Browsing by Author "Hiles, Jon"

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    547. A Retrospective Cohort Study of Treatment Patterns and Clinical Outcomes in Patients with COVID-19
    (Oxford, 2020-10) Pritchard, Haley; Hiles, Jon; Teresa, Batteiger; Desai, Armisha; Wrin, Justin E; Hlavaty, Ariel; Agard, Amanda; Hinton, Bradley; Lucky, Christine W; Fleming, Elizabeth; Khan, Humaira; Bomkamp, John P; Derringer, Jon; Schneider, Jack; Ryder, Jonathan; Russ, Jason D; Khan, Haseeba; Kleyman, Svetlana; Enane, Leslie A; Stack, Matthew; Kussin, Michelle L; Myers, Courtney; Nagy, Allysa; Richardson, Noah; Elsheikh, Omar; Rahman, Omar; Kruer, Rachel; Trigonis, Russell; Butt, Saira; Bhumbra, Samina; Kapil, Sasha; Abi-Mansour, Tanya; Howe, Zachary; Abdallah, Wassim; Gupta, Samir; Wools-Kaloustian, Kara; Medicine, School of Medicine
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    Cryptococcal Meningitis in Young, Immunocompetent Patients: A Single-Center Retrospective Case Series and Review of the Literature
    (Oxford University Press, 2023-08-11) Stack, Matthew; Hiles, Jon; Valinetz, Ethan; Gupta, Samir K.; Butt, Saira; Schneider, Jack G.; Medicine, School of Medicine
    Background: Cryptococcal meningitis is an uncommon but serious infection with high mortality and morbidity. Classically described in immunocompromised patients, including those with solid organ transplants or HIV/AIDS, cryptococcosis has also been reported in young and otherwise healthy patients, albeit rarely. Methods: We retrospectively searched for all cases of cryptococcal meningitis in young (≤50 years) and previously healthy patients with no known immunocompromising conditions from January 2015 to January 2022 at Indiana University Health (IU Health). Additionally, a PubMed literature review was performed with the keywords "cryptococcal meningitis" and "immunocompetent" from January 1988 to January 2022. Clinical courses, including outcomes and treatment regimens, were evaluated. Results: We identified 4 local cases of cryptococcal meningitis in otherwise healthy patients age ≤50 years. Three cases were due to Cryptococcus neoformans, with 1 experiencing a postinfectious inflammatory response syndrome (PIIRS). The PubMed search identified 51 additional cases, with 32 (63%) being caused by Cryptococcus neoformans and 8 (17%) by Cryptococcus gattii. Of the 51 cases, only 2 resulted in death directly due to cryptococcosis. Fifteen (29%) had PIIRS, with steroid treatment documented in 11 of 15. Antifungal induction regimens and duration were varied but predominately consisted of amphotericin and flucytosine, with a mean induction duration of 5.0 weeks. Conclusions: Cryptococcal meningitis in young, previously healthy patients is likely under-recognized. PIIRS (akin to immune reconstitution inflammatory syndrome observed in HIV/AIDS) with prolonged recovery should be of concern. Determining risk factors for cryptococcosis in these patients remains elusive.
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    Susceptibility Provision Enhances Effective De-escalation (SPEED): utilizing rapid phenotypic susceptibility testing in Gram-negative bloodstream infections and its potential clinical impact
    (Oxford Academic, 2019-01-01) Schneider, Jack G.; Wood, James B.; Schmitt, Bryan H.; Emery, Christopher L.; Davis, Thomas E.; Smith, Nathan W.; Blevins, Sarah; Hiles, Jon; Desai, Armisha; Wrin, Justin; Bocian, Brittany; Manaloor, John J.; Medicine, School of Medicine
    Abstract Objectives We evaluated the performance and time to result for pathogen identification (ID) and antimicrobial susceptibility testing (AST) of the Accelerate Pheno™ system (AXDX) compared with standard of care (SOC) methods. We also assessed the hypothetical improvement in antibiotic utilization if AXDX had been implemented. Methods Clinical samples from patients with monomicrobial Gram-negative bacteraemia were tested and compared between AXDX and the SOC methods of the VERIGENE® and Bruker MALDI Biotyper® systems for ID and the VITEK® 2 system for AST. Additionally, charts were reviewed to calculate theoretical times to antibiotic de-escalation, escalation and active and optimal therapy Results ID mean time was 21 h for MALDI-TOF MS, 4.4 h for VERIGENE® and 3.7 h for AXDX. AST mean time was 35 h for VITEK® 2 and 9.0 h for AXDX. For ID, positive percentage agreement was 95.9% and negative percentage agreement was 99.9%. For AST, essential agreement was 94.5% and categorical agreement was 93.5%. If AXDX results had been available to inform patient care, 25% of patients could have been put on active therapy sooner, while 78% of patients who had therapy optimized during hospitalization could have had therapy optimized sooner. Additionally, AXDX could have reduced time to de-escalation (16 versus 31 h) and escalation (19 versus 31 h) compared with SOC. Conclusions By providing fast and reliable ID and AST results, AXDX has the potential to improve antimicrobial utilization and enhance antimicrobial stewardship.