Volume 25, Number 10—October 2019
Research Letter
Mycobacterium conceptionense Pneumonitis in Patient with HIV/AIDS1
On This Page
Tables
Downloads
Article Metrics
Abstract
Approximately 21 human cases of infection with Mycobacterium conceptionense have been reported. However, most cases were outside the United States, and optimal treatment remains uncertain. We report a case of M. conceptionense pneumonitis in a patient with HIV/AIDS in the United States. The patient was cured with azithromycin and doxycycline.
Mycobacterium conceptionense is a nonpigmented, rapidly growing, nontuberculous mycobacterium, first isolated in France in 2006 (1). Approximately 21 cases of human infection have been reported (1–10). However, excluding the case we report here, only 2 cases have been reported in the United States (2). Optimal treatment for M. conceptionense infection remains uncertain. We report the clinical course and management of M. conceptionense pneumonitis in a patient with HIV/AIDS in the United States.
A 47-year-old black cisgender man sought care at an emergency department during 2015 for cough, shortness of breath, and diarrhea. He denied travel outside of the United States. The patient had HIV/AIDS, which was diagnosed during the 1980s but was untreated until this admission. He also had chronic hepatitis C, which was diagnosed during this admission. He was positive for HLA-B*5701, indicating hypersensitivity to the antiretroviral drug abacavir, but had no other known allergies to medications.
At admission, the patient was febrile (temperature 38.9°C) and had tachycardia (heart rate 112 beats/min) with low oxygen saturation (92% on room air), bibasilar rales, and poor inspiratory effort. Baseline laboratory test values were compiled (Table). A baseline chest radiograph showed increased interstitial marking and bibasilar patchy opacities. A baseline chest computed tomography scan showed bilateral interstitial and ground-glass opacities and a 6-mm nodule in the right middle lobe.
The patient was given empiric antimicrobial drugs (azithromycin 250 mg/d and ceftriaxone 1 g/d, both intravenously [IV]) for presumptive community-acquired pneumonia and trimethoprim/sulfamethoxazole (TMP/SMX; 800/160 mg every 6 h IV) for presumptive Pneumocystis jirovecii pneumonia (PJP). On day 4, ceftriaxone and azithromycin were discontinued. Induced sputum culture obtained on day 2 showed acid-fast bacilli (AFB) on day 8.
Infection with M. tuberculosis was not suspected because of the patient’s clinical manifestations and fast growth of the organism. The symptoms improved after admission. On day 11, he was discharged from the hospital and received oral TMP/SMX equivalent to that for intravenous dosing for PJP treatment. In addition, he erroneously received oral azithromycin (1,250 mg/wk) for M. avium complex prophylaxis.
On day 22, the patient returned to the ambulatory care clinic at the same institution. At this time, additional induced sputum cultures from days 3 and 4 were positive for AFB. His TMP/SMX treatment course was completed and decreased to 800/160 mg/day orally for secondary PJP prophylaxis. Azithromycin was corrected to treatment doses and increased to 250 mg/d orally. Baseline HIV genotyping showed wild-type virus, and antiretroviral therapy (ART) was initiated with elvitegravir/cobicistat/emtricitabine/tenofovir alafenamide (E/c/F/TAF) in a fixed-dose combination.
At day 43, the pneumonitis had clinically resolved, and repeat computed tomography and AFB culture showed negative results. A diagnosis of infection with M. conceptionense was confirmed from 3 induced sputum cultures obtained during days 2–4. Growth of M. conceptionense was identified by rpoB gene sequencing. Testing was performed at National Jewish Mycobacteriology Reference Laboratory (Denver, CO, USA). Drug susceptibility testing was not performed. An environmental source of the infection was not sought. Doxycycline (100 mg 2×/day orally) was given in addition to azithromycin because of lack of susceptibility information and previous case reports using dual therapy, although there is no clear guidance for management. ART with E/c/F/TAF was continued.
The patient is still profoundly immunosuppressed (CD4 cell count 60 cells/μL [6%]) because of nonadherence to ART. Darunavir (800 mg/day orally) was added to E/c/F/TAF because of development of resistance to ART, most notably the M184V pathway. We plan to continue oral azithromycin and doxycycline at current doses until immune reconstitution is achieved.
