Last data update: Jan 21, 2025. (Total: 48615 publications since 2009)
Records 1-17 (of 17 Records) |
Query Trace: Willby MJ[original query] |
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Expanded geographic distribution for two Legionella pneumophila sequence types of clinical concern
Hamlin JAP , Kozak-Muiznieks NA , Mercante JW , Rishishwar L , Norris ET , Gaines AB , Ishaq MK , Winchell JM , Willby MJ . mSphere 2024 e0075623 Legionella pneumophila serogroup 1 sequence types (ST) 213 and 222, a single-locus variant of ST213, were first detected in the early 1990s in the Midwest United States (U.S.) and the late 1990s in the Northeast U.S. and Canada. Since 1992, these STs have increasingly been implicated in community-acquired sporadic and outbreak-associated Legionnaires' disease (LD) cases. We were interested in understanding the change in LD frequency due to these STs and identifying genetic features that differentiate these STs from one another. For the geographic area examined here (Mountain West to Northeast) and over the study period (1992-2020), ST213/222-associated LD cases identified by the Centers for Disease Control and Prevention increased by 0.15 cases per year, with ST213/222-associated LD cases concentrated in four states: Michigan (26%), New York (18%), Minnesota (16%), and Ohio (10%). Additionally, between 2002 and 2021, ST222 caused at least five LD outbreaks in the U.S.; no known outbreaks due to ST213 occurred in the U.S. during this time. We compared the genomes of 230 ST213/222 isolates and found that the mean of the average nucleotide identity (ANI) within each ST was high (99.92% for ST222 and 99.92% for ST213), with a minimum between ST ANI of 99.50% and a maximum of 99.87%, indicating low genetic diversity within and between these STs. While genomic features were identified (e.g., plasmids and CRISPR-Cas systems), no association explained the increasing geographic distribution and prevalence of ST213 and ST222. Yet, we provide evidence of the expanded geographical distribution of ST213 and ST222 in the U.S.IMPORTANCESince the 1990s, cases of Legionnaires' disease (LD) attributed to a pair of closely related Legionella pneumophila variants, ST213 and ST222, have increased in the U.S. Furthermore, between 2002 and 2021, ST222 caused at least five outbreaks of LD in the U.S., while ST213 has not been linked to any U.S. outbreak. We wanted to understand how the rate of LD cases attributed to these variants has changed over time and compare the genetic features of the two variants. Between 1992 and 2020, we determined an increase of 0.15 LD cases ascribed to ST213/222 per year in the geographic region studied. Our research shows that these STs are spreading within the U.S., yet most of the cases occurred in four states: Michigan, New York, Minnesota, and Ohio. Additionally, we found little genetic diversity within and between these STs nor could specific genetic features explain their geographic spread. |
Large community outbreak of legionnaires disease potentially associated with a cooling tower - Napa County, California, 2022
Grossmann NV , Milne C , Martinez MR , Relucio K , Sadeghi B , Wiley EN , Holland SN , Rutschmann S , Vugia DJ , Kimura A , Crain C , Akter F , Mukhopadhyay R , Crandall J , Shorrock M , Smith JC , Prasad N , Kahn R , Barskey AE , Lee S , Willby MJ , Kozak-Muiznieks NA , Lucas CE , Henderson KC , Hamlin JAP , Yang E , Clemmons NS , Ritter T , Henn J . MMWR Morb Mortal Wkly Rep 2023 72 (49) 1315-1320 Legionnaires disease is a serious infection acquired by inhalation of water droplets from human-made building water systems that contain Legionella bacteria. On July 11 and 12, 2022, Napa County Public Health (NCPH) in California received reports of three positive urinary antigen tests for Legionella pneumophila serogroup 1 in the town of Napa. By July 21, six Legionnaires disease cases had been confirmed among Napa County residents, compared with a baseline of one or two cases per year. NCPH requested assistance from the California Department of Public Health (CDPH) and CDC to aid in the investigations. Close temporal and geospatial clustering permitted a focused environmental sampling strategy of high-risk facilities which, coupled with whole genome sequencing results from samples and investigation of water system maintenance, facilitated potential linking of the outbreak with an environmental source. NCPH, with technical support from CDC and CDPH, instructed and monitored remediation practices for all environmental locations that tested positive for Legionella. The investigation response to this community outbreak illustrates the importance of interdisciplinary collaboration by public health agencies, laboratory support, timely communication with the public, and cooperation of managers of potentially implicated water systems. Timely identification of possible sources, sampling, and remediation of any facility testing positive for Legionella is crucial to interrupting further transmission. |
