Can COVID-19 impact the natural history of paracoccidioidomycosis? Insights from an atypical chronic form of the mycosis

Souza, César Augusto Tomaz de; Ponce, Cesar Cilento; Klautau, Gisele Burlamaqui; Costa, André Nathan; Queiroz, Wladimir; Patzina, Rosely Antunes; Benard, Gil; Lindoso, José Angelo Lauletta

doi:10.1590/S1678-9946202365057

ABSTRACT

Paracoccidioidomycosis (PCM) is a systemic fungal infection caused by Paracoccidioides spp. It can occur as an acute/subacute form (A/SAF), a chronic form (CF) and rarely as a mixed form combining the features of the two aforementioned forms in an immunocompromised patient. Here, we report a 56-year-old male patient with CF-PCM who presented with atypical manifestations, including the development of an initial esophageal ulcer, followed by central nervous system (CNS) lesions and cervical and abdominal lymphatic involvement concomitant with severe SARS-CoV-2 infection. He was HIV-negative and had no other signs of previous immunodeficiency. Biopsy of the ulcer confirmed its mycotic etiology. He was hospitalized for treatment of COVID-19 and required supplemental oxygen in the intensive unit. The patient recovered without the need for invasive ventilatory support. Investigation of the extent of disease during hospitalization revealed severe lymphatic involvement typical of A/SAF, although the patient`s long history of high-risk exposure to PCM, and lung involvement typical of the CF. Esophageal involvement is rare in non-immunosuppressed PCM patients. CNS involvement is also rare. We suggest that the immunological imbalance caused by the severe COVID-19 infection may have contributed to the patient developing atypical severe CF, which resembles the PCM mixed form of immunosuppressed patients. Severe COVID-19 infection is known to impair the cell-mediated immune response, including the antiviral response, through T-lymphopenia, decreased NK cell counts and T-cell exhaustion. We hypothesize that these alterations would also impair antifungal defenses. Our case highlights the potential influence of COVID-19 on the course of PCM. Fortunately, the patient was timely treated for both diseases, evolving favorably.

Paracoccidioidomycosis; COVID-19; Atypical clinical form; Esophagus

INTRODUCTION

First described in 1908 by Adolpho Lutz, paracoccidioidomycosis (PCM) is a systemic granulomatous disease caused by fungi of the Paracoccidoides brasiliensis complex (P. brasiliensis and P. lutzii)¹1. Shikanai-Yasuda MA, Mendes RP, Colombo AL, Queiroz-Telles F, Kono AS, Paniago AM, et al. Brazilian guidelines for the clinical management of paracoccidioidomycosis. Rev Soc Bras Med Trop. 2017;50:715-40.. The disease comprises two well defined clinical presentations: an acute/subacute form (A/SAF), which develops soon after exposure to Paracoccidioides spp., preferentially in adult males²2. Franco M, Montenegro MR, Mendes RP, Marques SA, Dillon NL, Mota NG. Paracoccidioidomycosis: a recently proposed classification of its clinical forms. Rev Soc Bras Med Trop. 1987;20:129-32., and a chronic form (CF), which develops many years or decades after exposure to the fungi, due to the reactivation of subclinical foci, and occurs more frequently in adult males²2. Franco M, Montenegro MR, Mendes RP, Marques SA, Dillon NL, Mota NG. Paracoccidioidomycosis: a recently proposed classification of its clinical forms. Rev Soc Bras Med Trop. 1987;20:129-32.. The factors that drive these different outcomes are unknown, but likely involve the host’s immune response. Both in its A/SA and C forms, this mycosis can affect multiple organs: the A/SAF mainly affects those associated with the reticuloendothelial system (lymph node chains, spleen, liver and bone marrow) and the skin, and the CF mostly impacts the lungs, larynx, upper respiratory tract, adrenals, skin, and central nervous system¹1. Shikanai-Yasuda MA, Mendes RP, Colombo AL, Queiroz-Telles F, Kono AS, Paniago AM, et al. Brazilian guidelines for the clinical management of paracoccidioidomycosis. Rev Soc Bras Med Trop. 2017;50:715-40.,²2. Franco M, Montenegro MR, Mendes RP, Marques SA, Dillon NL, Mota NG. Paracoccidioidomycosis: a recently proposed classification of its clinical forms. Rev Soc Bras Med Trop. 1987;20:129-32..

