Email updates

Keep up to date with the latest news and content from HQLO and BioMed Central.

Open Access Research

Medication Use by Persons with Chronic Fatigue Syndrome: Results of a Randomized Telephone Survey in Wichita, Kansas

James F Jones*, Rosane Nisenbaum and William C Reeves

Author Affiliations

Division of Viral and Rickettsial Diseases, National Center for Infectious Diseases, Centers for Disease Control and Prevention, 1600 Clifton Road, Mail Stop A15, Atlanta, GA 30333

For all author emails, please log on.

Health and Quality of Life Outcomes 2003, 1:74  doi:10.1186/1477-7525-1-74

The electronic version of this article is the complete one and can be found online at: http://www.hqlo.com/content/1/1/74


Received:8 October 2003
Accepted:2 December 2003
Published:2 December 2003

© 2003 Jones et al; licensee BioMed Central Ltd. This is an Open Access article: verbatim copying and redistribution of this article are permitted in all media for any purpose, provided this notice is preserved along with the article's original URL.

Abstract

Background

Chronic fatigue syndrome (CFS) is characterized by profound fatigue, which substantially interferes with daily activities, and a characteristic symptom complex. Patients use a variety of prescribed and self-administered medications, vitamins, and supplements for relief of their symptoms. The objective of this study was to describe utilization of medications and supplements by persons with CFS and non-fatigued individuals representative of the general population of Wichita, Kansas.

Methods

We used a random-digit dialing telephone survey to identify persons with CFS in the general population of Wichita, Kansas. Subjects who on the basis of telephone interview met the CFS case definition, and randomly selected non-fatigued controls, were invited for a clinic evaluation that included self-reported use of medications and supplements. Sex-adjusted odds ratios and 95% confidence interval were estimated to measure the association between CFS and use of various drug categories.

Results

We clinically evaluated and classified 90 subjects as CFS during the study and also collected clinical data on 63 who never described fatigue. Subjects with CFS reported using 316 different drugs compared to 157 reported by non-fatigued controls. CFS subjects were more likely to use any drug category than controls (p = 0.0009). Pain relievers and vitamins/supplements were the two most common agents listed by both groups. In addition CFS persons were more likely to use pain relievers, hormones, antidepressants, benzodiazepines, gastro-intestinal, and central nervous system medications (Sex-adjusted odds ratios range = 2.97 – 12.78).

Conclusion

Although the reasons for increased use of these agents were not elucidated, the data indicated the CFS patients' need for symptom relief.

Background

Chronic fatigue syndrome (CFS) poses unique challenges for health care providers and patients. Population-based prevalence estimates range from 142 to 560 per 100,000 adults [1,2], which implies that the illness may affect at least 800,000 adults in the United States http://eire.census.gov/popest/data/national/tables/asro/NA-EST2002-ASRO-01.php webcite. Their median duration of illness range from 2 to 7 years [1,2], a quarter of them are unemployed or receiving disability, and fewer than 20% have received medical care for CFS [1-3]. However, CFS is an exclusionary diagnosis based on a characteristic but non-specific symptom complex [4]. No diagnostic physical signs or laboratory abnormalities and no single cause for CFS have been identified, and the pathophysiology of the syndrome remains ill defined. Thus, treatment efforts are directed at symptom relief, with the goal of the patient regaining some level of pre-existing function and wellbeing. Many health care providers prescribe pharmacologic therapy to relieve fatigue and bothersome symptoms (e.g., pain or unrefreshing sleep). Individuals suffering from CFS for prolonged periods may become frustrated with a lack of acceptable recovery and self-medicate with over the counter (OTC) medications and other supplements. However, both prescribed and OTC medications can cause untoward side effects, which may lead to new symptoms and exacerbate overall disability. Remarkably, no population-based studies have documented use of medications by persons with CFS.

The objective of this study was to describe use of medications and supplements by persons with CFS and non-fatigued individuals representative of the general population of Wichita, Kansas. We wished to determine if persons with CFS used more medications and supplements than non-fatigued persons and to determine the nature of medications/supplements used by the two groups. We found a high level of medication/supplement use by both groups and use of selective medications by individuals with CFS.

Methods

The study adhered to human experimentation guidelines of the U.S. Department of Health and Human Services and of the Centers for Disease Control and Prevention Institutional Review Board. All participants were volunteers who gave informed consent for the telephone interview and clinical evaluation.

