key: cord-0910670-5kidzkf1 authors: Sahu, Tarun; Verma, Henu Kumar; Bhaskar, Lakkakula V K S title: Bacterial and fungal co-infection is a major barrier in COVID-19 patients: A specific management and therapeutic strategy is required date: 2022-03-25 journal: World J Virol DOI: 10.5501/wjv.v11.i2.107 sha: 698cd002bea5f4113e06151855ef9fd569981734 doc_id: 910670 cord_uid: 5kidzkf1 Microbial co-infections are another primary concern in patients with coronavirus disease 2019 (COVID-19), yet it is an untouched area among researchers. Preliminary data and systematic reviews only show the type of pathogens responsible for that, but its pathophysiology is still unknown. Studies show that these microbial co-infections are hospital-acquired/nosocomial infections, and patients admitted to intensive care units with invasive mechanical ventilation are highly susceptible to it. Patients with COVID-19 had elevated inflammatory cytokines and a weakened cell-mediated immune response, with lower CD4(+ )T and CD8(+ )T cell counts, indicating vulnerability to various co-infections. Despite this, there are only a few studies that recommend the management of co-infections. Core Tip: The immune systems of coronavirus disease 2019 patients are already compromised, making them vulnerable to bacterial, fungal, and viral co-infections. These secondary infections, also known as coinfections, are hospital-acquired/nosocomial infections, and mechanically ventilated patients are especially vulnerable. There are no specific guidelines or treatment options for these types of co-infections at the moment, which is contributing to an increase in morbidity and mortality among these patients. Citation: Sahu T, Verma HK, Bhaskar LVKS. Bacterial and fungal co-infection is a major barrier in COVID-19 patients: A specific management and therapeutic strategy is required. World J Virol 2022; 11 (2) Recently, secondary bacterial/fungal infections or co-infections are another major concern in COVID-19 patients, impacting mortality but lacking attention. Less evidence of bacterial and fungal infection was documented in earlier coronavirus pandemics and epidemics, such as severe acute respiratory syndrome (SARS)-1 and Middle East respiratory syndrome [2] . Recently, we have seen a paper by Saeed et al [3] entitled "Bacterial co-infection in patients with SARS-CoV-2 in the Kingdom of Bahrain" [3] in your well-regarded journal World J Virol. We appreciate the work done by Saeed et al [3] as they reported the microbial infections in patients with COVID-19 in the Kingdom of Bahrain. The most common bacterial species they reported were K. pneumonia, P. aeruginosa, A. baumannii, E. coli, S. aureus, E. faecalis, and E. faecium. Among all of these, hospital-acquired (HAI)/nosocomial infection was higher (73.8%) than community-acquired infection. Similar results were reported by Mahmoudi [4] and Sharifipour et al [5] in the neighboring country Iran. Both authors reported the same species of bacterial strains, which are the most common. Later on, a descriptive study conducted in the United Arab Emirates found bacterial co-infection in patients with COVID-19 and especially Klebsiella pneumonia, Escherichia coli, Staphylococcus aureus, and Acinetobacter baumannii were most predominant strains [6] . The recent reviews and meta-analysis also show that Klebsiella pneumonia, Haemophiles influenzae, Streptococcus pneumoniae, and Staphylococcus aureus are the most frequently identified bacteria among co-infected patients [7, 8] Other than bacteria, fungal and viral co-infections are also severe issues with COVID-19 patients. In the present article, the authors reported fungal co-infection in about 10% of total microbial co-infection. The most common isolated fungi were Candida galabrata, Candida tropicalis, Candida albicans, and Aspergillus fumigatus. They also found that the death rates in patients with fungal co-infection were very high (70.4%) [3] . Studies from other different regions found aspergillosis or invasive candidiasis as the common fungal co-infections [12] . In contrast, influenza type A, type B, and RSV were the most common viral co-infections in patients with COVID-19 [7] . These co-infections are associated with an increased probability of death. Most of the articles reported that microbial co-infections were HAI/nosocomial infections, similar to Saeed et al [3] , who found 71% were HAI. Further, the authors have described well different microbial co-infections in patients of COVID-19. Furthermore, the study has some limitations, such as the authors not providing any treatment or management options for COVID-19 infected patients. That is the most crucial concern for the patient's benefit. In this context, we would like to draw your attention to the management and recommendations for the infection. Chedid et al [13] reviewed the most common antibiotics used by COVID-19 hospitalized patients, primarily in an intensive situation, by analyzing the use of antibiotics in different types of bacterial secondary and co-infection [13] . On the other hand, Sieswerda et al [14] gave evidence-based recommendations for antibacterial therapy for secondary microbial and co-infection [14] . Wu et al [15] described the management of respiratory co-infection and secondary bacterial pneumonia in patients with COVID-19 [15] . For the treatment of fungal co-infections, Song et al [16] suggested the regimen, which is currently in an induction phase and includes amphotericin B deoxycholate and flucytosine, followed by (1) Fluconazole; alternative options for fluconazole + flucytosine or amphotericin B deoxycholate + fluconazole; (2) Consolidation phase for fluconazole; and (3) Maintenance (or secondary prophylaxis) phase for fluconazole [16] . Depending upon disease severity, patients with influenza A or B viral co-infection should be treated with oseltamivir or its substitute [17] . Treatment options for other viral co-infection, such as RSV, are restricted and beneficial only in specific circumstances, such as immunosuppression or hypogammaglobulinemia [18, 19] . Patients with COVID-19 had elevated levels of inflammatory cytokines and a debilitated cellmediated immune response, with lower CD4 + T and CD8 + T cell counts, indicating vulnerability to various co-infections. Furthermore, COVID-19 patients who are immunocompromised, such as those with extended neutropenia, hematopoietic stem cell transplantation, hereditary or acquired immunodeficiencies, or tumor, are more likely to develop co-infection. Co-infection and superinfection of pathogens in COVID-19 patients is a critical issue as it is difficult to distinguish the associated complications. Specific diagnostic tests should be recommended for proper treatment and management of these infections to reduce morbidity and mortality. Author contributions: Sahu T, Verma HK, and Bhaskar LVKS wrote and revised the letter. The authors declare no conict of interest. 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