Cases presentation
Case one
A 43-year-old woman, of Moroccan origin, was admitted in August 2005 for seizure, an 8 kg loss of body-weight, slowly increasing dyspnea, productive cough, and fever lasting for 4 months. She had been known to be infected by HIV since 1996, but lost to follow-up. Physical examination revealed left lower limb palsy, pulmonary ronchi, hepatomegaly and oropharyngeal candidiasis. Cerebral computed tomography (CT) imaging demonstrated multiple abscesses. Cerebral toxoplasmosis was suspected and treatment with pyrimethamine and sulfadiazine was initiated. Biological results were: C-Reactive Protein (CRP) 19 mg/L, leukocyte count 3940/mm3, hemoglobin 11,1 g/dL, aspartate aminotransferase 88 U/L, alanine aminotransferase 40 U/L, gamma glutamyl transferase 310 U/L, alkaline phosphatases 210 U/L, lactico deshydrogenase 268 U/L. Her peripheral blood CD4+ cell count was 110/mm3 and HIV viral load was 6.39 log copies/mL. Serological tests for hepatitis B and C were positive. A chest radiograph demonstrated diffuse bilateral pulmonary infiltrates (Figure 1A). The thoracic CT-scan showed mediastinal lymphadenopathies, numerous diffuse pulmonary nodular infiltrates with a cavitation in the left upper lobe (Figure 2). Bronchial endoscopy did not show abnormalities. Three sputa were smear positive for acid-fast bacilli (AFB). Broncho-alveolar lavage (BAL) fluid cytological analysis confirmed the presence of AFB but was negative for other microorganisms. Isoniazid, rifampicin and pyrazinamide were therefore started. Despite the anti-tuberculous regimen, fever persisted and respiratory symptoms progressively worsened requiring continuous nasal oxygenotherapy. After 10 weeks, mycobacterial culture from the respiratory specimen grew M. genavense. The initial anti-tuberculosis treatment was changed for a multidrug regimen with moxifloxacin (400 mg/d), clarithromycin (500 mg b.i.d), ethambutol (20 mg/kg/d) and amikacin (15 mg/kg/d, during 3 weeks) and HAART (tenofovir, emtricitabine, efavirenz) were introduced. Clarithromycin was increased to 1000 mg b.i.d after 2 weeks of treatment because the treatment was well-tolerated and optimal treatment recommendations were sparse. HIV viral load decreased to 3 log copies/mL after 1 month without increase in CD4+ count (60 cells/mm3). Despite 3 months of this antimycobacterial treatment, the patient's clinical course worsened and infiltrates in the upper lobes on chest X-ray increased. A second bronchoscopy was performed and BAL fluid cytologic analysis showed the persistence of 20 to 30 AFB/field, which were again identified as M. genavense, without other pathogens. Then gamma interferon (IFN-γ) was started (50 μg/m2 sub-cutaneously 3-times a week). The HAART therapy was continued with undetectable viral load but a persistent CD4 lymphopenia (50/mm3). The patient's general condition gradually improved within 1 month of IFN-γ treatment with oxygen weaning, radiological improvement and negative respiratory specimens mycobacterial culture. The CD4 cell count reached 300/mm3 after twelve months of antimycobacterial treatment, so IFN-γ was withdrawn. The anti-mycobacterial treatment was withdrawn after 2 years. We decided to continue the treatment more than 6 months after immune reconstitution and 12 months after negative culture of respiratory specimen because chest radiograph demonstrated continuous regression of pulmonary infiltrate until 24 months, with minimal sequelae at the end of treatment (Figure 1B). At the last medical visit in June 2011, the patient remained in good health, without relapse of the mycobacterial disease.
<p>Figure 1</p>Chest radiograph of case 1
Chest radiograph of case 1. A: At presentation, diffuse bilateral pulmonary infiltrates predominant to upper right and lower left lobes. B: Major improvement after 2 years of treatment.
![]()
<p>Figure 2</p>Thoracic CT Scan of case 1 at presentation
Thoracic CT Scan of case 1 at presentation. A: Mediastinal lymphadenopathies. B: Bilateral ground glass opacities and areas of consolidation.