Notes from the Field: Legionnaires disease in a U.S. traveler after staying in a private vacation rental house in the U.S. Virgin Islands - United States, February 2022
Mac VV , Labgold K , Moline HL , Smith JC , Carroll J , Clemmons N , Edens C , Ellis B , Harrison C , Henderson KC , Ishaq MK , Kozak-Muiznieks NA , Kunz J , Lawrence M , Lucas CE , Walker HL , Willby MJ , Ellis EM . MMWR Morb Mortal Wkly Rep 2023 72 (20) 564-565 On February 1, 2022, the U.S. Virgin Islands (USVI) Department of Health (VIDOH) was notified of a confirmed case of Legionnaires disease in an adult U.S. resident (Figure). The patient, a man aged 55 years, returned to his U.S. state of residence from leisure travel in USVI on January 22 and developed a cough, shortness of breath, and fatigue on January 23. On January 29, he was hospitalized for shortness of breath and received a positive SARS-CoV-2 test result at admission. The combination of the patient’s symptoms and recent travel history prompted administration of a urinary antigen test (UAT) for Legionnaires disease specific to Legionella pneumophila serogroup 1 (Lp1); a positive result was returned on January 31. Inpatient treatment administered for COVID-19 pneumonia and Legionnaires disease included remdesivir, oral levofloxacin, oral and intravenous steroid therapy, and as-needed use of a bronchodilator inhaler and an expectorant. Remdesivir was discontinued during inpatient treatment because of elevated liver enzymes. The patient recovered and was discharged on February 2. |
Discovery of substituted benzyloxy-benzylamine inhibitors of acetyltransferase Eis and their anti-mycobacterial activity
Pang AH , Green KD , Chandrika NT , Garzan A , Punetha A , Holbrook SYL , Willby MJ , Posey JE , Tsodikov OV , Garneau-Tsodikova S . Eur J Med Chem 2022 242 114698 A clinically significant mechanism of tuberculosis resistance to the aminoglycoside kanamycin (KAN) is its acetylation catalyzed by upregulated Mycobacterium tuberculosis (Mtb) acetyltransferase Eis. In search for inhibitors of Eis, we discovered an inhibitor with a substituted benzyloxy-benzylamine scaffold. A structure-activity relationship study of 38 compounds in this structural family yielded highly potent (IC(50) 1M) Eis inhibitors, which did not inhibit other acetyltransferases. Crystal structures of Eis in complexes with three of the inhibitors showed that the inhibitors were bound in the aminoglycoside binding site of Eis, consistent with the competitive mode of inhibition, as established by kinetics measurements. When tested in Mtb cultures, two inhibitors (47 and 55) completely abolished resistance to KAN of the highly KAN-resistant strain Mtb mc(2) 6230 K204, likely due to Eis inhibition as a major mechanism. Thirteen of the compounds were toxic even in the absence of KAN to Mtb and other mycobacteria, but not to non-mycobacteria or to mammalian cells. This, yet unidentified mechanism of toxicity, distinct from Eis inhibition, will merit future studies along with further development of these molecules as anti-mycobacterial agents. |
Structure-based design of haloperidol analogues as inhibitors of acetyltransferase Eis from Mycobacterium tuberculosis to overcome kanamycin resistance
Punetha A , Green KD , Garzan A , Thamban Chandrika N , Willby MJ , Pang AH , Hou C , Holbrook SYL , Krieger K , Posey JE , Parish T , Tsodikov OV , Garneau-Tsodikova S . RSC Med Chem 2021 12 (11) 1894-1909 Tuberculosis (TB), caused by Mycobacterium tuberculosis (Mtb), is a deadly bacterial disease. Drug-resistant strains of Mtb make eradication of TB a daunting task. Overexpression of the enhanced intracellular survival (Eis) protein by Mtb confers resistance to the second-line antibiotic kanamycin (KAN). Eis is an acetyltransferase that acetylates KAN, inactivating its antimicrobial function. Development of Eis inhibitors as KAN adjuvant therapeutics is an attractive path to forestall and overcome KAN resistance. We discovered that an antipsychotic drug, haloperidol (HPD, 1), was a potent Eis inhibitor with IC(50) = 0.39 ± 0.08 μM. We determined the crystal structure of the Eis-haloperidol (1) complex, which guided synthesis of 34 analogues. The structure-activity relationship study showed that in addition to haloperidol (1), eight analogues, some of which were smaller than 1, potently