Disseminated Mycobacterium abscessus subsp. massiliense infection in a Good’s syndrome patient negative for human immunodeficiency virus and anti-interferon-γ autoantibody: a case report

Disseminated nontuberculous mycobacterial (NTM) infection is often associated with an infection by the human immunodeficiency virus (HIV) [1]. Anti-interferon-gamma (IFN-γ) autoantibodies are typically found in patients with disseminated NTM infection without HIV infection, especially in the Asian population [1, 2]. Good’s syndrome (GS) is characterized by thymoma, hypogammaglobulinemia, and multiple infections [3]. Despite a few cases of Mycobacterium infection associated with thymoma, to the best of our knowledge, there has been no report of Mycobacterium associated with GS [4‐6]. Herein, we describe a rare case of GS with disseminated NTM infection.

The patient presented with fever and back pain 1 month before his outpatient visit at the Department of Neurology. He was hospitalized during his regular visit, at which point blood and sputum samples were collected for culture, and he was administered tazobactam/piperacillin (TAZ/PIPC) and immunoglobulin by his primary care physician. The sputum smear was positive for acid-fast bacilli; chest computed tomography showed a suspected lung NTM infection and lumbar intestinal abscess, and magnetic resonance imaging revealed spondylitis (lumbar segments 1–2) during hospitalization (Fig. 1). Infective endocarditis was not detected by transthoracic echocardiography. Mycobacterial infection was suspected, and blood culture was performed on day 5 of hospitalization. His general condition and vitals were stable, and the TAZ/PIPC treatment was continued while awaiting empirical therapy for Mycobacteria. Two days later, blood and sputum cultures revealed the presence of Mycobacterium abscessus, resulting in a diagnosis of disseminated NTM infection.

The patient was transferred to the Department of Infectious Disease and was screened for immunodeficiency. He tested negative for HIV-specific antibodies, and the blood samples sent to Nigata University tested negative for anti-IFN-γ autoantibodies. The conclusive diagnosis of M. abscessus subsp. massiliense infection was the result of a combination of 16S ribosomal RNA sequencing and nucleic acid chromatography of the RNA polymerase B and hsp65 genes. He underwent a lumbar biopsy on day 8 after hospitalization and was prescribed empiric therapy with imipenem (IPM)/cilastatin, levofloxacin, and azithromycin. The antibiotics were continued since M. abscessus was also detected in the biopsy tissue, urine, and stool cultures.

The patient developed a gastrointestinal (rectum and descending colon) perforation on day 15 of hospitalization and underwent surgery (high anterior resection, left hemicolectomy, colostomy, and abdominal drainage). Despite the continued use of antibiotics, his spondylitis worsened. Minocycline (MINO) and linezolid (LZD) were included in the antibiotic regimen on day 17 and 24, respectively. Finally, after levofloxacin was substituted with sitafloxacin (STFX), the antibiotic combination of IPM/CS, STFX, azithromycin, MINO, and LZD was continued (Fig. 2). Although the sensitivity of M. abscessus subsp. massiliense was detected by microdilution [7, 8], the strain showed a different susceptibility towards each antibiotic (Table 1), and the patient’s general condition worsened. The patient and his family were informed of the treatment options, and after obtaining consent, he was moved to palliative care. He passed away on day 49 in the hospital.

Infections are the most frequent and important complications associated with GS [9]. Previous reports have shown that the upper and lower respiratory tracts are the most common sites of infection in patients with GS [10], and bacterial infections are the most significant [9, 10]. However, infections by Mycobacterium are rare in GS patients, and only a few cases of Mycobacterium infection associated with thymoma (without GS) have been reported [4‐6, 11]. We surveyed the literature, and the relevant reports are listed in Table 2. To the best of our knowledge, this is the first report of a Mycobacterium infection associated with GS.

A common variable immune deficiency like GS is characterized by hypogammaglobulinemia, which increases the risk of infection by bacteria and certain viruses [12]. In particular, infection by cytomegaloviruses and Pneumocystis jirovecii is rampant in GS patients since their immune cells are depleted; this is a common characteristic of GS that distinguishes it from common variable immune deficiency [13, 14]. Despite the depletion of immune cells, as the major host defense mechanism, mycobacterial infections are nevertheless rare in GS patients [15]; however, the reason remains to be elucidated [11]. The severe disseminated NTM infection in our GS patient might have been induced by the several treatments he was administered. The patient had myasthenia gravis, which was treated with PSL and TAC. These immunosuppressive agents are known to induce cell-mediated immunodeficiency, which might have triggered the mycobacterial infection [16].

Treatment was difficult in the present case because of the immunodeficiency and side effects of the drugs. Liu and Hu [17] reported that aminoglycosides might worsen myasthenia gravis by competitively inhibiting the release of acetylcholine from the presynaptic membranes, thereby impairing depolarization of the postsynaptic membrane and reducing irritability of the myocyte membrane around the end-plate membrane that subsequently leads to blockade of the neuromuscular junction. Thus, even though aminoglycosides are very potent antimicrobial agents, they could not be used to treat our patient [18]. Moreover, in the past, M. abscessus was reported to show the lowest macrolide resistance rate [19]. However, in this case, the strain showed a high MIC (MIC = 8) value for clarithromycin, which remarkably challenged treatment. There is no clear association between the intestine perforation and Mycobacterium infection of the present case. The resected specimen did not show any abnormalities; thus, Mycobacterium or other infections could not be diagnosed. Since M. abscessus was detected in the stool culture, it is still possible that M. abscessus caused the intestinal perforation.