Cases of infection with M. conceptionense have been reported in immunocompetent and immunocompromised patients and in traumatic (e.g., after surgery or injury) and nontraumatic situations (1–10). The lungs are the most common site for M. conceptionense infection, comprising 7 of the ≈21 cases reported (1–4). Our patient was immunocompromised because of infection with HIV. Pathogen entry occurred by inhalation in a nontraumatic fashion and led to pneumonitis.
Outside the United States, M. conceptionense infection has been reported in France, Iran, Taiwan, South Korea, China, and Japan (1,3–10). The only 2 previously reported case-patients with M. conceptionense infection in the United States were also in Chicago but were epidemiologically unrelated to the patient we describe (2).
Similar to other reported case-patients, this patient was given broad-spectrum antimicrobial drugs, which were tailored once diagnosis of nontuberculous mycobacterium was confirmed. In vitro drug susceptibility data from rapidly growing mycobacteria indicate that M. conceptionense is susceptible to clarithromycin, doxycycline, and fluoroquinolones but resistant to sulfamethoxazole (3). In addition, macrolides, fluoroquinolones, or doxycycline have been used for treatment of M. conceptionense infections in case reports (1–10). These cases have assisted our choice of treatment for this case. In summary, our case report shows clinical and microbiological cure of M. conceptionense pneumonitis by using azithromycin and doxycycline in a patient with HIV/AIDS in the United States.
Dr. Michienzi is a clinical assistant professor and pharmacist at the University of Illinois at Chicago College of Pharmacy, Chicago, IL. Her research interests are HIV–hepatitis C virus co-infection, HIV in incarcerated and underserved populations, and pharmacist roles in care.
References
- Adékambi T, Stein A, Carvajal J, Raoult D, Drancourt M. Description of Mycobacterium conceptionense sp. nov., a Mycobacterium fortuitum group organism isolated from a posttraumatic osteitis inflammation. J Clin Microbiol. 2006;44:1268–73.
- Oda G, Winters M, Pacheco SM, Sikka M, Bleasdale S, Dunn B, et al. Identical strain of Mycobacterium conceptionense isolated from patients at 2 veterans affairs medical centers within the same metropolitan area over a 4-year period. Abstract no. 648. In: Abstracts of ID Week 2017, San Diego, October 4–8, 2017. Arlington (VA): Infectious Diseases Society of America; 2017.
- Kim SY, Kim MS, Chang HE, Yim JJ, Lee JH, Song SH, et al. Pulmonary infection caused by Mycobacterium conceptionense. Emerg Infect Dis. 2012;18:174–6.
- Shojaei H, Hashemi A, Heidarieh P, Ataei B, Naser AD. Pulmonary and extrapulmonary infection caused by Mycobacterium conceptionense: the first report from Iran. JRSM Short Rep. 2011;2:31.
- Liao CH, Lai CC, Huang YT, Chou CH, Hsu HL, Hsueh PR. Subcutaneous abscess caused by Mycobacterium conceptionense in an immunocompetent patient. J Infect. 2009;58:308–9.
- Lee KH, Heo ST, Choi SW, Park DH, Kim YR, Yoo SJ. Three cases of postoperative septic arthritis caused by Mycobacterium conceptionense in the shoulder joints of immunocompetent patients. J Clin Microbiol. 2014;52:1013–5.
- Yang HJ, Yim HW, Lee MY, Ko KS, Yoon HJ. Mycobacterium conceptionense infection complicating face rejuvenation with fat grafting. J Med Microbiol. 2011;60:371–4.
- Zhang X, Liu W, Liu W, Jiang H, Zong W, Zhang G, et al. Cutaneous infections caused by rapidly growing mycobacteria: case reports and review of clinical and laboratory aspects. Acta Derm Venereol. 2015;95:985–9.
- Yaita K, Matsunaga M, Tashiro N, Sakai Y, Masunaga K, Miyoshi H, et al. Mycobacterium conceptionense bloodstream infection in a patient with advanced gastric carcinoma. Jpn J Infect Dis. 2017;70:92–5.
- Thibeaut S, Levy PY, Pelletier ML, Drancourt M. Mycobacterium conceptionense infection after breast implant surgery, France. Emerg Infect Dis. 2010;16:1180–1.
Table
Cite This ArticleOriginal Publication Date: 8/30/2019
1Results from this study were presented at the American College of Clinical Pharmacy 2018 Global Conference, October 20–23, 2018, Seattle, Washington, USA.
No hay comentarios:
Publicar un comentario