inhibited Eis (IC(50) ≤ 1 μM). Crystal structures of Eis in complexes with three potent analogues and droperidol (DPD), an antiemetic and antipsychotic, were determined. Three compounds partially restored KAN sensitivity of a KAN-resistant Mtb strain K204 overexpressing Eis. The Eis inhibitors generally did not exhibit cytotoxicity against mammalian cells. All tested compounds were modestly metabolically stable in human liver microsomes, exhibiting 30-60% metabolism over the course of the assay. While direct repurposing of haloperidol as an anti-TB agent is unlikely due to its neurotoxicity, this study reveals potential approaches to modifying this chemical scaffold to minimize toxicity and improve metabolic stability, while preserving potent Eis inhibition. |
Structure-guided optimization of inhibitors of acetyltransferase Eis from Mycobacterium tuberculosis
Punetha A , Ngo HX , Holbrook SYL , Green KD , Willby MJ , Bonnett SA , Krieger K , Dennis EK , Posey JE , Parish T , Tsodikov OV , Garneau-Tsodikova S . ACS Chem Biol 2020 15 (6) 1581-1594 The enhanced intracellular survival (Eis) protein of Mycobacterium tuberculosis (Mtb) is a versatile acetyltransferase that multiacetylates aminoglycoside antibiotics abolishing their binding to the bacterial ribosome. When overexpressed as a result of promoter mutations, Eis causes drug resistance. In an attempt to overcome the Eis-mediated kanamycin resistance of Mtb, we designed and optimized structurally unique thieno[2,3-d]pyrimidine Eis inhibitors toward effective kanamycin adjuvant combination therapy. We obtained 12 crystal structures of enzyme-inhibitor complexes, which guided our rational structure-based design of 72 thieno[2,3-d]pyrimidine analogues divided into three families. We evaluated the potency of these inhibitors in vitro as well as their ability to restore the activity of kanamycin in a resistant strain of Mtb, in which Eis was upregulated. Furthermore, we evaluated the metabolic stability of 11 compounds in vitro. This study showcases how structural information can guide Eis inhibitor design. |
Potent 1,2,4-triazino[5,6 b]indole-3-thioether inhibitors of the kanamycin resistance enzyme Eis from Mycobacterium tuberculosis
Ngo HX , Green KD , Gajadeera CS , Willby MJ , Holbrook SYL , Hou C , Garzan A , Mayhoub AS , Posey JE , Tsodikov OV , Garneau-Tsodikova S . ACS Infect Dis 2018 4 (6) 1030-1040 A common cause of resistance to kanamycin (KAN) in tuberculosis is overexpression of the enhanced intracellular survival (Eis) protein. Eis is an acetyltransferase that multiacetylates KAN and other aminoglycosides, rendering them unable to bind the bacterial ribosome. By high-throughput screening, a series of substituted 1,2,4-triazino[5,6 b]indole-3-thioether molecules were identified as effective Eis inhibitors. Herein, we purchased 17 and synthesized 22 new compounds, evaluated their potency, and characterized their steady-state kinetics. Four inhibitors were found not only to inhibit Eis in vitro, but also to act as adjuvants of KAN and partially restore KAN sensitivity in a Mycobacterium tuberculosis KAN-resistant strain in which Eis is upregulated. A crystal structure of Eis in complex with a potent inhibitor and CoA shows that the inhibitors bind in the aminoglycoside binding site snugly inserted into a hydrophobic cavity. These inhibitors will undergo preclinical development as novel KAN adjuvant therapies to treat KAN-resistant tuberculosis. |
Acetylation by Eis and deacetylation by Rv1151c of Mycobacterium tuberculosis HupB: Biochemical and structural insight
Green KD , Biswas T , Pang AH , Willby MJ , Reed MS , Stuchlik O , Pohl J , Posey JE , Tsodikov OV , Garneau-Tsodikova S . Biochemistry 2018 57 (5) 781-790 Bacterial nucleoid-associated proteins (NAPs) are critical to genome integrity and chromosome maintenance. Post-translational modifications of bacterial NAPs appear to function similarly to their better studied mammalian counterparts. The histone-like NAP HupB from Mycobacterium tuberculosis (Mtb) was previously observed to be acetylated by the acetyltransferase Eis, leading to genome reorganization. We report biochemical and structural aspects of acetylation of HupB by Eis. We also found that the SirT-family NAD(+)-dependent deacetylase Rv1151c from Mtb deacetylated HupB in vitro and characterized the deacetylation kinetics. We propose that activities of Eis and Rv1151c could regulate the acetylation status of HupB to remodel the mycobacterial chromosome in response to environmental changes. |
Detection of Mycobacterium tuberculosis pncA mutations by the NIPRO Genoscholar(™)·PZA-TB II as compared to conventional sequencing.