Study Design

The study has been described in detail [1,3,4]. Briefly, in 1997 we used random-digit-dialing phone interviews to screen for fatigue among 56,146 adults 18 to 69 representing the Wichita population. We then conducted detailed telephone interviews with 3,528 who reported fatigue lasting for at least 1 month and 3,634 non-fatigued persons. Fatigued individuals who, based on telephone interview, met criteria for CFS (termed CFS-like) [4] and randomly selected non-fatigued adults were further evaluated clinically. A committee of physicians reviewed all the clinical data and identified the fatigued subjects who could be classified as CFS individuals. In 1998, 1999, and 2000, all previously interviewed subjects were re-contacted by telephone and newly identified CFS-like subjects and previously examined participants were evaluated clinically. Thus, new CFS cases were identified throughout the3-year follow-up period [1]. This analysis considered information from individuals identified as CFS during any year of the study.

Data Collection

During the clinical evaluation subjects underwent a standardized physical examination, were administered the Diagnostic Interview Scheduling for DSM-IV psychiatric disorders [4], and provided blood and urine samples for routine clinical laboratory screening to fulfill evaluation criteria recommended by the CFS case definition [4]. At each clinic visit, subjects enumerated their medication use, including prescription, OTC medications, and supplements/ vitamins. Hereafter, these agents will be referred to as "drugs" unless otherwise specified.

Statistics

We assessed differences in the prevalence of drug categories using the Fisher's exact or χ2 tests. Continuous variables were tested by the Wilcoxon rank-sum test or Student's t-test. We fitted the logistic regression model to estimate odds ratios and 95% confidence intervals to measure the association between CFS and drug categories, adjusting for sex. All tests were 2-sided and p-values were considered significant if they did not exceed .05. We utilized SAS version 8.1 (SAS Inc., Cary, NC) for all analyses.

Results

Description

Over the 4-year study period, 90 persons were classified as CFS during at least one clinic evaluation. In this study, we also considered longitudinal data for 63 clinically evaluated individuals who did not report fatigue in the first year of the study. Table 1 describes demographics in both groups. There were no significant differences between CFS and non-fatigued subjects with respect to age, race/ethnicity, income, or education. However, subjects with CFS were more likely than non-fatigued subjects to be female (85.6% versus 57.1%, p = .0001). Median duration of CFS was 6.9 years, the median age at onset was 36.5 years, and 79.3% reported a gradual onset.

Table 1. Demographic characteristics of subjects with chronic fatigue syndrome (CFS) and non-fatigued subjects in Wichita, Kansas

Overall use of medications/supplements (drugs)

The CFS group reported use of 1174 medications identifying 316 distinct drugs. There were 130 drugs reported only once. The most frequently reported single drug was an OTC acetaminophen preparation, being cited in 51 (4.3%) of the 1174 reports. Acetaminophen, however, was a component of a total of 81 (6.8%) reported drugs. Pain medications also included 82 (6.9%) reports of anti-inflammatory agents including non-steroidal anti-inflammatory agents, with the most common being ibuprofen (22 reports, 1.9%), COX-2 inhibitors and aspirin. Narcotics and tramadol were reported in 16(1.3%) and 22 (1.8%) instances, respectively. There were an additional 25 (2.1%) reports of "OTC pain relievers" without further identification.

The non-fatigued group reported 157 unique drugs among 417 reports. There were 87 drugs reported only once. Sixteen reports (3.8%) identified ibuprofen in any form, but 38 (9.2%) reports included some type of non-steroidal anti-inflammatory agents. Acetaminophen containing agents totaled 11 (2.6%) and there was a single report of narcotic analgesic use. Fifteen (3.6%) reports listed unidentifiable "OTC pain relievers

Prevalence of drug categories in CFS and non-fatigued subjects

The subjects' reports of drugs were divided into 19 categories. These categories and examples of specific agents and their drug families are described in Table 2.

Table 2. Categories of drugs, according to name of medication reported, used by subjects with CFS and non-fatigued subjects in Wichita, Kansas

Pain relieving drugs and supplements/vitamins were the two drug categories most frequently reported by CFS and non-fatigued subjects. However, CFS subjects used 7 categories of drugs more frequently than the non-fatigued individuals. The 7 categories were: pain relievers, supplements/vitamins, hormones, antidepressants, gastrointestinal agents, central nervous system drugs, and benzodiazepines (Table 3). CFS subjects reported a median of 5 drug categories reported compared with 2 reported by non-fatigued persons (p value < 0.0001).

Table 3. Prevalence of drug category use among CFS and non-fatigued subjects in Wichita, Kansas

Association between CFS and drug categories adjusted for sex

Since women were much more common in the CFS group and gender might account for the differences between drug use patterns, we used logistic regression models to measure the association between CFS illness and drug use, adjusting for sex. Only significant results are reported (Table 4). Female sex was only associated with use of supplements/vitamins, and hormones. However, the association of CFS with supplement/vitamins was no longer significant after female sex was considered. To assess whether the association of sex with drug categories was the same among CFS and non-fatigued subjects, we fitted additional logistic regression models including an interaction term representing the joint effect of CFS and female sex. No significant interaction terms were detected.