![]()
Case two
A 44 year-old renal transplant Guinean patient was admitted in September 2008 for fever, weight loss and non-productive cough worsening gradually for one month. He had undergone renal transplantation 3 years earlier because of focal segmentary hyalinosis. His immunosuppressive regimen included mycophenolate mofetil 1500 mg/d, prednisone 10 mg/d and tacrolimus 6 mg/d without any modification since. Blood test results were: CRP 28 mg/L; white blood cells 11300/mm3; hemoglobin 10.9 g/dL. CD4+ lymphocyte count was 230 cells/mm3. Serological tests for HIV-1 and HIV-2 were negative. Chest radiograph (Figure 3A) and thoracic CT-scan showed areas of alveolar consolidation and cavitations in both lungs, multiple mediastinal and enlarged hilar lymph nodes (Figure 4). Bronchial endoscopy revealed complete stenosis of the left lower bronchi and corresponding histological analysis revealed an epithelioid cell granuloma without necrosis. The BAL fluid analysis revealed 670,000 cells/ml with 45% neutrophils, 27% macrophages, 27% lymphocytes, and 1% eosinophils. The microbiological studies did not provide evidence for bacterial, fungal or viral infection neither in BAL fluid nor in biopsy specimens. The patient then underwent an open lung surgical biopsy. Lung histological analysis revealed multiple parenchymal epitheloid gigantocellular granulomas with some eosinophilic necrosis. An anti-tuberculous regimen (isoniazid, rifampin, ethambutol) was started. Amplification of the rDNA 16S allowing detection of a broad range of bacteria, the IS6110 of Mycobacterium tuberculosis and the 16S-23S rDNA gene spacer targeting all mycobacteria, were negative on pulmonary biopsy. After surgery, the patient developed abdominal pain with no intestinal transit. Abdominal CT scan revealed two mesenteric necrotic lymphadenopathies, colic dilatation, bowel-wall thickening, and gastric stasis. A colonoscopy showed apthoid ulcerations from the caecum to the transversal colon. Biopsies disclosed ulcerative colitis with epithelioid cell granulomas. An esogastric endoscopic examination was normal. A few days later, one in three post fibroscopic sputum samples grew in one month (10 days after the thoracic surgery) on Mycobacteria Growth Indicator Tube (MGIT) liquid medium. M. genavense was identified by INNO-LiPA probe identification on the product of the 16S-23S rDNA gene spacer region amplification. Anti-mycobacterial therapy was thus modified for clarithromycin (500 mg b.i.d), moxifloxacin (400 mg/d), rifabutin (5 mg/kg/d) and ethambutol (15 mg/kg/d). The immunosuppressive regimen was tapered with withdrawal of mycophenolate, tacrolimus was replaced by cyclosporin A, so the daily dose of prednisone was increased to 20 mg. Blood and bone marrow cultures were negative. Bone scan showed no additional localization. Intestinal malabsorption and anorexia required prolonged parenteral nutrition. After 3 months of treatment, the patient's condition gradually improved; fever, respiratory and digestive symptoms had resolved. The patient was no longer able to produce sputum for mycobacterial culture. Colonoscopic control after 2 months of treatment showed the regression of ulcerations. After 6 months, lung lesions and mesenteric lymphadenopathies had decreased on thoracic and abdominal CT scan. At the last medical visit, in October 2010, abdominal CT scan showed resolution of adenopathies. On thoracic CT scan, pulmonary consolidations had resolved. One right hilar lymph node (13 mm) remained unchanged. The antimycobacterial treatment was continued because of the sustained immunosuppressive regimen for chronic graft rejection.
<p>Figure 3</p>Chest radiograph of case 2
Chest radiograph of case 2. A: At presentation, alveolar consolidations predominant to right lung and parahilar left area. B: Major improvement after 2 years of treatment.
![]()
<p>Figure 4</p>Thoracic CT Scan of case 2 at presentation
Thoracic CT Scan of case 2 at presentation. A: Right hilar lymphadenopathy. B: Multiple nodules in right lung. Areas of consolidation with cavitation in left lower lobe.
![]()
Conclusions
We here emphasize the predominant thoracic involvement that revealed severe M. genavense infection in two patients with cellular immune deficiency. Secondary dissemination occurred in one case. M. genavense infection has previously been reported in only two solid organ (kidney and heart) transplanted patients
10
11
. Both had intestinal involvement leading to secondary dissemination and death in one case
10
. In HIV-infected patients, disseminated M. genavense infection associates weight loss, fever, anemia, digestive manifestations and hepatosplenomegaly
9
12
13
. Pulmonary symptoms such as cough and dyspnea are rarely at the forefront. A retrospective multicenter French study of 25 patients with M. genavense infection (of whom 20 were HIV positive) reported five patients with pulmonary symptoms in combination with extra-respiratory symptoms in all cases
8
. However, M. genavense remains a rare cause of NTM infection. In the Microbiology Department of Foch Hospital, Suresnes, our two cases were the only two patients with M. genavense isolation among 176 patients with NTM isolated from clinical specimens between 2005 and 2008. The other mycobacteria identified were: Mycobacterium avium complex: 56; M. gordonae: 42; M. xenopi: 37; M. kansasii: 21; M. fortuitum: 8; M. abscessus complex or M. chelonae: 7; M. celatum: 1; non-identified: 2.