Willby MJ , Wijkander M , Havumaki J , Johnson K , Werngren J , Hoffner S , Denkinger CM , Posey JE . Antimicrob Agents Chemother 2017 62 (1) Pyrazinamide (PZA) is a standard component of first-line treatment regimens for Mycobacterium tuberculosis (Mtb) and is included in treatment regimens for drug-resistant Mtb whenever possible. It is therefore imperative that susceptibility to PZA be reliably assessed prior to initiation of therapy. Currently-available growth-based PZA susceptibility tests are time consuming and results can be inconsistent. Molecular tests have been developed for most first-line antituberculosis drugs, however, a commercial molecular test is not yet available for rapid detection of PZA resistance. Recently, a line probe assay, NIPRO GenoscholarPZA-TB II, was developed for the detection of mutations within the pncA gene including the promoter region likely to lead to PZA resistance. The sensitivity and specificity of this assay was evaluated by two independent laboratories using a combined total of 249 strains with mutations in pncA and its promoter as well as 21 strains with wild-type pncA Overall, the assay showed good sensitivity (93.2%, 95%CI 89.3, 95.8) and moderate specificity (91.2%, 95%CI 77.0, 97.0) for the identification of Mtb predicted to be resistant to PZA based upon the presence of mutations (excluding known PZA susceptible mutations) in the pncA coding region or promoter. The assay shows promise for the molecular prediction of PZA resistance. |
Combating Enhanced intracellular survival (Eis)-mediated kanamycin resistance of Mycobacterium tuberculosis by novel pyrrolo[1,5-a]pyrazine-based Eis inhibitors
Garzan A , Willby MJ , Ngo HX , Gajadeera CS , Green KD , Holbrook SY , Hou C , Posey JE , Tsodikov OV , Garneau-Tsodikova S . ACS Infect Dis 2017 3 (4) 302-309 Tuberculosis (TB) remains one of the leading causes of mortality worldwide. Hence, the identification of highly effective antitubercular drugs with novel modes of action is crucial. In this paper, we report the discovery and development of pyrrolo[1,5-a]pyrazine-based analogues as highly potent inhibitors of the Mycobacterium tuberculosis (Mtb) acetyltransferase enhanced intracellular survival (Eis), whose up-regulation causes clinically observed resistance to the aminoglycoside (AG) antibiotic kanamycin A (KAN). We performed a structure-activity relationship (SAR) study to optimize these compounds as potent Eis inhibitors both against purified enzyme and in mycobacterial cells. A crystal structure of Eis in complex with one of the most potent inhibitors reveals that the compound is bound to Eis in the AG binding pocket, serving as the structural basis for the SAR. These Eis inhibitors have no observed cytotoxicity to mammalian cells and are promising leads for the development of innovative AG adjuvant therapies against drug-resistant TB. |
Sulfonamide-based inhibitors of aminoglycoside acetyltransferase Eis abolish resistance to kanamycin in Mycobacterium tuberculosis
Garzan A , Willby MJ , Green KD , Gajadeera CS , Hou C , Tsodikov OV , Posey JE , Garneau-Tsodikova S . J Med Chem 2016 59 (23) 10619-10628 A two-drug combination therapy where one drug targets an offending cell and the other targets a resistance mechanism to the first drug is a time-tested, yet underexploited approach to combat or prevent drug resistance. By high-throughput screening, we identified a sulfonamide scaffold that served as a pharmacophore to generate inhibitors of Mycobacterium tuberculosis acetyltransferase Eis, whose upregulation causes resistance to the aminoglycoside (AG) antibiotic kanamycin A (KAN) in Mycobacterium tuberculosis. Rational systematic derivatization of this scaffold to maximize Eis inhibition and abolish the Eis-mediated KAN resistance of M. tuberculosis yielded several highly potent agents. A crystal structure of Eis in complex with one of the most potent inhibitors revealed that the inhibitor bound Eis in the AG-binding pocket held by a conformationally malleable region of Eis (residues 28-37) bearing key hydrophobic residues. These Eis inhibitors are promising leads for preclinical development of innovative AG combination therapies against resistant TB. |
Discovery and optimization of two Eis inhibitor families as kanamycin adjuvants against drug-resistant M. tuberculosis