Table 4. Associations between drug categories and CFS status and sex in CFS subjects using drugs in Wichita, Kansas

Drug use and duration of illness

We assessed whether duration of illness among CFS subjects was associated with drug category use and found no association with any drug category, except muscle relaxants. Subjects reporting muscle relaxant use had a shorter duration of illness than those not reporting use (median = 4.1 and 7.8 years, respectively, p = .0402).

Drug use and change to non-fatigued state

Of the 90 subjects ever classified with CFS, 65 underwent at least one subsequent clinical evaluation [5]. Of those, 50 reported persistent fatigue at follow-up but 15 reported they were no longer fatigued. We questioned whether drug use differed between the two groups. The median difference between the number of medications was 1. The only drug category associated with persistent CFS was gastrointestinal medications (60% among subjects who ever changed to a non-fatigued state versus 28% of subjects who remained in the CFS group, P = 0.0230).

Discussion

This study clearly documented that, within the general population, persons with CFS were significantly more likely to use medications than non-fatigued individuals. However, CFS and control subjects used similar types of drugs.

We are not aware of comparable population-based reports of medication use by people with CFS or with fatiguing illnesses. CFS-associated reports are primarily medication trials and were recently reviewed by Whiting et al [6]. It is likely not a coincidence that of the few population reports regarding medication use in general, most describe use of pain and sleep medication since problems with pain and sleep are commonly reported to medical practitioners. However, most medications identified in this study may not reflect treatment of fatigue or other symptoms of CFS. The exceptions are medications for pain (ranked as number 1 in this study) that would influence arthralgia, myalgia, and headaches; medications for post-nasal drip associated sore throat, which might include allergy medications (#5); muscle relaxants (#10), which could influence myalgia; sleep medications (#14), which obviously would be used for sleep disturbances; benzodiazepines (#16), which could influence sleep disturbances, muscle aches, headaches, and possibly exertion-related symptoms; and CNS medications (#19), which could influence headaches, sleep disturbances, and cognitive problems associated with CFS. The drugs that were used equally by the two groups could simply reflect treatment of age-related illnesses. We are left with the unanswered question of why CFS subjects use more supplements/vitamins, hormones, antidepressants, and gastrointestinal drugs than do non-fatigued subjects or why they reported use of any drug only on one occasion.

This question highlights a major limitation of the study in regard to assignment of medication use, because we did not obtain the subject's perception concerning the problem(s) that prompted medication use. In particular, no specific questions addressed methods of combating fatigue per se. In addition, we did not address non-pharmacologic approaches to symptom relief, such as acupuncture. Since CFS patient perception of the adequacy and efficacy of medical care also affects therapy, absence of their perceptions may also influence our findings [7].

Comparable data for medication use in general in the United States are difficult to find. Medication use in Norway from 1988 to 1989 [8] provides an interesting point of comparison. In our data set, pain medications were the most frequently utilized drugs, whereas in the Norwegian study they were the second most commonly used drugs by both men and women. An antibiotic was the medication most commonly used by Norwegian men and anxiolytics were the most frequently used medication in women. These differences in ranking of drug use may have little meaning because in both studies, the lists of the 10 most frequently used agents contained the same medications.

Identification of medication use patterns may also rely on identification of the symptoms or problems under therapy. As reported by Mäntyselka et al. [9], use of pain medications for non-acute pain is common. Another report from a study of general practice use of non-steroidal anti-inflammatory drugs (NSAIDS) in the United Kingdom found prescribing rates ranging from 220 to over 700 per 1000 patient visits [10]. In both of these reports, the patients sought care for the primary complaint of pain. Even though pain was a common complaint, but not necessarily the primary problem in the current study, almost 90% of CFS subjects used pain medication. It is not clear why CFS subjects used more acetaminophen and central nervous system acting drugs than did the non-fatigued subjects. Medication use for pain is complex, as demonstrated by Mäntyselka et al [9], in that use of sedatives and anxiolytics accompanied the use of analgesics; use of these categories of drugs was also seen in our study.

Vitamin and dietary supplements constituted the second most frequently identified category of drugs used by CFS and non-fatigued subjects. These agents may be obtained directly by the individual or prescribed by a health care provider. As reviewed by Messerer et al. [11], supplement use in the United States population-at large ranged from 21% to 55%. In a previous analysis of vitamin/supplement use by 30 CFS subjects attending a referral clinic, 89% of patient subjects versus 40% of control subjects reported use of these agents [12].

Use of medications in general populations [13] and in the pain and supplement studies described above supports greater use by women. We determined similar overall differences between men and women in our study, but CFS- and sex-influenced odds ratios of medication use were independent. In other words, medication use by women is more common than by men and CFS is more common in women, but medication use in CFS is not dependent on the subject being female.