The disease caused by SARS-CoV-2, the agent of COVID-19, ranges from a mild or asymptomatic respiratory infection to severe respiratory distress³3. Adil MT, Rahman R, Whitelaw D, Jain V, Al-Taan O, Rashid F, et al. SARS-CoV-2 and the pandemic of COVID-19. Postgrad Med J. 2021;97:110-6. After reaching tropical areas, COVID-19 was expected to overlap with local endemic infectious diseases. However, the literature only reports seven patients with ongoing PCM who developed COVID-19, and all cases from a single health center⁴4. Macedo PM, Freitas DF, Varon AG, Lamas CC, Ferreira LC, Freitas AA, et al. COVID-19 and acute juvenile paracoccidioidomycosis coinfection. PLoS Negl Trop Dis. 2020;14:e0008559.,⁵5. Macedo PM, Benko LM, Falcão EM, Nosanchuk JD, Almeida-Paes R, Valle AC. COVID-19 in patients with paracoccidioidomycosis. PLoS Negl Trop Dis. 2023;17:e0011322.. Interestingly, six of these patients had the A/SAF and only one had the CF. This situation may simply reflect the epidemiological characteristics of the patients treated in this center, rather than an immune alteration induced by SARS-CoV-2 that would promote the development of the A/SAF or exacerbation of the PCM. It is likely that a significant proportion of Brazilian patients with PCM were exposed to or developed COVID-19⁴4. Macedo PM, Freitas DF, Varon AG, Lamas CC, Ferreira LC, Freitas AA, et al. COVID-19 and acute juvenile paracoccidioidomycosis coinfection. PLoS Negl Trop Dis. 2020;14:e0008559.,⁵5. Macedo PM, Benko LM, Falcão EM, Nosanchuk JD, Almeida-Paes R, Valle AC. COVID-19 in patients with paracoccidioidomycosis. PLoS Negl Trop Dis. 2023;17:e0011322.. However, this co-infection was rarely mentioned in the literature, probably because the two infections did not influence each other’s courses. PCM and COVID-19 can share clinical signs related to pulmonary involvement, and both are influenced by patients’ immune responses. SARS-CoV-2 infection was shown to increase the risk of invasive fungal infections, probably by altering the host’s cellular immune response. The association with invasive aspergillosis or severe mucormycosis has frequently been described in patients with COVID-19⁶6. Pemán J, Ruiz-Gaitán A, García-Vidal C, Salavert M, Ramírez P, Puchades F, et al. Fungal co-infection in COVID-19 patients: should we be concerned? Rev Iberoam Micol. 2020;37:41-6.. In this article, we reported the rare case of a patient with a CF of PCM that involved the esophagus, and whose mycotic disease evolved atypically with CNS lesions and some manifestations that mimic those of the A/SAF. We hypothesize that the atypical course of PCM in this patient could be ascribed, at least in part, to the immunological imbalance caused by the severe SARS-CoV-2 co-infection.

CASE REPORT

This study was approved by the Research Ethics Committee of the Emilio Ribas Infectology Institute (report Nº 5.310.289).

