igue: a practical approach to diagnosis in primary care
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《加拿大医疗协会学报》
The case: A previously well 36-year old woman taking no medications presented to her primary care physician's office with a complaint of unusual generalized fatigue. It had progressed over 8 months, was exacerbated by physical and mental activities and was not relieved by rest. The patient had a history of anemia during a previous pregnancy without a specific clinical diagnosis. She reported regular menstrual periods and no sleep problems. Her weight was stable, and she had no gastrointestinal, musculoskeletal, neurologic or cardiovascular complaints. She reported no polyuria or polydipsia and no cold intolerance. She did not drink and had no history of trauma, recent viral illness, relationship change or situational stress. She denied having symptoms of depression.
On examination, the patient was alert and well groomed and was not pale or jaundiced. She was afebrile, and her heart rate and blood pressure were normal. The heart, lung, musculoskeletal and screening neurologic examinations yielded normal results, as did the abdominal examination. The patient had no lymphadenopathy. Results of a pregnancy test were negative, and those of initial laboratory tests, including a complete blood count, and creatine and electrolyte measurement, were normal except for elevated transaminase levels (alanine transaminase 83 U/L, aspartate transaminase 51 U/L [normal < 50 U/L for both]). The patient's random cortisol level was normal. The results of serologic testing for HIV infection, hepatitis C and B, and mononucleosis were negative.
The patient underwent abdominal ultrasonography, which revealed no liver or biliary tract abnormalities. Antinuclear antibody and smooth-muscle antibody tests yielded negative results, and the serum iron and total iron-binding capacity, 1-antitrypsin and ceruloplasmin levels were all within normal limits. Because of the lack of an explanation for the persistent fatigue and elevated transaminase levels, a test for IgA antiendomysial antibodies was performed and gave a positive result. Endoscopy and small-bowel biopsy revealed a lesion consistent with celiac disease confined to the proximal small intestine.
Fatigue is a sensation of exhaustion during or after usual activities, or a feeling of inadequate energy to begin these activities. In national population surveys, 20%–30% of adults will report that they have significant fatigue at any given time.
For many patients, fatigue is related to a known severe illness or organ failure. In primary care practices, the underlying cause cannot be identified in one-third of patients, which can be frustrating for both the patient and the practitioner. However, the cause is identifiable in two-thirds of cases.1 In a study conducted in the Netherlands, among 5915 patients who visited their primary care physician because of fatigue, the most common diagnoses ultimately made were viral illness, upper respiratory tract infection, iron deficiency anemia, acute bronchitis or bronchiolitis, adverse effect of a medication taken at the proper dose, and depression or other mental disorder.1
The fatigue's duration can be described as recent (onset within 1 month before presentation), prolonged (lasting 1–6 months) or chronic (lasting > 6 months). For patients with recent or prolonged fatigue, a history and physical examination often help to identify the cause, but we have found that these are often less helpful for distinguishing the cause of chronic fatigue.
The differential diagnosis of fatigue is broad (Table 1). Patients with chronic fatigue can have either chronic fatigue syndrome (Box 1) or, if the diagnostic criteria for the syndrome are lacking, simple idiopathic chronic fatigue.2,3 The prevalence of chronic fatigue syndrome is higher among adults 30–39 years old than among those over 60 and affects more women than men.
We propose here an approach to evaluating fatigue in primary care practices:
1. History: Details about the fatigue's duration (recent, prolonged or chronic), onset (sudden or progressive), recovery period (short or long), type (physical or mental fatigue) and the patient's usual level of physical activity (sedentary or active) can point to the underlying cause. This history taking is particularly helpful in distinguishing chronic fatigue from chronic fatigue syndrome (Box 1), the latter often presenting with a sudden onset and a recovery period lasting hours or days. In addition, many patients with chronic fatigue are simply deconditioned or "out of shape" and will benefit from exercise therapy.
2. Physical examination: This occasionally identifies evidence of organ-based illness (Table 1); however, its value may be overrated. It can help to assure patients that their complaints are being taken seriously, especially the one-third of patients for whom no specific cause will be identified.1 Some unusual causes of fatigue can be detected or suggested on physical examination (Table 1) and might be missed in a laboratory screening.4 For example, multiple sclerosis, although rare, sometimes presents with asymmetric deep-tendon and altered plantar reflexes. Patients with physical signs of weakness, fasciculations, atrophy and altered reflexes may actually have a neuromuscular disease (e.g., botulism, Guillan–Barré syndrome, diphtheria or other myositis) rather than pure fatigue.
3. Medications and toxic exposures: The use of all medications (prescribed and over the counter) should be evaluated. Among the common medications often overlooked as causes of fatigue are long-acting antihistamines, corticosteroids, neuroleptics, antiarrhythmics (e.g., amiodarone), antidepressants and antihypertensives (e.g., clonidine, -methyldopa and beta-blockers) and herbal remedies. Toxicity in renal or hepatic impairment (e.g., elevated levels of digoxin or anticonvulsants) can cause fatigue. Chronic and acute toxic environmental exposures (e.g., to carbon monoxide, lead, mercury and arsenic) should be considered.
