A young woman with fever and polyserositis caused by familial Mediterranean fever

Discussion

Familial Mediterranean fever is the most common monogenic autoinflammatory disorder; it is characterized by self-limited episodes of fever, polyserositis and elevated inflammatory markers.1^–4 The condition is associated with gain-of-function sequence variations in the MEFV gene that encodes for the pyrin protein, and results in uncontrolled production of interleukin-1β and an exaggerated inflammatory response.1^,2^,4 The disease manifests as recurrent bouts of fever, abdominal pain and chest pain that start abruptly and peak soon after onset, last for 1–4 days and then resolve spontaneously. Patients typically have no symptoms between attacks.2 Familial Mediterranean fever should be considered for patients who have undergone laparotomy or laparoscopy with no pathology identified. Stress, cold exposure, fat-rich meals, infections, vigorous exercise, surgery and the menstrual cycle may all provoke an attack. Familial Mediterranean fever may present uncommonly as erysipelas-like erythema, aseptic meningitis, recurrent urticaria or vasculitis.3

Laboratory abnormalities during attacks are nonspecific and include elevated systemic markers of inflammation, leukocytosis with neutrophilia, and elevated erythrocyte sedimentation rate, CRP and fibrinogen. Serum amyloid A protein is also elevated during attacks, but is not routinely measured unless a diagnosis of FMF is suspected.3 One of the long-term complications of untreated disease is amyloidosis of the kidneys, which has been reported to be present in about 12% of patients with FMF; it can have severe complications, including renal failure. 1^,2 Amyloidosis may also develop in the spleen, liver, gastrointestinal tract, thyroid and testes. Small bowel obstruction may develop because of recurrent peritonitis and adhesion formation. Before colchicine was used in the treatment of FMF, infertility was common and was thought to be caused by obstruction of fallopian tubes in females and testicular amyloidosis in males.2^,3

Familial Mediterranean fever is common in people of Ashkenazi Jewish descent, with a substantial gene carrier rate (about 1:7.8).5 The prevalence is about 1 in 500 to 1 in 1000 among people of other at-risk ethnic descents, including those of Turkish, Armenian, Arabic, non-Ashkenazi Jewish, North African, Italian, Greek, Chinese and Japanese ancestry. Known risk factors include family history of FMF, present in 30%–50% of people with the condition, and belonging to an at-risk ethnic group.6 More than 95% of genetic carriers are asymptomatic; however, some individuals with a single mutation may manifest symptoms and may benefit from treatment with colchicine.1

Our patient’s many episodes of fever and abdominal pain led to different diagnoses, invasive procedures and complications. Intraoperative findings and postoperative pathology reports were often inconsistent with the initial diagnosis of hypermobile EDS, and hospital admissions were prolonged owing to postoperative flares of pain, fever and elevated CRP. Over the course of her illness, treating clinicians appeared not to have considered FMF.

Hypermobile EDS is the mildest subtype of EDS, with no life-threatening complications, although patients with hypermobile EDS can have various types of gastroesophageal dysmotility such as esophageal dysmotility, gastroparesis, small bowel or colon altered transit time or global dysmotility.7 However, unlike the vascular EDS subtype, hypermobile EDS does not cause bowel wall fragility or rupture. Genes for hypermobile EDS have not yet been identified. Vascular EDS and other EDS subtypes were highly unlikely in this patient, given her negative results from genetic testing. Hypermobile EDS would not explain this patient’s symptoms, except perhaps colonic dysmotility.7

After the patient developed new symptoms in 2015, genetics specialists were not consulted again until the patient requested a follow-up in 2020. She qualified for whole genome sequencing based on the Ministry of Health of Ontario’s testing criteria of severe functional impairment, multisystem involvement and progressive clinical course. When FMF or another periodic fever syndrome is suspected, a gene panel for periodic fever syndromes can identify pathogenic DNA variants. When variants of unknown clinical importance or single pathogenic DNA variants are found, a diagnosis can still be made based on clinical findings, with the help of diagnostic criteria such as the Eurofever-PRINTO classification criteria.1^,8 Whole genome sequencing can be useful in patients with severe multisystem involvement, even in the absence of a clear diagnosis. A patient may also have more than 1 genetic disorder, as in our patient with FMF and hypermobile EDS.

Most patients with FMF are symptomatic by age 20 years.4 In hindsight, the patient had fevers with severe abdominal pain a few times a year, starting in early childhood. Familial Mediterranean fever should be considered in a differential for recurrent fevers, peritonitis and elevated CRP (Table 2).

Treatment with colchicine is effective, preventing FMF flares in more than 60% of patients and reducing the number of attacks in a further 20%–30% of patients. Colchicine can also prevent deposition of amyloid fibrils and subsequent renal failure.2^–4^,7^,9 Anti–interleukin-1 biological therapy can be used in patients unresponsive to colchicine.2^–4

The symptoms of FMF can mimic other conditions and, unfortunately, patients with FMF often experience years of misdiagnosis, unnecessary surgeries and prolonged hospital admissions. 4^,6^,10 Delays in diagnosis likely occur because of the lack of specificity in symptoms, and the relapsing and remitting pattern of disease. Furthermore, clinicians may not consider the disease in at-risk ethnic populations.4