Garzan A , Willby MJ , Green KD , Tsodikov OV , Posey JE , Garneau-Tsodikova S . ACS Med Chem Lett 2016 7 (12) 1219-1221 Drug-resistant tuberculosis (TB) is a global threat and innovative approaches such as using adjuvants of anti-TB therapeutics are required to combat it. High-throughput screening yielded two lead scaffolds of inhibitors of Mycobacterium tuberculosis (Mtb) acetyltransferase Eis, whose upregulation causes resistance to the anti-TB drug kanamycin (KAN). Chemical optimization on these scaffolds resulted in potent Eis inhibitors. One compound restored the activity of KAN in a KAN-resistant Mtb strain. Model structures of Eis-inhibitor complexes explain the structure-activity relationship. |
Potent inhibitors of acetyltransferase Eis overcome kanamycin resistance in Mycobacterium tuberculosis
Willby MJ , Green KD , Gajadeera CS , Hou C , Tsodikov OV , Posey JE , Garneau-Tsodikova S . ACS Chem Biol 2016 11 (6) 1639-46 A major cause of tuberculosis (TB) resistance to the aminoglycoside kanamycin (KAN) is the Mycobacterium tuberculosis (Mtb) acetyltransferase Eis. Upregulation of this enzyme is responsible for inactivation of KAN through acetylation of its amino groups. A 123000-compound high-throughput screen (HTS) yielded several small-molecule Eis inhibitors that share an isothiazole S,S-dioxide heterocyclic core. These were investigated for their structure-activity relationships. Crystal structures of Eis in complex with two potent inhibitors show that these molecules are bound in the conformationally adaptable aminoglycoside binding site of the enzyme, thereby obstructing binding of KAN for acetylation. Importantly, we demonstrate that several Eis inhibitors, when used in combination with KAN against resistant Mtb, efficiently overcome KAN resistance. This approach paves the way toward development of novel combination therapies against aminoglycoside-resistant TB. |
Multiorgan WU polyomavirus infection in bone marrow transplant recipient
Siebrasse EA , Nguyen NL , Willby MJ , Erdman DD , Menegus MA , Wang D . Emerg Infect Dis 2016 22 (1) 24-31 WU polyomavirus (WUPyV) was detected in a bone marrow transplant recipient with severe acute respiratory distress syndrome who died in 2001. Crystalline lattices of polyomavirus-like particles were observed in the patient's lung by electron microscopy. WUPyV was detected in the lung and other tissues by real-time quantitative PCR and identified in the lung and trachea by immunohistochemistry. A subset of WUPyV-positive cells in the lung had morphologic features of macrophages. Although the role of WUPyV as a human pathogen remains unclear, these results clearly demonstrate evidence for infection of respiratory tract tissues in this patient. |
Disparities in capreomycin resistance levels associated with the rrs A1401G mutation in clinical isolates of Mycobacterium tuberculosis.
Reeves AZ , Campbell PJ , Willby MJ , Posey JE . Antimicrob Agents Chemother 2014 59 (1) 444-9 As the prevalence of multidrug-resistant and extensively drug-resistant tuberculosis strains continues to rise, so does the need to develop accurate and rapid molecular tests to complement time consuming growth-based drug susceptibility testing. Performance of molecular methods relies on the association of specific mutations with phenotypic drug resistance and while considerable progress has been made for resistance detection of first-line antituberculosis drugs, rapid detection of resistance for second-line drugs lags behind. The rrs A1401G allele is considered a strong predictor of cross-resistance between the three second-line injectable drugs, capreomycin (CAP), kanamycin, and amikacin. However, discordance is often observed between the rrs A1401G mutation and CAP resistance, with up to 40% of rrs A1401G mutants being classified as CAP susceptible. We measured the minimal inhibitory concentrations (MICs) to CAP in 53 clinical isolates harboring the A1401G mutation and found that the CAP MICs ranged from 8 mug/ml to 40 mug/ml. These results were drastically different from engineered A1401G mutants generated in isogenic Mycobacterium tuberculosis, which exclusively exhibited high-level CAP MICs of 40 mug/ml. These data support prior studies suggesting the critical concentration of CAP (10 mug/ml) used to determine resistance by indirect agar proportion may be too high to detect all CAP resistant strains and suggests that a larger percentage of resistant isolates could be identified by lowering the critical concentration. These data also suggest that differences in resistance levels among clinical isolates are possibly due to second site or compensatory mutations located elsewhere in the genome. |
Antimycobacterial activity of DNA intercalator inhibitors of Mycobacterium tuberculosis primase DnaG.