4. Psychiatric assessment: About one quarter of patients presenting with unexplained fatigue in primary care have a depressive syndrome. Other common psychiatric causes include panic disorder and somatization disorder. Specific questions regarding drug abuse and alcohol consumption are also necessary.
5. Assessment for sleep disorder: Sleep apnea, excessive sleepiness and parasomnias are not uncommon. Preliminary data suggest that a new instrument, the Sleep Disorders Questionnaire, has a high sensitivity and specificity (95% and 87% respectively) when used in the primary care setting.5
Subsequent laboratory tests can actually be quite focused, with 2 primary goals: to rule out serious and common underlying diseases, and to identify patients with iron deficiency, a common and easily corrected cause of fatigue. We use a small battery of routine tests (Box 2). However, in the absence of a positive history or physical examination, laboratory tests are rarely helpful. Minor abnormalities in test results will be common, and most are unrelated to fatigue even in patients complaining of fatigue. Iron deficiency, even in the absence of anemia, can cause fatigue, and treatment of the deficiency with iron appears to help in many such cases. Additional directed tests (e.g., HIV antibody testing) should be considered based on the patient's history and the physical findings.
In the case of our patient with fatigue and elevated transaminase levels but without other typical features of celiac disease (steatorrhea, weight loss), the clinical index of suspicion (pretest probability) of celiac disease was estimated to be between 20% and 30%. Since the test for IgA antiendomysial antibody has a high sensitivity and specificity (about 90% and 95% respectively), the positive likelihood ratio is about 30. By using the Fagan nomogram, we found that the positive predictive value (post-test probability) for this patient increased to about 90%.
The differential diagnosis of fatigue in primary care is very broad, but an organized approach to the patient as we have described can identify key conditions of concern efficienty and reduce the expensive workups for obscure conditions that this undifferentiated complaint can sometimes generate.
REFERENCES
Okkes IM, Oskam SK, Lamberts H. The probability of specific diagnoses for patients presenting with common symptoms to Dutch family physicians. J Fam Pract 2002;51:31-9.
Fukuda K, Straus SE, Hickie I, et al. The chronic fatigue syndrome: a comprehensive approach to its definition and study. International Chronic Fatigue Syndrome Study Group. Ann Intern Med 1994; 121: 953-9.
Reid S, Chalder T, Cleare A, et al. Chronic fatigue syndrome. BMJ 2000;29:292-6.
Lane TJ, Matthews DA, Manu P. The low yield of physical examinations and laboratory investigations of patients with chronic fatigue. Am J Med Sci 1990;299:313-8.
Violani C, Devoto A, Lucidi F, et al. Validity of a short insomnia questionnaire: the SDQ. Brain Res Bull 2004;63:415-21.(Jacques Cornuz*, Idris Gu)
On examination, the patient was alert and well groomed and was not pale or jaundiced. She was afebrile, and her heart rate and blood pressure were normal. The heart, lung, musculoskeletal and screening neurologic examinations yielded normal results, as did the abdominal examination. The patient had no lymphadenopathy. Results of a pregnancy test were negative, and those of initial laboratory tests, including a complete blood count, and creatine and electrolyte measurement, were normal except for elevated transaminase levels (alanine transaminase 83 U/L, aspartate transaminase 51 U/L [normal < 50 U/L for both]). The patient's random cortisol level was normal. The results of serologic testing for HIV infection, hepatitis C and B, and mononucleosis were negative.
The patient underwent abdominal ultrasonography, which revealed no liver or biliary tract abnormalities. Antinuclear antibody and smooth-muscle antibody tests yielded negative results, and the serum iron and total iron-binding capacity, 1-antitrypsin and ceruloplasmin levels were all within normal limits. Because of the lack of an explanation for the persistent fatigue and elevated transaminase levels, a test for IgA antiendomysial antibodies was performed and gave a positive result. Endoscopy and small-bowel biopsy revealed a lesion consistent with celiac disease confined to the proximal small intestine.
Fatigue is a sensation of exhaustion during or after usual activities, or a feeling of inadequate energy to begin these activities. In national population surveys, 20%–30% of adults will report that they have significant fatigue at any given time.
For many patients, fatigue is related to a known severe illness or organ failure. In primary care practices, the underlying cause cannot be identified in one-third of patients, which can be frustrating for both the patient and the practitioner. However, the cause is identifiable in two-thirds of cases.1 In a study conducted in the Netherlands, among 5915 patients who visited their primary care physician because of fatigue, the most common diagnoses ultimately made were viral illness, upper respiratory tract infection, iron deficiency anemia, acute bronchitis or bronchiolitis, adverse effect of a medication taken at the proper dose, and depression or other mental disorder.1
The fatigue's duration can be described as recent (onset within 1 month before presentation), prolonged (lasting 1–6 months) or chronic (lasting > 6 months). For patients with recent or prolonged fatigue, a history and physical examination often help to identify the cause, but we have found that these are often less helpful for distinguishing the cause of chronic fatigue.