A 56-year-old white male who had been living in a rural area (Mairipora city) of the Sao Paulo State for over 30 years, searched for at a health care center complaining about 3-month progressive dyspepsia and dysphagia, which were followed by a 17 kg weight loss and the development of multiple cutaneous lesions in the cephalic segment. He also reported a history of dry cough that had persisted for at least a year, which he attributed to his cigarette smoking habit (15 packs per year). He underwent a digestive endoscopy, which revealed no specific alterations in his stomach and duodenum but did show an esophageal ulcerated lesion with imprecise limits, friable to the touch. The ulcer was then biopsied. Subsequently, the patient’s dyspnea worsened, he tested positive for SARS-CoV-2, and was referred to our service. On admission, he presented the following vital signs: 84% oxygen saturation (SatO2) in room air, 100/60 mmHg blood pressure, 82 beats/min heart rate, and 20 breaths/min respiratory rate. He had cutaneous lesions in the temporomandibular area, lower lip, ear lobe, right nasal wing and jaw, compatible with those commonly caused by PCM (Figure 1). No lymph node enlargements were palpable on admission. A laboratory screening found the following results: hemoglobin, 12.1 g/dL; leukocytes, 12,300/mm3; platelets, 447,000 mm³3. Adil MT, Rahman R, Whitelaw D, Jain V, Al-Taan O, Rashid F, et al. SARS-CoV-2 and the pandemic of COVID-19. Postgrad Med J. 2021;97:110-6; C-reactive protein: 288 mg/dL and a negative HIV serology. The sputum culture and acid-fast bacilli smear yielded negative results, as well as the PCR for Mycobacterium tuberculosis. A computed tomographic (CT) scan of the patient’s chest revealed extensive consolidations in the upper right lobe and in both lower lobes, some of which were excavated, along with areas of ground glass opacities, diffuse septal thickening and small right pleural effusion (Figures 2A, 2B and 3C). The abdominal CT scan revealed multiple necrotic mesenteric and gastro-hepatic lymph nodes, which measured up to 3.7 cm, and nodular thickening of both adrenal glands. The cranial CT scan found multiple ring-enhancing lesions, which were more pronounced in the splenium of the left corpus callosum (Figure 3). During hospitalization, the patient was transferred to the ICU to receive supplemental O2 and piperacillin/tazobactam (total, 7 days) to treat the respiratory COVID-19 syndrome. No invasive ventilatory support was required. His respiratory condition improved and after 7 days he returned to the ward to continue treatment. At that time, lymph node enlargements in the left submandibular region had become palpable. A lymph node biopsy revealed a granulomatous inflammation and the Grocott stain technique revealed structures compatible with Paracoccidioides sp. infection. At that same time, we received the report of the prior esophageal ulcer biopsy, which also showed a loose, granulomatous-like inflammation with giant cells and yeast-like cells, suggestive of Paracoccidoides sp. A serology test for PCM was then performed and yielded a highly positive result (1:128). Treatment with liposomal amphotericin B was started (5 mg/kg/day), which resulted in marked clinical improvement after 3 weeks. He was discharged after 41 days of hospitalization receiving sulfamethoxazole/trimethoprim (800 mg/160 mg every 8h), with resolution of the skin and mucosal lesions, and improvement of the respiratory symptoms. During the outpatient follow-up, a cranial nuclear magnetic resonance revealed complete resolution of the CNS parenchymal lesions, and a chest CT scan showed marked improvement of the pulmonary parenchyma alterations, with only residual lesions left, mainly in the right lower lobe (Figures 2D, 2E and 2F). Marked improvements in the superficial and gastrointestinal lymphatic involvement were also noted.

Figure 1
- Ulcerated and ulcer-crusted facial lesions in the temporomandibular area, lower lip, ear lobe, right nasal wing and jaw.

Figure 2
- Mixed from PCM in a 56-year-old man. High-resolution computed tomography scan (CT) before (A,B,C) and after treatment (D,E,F); A) CT at the level of the upper lobes, depicting patchy ground-glass attenuation, ill-defined opacities, airspace consolidation and cavitary lesions; B) CT at the level of the carina, showing irregular airspace consolidations with associated cavitations, nodules surrounded by ground glass, and interlobular septal thickening; C) CT at the lower lobe level, showing bilateral consolidations with associated multiple confluent nodules; D) CT at the level of the upper lobes, showing mosaic attenuation and septal thickening; E) CT at the level of the carina, depicting septal thickening and peripheral ill-defined opacities; F) CT al the lower lobe level, showing architectural distortion, residual peripheral consolidations and traction bronchiectasis.

Figure 3
- High-resolution computed tomography scan of the brain showing a ring-enhancing lesion in the splenium of the left corpus callosum.

DISCUSSION

We presented the case of a patient who developed an atypical chronic form of PCM and was hospitalized due to a severe SARS-CoV-2 co-infection. Several points regarding the clinical presentation and possible pathogenesis of this case deserve to be mentioned. First, esophageal involvement rarely occurs in non-immunocompromised patients with PCM—we were able to retrieve only seven cases of this occurrence in the literature, all except one in patients with the CF of PCM⁷7. Oliveira, Goldenberg S, Rotondi AV. Blastomicose sul-americana do esôfago. An Paul Med Cir. 1962;83:113-21.

8. Ziliotto Júnior A, Künzle JE, Takeda FA. Paracoccidioidomicose em esôfago: apresentação de um caso. Rev Inst Med Trop Sao Paulo. 1980;22:261-4.

9. Machado Filho J, Miranda JL. Considerações relativas à blastomicose sul-americana: localizações, sintomas iniciais, vias de penetração e disseminação em 313 casos consecutivos. Hospital (Rio de Janeiro). 1960;58:99-137.

