Chronic fatigue syndrome (CFS) is a heterogeneous and multisystemic disorder of unknown pathogenesis and etiology. It is characterized by prolonged generalized and abnormal fatigue post-exercise (98%), recurrent headache (90%) and problems of concentration and memory (85%) that have lasted for at least 6 months. It is accompanied by such other symptoms as tender lymph nodes (80%), musculoskeletal pain (75%) and psychiatric problems (65%). The prevalence of CFS is estimated to be between 0.5 and 2.5%, predominantly in women (4:1).
Many patients with CFS also complain of sicca symptoms [dryness of the eyes, mouth and other body parts] in up to 30â€“87%, and are more likely to have thyroid disorder and sleep disruption; that may suggest an underlying role of the immune system in these patients.
Primary SjÃ¶grenâ€™ syndrome (PSS) is a systemic autoimmune disease, that presents chronic exocrine glands hypofunction leading to xerostomia and/or xerophthalmia, and extraglandular involvement, of which autoimmune hypothyroidism (AIHT) is the most common autoimmune disease developed.
Patients with PSS, also experience CFS-like musculoskeletal and neurocognitive symp-toms more than 50%, and the two disorders share some similar immunologic defects.
The purpose of this study was to determine the causality of sicca symptoms in 199 consecutive patients diagnosed as having CFS, and the possible association with PSS, although few studies that have examined this association (between 2010 and 2012 in our chronic fatigue unit of Joan XXIII University Hospital) criteria of 1994.
One hundred sixty-seven patients (84%) were women. The age of onset of symptomswas 41 Â± 10 years. Mucosal sicca symptoms were complained by160 patients (80.4%): 11/160 (6.8%) patients were diagnosed with PSS (9 patients were incomplete PSS and 2 patients were complete PSS by positive lower lip biopsy that had MSG focusscore >1, using the American-European criteria 20025). 110/160patients (68.75%) were mainly due to xerogenic medications.
Severe obstructive sleep apnea syndrome (OSAS) was diagnosed in 6/160 patients (3.75%) (according to the American Academy of Sleep Medicine, Chicago Criteria 1999) by polysomnographicanalysis. Thirty-eight (23.75%) patients were seropositive for thyroperoxidase antibody (TPO-Ab) and/or thyroglobulin antibody (Tg-Ab) (of these patients 33/160 (20.6%) were diagnosed as having AIHT), 15 (10.2%) had a positive antinuclear antibody (ANA) assay (titer count >1:160), and 5 (3.5%) had a positive parietal cell antibody (titer count >1:160). All were seronegative for anti-Ro/SS-A and anti-La/SS-B. In previous studies mucosal sicca symptoms were described as one of the common clinical manifestations of CFS as seen in our series.
Nishikai et al. and Sirois et al. had found sicca symptoms in 73% and 52% of their series respectively. As possible causes in our study, we determined that the prevalence of sicca symptoms (especially xerostomia) induced by psychotropic medications with anticholinergic side effects (amitriptyline, clonazepam, etc.) was high as described in several studies. Drugs with anticholinergic actions decrease salivary gland secretion by neurochemical blockade. It is usually dose related and reversible when medication is discontinued.
We also found a group of CFS patients with sicca symptoms that may be attributed to AIHT and OSAS.This suggests that these two disorders share common pathophysiological features with CFS. Interestingly, in patients with OSAS,CFS symptoms were improved by using continuous nasal positive airway pressure (CPAP).
Any potential relationship between CFS and PSS is complicated by the lack of a sensitive test or agreement regarding the diagnostic criteria for PSS.
Nishikai et al. examined a group of 75 seronegative patients diagnosed with CFS and found that 22 (29%) met the European criteria 1993 for PSS.6 Sirois et al. also examined 25 patients diagnosed with CFS and found that 32% met diagnostic criteria for PSS according to the European criteria 1993.
These results were not similar to ours in the study we present (11 patients if we included patients with incomplete PSS) as we described previously (Table 1). In searching of causes of this poor association, several considerations have to be taken into account in our study.
1st, in our study we used the 2002 criteria that require mandatory: (1) a positive salivary gland biopsy (only done in 5 patients), or (2) the presence of antibodies to SSA/Ro and/or toSS-B/La (negative in all patients). The serological item was also met in the 1993 criteria (used by Nishikai et al. and Sirois et al.,6,7) but only if a test for rheumatoid factor or ANA was positive. This condi-tion has probably increased the prevalence of PSS in their studies.
2nd, symptoms or signs of PSS do not always begin at the same time and that patients with incomplete SS maybe will meet the diagnostic criteria 2002 at some point in the future.
In summary, in our study about 70% of CFS patients with sicca syndrome are related to be drug-induced. Therefore, xerogenic medications, as possible cause, must be excluded. However, we recommend that patients who have been diagnosed with CFS and manifest mucosal sicca symptoms should be also screened for SS, AIHT and/or OSAS; and should be regarded as a comorbidity of CFS, not a diagnostic exclusion criterion.
Etiology of sicca syndrome in a consecutive series of 199 patients with chronic fatigue syndrome, by R Qanneta et al, in Reumatol Clin. 2013 (letter)