The differential diagnosis of fatigue is broad (Table 1). Patients with chronic fatigue can have either chronic fatigue syndrome (Box 1) or, if the diagnostic criteria for the syndrome are lacking, simple idiopathic chronic fatigue.2,3 The prevalence of chronic fatigue syndrome is higher among adults 30–39 years old than among those over 60 and affects more women than men.
We propose here an approach to evaluating fatigue in primary care practices:
1. History: Details about the fatigue's duration (recent, prolonged or chronic), onset (sudden or progressive), recovery period (short or long), type (physical or mental fatigue) and the patient's usual level of physical activity (sedentary or active) can point to the underlying cause. This history taking is particularly helpful in distinguishing chronic fatigue from chronic fatigue syndrome (Box 1), the latter often presenting with a sudden onset and a recovery period lasting hours or days. In addition, many patients with chronic fatigue are simply deconditioned or "out of shape" and will benefit from exercise therapy.
2. Physical examination: This occasionally identifies evidence of organ-based illness (Table 1); however, its value may be overrated. It can help to assure patients that their complaints are being taken seriously, especially the one-third of patients for whom no specific cause will be identified.1 Some unusual causes of fatigue can be detected or suggested on physical examination (Table 1) and might be missed in a laboratory screening.4 For example, multiple sclerosis, although rare, sometimes presents with asymmetric deep-tendon and altered plantar reflexes. Patients with physical signs of weakness, fasciculations, atrophy and altered reflexes may actually have a neuromuscular disease (e.g., botulism, Guillan–Barré syndrome, diphtheria or other myositis) rather than pure fatigue.
3. Medications and toxic exposures: The use of all medications (prescribed and over the counter) should be evaluated. Among the common medications often overlooked as causes of fatigue are long-acting antihistamines, corticosteroids, neuroleptics, antiarrhythmics (e.g., amiodarone), antidepressants and antihypertensives (e.g., clonidine, -methyldopa and beta-blockers) and herbal remedies. Toxicity in renal or hepatic impairment (e.g., elevated levels of digoxin or anticonvulsants) can cause fatigue. Chronic and acute toxic environmental exposures (e.g., to carbon monoxide, lead, mercury and arsenic) should be considered.
4. Psychiatric assessment: About one quarter of patients presenting with unexplained fatigue in primary care have a depressive syndrome. Other common psychiatric causes include panic disorder and somatization disorder. Specific questions regarding drug abuse and alcohol consumption are also necessary.
5. Assessment for sleep disorder: Sleep apnea, excessive sleepiness and parasomnias are not uncommon. Preliminary data suggest that a new instrument, the Sleep Disorders Questionnaire, has a high sensitivity and specificity (95% and 87% respectively) when used in the primary care setting.5
Subsequent laboratory tests can actually be quite focused, with 2 primary goals: to rule out serious and common underlying diseases, and to identify patients with iron deficiency, a common and easily corrected cause of fatigue. We use a small battery of routine tests (Box 2). However, in the absence of a positive history or physical examination, laboratory tests are rarely helpful. Minor abnormalities in test results will be common, and most are unrelated to fatigue even in patients complaining of fatigue. Iron deficiency, even in the absence of anemia, can cause fatigue, and treatment of the deficiency with iron appears to help in many such cases. Additional directed tests (e.g., HIV antibody testing) should be considered based on the patient's history and the physical findings.
In the case of our patient with fatigue and elevated transaminase levels but without other typical features of celiac disease (steatorrhea, weight loss), the clinical index of suspicion (pretest probability) of celiac disease was estimated to be between 20% and 30%. Since the test for IgA antiendomysial antibody has a high sensitivity and specificity (about 90% and 95% respectively), the positive likelihood ratio is about 30. By using the Fagan nomogram, we found that the positive predictive value (post-test probability) for this patient increased to about 90%.
The differential diagnosis of fatigue in primary care is very broad, but an organized approach to the patient as we have described can identify key conditions of concern efficienty and reduce the expensive workups for obscure conditions that this undifferentiated complaint can sometimes generate.
REFERENCES
Okkes IM, Oskam SK, Lamberts H. The probability of specific diagnoses for patients presenting with common symptoms to Dutch family physicians. J Fam Pract 2002;51:31-9.
Fukuda K, Straus SE, Hickie I, et al. The chronic fatigue syndrome: a comprehensive approach to its definition and study. International Chronic Fatigue Syndrome Study Group. Ann Intern Med 1994; 121: 953-9.
Reid S, Chalder T, Cleare A, et al. Chronic fatigue syndrome. BMJ 2000;29:292-6.
Lane TJ, Matthews DA, Manu P. The low yield of physical examinations and laboratory investigations of patients with chronic fatigue. Am J Med Sci 1990;299:313-8.
Violani C, Devoto A, Lucidi F, et al. Validity of a short insomnia questionnaire: the SDQ. Brain Res Bull 2004;63:415-21.(Jacques Cornuz*, Idris Gu)