10. Rego AP, Lima NS, Martins G, Oliveira CA, Bethem N. Blastomicose do esôfago. J Bras Med. 1980;38:40-1.

11. Mendes RP. The gamut of clinical manifestations. In: Franco M, Lacaz CS, Restrepo-Moreno A, Del Negro G, editors. Paracoccidioidomycosis. Boca Raton: CRC Press; 1994. p.233-52.-¹²12. Macedo PM, Almeida-Paes R, Almeida MA, Coelho RA, Oliveira Filho MA, Medeiros DM, et al. Fatal septic shock caused by Paracoccidioides brasiliensis phylogenetic species S1 in a young immunocompetent patient: a case report. Rev Soc Bras Med Trop. 2018;51:111-4.. The typical pattern in the CF of PCM is the development of oropharyngeal lesions, which represents the farthest localization reached by the fungal spread through the lymphatic route¹³13. Castro CC, Benard G, Ygaki Y, Shikanai-Yasuda M, Cerri GG. MRI of head and neck paracoccidioidomycosis. Br J Radiol. 1999;72:717-22.. In these cases, the fungi arise from the primary pulmonary foci and spread through the intrapulmonary lymph nodes, hilar nodes, and subsequently the paratracheal nodes, reaching the mucosa through inverse lymphatic flow. Radiology imaging evidences compromised deep lymphatic chains underlying the mucosa and other localized lesions¹⁴14. Tuder RM, el Ibrahim R, Godoy CE, De Brito T. Pathology of the human pulmonary paracoccidioidomycosis. Mycopathologia. 1985;92:179-88.

15. Yamaga LY, Benard G, Hironaka FH, Castro LG, Funari MG, Castro CC, et al. The role of gallium-67 scan in defining the extent of disease in an endemic deep mycosis, paracoccidioidomycosis: a predominantly multifocal disease. Eur J Nucl Med Mol Imaging. 2003;30:888-94.-¹⁶16. Mendes RP, Marcondes J, Souza LR, Barraviera B, Pereira PC. Estudo clínico do comprometimento linfático na paracoccidioidomicose. Rev Soc Bras Med Trop, 1986;19 Suppl:93.. For unknown reasons, in the patient described here, the lymphatic spread alternatively drove the fungi to the esophagus, sparing the oropharyngeal mucosa. In the single report of an A/SAF patient with esophageal lesions in the literature, this involvement was, differently from the esophageal lesions of CF patients, probably due to contiguous spread, since the lesions were described as secondary to mediastinal lymph node enlargement that fistulized to the esophagus¹²12. Macedo PM, Almeida-Paes R, Almeida MA, Coelho RA, Oliveira Filho MA, Medeiros DM, et al. Fatal septic shock caused by Paracoccidioides brasiliensis phylogenetic species S1 in a young immunocompetent patient: a case report. Rev Soc Bras Med Trop. 2018;51:111-4..

