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Volume 28, Number 3—March 2022
Dispatch

Disseminated Histoplasmosis in Persons with HIV/AIDS, Southern Brazil, 2010–2019

Rossana Patricia Basso, Vanice Rodrigues Poester, Jéssica Louise Benelli, David A. Stevens, and Melissa Orzechowski XavierComments to Author 
Author affiliations: Programa de Pós Graduação em Ciências da Saúde, Universidade Federal do Rio Grande, Rio Grande, Brazil (R.P. Basso, V.R. Poester, J.L. Benelli, M.O. Xavier); Hospital Universitário Dr. Miguel Riet Corrêa Jr., vinculado à Empresa Brasileira de Serviços Hospitalares, Rio Grande (R.P. Basso, J.L. Benelli); California Institute for Medical Research, San Jose, California, USA (D.A. Stevens); Stanford University Medical School, Stanford, California, USA (D.A. Stevens)

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Abstract

We evaluated disseminated histoplasmosis (DH) in HIV patients over 10 years in southern Brazil. The incidence was 12 cases/1,000 hospitalizations (2010–2019); the mortality rate was 35%. Tuberculosis frequently obscured the diagnosis of DH. We emphasize the need in our region to suspect and investigate DH using more sensitive methods.

Disseminated histoplasmosis (DH) is an AIDS-defining disease and one of the major causes of death in persons living with HIV/AIDS (PLHIV) (mortality rate ranging from 13% to 48%) (14). DH is a neglected disease because of its nonspecific symptoms, frequent misdiagnosis as tuberculosis (TB), and limited access to sensitive diagnostic methods (3,5).

Worsening this scenario, an epidemic of AIDS is underway in Brazil; >800,000 new cases have been diagnosed in recent decades (6). Therefore, efforts are necessary to understand the epidemiology of DH/AIDS co-infection in the areas to which these diseases are endemic. We evaluated the clinical and epidemiologic profile of patients with DH/AIDS co-infection in a reference service for PLHIV over 10 years in southern Brazil and compared the incidence in periods before and after an internal hospital improvement of DH investigation.

The Study

We performed a retrospective study including all DH cases diagnosed in persons with HIV/AIDS at a regional reference service in University Hospital Dr. Miguel Riet Corrêa Jr. (UH-FURG-Ebserh), a 207-bed tertiary hospital in Rio Grande, Brazil, that serves as reference center for 21 cities in Brazil. The hospital has an average of 257 HIV/AIDS hospitalizations/year (7). DH cases were defined by 1) classical methods: growth of H. capsulatum in culture, presence of blastoconidia suggestive of H. capsulatum by Gomori-Grocott stain (direct mycological examination or histopathology), or both; 2) serologic method: positive immunodiffusion test (IMMY, https://www.immy.com); or 3) urinary antigen test: positive immunoenzymatic assay (IMMY). Patients with clinical suspicion of DH and >1 of these diagnostic criteria were included. The study was approved by our university ethics committee (CEP/FURG, approval no. 234/2018).

We analyzed databases from the hospital for clinical and epidemiologic evaluation. In cases in which HIV and AIDS were diagnosed simultaneously, DH was considered the AIDS-defining illness. We calculated the overall incidence rate of DH per 1,000 hospitalizations of persons with AIDS at UH-FURG-Ebserh (8); we then compared that with rates before improvement of DH investigation (2010–2016) and after improvement of DH investigation (2017–2019). These improvements consisted of health education and training of health professionals to improve clinical suspicion and implementing urinary antigen detection as another diagnostic method. Descriptive and frequencies analyses were performed in SPSS Statistics 25.0 (IBM, https://www.ibm.com).

Our study included 31 cases of DH, representing an overall incidence of 12 new cases/1,000 PLHIV hospitalized at UH-FURG-Ebserh. In the first period (2010–2016), 15 cases were diagnosed in 7 years, a rate of 8/1,000 hospitalizations. After more sensitive testing and enhanced physician training were implemented, 16 cases were diagnosed in only 3 years (2017–2019), a rate of 24/1,000 hospitalizations, a substantial increase.

Most patients were men; mean age was 41 (range 21–61) years (Table 1). Except for 3, all had co-infections diagnosed concomitantly (Table 2). The use of antiretroviral therapy at time of DH diagnosis was irregular or nonexistent in 90% (n = 28) of patients. Only 4 had >200 cells/mm3 of CD4+ lymphocytes (mean 109 cells/mm3; range 7–752 cells/mm3). In 6 (19%), DH was the AIDS-defining illness. A total of 3 persons had DH associated with a systemic inflammatory response syndrome.

Eight (26%) DH patients were empirically treated for TB (9); no cases were confirmed by GeneXpert MTB/RIF (Cepheid, https://www.cepheid.com). Up to 12 (mean 5) clinical samples/patient were submitted for TB investigations before suspicion of DH.

Figure

Approach used for the diagnosis of 31 cases of DH in PLHIV from a tertiary hospital in southern Brazil, 2010–2019. The incidence rate of DH between periods before (2010–2016) and after (2017–2019) implementation of the urinary antigen test shows an increase of 300%. DH, disseminated histoplasmosis; PLHIV, persons living with HIV.

