key: cord-0776044-21vi4p46 authors: Edun, Babatunde; Tidswell, Mark Alan title: Putative invasive pulmonary aspergillosis in apparently immunocompetent patients within medical wards and intensive care units date: 2021-05-17 journal: Intern Emerg Med DOI: 10.1007/s11739-021-02757-1 sha: 043f09d8a64776de4e50fc87f1e427b5f7c5a02d doc_id: 776044 cord_uid: 21vi4p46 nan termed putative invasive pulmonary aspergillosis (PIPA), which first requires a positive lower respiratory tract culture and incorporates additional clinical and host criteria. Under these guidelines, patients who did not fit into either the proven or putative category were defined as being colonized. When compared with histopathology-controlled patients, this algorithm was found to be 92% sensitive and 61% specific [2] . In this issue of IAEM, Corcione and colleagues [5] used these same criteria for PIPA [2] to perform a retrospective observational single-center study of all hospitalized patients with a positive Aspergillus culture from a lower airway sample obtained via bronchoalveolar lavage (BAL) or bronchial aspirate (BA). The authors applied the defined clinical, host, and imaging criteria to establish a diagnosis of PIPA. Those patients who did not meet criteria were classified as colonized. Of the more than 80,000 patients presenting during a 4-year period, 76 had a positive lower respiratory tract culture, of whom 52 met criteria for a diagnosis of PIPA (68%) and the remaining 24 were said to be colonized. The predominant Aspergillus species was A. fumigatus in 73% of isolates. The analysis included patients on the medical wards and in the ICU. Of the 58 ICU patients in this study, 36 met the criteria for PIPA. Aspergillus positive lower airway culture results occurred at a rate of 4.94 per thousand patients in ICU and 0.28 per thousand patients in the medical wards. The authors add to the medical literature by reporting a rate for medical ward patients, and their results are similar to reported rates for ICU patients. Some in the study population were immune compromised as defined by EORTC/MSG. For instance, 16 patients were on immune-suppressive medication. Chronic diseases such as cardiovascular, obstructive airways, and malignancy were frequent in the population. ICU patients had sepsis, required supportive therapies, and the majority had abdominal or trauma surgery. A multivariate analysis found a high odds ratio of PIPA associated with steroid therapy, or absence of antifungal therapy, among other factors-suggesting a potential role for earlier diagnosis and treatment. In light of the small sample size and many comparisons, the results are not conclusive, but do suggest important questions for further study. Of the 76 patients, there were 37 survivors, and mortality at 21 days was 51%. This is similar to mortality rates in other studies of PIPA. Among patients with PIPA that died 82% received antifungal therapy. While one might expect treatment to confer a survival benefit this does not appear to be the case, suggesting that the timing of treatment relative to disease course or other comorbidities contributed to mortality [6] . Similarly, in the study by Blot et al., of the 524 subjects with positive endotracheal aspirate cultures, 199 (38%) met criteria for a diagnosis of PIPA, and mortality in the PIPA group was 67.5% despite 91% receiving antifungal therapy [2] . Might earlier identification and treatment with antifungal therapy improve outcome? Are these very ill subjects who would die from underlying disease despite treatment for PIPA? The authors note as an important study limitation that severity of illness scores such as APACHE were not available in this retrospective analysis. Also, in Corcione's paper, none of the 76 subjects with a positive lower respiratory culture was diagnosed with proven IPA. The authors do not state how many subjects underwent a lung biopsy, and this highlights a drawback of using a positive respiratory tract culture as the only entry criterion for the diagnosis of invasive pulmonary Aspergillosis. There may have been additional patients with PIPA. Cultures of BAL and BA are not entirely reliable and are known to have highly variable sensitivity-as low as 30% in certain settings [6] . Indeed, criteria used to make the diagnosis of IPA in ICU patients may underestimate the actual rate. In the Blot et al. study, 24% patients in the subset of histopathology-controlled cases were diagnosed with proven IPA despite having a negative respiratory culture. That study compared the use of clinical criteria to histopathologic data and found that clinical criteria were only 92% sensitive at detecting cases of IPA, likely due to reliance on the requirement for positive culture along with clinical and radiologic factors [1] . Using a diagnostic approach that did not require a positive Aspergillus culture, Loughlin, et al. identified a high rate of probable Aspergillus infected patients for 24 (12%) of 194 nonneutropenic critically ill adults with worsening alveolar infiltrates, fever, purulent secretions, and one or more of the following: positive galactomannan index in BAL fluid or serum, positive BAL fluid culture, or positive histology [7] . Hage and colleagues showed that serum and/or BAL galactomannan was up to 96% sensitive and, along with other criteria, was enough to make a diagnosis of probable IPA in the immune compromised without waiting for culture [8] . A similar trend was seen in the 2012 paper by Blot et al. which reported that 45% of patients had EORTC host factors. These subjects might have been classified as probable IPA using EORTC/ MSG criteria which allow non-microbiological tests such as serum/BAL galactomannan, and Aspergillus PCR without the need for a positive lower respiratory tract culture. To address the issue of invasive aspergillosis in critically ill non-immune-compromised hosts, the EORTC/MSG ICU Working Group in 2019 revised their definition of possible invasive aspergillosis. Patient criteria were expanded to include chronic obstructive pulmonary disease (COPD), liver cirrhosis, influenza pneumonia, and COVID-19 pneumonia. They also included absolute cut-off values for a positive BAL or serum galactomannan [9] . However, they were unable to generate specific recommendations regarding the ICU population for multiple reasons including significant heterogeneity in pre-existing conditions and heterogeneity in radiologic findings in the ICU patient [10] . Given these limitations, the PIPA clinical algorithm remains a useful diagnostic tool for invasive aspergillosis in the ICU population. Cases of invasive aspergillosis co-infection have now been reported in mechanically ventilated patients with pneumonia due to SARS-COV2, and termed COVID-19 associated pulmonary aspergillosis (CAPA), at rates as high as 14-27% in some populations [11, 12] . Obtaining a lung biopsy to prove IPA would pose significant risk to both patient and staff. The work by Corcione and colleagues is a timely reminder of the utility of a clinical algorithm created for the ICU population [13] . Although IPA is infrequent, prompt consideration of Aspergillus is important in the evaluation of undiagnosed pulmonary infiltrates in ICU patients. Conflict of interest Dr. Edun has no conflicts of interest relevant to this article. Dr. Tidswell has no conflicts of interest relevant to this article. This commentary is the original work of the named authors, who reviewed previously published information. No new human or animal studies were performed by the authors. Informed consent For this type of study no informed consent is required. 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