key: cord-1045519-77gjdgax authors: Cronyn, Verschoyle; Howard, John; Chiang, Leslie; Le, Lisa; Tims-Cook, Zandraetta; Gertz, Alida M title: Trichosporon asahii Urinary Tract Infection in a Patient with Severe COVID-19 date: 2021-12-17 journal: Case Rep Infect Dis DOI: 10.1155/2021/6841393 sha: 38ab4552c52eef20deb102f30d27f6a2c6b06cc7 doc_id: 1045519 cord_uid: 77gjdgax Trichosporon asahii is a yeast-like basidiomycete that is an emerging opportunistic infection in immunocompromised patients. Urinary tract infections due to T. asahii are rarely reported in the literature and typically seen only in immunocompromised patients. In addition to being immunocompromised, critically ill COVID-19 patients often have prolonged exposure to antibiotics, corticosteroids, and Foley catheters, which further increases their susceptibility to infection with T. asahii. There are limited case reports documenting successful treatment of T. asahii among hospitalized patients, particularly among COVID-19 patients, in the literature. Therefore, it is important that successful treatment regimens be reported. Here, we report a case of T. asahii urinary tract infection successfully treated with fluconazole and voriconazole in a 73-year-old male recovering from COVID-19. Urinary tract infections with T. asahii should be considered in persistently febrile COVID-19 patients with fungal urinary tract infections since prompt recognition and treatment can reduce the risk of disseminated disease and early mortality. A growing body of literature has documented an increased risk of opportunistic fungal infections in patients infected with SARS-CoV-2, the virus that causes COVID-19 [1] [2] [3] [4] [5] . While candida is the most common fungal opportunistic infection recognized in the hospital setting, other fungal pathogens, such as Trichosporon species, are increasingly becoming recognized as an important cause of morbidity and mortality in the hospital setting [6, 7] . With the increasing number of COVID-19 cases, it is suspected that fungal opportunistic infections, including Trichosporon, will be more commonly encountered in the hospital setting. Trichosporon asahii has been associated with a significantly increased incidence of infections over the past two decades [8] . is yeast-like organism is typically found in soil, plants, birds, bats and other mammals, decaying wood, bodies of water, certain types of insects, and also, in the human body's natural flora [9] . Infections resulting from T. asahii include superficial skin and hair infections, summer-type hypersensitivity pneumonitis, chronic pneumonia, urinary tract infections, meningitis, endocarditis, disseminated infection, and fungemia [8] . Although several of these infections are benign, they increase the risk for disseminated infections, which have been associated with fatality rates greater than 70%, largely due to high resistance rates to antifungal agents [6, 8] . Prior to the COVID-19 pandemic, T. asahii infections had been found to disproportionately affect immunocompromised individuals, including those with hematological malignancies, extensive burns, solid tumors, and AIDS [6] . Intravenous drug users and those undergoing peritoneal dialysis were also documented to be at an increased risk for T. asahii infection [6] . Although immunocompromised individuals are at greatest risk, serious infection in immunocompetent populations has been documented to occur as well. Infection with T. asahii has been found in immunocompetent individuals who have undergone ophthalmologic surgery and in patients with prosthetic devices including urinary catheters, endoscopic forceps, and arteriovenous grafts [6] . More recently, it has been suggested that COVID-19 and the conditions surrounding COVID-19, such as long duration in the intensive care unit (ICU), prolonged exposure to antibiotics and corticosteroids, and indwelling urinary catheters, may also increase the risk for T. asahii infection [2, 10] . A recent case report documented a COVID-19 patient admitted to the ICU who developed a triple pulmonary coinfection with Pseudomonas sp., Stenotrophomonas sp., and Trichosporon sp. [11] . Another recent study documented five cases of T. asahii fungemia in COVID-19 patients who were overexposed to antimicrobials and corticosteroids [10] . Despite the increasing emergence of T. asahii infections in the hospital setting and in COVID-19 patients, T. asahii urinary infections have rarely been documented in the literature. In the few documented cases of T. asahii urinary infections, the authors have described concerning complications including renal damage, potential dissemination, and increased mortality [9, 12] . More literature regarding the pathogenesis and treatment of T. asahii is needed given the risks associated with infection. In addition, in vivo studies of antifungal efficacy are limited and clinical guidelines regarding its treatment are sparse, resulting in challenges for clinicians when treating these infections in hospitalized patients. We report here a case of T. asahii urinary infection in a patient hospitalized for COVID-19, with multiple risk factors