Gajadeera C , Willby MJ , Green KD , Shaul P , Fridman M , Garneau-Tsodikova S , Posey JE , Tsodikov OV . J Antibiot (Tokyo) 2014 68 (3) 153-7 Owing to the rise in drug resistance in tuberculosis combined with the global spread of its causative pathogen, Mycobacterium tuberculosis (Mtb), innovative anti mycobacterial agents are urgently needed. Recently, we developed a novel primase-pyrophosphatase assay and used it to discover inhibitors of an essential Mtb enzyme, primase DnaG (Mtb DnaG), a promising and unexplored potential target for novel antituberculosis chemotherapeutics. Doxorubicin, an anthracycline antibiotic used as an anticancer drug, was found to be a potent inhibitor of Mtb DnaG. In this study, we investigated both inhibition of Mtb DnaG and the inhibitory activity against in vitro growth of Mtb and M. smegmatis (Msm) by other anthracyclines, daunorubicin and idarubicin, as well as by less cytotoxic DNA intercalators: aloe-emodin, rhein and a mitoxantrone derivative. Generally, low-muM inhibition of Mtb DnaG by the anthracyclines was correlated with their low-muM minimum inhibitory concentrations. Aloe-emodin displayed threefold weaker potency than doxorubicin against Mtb DnaG and similar inhibition of Msm (but not Mtb) in the mid-muM range, whereas rhein (a close analog of aloe-emodin) and a di-glucosylated mitoxantrone derivative did not show significant inhibition of Mtb DnaG or antimycobacterial activity. Taken together, these observations strongly suggest that several clinically used anthracyclines and aloe-emodin target mycobacterial primase, setting the stage for a more extensive exploration of this enzyme as an antibacterial target. |
Human coronavirus in young children hospitalized for acute respiratory illness and asymptomatic controls
Prill MM , Iwane MK , Edwards KM , Williams JV , Weinberg GA , Staat MA , Willby MJ , Talbot HK , Hall CB , Szilagyi PG , Griffin MR , Curns AT , Erdman DD . Pediatr Infect Dis J 2011 31 (3) 235-40 BACKGROUND: Human coronaviruses (HCoVs) have been detected in children with upper and lower respiratory symptoms but little is known about their relationship with severe respiratory illness. OBJECTIVE: To compare the prevalence of HCoV species among children hospitalized for acute respiratory illness and/or fever with asymptomatic controls and to assess the severity of outcomes among hospitalized children with HCoV compared with other respiratory viruses. METHODS: From December 2003-April 2004 and October 2004-April 2005, we conducted prospective, population-based surveillance of children <5 years of age hospitalized for ARI/fever in three US counties. Asymptomatic outpatient controls were enrolled concurrently. Nasal/throat swabs were tested for HCoV species HKU1, NL63, 229E, and OC43 by RT-PCR. Specimens from hospitalized children were also tested for other common respiratory viruses. Demographic and medical data were collected by parent/guardian interview and medical chart review. RESULTS: Overall, HCoV was detected in 113 (7.6%) of 1481 hospitalized children (83 [5.7%] after excluding 30 cases coinfected with other viruses) and 53 (7.1%) of 742 controls. The prevalence of HCoV or individual species was not significantly higher among hospitalized children than controls. Hospitalized children testing positive for HCoV alone tended to be less ill than those infected with other viruses, whereas those coinfected with HCoV and other viruses were clinically similar to those infected with other viruses alone. CONCLUSION: In this study of children hospitalized for acute respiratory illness and/or fever, HCoV infection was not associated with hospitalization or with increased severity of illness. |
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