M. genavense can be cultured from stools, sputum, urine and blood samples and tissue biopsy
14
. However, culture of M. genavense is fastidious, making microbiological diagnosis frequently difficult, requiring mycobactin J supplementation for optimal recovery on culture. Culture must be prolonged up to 4 months with a median positive culture time of 43 days (min. 10 days- max. 6 months) depending on the culture medium
5
9
11
13
15
16
17
18
. Our observations are in agreement with these findings, In our first case, diagnosis was delayed because the time to positive culture was 70 days.
Molecular tools such as polymerase chain reaction (PCR) are of interest in two ways before cultures become positive. Firstly, M. genavense can eventually be detected on clinical specimens with PCR
19
20
21
. Secondly, a negative result for M. tuberculosis PCR on a positive AFB smear specimen is useful to exclude tuberculosis earlier. In case one, NTM treatment would have been considered if M. tuberculosis PCR had been performed on sputum. Furthermore, we think that M. genavense should be envisaged in immunocompromised patients with mycobacterial pulmonary disease and digestive involvement or negative mycobacterial culture lasting for more than one month.
Infection control requires decrease of the immunosuppressive regimen in patients who receive such treatment in combination with appropriate antimycobacterial treatment. Human and mouse models have pointed out the role of CD4+ and CD8+ T lymphocytes in M. genavense infection
22
23
. Explaining the crucial role of T lymphocytes, the bacterial load was significantly higher in organs from athymic mice compared to normal mice
23
. During HIV infection, the risk of M. genavense disease is correlated with CD4 cell count. Indeed M. genavense infection occurs in patients with profound CD4+ lymphopenia (50 cells/mm3 or less). However, CD4+ cell count is not a reliable marker of immunosuppression in non-HIV patients receiving immunosuppressive treatment. For example, Pneumocystis pneumonia is frequently observed in organ transplanted patients with more than 400 CD4+ cells/mm3
24
. In our patient, the CD4+ T cell count was moderately diminished (230/mm3). Thus, M. genavense infection may occur in non-HIV patients under an immunosuppressive regimen with a much higher CD4+ cell count than seen in HIV-infected patients.
The optimal anti-mycobacterial therapy in M. genavense infection is unknown. The high effectiveness of clarithromycin and rifabutin has been demonstrated in a murine model
25
. Multidrug therapies including clarithromycin are recommended
26
. Even with appropriate treatment, clinical evolution is long before resolution of symptoms, and patients have to be treated for at least 12 to 24 months
26
. As recommended in ATS/IDSA guidelines for Mycobacterium avium intracellulare infection, treatment was continued 12 months after immune restoration was achieved for Case 1
26
. Concerning Case 2, antimycobacterial treatment cannot be withdrawn because of reinforcement of immunosuppressive therapy.
In the case of our first patient, despite HAART introduction and appropriate anti-mycobacterial treatment, the infection was not controlled. The administration of IFN-γ was temporally associated with a significant clinical improvement and bacteriological clearance of infection. IFN-γ is essential for the control of M. genavense. Indeed, mice deficient for IFN-γ are unable to clear M. genavense infection
27
. In HIV-infected individuals the monocytes-macrophages phagocytic function is impaired. IFN-γ can restore deficient functions of HIV-infected macrophages and has already been used in the management of M. avium intracellulare complex infection
28
. The classic pathway of IFN-γ-dependent activation of macrophages by T helper 1-type responses is a well-established feature of immune response to infection with intracellular pathogens, such as M. tuberculosis and NTM
22
.
Finally clinicians should be aware 1) That the main clinical manifestation of M. genavense infection may be a slowly progressive pneumonia mimicking tuberculosis in patients with cellular immunodeficiency; 2) Thus, this diagnosis should be evoked in an immunosuppressed patient who receives empirical anti-tuberculous therapy without improvement; 3) Extra-thoracic manifestations can be absent; 4) the microbiological diagnosis requires prolonged cultures and may be helped by PCR analysis of bronchial and lung specimens; 5) IFN-γ may be useful to control M. genavense pneumonia in addition to the anti-mycobacterial regimen; 6) CD4+ T cell count is not a reliable marker of the risk of M. genavense infection in non-HIV imunocompromised patients.
Authors' contributions
BR, EC, OL, LJC made substantial contributions to conception and design. ER, PH, DZ, MFM, PC, ML participated in acquisition of data. BR, EC drafted the manuscript. OL, LJC, ER, PH, DZ, MFM, PC, ML revised it critically. All authors read and approved the final manuscript.