for T. asahii infection including long ICU duration and prolonged antibiotic therapy, who received multiple invasive medical devices during his hospital course and was discovered to have a probable malignancy. Furthermore, we document successful treatment of this infection and demonstrate the prevention of this infection from progressing to disseminated disease. A 73-year-old male with a past medical history of chronic obstructive pulmonary disease, hypertension, and cerebrovascular accident with a right-sided deficit and speech deficit presented in a somnolent state to the emergency room. e patient reportedly had generalized body aches, dyspnea, and cough, which had been progressively worsening over the past two to three days. e patient tested positive for SARS-CoV-2. e patient experienced a prolonged hospital course, remaining in the hospital for approximately three months. A brief overview of the first month of hospitalization is given as follows: the patient was started on dexamethasone, azithromycin, and ceftriaxone at admission. His condition was complicated by a gastrointestinal bleed requiring multiple blood transfusions and a pulmonary embolism. e pulmonary embolism could not be adequately treated with anticoagulation due to his gastrointestinal bleed. His respiratory status declined, due to COVID-19, necessitating intubation which the patient required for most of his hospital stay. Broad-spectrum antibiotics were continued for the majority of his hospital course, switching to vancomycin, piperacillin-tazobactam, and levofloxacin to cover for ventilator-associated pneumonia. e patient required two courses of triple antibiotic therapy to cover for ventilatorassociated pneumonia due to persistent leukocytosis and a chest X-ray significant for signs of infiltrates which remained following his initial treatment course for ventilator-associated pneumonia. During the second month of his hospital stay, after his initial antibiotics courses had been completed, due to worsening respiratory status, sputum cultures were performed on hospital day (HD) # 26 which revealed Stenotrophomonas maltophilia and Citrobacter koseri, which were treated with trimethoprim-sulfamethoxazole ( Figure 1 ). Due to his gastrointestinal bleed, the patient underwent an esophagoduodenoscopy and a colonoscopy. Esophagoduodenoscopy revealed mild antral gastritis with a deformed duodenal bulb as well as some mild diverticulosis. Colonoscopy revealed a large ascending-colon mass. Two biopsy samples were taken of this colon mass, which returned consistent with tubular adenoma without cytologic atypia. However, it was suggested by the pathologist that if this biopsy material was part of a larger lesion, a more advanced malignant lesion could not be excluded. e patient was too unstable during his hospitalization to undergo resection of the mass. On HD # 38, the patient received a tracheostomy which he tolerated well without complications. On HD # 49, the patient experienced a febrile episode (maximum temperature of 101.2°F). At this time, the patient had both a Foley catheter and an internal jugular central line in place (he required both of these for the majority of his hospital course). Urinalysis, urine cultures, blood cultures, and a chest X-ray were ordered on the same day ( Figure 1 ). Urinalysis revealed 38 red blood cells per High Powered Field (HPF), 13 white blood cells/HPF, 2+ bacteria, many budding yeast, and 3+ hyaline casts ( Figure 1 ). Due to the bacteria and yeast in his urine, the Foley catheter was replaced the same day. Leukocytosis was only mild (10.6 cells per cubic millimeter of blood), but continued to increase to 15 cells per cubic millimeter of blood over the ensuing four days (Figure 1 ). e urine culture that resulted on HD # 53 revealed T. asahii. Isolates of T. asahii were obtained by performing a culture on a TSA blood agar plate with 5% sheep blood. e isolates were incubated at 35°C in an incubator at an ambient atmosphere for 24 hours. Isolates were identified using the VITEK 2 system (bioMérieux, Inc., Hazelwood, MO). Although the urinalysis had shown 2+ bacteria, no bacterial growth was seen in the urine culture. Blood culture revealed no growth after five days. Serum beta-D glucan was negative. e urine culture was sent to an outside laboratory (Quest Diagnostics Nichols Institute, Chantilly, VA) to determine sensitivities. At Quest Diagnostics, the isolates were reincubated on Sabouraud Dextrose Agar (SDA) overnight. e inoculum was prepared in sterile demineralized water and standardized to a 0.5 McFarland. Twenty microliters of the suspension was added to a tube with 11 mL of Sensititre HD 80 Urine cultures from HD 79 revealed 10,000 CFU/mL of skin flora. T. asahii was no longer present. He was accepted to long term care facility where he passed away from cardiopulmonary arrest 44 days after transfer. Pending sensitivity results, a repeat urine culture was ordered (HD # 53). On HD # 58, the patient again experienced a febrile episode, with a maximum temperature of 103.0°F accompanied by a leukocyte increase from 10 to 15 cells per cubic millimeter of blood (Figure 1 ). On