Figure. Approach used for the diagnosis of 31 cases of DH in PLHIV from a tertiary hospital in southern Brazil, 2010–2019. The incidence rate of DH between periods before (2010–2016) and...

DH was diagnosed through classical mycologic exams in 14 (45%) patients, serologic tests in 9 (29%) patients, and urinary antigen assay in 4 (13%) patients. Four (13%) patients had >2 positive results by different methods (Figure). The diagnosis of histoplasmosis occurred after a mean of 10 (range 1–28) days from the beginning of hospitalization. This timing probably represents an underestimated delay, because several patients reported symptoms that could have led to a diagnostic workup before the illness progressed to a point at which hospitalization was required.

The treatment of choice for 81% of patients was intravenous amphotericin deoxycholate (0.7–1 mg/kg/d, to a maximum 50 mg/d) for 14 days, followed by oral itraconazole (200 mg every 8 h for 3 days, then 200 mg every 12 h) for 12 months. A total of 5 (16%) patients were treated only with itraconazole (4 with early diagnosis of DH and 1 with renal dysfunction). Twelve months after the DH diagnosis, 35% of the patients had died (Table 1); 1 died before laboratory confirmation, and 4 died within an average of 25 (range 0–62) days after diagnosis of DH. Three patients died after 5–6 months while being treated with itraconazole, and 3 had recurrence of the disease after 6, 7, or 12 months because of antifungal interruption, which resulted in death (Table 1).

Conclusions

DH causes severe clinical manifestations in PLHIV that can lead to death (10). Improved knowledge of the local epidemiology of DH and education of reference services for PLHIV are essential to reduce underdiagnosis and contribute to patient survival (11), especially in Rio Grande, a harbor city with the highest rate of HIV/AIDS among cities in Brazil with >100,000 inhabitants (7).

DH was the AIDS-defining illness in 21% of the patients in this study. Other co-infections (12,13) were noted. Respiratory signs, splenomegaly, and cutaneous lesions were more commonly described in our patients than in other studies, possibly because late diagnosis led to more severe extent of the disease (12,13). The high rate of neurologic impairment in our patients can be attributed to their co-infections; in 69% (9/13) of patients, this impairment was ascribed to neurotoxoplasmosis or herpetic encephalitis. In addition, neurologic signs were detected in 5 other patients without an ascribed neuropathogenic condition, meriting additional investigations.

Many of our patients were exhaustively investigated for TB, and 26% were empirically treated for TB despite negative results from the highly sensitive GeneXpert MTB/RIF assay (Cepheid). The long investigations for TB delayed the confirmation of the DH diagnosis despite descriptions of the concurrence of these 2 diseases (14). TB is a major opportunistic disease in PLHIV (15), evidenced by 29% of our DH patients with concomitant TB. Thus, the investigation of both diseases must occur simultaneously (12), and DH must be investigated in PLHIV with CD4+ lymphocytes <200 cells/mm3 (11).

Tests to detect Histoplasma antibodies have poor sensitivity (30%–70%) in immunocompromised patients (1). Diagnostic methods with high rates of sensitivity and specificity are vital in areas where histoplasmosis is endemic and could improve the likelihood of early diagnosis and favorable outcomes for patients (1,12). An improvement in the investigation of DH in PLHIV with respiratory symptoms occurred in the UH-FURG-Ebserh in 2017, through a collaboration in a multicenter study (12). Subsequently, the results contributed to the acquisition of the urinary antigen assay by UH-FURG-Ebserh. In the last 3 years of our study, the urinary antigen test was the only method able to detect 25% (4/15) of our patients with DH. The detection of urinary antigens is the standard for DH diagnosis in immunosuppressed patients (11).

The mortality rate in our series (35%) was similar to the rate described in a systematic review from Brazil histoplasmosis cases (33%) (10). Therefore, the underdiagnosis of DH in PLHIV is a national problem in Brazil that must be urgently changed. In our hospital, DH was responsible for high rates of illness in PLHIV, up to 24 cases/1,000 hospitalizations, and high mortality rates (35%). In addition, we emphasize that 29% of patients were co-infected with TB, a disease with symptoms overlapping with histoplasmosis. Simultaneous investigation for the 2 diseases in all PLHIV patients living in areas in which histoplasmosis is endemic is mandatory.

Dr. Basso is a PhD physician working in infectious diseases. Her research field is in medical mycology, mostly concerning opportunistic fungal diseases in HIV patients.

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Acknowledgment

We thank Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) and Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPQ).

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References

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Cite This Article

DOI: 10.3201/eid2803.212150

Original Publication Date: February 08, 2022

Table of Contents – Volume 28, Number 3—March 2022

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Please use the form below to submit correspondence to the authors or contact them at the following address:

Melissa Orzechowski Xavier, Laboratório de Micologia, Faculdade de Medicina, Universidade Federal do Rio Grande, Campus Saúde. Visconde de Paranaguá 102, Centro, 96201-900, Rio Grande, RS, Brazil

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Page created: January 27, 2022
Page updated: February 21, 2022
Page reviewed: February 21, 2022
The conclusions, findings, and opinions expressed by authors contributing to this journal do not necessarily reflect the official position of the U.S. Department of Health and Human Services, the Public Health Service, the Centers for Disease Control and Prevention, or the authors' affiliated institutions. Use of trade names is for identification only and does not imply endorsement by any of the groups named above.
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