Conclusion

These observations support the concept that the morbidity associated with CFS leads patients to seek relief of illness by the use of prescription and non-prescription medications and supplements. Changes in fatigue status did not correlate with changes in use of common medications, however. The pursuit of symptom relief in the absence of supportive clinical trials is a strong indication of the desire of CFS patients to improve or to alleviate their symptoms and should serve as impetus for further research into the origins, consequences, and treatment of fatiguing illnesses.

Examination of the processes that lead to more medication use in general by individuals with fatigue is of high priority in terms of public health in general.

Competing interests

None declared.

Authors' contributions

JFJ and RN identified the study questions. JFJ identified the drug categories, assembled and interpreted the data, reviewed the literature, and prepared the manuscript. RN organized the data and performed the statistical analyses in addition to preparing the final manuscript. WCR identified the need for the study, participated in its design, coordinated the completion of the project, and helped to prepare the manuscript.

Acknowledgements

The authors thank Laura Solomon for review of the final manuscript.

References

  1. Reyes M, Nisenbaum R, Hoaglin DC, Unger ER, Emmons C, Randall B, Stewart JA, Abbey S, Jones JF, Gantz N: Prevalence and incidence of chronic fatigue syndrome in Wichita, Kansas.

    Arch Intern Med 2003, 163:1530-1536. PubMed Abstract | Publisher Full Text OpenURL

  2. Jason L, Richman JA, Rademaker AW: A community – based study of chronic fatigue syndrome.

    Arch Int Med 1999, 159:2129-2137. Publisher Full Text OpenURL

  3. Solomon L, Nisenbaum R, Reyes M, Papanicolaou DA, Reeves WC: Functional status of persons with chronic fatigue syndrome in the Wichita, Kansas, population.

    Health Qual Life Outcomes 2003, 1:48. PubMed Abstract | BioMed Central Full Text | PubMed Central Full Text OpenURL

  4. Fukuda K, Straus SE, Hickie I, Sharpe MC, Dobbins JG, Komaroff A: The chronic fatigue syndrome: a comprehensive approach to its definition and study.

    Ann Intern Med 1994, 21:953-959. OpenURL

  5. Nisenbaum R, Jones JF, Unger ER, Reyes M, Reeves WC: A population-based study of the clinical course of chronic fatigue syndrome.

    Health Qual Life Outcomes 2003, 1:49. PubMed Abstract | BioMed Central Full Text | PubMed Central Full Text OpenURL

  6. Whiting P, Bagnal AM, Sowden AJ, Cornall JE, Mulrow CD, Ramirez G: Interventions for the treatment and management of chronic fatigue syndrome: a systematic review.

    JAMA 2001, 286:1360-1368. PubMed Abstract | Publisher Full Text OpenURL

  7. Ax S, Gregg VH, Jones D: Chronic fatigue syndrome: sufferers' evaluation of medical support.

    JR Soc Med 1997, 90:250-254. OpenURL

  8. Rokstad K, Straand J, Fugelli P: General practitioners' drug prescribing practice and diagnoses for prescribing: the More & Romsdal Prescription Study.

    J Clin Epidemiol 1997, 50:485-494. PubMed Abstract | Publisher Full Text OpenURL

  9. Mäntyselka P, Ahonen R, Viinamäki H, Takala J, Kumpusalo E: Drug use by patients visiting primary care physicians due to nonacute musculoskeletal pain.

    Eur J Pharm Sci 2002, 17:201-206. PubMed Abstract | Publisher Full Text OpenURL

  10. Hawkey CJ, Cullen DJE, Pearson G, Holmes S, Doherty M, Wilson JV, Garrud P, Garner S, Maynard A, Logan RFA: Pharmacoepidemiology of non-steroidal anti-inflammatory drug use in Nottingham general practices.

    Aliment Pharmacol Ther 2000, 14:177-185. PubMed Abstract | Publisher Full Text OpenURL

  11. Messerer M, Johansson SE, Wolk A: Sociodemographic and health behaviour factors among dietary supplement and natural remedy users.

    Eur J Clin Nutr 2001, 55:1104-1110. PubMed Abstract | Publisher Full Text OpenURL

  12. Grant JE, Veldee MS, Buchwald D: Analysis of dietary intake and selected nutrient concentrations in patients with chronic fatigue syndrome.

    J Am Diet Assoc 1996, 96:383-386. PubMed Abstract | Publisher Full Text OpenURL

  13. Eggen AE: Pattern of drug use in a general population-prevalence and predicting factors: the Tromso study.

    Int J Epidemiol 1994, 23:1262-1272. PubMed Abstract OpenURL