Second, in the case we reported, the CNS was also affected by the mycosis, which is rare: CNS involvement in PCM cases is only reported for 12.5% of the patients in large case series¹⁷17. Pedroso VS, Vilela MC, Pedroso ER, Teixeira AL. Paracoccidioidomicose com comprometimento do sistema nervoso central: revisão sistemática da literatura. Rev Soc Bras Med Trop. 2009;42:691-7.,¹⁸18. Rosa Júnior M, Amorim AC, Baldon IV, Martins LA, Pereira RM, Campos RP, et al. Paracoccidioidomycosis of the central nervous system: CT and MR imaging findings. AJNR Am J Neuroradiol. 2019;40:1681-8.. However, this type of involvement is being diagnosed more frequently in recent times, due to the advances of and improved accessibility to neuroimaging, provided the possibility of CNS involvement is kept in mind and actively sought¹⁹19. Oliveira VF, Magri MM, Levin AS, Silva GD. Systematic review of neuroparacoccidioidomycosis: the contribution of neuroimaging. Mycoses. 2023;66:168-75.. CNS involvement may occur in up to 25% of PCM cases in CF²⁰20. Castro CC, Yamaga LY, Benard G, Shikanai-Yasuda MA, Cerri GG. MRI of central nervous system (CNS) paracoccidioidomycosis (PCM). In: VII Encontro Internacional sobre Paracoccidioidomicose; 1999. Campos do Jordão, Brasil. p.116.. Although the A/SAF is considered a more disseminated disease than the CF, CNS involvement appears to be more commonly associated with the latter, and in most cases previous lungs or upper respiratory tract involvement by the mycosis can be detected, signaling the mycotic nature of the SNC manifestations¹⁷17. Pedroso VS, Vilela MC, Pedroso ER, Teixeira AL. Paracoccidioidomicose com comprometimento do sistema nervoso central: revisão sistemática da literatura. Rev Soc Bras Med Trop. 2009;42:691-7.. CNS-related manifestations vary depending on lesion type (parenchymatous or meningeal), extent and location¹⁸18. Rosa Júnior M, Amorim AC, Baldon IV, Martins LA, Pereira RM, Campos RP, et al. Paracoccidioidomycosis of the central nervous system: CT and MR imaging findings. AJNR Am J Neuroradiol. 2019;40:1681-8.,¹⁹19. Oliveira VF, Magri MM, Levin AS, Silva GD. Systematic review of neuroparacoccidioidomycosis: the contribution of neuroimaging. Mycoses. 2023;66:168-75.. The prompt diagnosis of CNS involvement is important for decisions on treatment, due to the inability of some antifungal drugs to penetrate the brain-blood barrier. In the case we reported, this was the rationale behind selecting a sulfa drug instead of itraconazole for the post-amphotericin B treatment. Although itraconazole should be the first-line choice according to the Brazilian guidelines, the selected sulfa drug penetrates the CNS more easily¹1. Shikanai-Yasuda MA, Mendes RP, Colombo AL, Queiroz-Telles F, Kono AS, Paniago AM, et al. Brazilian guidelines for the clinical management of paracoccidioidomycosis. Rev Soc Bras Med Trop. 2017;50:715-40.. Noteworthy, our patient did not presented neurological symptoms or evidence of enhancing mass effects or perilesional edema, which suggests poor immunological reactivity. Potential reasons for this dampened immunoreactivity are discussed below.

The third point refers to the clinical form presented by our patient, a 56-year-old male smoker who resided in a rural area that is endemic for PCM in the Sao Paulo State for over 30 years. Due to his gardening hobby, he had a prolonged history of high-risk exposure to the fungus typical of the CF of PCM. However, surprisingly, an investigation of the extension of the disease, made during the patient’s hospitalization, revealed that he had not only typical symptoms of the CF of PCM, such as pulmonary involvement, but also features commonly found in the A/SAF, such as the enlargement of several superficial and deep lymphatic chains. Cases with concomitant clinical features of the CF and A/SAF of PCM had been described earlier, but commonly involved patients with a baseline immunosuppressive condition, such as Aids, cancer/chemotherapy or iatrogenic immunosuppression²¹21. Benard G, Duarte AJ. Paracoccidioidomycosis: a model for evaluation of the effects of human immunodeficiency virus infection on the natural history of endemic tropical diseases. Clin Infect Dis. 2000;31:1032-9..

The mechanisms driving PCM to the A/SAF or CF are still poorly known, mainly because of the difficulty in determining when the initial infection with Paracoccidioides sp. occurred in a given patient, and because the experimental models poorly mimic these events²²22. Benard G. Pathogenesis and classification of paracocidioidomycosis: new insights from old good stuff. Open Forum Infect Dis. 2020;8:ofaa624.. On the other hand, the immunological pattern that ultimately results from the development of either form has been better described in the literature. Distinct T cell reactivities are associated with the clinical outcomes of the disease. While the A/SAF is associated with overt Th2 immune responses and dampened Th-1 responses, the CF is associated with Th17 responses at the site of infection, with detectable but likely insufficient Th-1 responses, and, in its more severe cases, with a bias to Th-2 responses²³23. Benard G. An overview of the immunopathology of human paracoccidioidomycosis. Mycopathologia. 2008;165:209-21.,²⁴24. Castro LF, Ferreira MC, Silva RM, Blotta MH, Longhi LN, Mamoni RL. Characterization of the immune response in human paracoccidioidomycosis. J Infect. 2013;67:470-85..

