Coinfection of Tuberculosis Pneumonia and COVID-19 in a Patient Vaccinated with Bacille Calmette-Guérin (BCG): Case Report.

COVID-19 is a respiratory tract infection caused by the new coronavirus SARS-COV2 that can be complicated by acute distress respiratory syndrome and multiorgan failure. In light of the high rate of mortality associated with COVID-19, pharmacological and non-pharmacological strategies to prevent the infection are currently being tested. Among non-pharmacological preventive measures, vaccines represent one of the main resources for public health. It has been suggested that Bacille Calmette-Guérin (BCG) vaccine may protect individuals against infection from COVID-19 virus, and two clinical trials addressing this question are underway. Here, we report the case of a 32-year-old woman, vaccinated with BCG when she was 1 year old, who was diagnosed with apical tuberculous pneumonia of the right lung along with COVID 19 pneumonia. © Springer Nature Switzerland AG 2020.

Introduction

COVID-19 is a respiratory tract infection caused by the coronavirus SARS-CoV-2. This virus was first reported in Wuhan (China) and rapidly spread worldwide causing a pandemic [1] with over 300,000 deaths up until July 2020 [2]. Non-pharmacological strategies have been adopted to prevent infection diffusion, including quarantine, social distancing, and personal protective equipment. COVID-19 clinical features include a spectrum of manifestations, ranging from absence of symptoms, gastro-intestinal disorders, and flu-like symptoms including fever, cough, and astenia [3]. In older patients with comorbidities, SARS-CoV-2 leads to interstitial pneumonia, acute respiratory distress syndrome (ARDS), multiorgan failure, and, eventually, death [4]. COVID-19 can be complicated by bacterial superinfections. Antibiotics, immunosuppressants, low weight heparin, and antiviral drugs have been used to treat patients [3, 4]. Among preventive measures, vaccines represent a major resource for public health, and it has been suggested that Bacille Calmette-Guérin (BCG) vaccine may protect individuals against COVID-19 infection: two clinical trials addressing this hypothesis are underway [5].

Here, we report the case of a 32-old-year woman, vaccinated with BCG, simultaneously affected by COVID-19 and tuberculous pneumonia.

Case Description

A 32-year-old woman, with history of BCG vaccination at the age of one, was hospitalized on 29 March 2020 with a 3-week-long high fever and muscle pain. The patient had a positive epidemiological link with travel to Milan, an area in Italy severely hit by COVID-19, and was treated with amoxicillin/clavulanic acid 1000 mg/BID and paracetamol 1000 mg/day.

On day one of hospitalization, the first nasopharyngeal swab RNA test for SARS-CoV2 genes resulted undetermined, while two subsequent tests were negative on day two and day three, respectively. High-resolution chest computer tomography (HRCT) revealed parenchymal consolidation of 54 × 25 mm, with associated air bronchogram, at the apical segment of the right upper lobe (RUL) (Fig. 1). Other consolidation areas with the same feature were located in the posterior segment of the same lobe in the parascissural site, in the middle lobe in the paramediastinal site, and contralaterally to the anterior segment of the left upper lobe (LUL) in the subpleural area. Large right pleural effusion leading to atelectasis of the right lower lobe (RLL) was also detected.

Fig. 1

First HRCT showing parenchymal consolidation with air bronchogram at the right apical segment (1A). Other consolidation areas were located in the posterior segment of the RUL and contralaterally (1B and 1C). Large right pleural effusion leading to atelectasis of RLL was also detected (1D). Second HRCT performed after 2 weeks showing reduction of parenchymal consolidation (2A, B, and C) and resolution of pleural effusion (2D)

Blood tests revealed lymphopenia (900/mm3 and 15.6% of leukocyte formula) and increase in high sensitive C-reactive protein (hsCRP 18.08 mg/dL) and procalcitonin (PCT 0.43 ng/mL), fibrinogen, (882 mg/dL) and d-dimer (622 ng/mL). Antibiotic therapy was started with clarithromycin 500 mg/BID together with piperacillin/tazobactam 4.5 g/TID.

On day four, a new nasopharyngeal swab RNA test for SARS-CoV-2 genes resulted positive, while both IgG and IgM antibodies assays were negative. The patient was transferred to a dedicated COVID-19 unit, where hydroxychloroquine and antiviral therapy with lopinavir/ritonavir were initiated. A first measurement of QuantiFERON® gave an indeterminate result with the indication to repeat the exam because of insufficient production of gamma interferon upon stimulation with mitogen. HIV test was negative. QuantiFERON® and HIV tests were performed in the suspicion of tuberculous disease: therefore, both the location of the lesion and the patient’s nationality had made way for a possible tuberculous infection obviously facilitated by a state of immunodeficiency.

