary artery disease can coexist. When comorbid, the panic attacks may cause the patient with coronary disease to seek care but could also provoke a cardiac event. Distinguishing between the 2 disorders can be difficult based on clinical criteria alone. If one condition is recognized, a search for the other is warranted because of the potential consequences if left undetected.
Acknowledgments
We thank E. Mikaila Adams for her technical and editorial assistance.
- Received for publication August 20, 2003.
- Revision received August 20, 2003.