The accumulation of information on patients with the mixed-form PCM shows that, although some clinical manifestations suggest an A/SAF of PCM, the illness is usually the result of reactivation of a chronic, subclinical infection instead. Currently, the accepted view is that the A/SAF of the disease results from the failure of the host’s immunity system in controlling the fungus spread from the early steps of the infection, which denotes a complete inability to mount effective Th-1 immune responses. On the other hand, in CF cases, there is partial control of fungus proliferation in the early phase of the disease, but later on (in years or even decades), the surviving fungi proliferate and spread, to cause the CF of the disease. In this case, there is certain degree of immune responsiveness, and, usually, a less uncontrolled disease compared with that of the A/SAF¹1. Shikanai-Yasuda MA, Mendes RP, Colombo AL, Queiroz-Telles F, Kono AS, Paniago AM, et al. Brazilian guidelines for the clinical management of paracoccidioidomycosis. Rev Soc Bras Med Trop. 2017;50:715-40.,²2. Franco M, Montenegro MR, Mendes RP, Marques SA, Dillon NL, Mota NG. Paracoccidioidomycosis: a recently proposed classification of its clinical forms. Rev Soc Bras Med Trop. 1987;20:129-32.,²³23. Benard G. An overview of the immunopathology of human paracoccidioidomycosis. Mycopathologia. 2008;165:209-21.,²⁴24. Castro LF, Ferreira MC, Silva RM, Blotta MH, Longhi LN, Mamoni RL. Characterization of the immune response in human paracoccidioidomycosis. J Infect. 2013;67:470-85.. Therefore, the mechanism underlying the mixed form cases would be that these patients have a basal immunosuppressive condition which overrides the partial immunoreactivity and control of the disease displayed by the CF patients, allowing the fungus to proliferate and spread unrestrictedly as in the A/SAF of the disease. Therefore, we propose the hypothesis that a severe COVID-19 infection may have contributed to the development of an atypical and severe CF of PCM in our patient, similar to the mixed-form PCM described in immunosuppressed patients. In fact, besides experiencing well-recognized detrimental effects on innate immunity, which result in the abnormal release of inflammatory cytokines and other altered inflammatory responses, patients with severe COVID-19 experience T lymphopenia and a decrease in their number of NK cells²⁵25. Tan L, Wang Q, Zhang D, Ding J, Huang Q, Tang YQ, et al. Lymphopenia predicts disease severity of COVID-19: a descriptive and predictive study. Signal Transduct Target Ther. 2020;5:33.,²⁶26. Zhou Y, Fu B, Zheng X, Wang D, Zhao C, Qi Y, et al. Pathogenic T-cells and inflammatory monocytes incite inflammatory storms in severe COVID-19 patients. Natl Sci Rev. 2020;7:998-1002.. Both of these cell types play crucial roles in the cell-mediated immune response to the fungus displayed by PCM patients²⁴24. Castro LF, Ferreira MC, Silva RM, Blotta MH, Longhi LN, Mamoni RL. Characterization of the immune response in human paracoccidioidomycosis. J Infect. 2013;67:470-85.,²⁷27. Peraçoli MT, Soares AM, Mendes RP, Marques SA, Pereira PC, Rezkallah-Iwasso MT. Studies of natural killer cells in patients with paracoccidioidomycosis. J Med Vet Mycol. 1991;29:373-80.. Furthermore, patients with severe COVID-19 have an increased proportion of TCD4+ and TCD8+ cells exhibiting exhaustion phenotypes, which have been associated with impaired antiviral responses²⁸28. Mohammed RN, Tamjidifar R, Rahman HS, Adili A, Ghoreishizadeh S, Saeedi H, et al. A comprehensive review about immune responses and exhaustion during coronavirus disease (COVID-19). Cell Commun Signal. 2022;20:79.,²⁹29. Chen Z, John Wherry E. T cell responses in patients with COVID-19. Nat Rev Immunol. 2020;20:529-36.: It is likely that the COVID-19 patients’ T cell-mediated antifungal responses will also be impaired. Evidencing this immune down regulation, COVID-19 has been associated with an increased risk of opportunistic fungal infections such as candidiasis, aspergillosis and, to a lesser extent, pneumocystis and mucormycosis⁶6. Pemán J, Ruiz-Gaitán A, García-Vidal C, Salavert M, Ramírez P, Puchades F, et al. Fungal co-infection in COVID-19 patients: should we be concerned? Rev Iberoam Micol. 2020;37:41-6..

CONCLUSION

We reported the case of a patient with severe SARS-CoV-2 infection and exacerbation of the clinical manifestations of an ongoing CF PCM, which resembled the mixed form of PCM described in immunosuppressed patients. This form of PCM may be related to the down regulation of the cell-mediated immune response caused by the severe SARS-CoV-2 infection. Therefore, different from the previous reports of COVID-19 in patients with PCM, our patient’s case suggests that this viral disease can influence the course of PCM in some patients. Our patient also presented other unusual manifestations of this mycosis, such as CNS and esophageal involvement. Fortunately, he was timely and appropriately treated for both diseases, evolving favorably.