On day seven, linezolid 500 mg/BID was introduced by replacing the previous antibiotic therapies due to the lack of clinical improvement. Thoracentesis was performed with the removal of 1 L of citrine yellow liquid. The chemical-physical and cytological analyses of the pleural fluid were consistent with exudative effusion, while culture tests for common germs and real-time polymerase chain reaction assay (RT-PCR) of Bacillus of Koch (KB) were both negative. Due to rapid relapse of large pleural effusion, pleural drainage with pigtail catheter was inserted. A second assay for the QuantiFERON® gave an indeterminate result. Due to the uncertain interpretation of chest CT images despite the reduction of pleural effusion, a lung CT biopsy procedure was performed with histological examination showing multiple areas of caseous necrosis delimited by a fibrous wall and giant multinucleated cells suggestive for tuberculosis infection. RT-PCR performed on histological samples resulted positive for KB.

Between day nine and day twelve, the patient repeated three nasopharyngeal swab RNA tests for SARS-CoV-2 genes which were negative, while clinical conditions improved. The antiviral therapy was first stopped followed by the hydroxychloroquine treatment. After discharge, the patient observed a 14-day quarantine period, and due to positive tests for tuberculosis, a combined therapy with isoniazid, rifampicin, pyrazinamide, and ethambutol was introduced. No oxygen therapy was required during hospitalization.

Discussion

To our knowledge, this is the first report in the literature of acute tuberculosis infection superimposed on COVID-19 pneumonia. The association of these two infections has been previously described in 3 patients, but none of them developed an acute tuberculous disease, even though two of them were under treatment with quadruple anti-tuberculosis therapy, which was able to prevent the reactivation of the disease [6].

By meticulously and thoroughly analyzing the patient’s anamnestic history, it was not possible to detect previous clinical manifestations that suggest a long-standing state of immunodeficiency. In fact, both the patient in question and her close relatives, when repeatedly questioned about possible diseases and previous manifestations, denied any compromise of the state of health even of a mild nature. This led to believe that the tuberculous infection, which until then had never manifested itself, had become infected with the coronavirus-19.

Interestingly, our patient had a history of BCG vaccination, a life-attenuated vaccine for tuberculosis that contains a weakened strain of Mycobacterium bovis. It is given to children in their first year of life in several countries, conferring protection against active tuberculosis in about 60% of treated individuals [7]. BCG increases immune response also to other pathogens, conferring a nonspecific protection against a wide range of bacterial, protozoa, and viral infections, throughout the activation of the innate immune system [8]. It also induces the innate immune system to develop a “memory”, which is called “trained immunity,” through epigenetic reprogramming of monocytes, macrophages, and natural killer cells [9, 10]. Trained immunity induced by BCG may affect different microorganisms other than Mycobacterium tuberculosis. In a recent study carried out in healthy volunteers, vaccination with BCG was shown to reduce viremia in response to the yellow fever vaccine (live attenuated vaccine) [11]. This response was associated with epigenetic changes in monocytes which were related to a better antiviral response [12]. The broad immunomodulatory capacity of BCG on respiratory tract pathogens was supported by a study in Guinea-Bissau showing that BCG reduced the incidence of respiratory syncytial virus infection [13], while a similar protective effect of BCG on infections respiratory tract has been reported in elderly subjects in Indonesia [14].

It has been hypothesized that trained immunity can also exert protective actions against COVID-19. In countries that do not have a universal vaccination policy against the BCG, such as Italy and the USA, a higher mortality associated with COVID-19 has been reported as compared with nations with long-standing universal vaccination policies with BCG, such as South Korea and Japan [15].

BCG confers immunity against Mycobacterium tuberculosis for about 10 years although some reports describe a duration of immunity up to 20 years [16].

This case suggests that in some individuals, the immune response to BCG vaccination may be defective as supported by the findings that results of QuantiFERON® assay were indeterminate indicating a condition of non-responsiveness of T lymphocytes to the antigenic stimuli. Moreover, the effect of the BCG vaccination on trained immunity seems to be limited to 1 year in most cases [11]. Thus, it is conceivable that in our patient, BCG vaccination did not induce a trained immunity capable to provide protection against either tuberculosis infection or COVID-19 infections. Indeed, the patient’s immune system was unable to react to Mycobacterium tuberculosis infection by generating a latent infection that subsequently was flared up under a stressful condition induced by viral superinfection with coronavirus-19 [17].

Furthermore, the double evaluation of QuantiFERON®, which proved twice to be indeterminate, could be the result of a momentary state of immunosuppression which subsequently allowed the occurrence of this combined bacterial and viral “superinfection.”

Clinical trials are underway to investigate the effect of BCG vaccination to protect the elderly individuals from infections and to explore the possibility to prevent serious COVID-19 infection in healthcare professionals. The current case report, although representing only a single case and therefore not sufficient to support any hypothesis, certainly contributes to discussions against the possibility that BCG vaccination exerts long-lasting protection from coronavirus-19 infection and highlights the importance of further research aimed to explore the role of trained immunity induced by the BCG vaccine in COVID-19 management [18].