HD # 58, the repeat urine culture results confirmed the presence of T. asahii. Again, no bacterial growth was seen in the urine culture. Antifungal medication had not been started initially as there was concern that the initial urine culture obtained on HD # 49 had revealed a contaminant or was reflective of asymptomatic colonization. However, with the repeat urine culture revealing T. asahii, the febrile episode, and leukocyte increase despite broad-spectrum antibiotics, antifungal coverage was deemed necessary. e patient was started on empiric fluconazole on HD # 58, and his Foley catheter was again replaced that same day (Figure 1) . A tracheal aspirate culture was ordered which returned results on HD # 63 revealing Stenotrophomonas maltophilia. Treatment with trimethoprim-sulfamethoxazole was again started (Figure 1) . On HD# 65, the sensitivities for the urine culture (sent to an outside laboratory on HD # 52) returned which revealed nonsusceptibility to fluconazole (MIC 2 mcg/mL), resistance to caspofungin and micafungin (MIC > 8 mcg/ mL), and sensitivity to voriconazole (MIC 0.03 mcg/mL). Based on the advanced fungal testing, voriconazole was started on HD # 65 (following seven days of fluconazole) per infectious disease recommendations and continued for seven days (Figure 1 ). e patient had remained afebrile with improved leukocytosis since starting fluconazole (white blood cell count decreased from 15 cells per cubic millimeter of blood to 9 cells per cubic millimeter of blood). With the initiation of the voriconazole, the leukocyte count continued to drop to normal levels (4.40 cells per cubic millimeter of blood). A percutaneous endoscopic gastrostomy tube was placed on HD # 78, and the patient tolerated the procedure well without complication. Urine cultures were obtained on HD # 78 and revealed 10,000 CFU/mL of usual skin flora. T. asahii was no longer present in urine (Figure 1 ). At this point, the patient was accepted and transferred to a longterm care facility on HD # 80. At this long-term care facility, multiple attempts failed to fit the patient with an aerosolized tracheostomy collar. A decision was made to initiate palliative care. On HD # 44 at the long-term care facility, he was found without spontaneous respirations or palpable pulse. is case adds to the growing literature documenting opportunistic infections in COVID-19 patients. Our case also contributes to the literature suggesting opportunistic fungal infections such as Trichosporon may be increasingly encountered in patients with severe COVID-19 [13, 14] . e occurrence of these coinfections is important to elucidate as it highlights another difficulty of managing patients with severe COVID-19. In addition to the complexity of treating this potentially fatal virus, clinicians must also be aware of bacterial and fungal coinfections that may further complicate illness. Bardi et al. examined over 100 patients with COVID-19 in the ICU setting for the development of coinfection. is study found that nearly half of the patients developed a bacterial or fungal coinfection and that these infections were associated with a high risk of mortality [13] . Although the overall incidence of T. asahii causing UTIs is not well elucidated, a study by Li et al. that examined T. asahii infections in Asia, Europe, North and South America, and Africa found the four greatest risk factors for infection included antibiotic use, invasive medical devices, neutropenia, and ICU hospitalization [8] . In this study, it was observed that bloodstream infections were the most common, followed by urinary infections, respiratory infections, and infections of the integumentary system [8] . Trichosporon infections have been associated with mortality rates ranging from 15 to 70% [6, 8] . is is explained in part by high resistance rates to antifungal agents, which in turn are due, partially, to the poor ability of antifungal agents to penetrate biofilms produced by this organism [6] . Another significant factor that contributes to antifungal resistance is previous or prolonged exposure to azole agents [15] . Despite the decreased effectiveness of voriconazole in treating T. asahii infections, the European Society for Clinical Microbiology and Infectious Diseases and the European Confederation of Medical Mycology 2014 guidelines recommend voriconazole as the treatment of choice for trichosporosis over other antifungals such as fluconazole, amphotericin B, and caspofungin, in in vitro studies of antifungal resistance [6] . is report emphasizes the need for clinicians to minimize risk factors that predispose patients to develop these coinfections. ese risk factors include prolonged exposure to antibiotics and corticosteroids and receiving invasive medical devices (such as Foley or central-line catheters). is case study documents a T. asahii urinary tract infection, along with the risk factors that may have contributed to this coinfection, and outlines the management approach used to treat this coinfection. A similar report by Segrelles-Calvo et al. (2021) documented a case of T. asahii pneumonia which occurred in a patient with COVID-19 [11] . e individual described in that report had many risk factors similar to those of the patient described here, including prolonged corticosteroid and antibiotic use and long ICU duration (28 days at diagnosis of Trichosporon infection) [11] . Segrelles-Calvo et al. also detail how the patient failed to respond to treatment with voriconazole and died on day 38 [11] . e authors in this report highlight our approach to isolating the T. asahii organism and how pathologic infection was differentiated from asymptomatic coinfection. is was achieved by replacing the Foley catheter and reculturing the urine which again revealed T. asahii. We also document the clinical course of the patient and the correlated improvement in symptoms and associated laboratory values once initiating antifungal therapy. We outline our treatment approach with empiric fluconazole, which, although advanced fungal sensitivity testing revealed nonsusceptibility to fluconazole (MIC 2 mcg/mL), we believe possessed a moderate degree of effectiveness against the T. asahii organism. Our rationale is supported by an article by Kahlmeter et al. who suggest that isolates that are found to be nonsusceptible do not necessarily possess a resistance mechanism [16] . Furthermore, improvement in the patient's clinical condition continued when an antifungal agent, to which T. asahii was susceptible, voriconazole (MIC 0.03 mcg/mL), was commenced. A recent study by Ahangarkani provides additional support for the high potency of voriconazole (GM MIC of 0.075 μg/ml) against T. asahii [17] . is report serves to highlight a particularly severe type of coinfection involving a multidrug-resistant fungal pathogen linked to high mortality and with limited treatment options. It is proposed that early suspicion and detection of this organism may allow for more prompt initiation of antifungal medication (voriconazole), likely reducing the risk of disseminated disease and mortality. Physicians treating hospitalized patients with COVID-19 should be aware of the increased risk of fungal opportunistic infections, such as T. asahii. Early suspicion and detection of T. asahii may allow for earlier initiation of treatment, reducing the risk of progression to a more severe disseminated infection. As T. asahii is often resistant to a wide variety of antifungals, susceptibility testing may significantly impact patient outcomes by allowing more targeted treatment. Continued research investigating the diagnosis and treatment of Trichosporon infections is needed to provide clinicians with the knowledge of how to best manage these infections when encountered in the hospital setting. Written, informed consent for publication was obtained from the patient's first of kin for publication of this case report. Zandraetta Tims-Cook and Alida M Gertz are the co-senior authors. None of the authors of this case report has any conflicts of interest to declare. Cryptococcus neoformans meningoencephalitis in an immunocompetent patient after COVID-19 infection Prevalence of opportunistic invasive aspergillosis in COVID-19 patients with severe pneumonia Opportunistic pathogenic fungal Co-infections are prevalent in critically ill COVID-19 patients: are they risk factors for disease severity? Opportunistic fungal infections post-COVID: how threatened are we? Opportunistic fungal infection associated with COVID-19 Biofilm formation by the emerging fungal pathogen Trichosporon asahii: development, architecture, and antifungal resistance Uncommon opportunistic fungi: new nosocomial threats Epidemiological study of Trichosporon asahii infections over the past 23 years Current knowledge of Trichosporon spp. and trichosporonosis Trichosporon asahii superinfections in critically ill COVID-19 patients overexposed to antimicrobials and corticosteroids Trichosporon asahii as cause of nosocomial pneumonia in patient with COVID-19: a triple Co-infection Marked renal damage in a child with hydronephrosis infected by Trichosporon asahii Nosocomial infections associated to COVID-19 in the intensive care unit: clinical characteristics and outcome Opportunistic fungal infections in the epidemic area of COVID-19: a clinical and diagnostic perspective from Iran Exploring the resistance mechanisms in Trichosporon asahii: triazoles as the last defense for invasive trichosporonosis on antimicrobial susceptibility testing and clinical and laboratory Standards Institute recommendations for reporting antimicrobial susceptibility results MALDI-TOF MS characterisation, genetic diversity and antifungal susceptibility of Trichosporon species from Iranian clinical samples Case Reports in Infectious Diseases Acknowledgments e authors would like to acknowledge and honor their patient who unfortunately eventually succumbed to his ailments and also his family who permitted us to share his story so that others might learn from it. ey would like to thank the tireless nurses, physicians, and other hospital staff who worked beside them and helped care for this patient and so many others during the COVID-19 pandemic. ey finally would like to thank Dr. Helena Spector for her excellent editorial assistance.