REFERENCES

¹
Shikanai-Yasuda MA, Mendes RP, Colombo AL, Queiroz-Telles F, Kono AS, Paniago AM, et al. Brazilian guidelines for the clinical management of paracoccidioidomycosis. Rev Soc Bras Med Trop. 2017;50:715-40.
²
Franco M, Montenegro MR, Mendes RP, Marques SA, Dillon NL, Mota NG. Paracoccidioidomycosis: a recently proposed classification of its clinical forms. Rev Soc Bras Med Trop. 1987;20:129-32.
³
Adil MT, Rahman R, Whitelaw D, Jain V, Al-Taan O, Rashid F, et al. SARS-CoV-2 and the pandemic of COVID-19. Postgrad Med J. 2021;97:110-6
⁴
Macedo PM, Freitas DF, Varon AG, Lamas CC, Ferreira LC, Freitas AA, et al. COVID-19 and acute juvenile paracoccidioidomycosis coinfection. PLoS Negl Trop Dis. 2020;14:e0008559.
⁵
Macedo PM, Benko LM, Falcão EM, Nosanchuk JD, Almeida-Paes R, Valle AC. COVID-19 in patients with paracoccidioidomycosis. PLoS Negl Trop Dis. 2023;17:e0011322.
⁶
Pemán J, Ruiz-Gaitán A, García-Vidal C, Salavert M, Ramírez P, Puchades F, et al. Fungal co-infection in COVID-19 patients: should we be concerned? Rev Iberoam Micol. 2020;37:41-6.
⁷
Oliveira, Goldenberg S, Rotondi AV. Blastomicose sul-americana do esôfago. An Paul Med Cir. 1962;83:113-21.
⁸
Ziliotto Júnior A, Künzle JE, Takeda FA. Paracoccidioidomicose em esôfago: apresentação de um caso. Rev Inst Med Trop Sao Paulo. 1980;22:261-4.
⁹
Machado Filho J, Miranda JL. Considerações relativas à blastomicose sul-americana: localizações, sintomas iniciais, vias de penetração e disseminação em 313 casos consecutivos. Hospital (Rio de Janeiro). 1960;58:99-137.
¹⁰
Rego AP, Lima NS, Martins G, Oliveira CA, Bethem N. Blastomicose do esôfago. J Bras Med. 1980;38:40-1.
¹¹
Mendes RP. The gamut of clinical manifestations. In: Franco M, Lacaz CS, Restrepo-Moreno A, Del Negro G, editors. Paracoccidioidomycosis. Boca Raton: CRC Press; 1994. p.233-52.
¹²
Macedo PM, Almeida-Paes R, Almeida MA, Coelho RA, Oliveira Filho MA, Medeiros DM, et al. Fatal septic shock caused by Paracoccidioides brasiliensis phylogenetic species S1 in a young immunocompetent patient: a case report. Rev Soc Bras Med Trop. 2018;51:111-4.
¹³
Castro CC, Benard G, Ygaki Y, Shikanai-Yasuda M, Cerri GG. MRI of head and neck paracoccidioidomycosis. Br J Radiol. 1999;72:717-22.
¹⁴
Tuder RM, el Ibrahim R, Godoy CE, De Brito T. Pathology of the human pulmonary paracoccidioidomycosis. Mycopathologia. 1985;92:179-88.
¹⁵
Yamaga LY, Benard G, Hironaka FH, Castro LG, Funari MG, Castro CC, et al. The role of gallium-67 scan in defining the extent of disease in an endemic deep mycosis, paracoccidioidomycosis: a predominantly multifocal disease. Eur J Nucl Med Mol Imaging. 2003;30:888-94.
¹⁶
Mendes RP, Marcondes J, Souza LR, Barraviera B, Pereira PC. Estudo clínico do comprometimento linfático na paracoccidioidomicose. Rev Soc Bras Med Trop, 1986;19 Suppl:93.
¹⁷
Pedroso VS, Vilela MC, Pedroso ER, Teixeira AL. Paracoccidioidomicose com comprometimento do sistema nervoso central: revisão sistemática da literatura. Rev Soc Bras Med Trop. 2009;42:691-7.
¹⁸
Rosa Júnior M, Amorim AC, Baldon IV, Martins LA, Pereira RM, Campos RP, et al. Paracoccidioidomycosis of the central nervous system: CT and MR imaging findings. AJNR Am J Neuroradiol. 2019;40:1681-8.
¹⁹
Oliveira VF, Magri MM, Levin AS, Silva GD. Systematic review of neuroparacoccidioidomycosis: the contribution of neuroimaging. Mycoses. 2023;66:168-75.
²⁰
Castro CC, Yamaga LY, Benard G, Shikanai-Yasuda MA, Cerri GG. MRI of central nervous system (CNS) paracoccidioidomycosis (PCM). In: VII Encontro Internacional sobre Paracoccidioidomicose; 1999. Campos do Jordão, Brasil. p.116.
²¹
Benard G, Duarte AJ. Paracoccidioidomycosis: a model for evaluation of the effects of human immunodeficiency virus infection on the natural history of endemic tropical diseases. Clin Infect Dis. 2000;31:1032-9.
²²
Benard G. Pathogenesis and classification of paracocidioidomycosis: new insights from old good stuff. Open Forum Infect Dis. 2020;8:ofaa624.
²³
Benard G. An overview of the immunopathology of human paracoccidioidomycosis. Mycopathologia. 2008;165:209-21.
²⁴
Castro LF, Ferreira MC, Silva RM, Blotta MH, Longhi LN, Mamoni RL. Characterization of the immune response in human paracoccidioidomycosis. J Infect. 2013;67:470-85.
²⁵
Tan L, Wang Q, Zhang D, Ding J, Huang Q, Tang YQ, et al. Lymphopenia predicts disease severity of COVID-19: a descriptive and predictive study. Signal Transduct Target Ther. 2020;5:33.
²⁶
Zhou Y, Fu B, Zheng X, Wang D, Zhao C, Qi Y, et al. Pathogenic T-cells and inflammatory monocytes incite inflammatory storms in severe COVID-19 patients. Natl Sci Rev. 2020;7:998-1002.
²⁷
Peraçoli MT, Soares AM, Mendes RP, Marques SA, Pereira PC, Rezkallah-Iwasso MT. Studies of natural killer cells in patients with paracoccidioidomycosis. J Med Vet Mycol. 1991;29:373-80.
²⁸
Mohammed RN, Tamjidifar R, Rahman HS, Adili A, Ghoreishizadeh S, Saeedi H, et al. A comprehensive review about immune responses and exhaustion during coronavirus disease (COVID-19). Cell Commun Signal. 2022;20:79.
²⁹
Chen Z, John Wherry E. T cell responses in patients with COVID-19. Nat Rev Immunol. 2020;20:529-36.

FUNDING

The authors declare that no funds, grants, or other forms of support were received for the preparation of this manuscript. GB is a senior researcher from CNPq.

ERRATUM

Rev Inst Med Trop Sao Paulo. 2023;65:e57

http://doi.org/10.1590/S1678-9946202365057

On page 1:

Where it reads: Nathan Costa Marques

Should be read: André Nathan Costa 0000-0002-8025-6940

Publication Dates

Publication in this collection
01 Dec 2023
Date of issue
2023

History

Received
21 Aug 2023
Accepted
10 Oct 2023

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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[25] ²⁵
Tan L, Wang Q, Zhang D, Ding J, Huang Q, Tang YQ, et al. Lymphopenia predicts disease severity of COVID-19: a descriptive and predictive study. Signal Transduct Target Ther. 2020;5:33.

[26] ²⁶
Zhou Y, Fu B, Zheng X, Wang D, Zhao C, Qi Y, et al. Pathogenic T-cells and inflammatory monocytes incite inflammatory storms in severe COVID-19 patients. Natl Sci Rev. 2020;7:998-1002.

[27] ²⁷
Peraçoli MT, Soares AM, Mendes RP, Marques SA, Pereira PC, Rezkallah-Iwasso MT. Studies of natural killer cells in patients with paracoccidioidomycosis. J Med Vet Mycol. 1991;29:373-80.

[28] ²⁸
Mohammed RN, Tamjidifar R, Rahman HS, Adili A, Ghoreishizadeh S, Saeedi H, et al. A comprehensive review about immune responses and exhaustion during coronavirus disease (COVID-19). Cell Commun Signal. 2022;20:79.

[29] ²⁹
Chen Z, John Wherry E. T cell responses in patients with COVID-19. Nat Rev Immunol. 2020;20:529-36.

Brasil