Your search keyword '"Oldmixon C"' showing total 7 results

1. Longitudinal Importance of the Soluble Receptor for Advanced Glycation End-products in COVID-19 Pneumonia

Author

Wick, K.D., primary, Siegel, L., additional, Oldmixon, C., additional, Lundgren, J., additional, Thompson, B.T., additional, Jones, C., additional, Leroux, C., additional, and Matthay, M.A., additional

Published

2024

2. Receptor for Advanced Glycation End Products Is Associated with Both SARS CoV 2 Viral Burden in the Plasma and Clinical Outcomes in Non Ventilated COVID 19 Pneumonia

Author

Wick, K.D., primary, Siegel, L., additional, Neaton, J.D., additional, Oldmixon, C., additional, Lundgren, J., additional, Thompson, B.T., additional, and Matthay, M.A., additional

Published

2022

3. Joblessness and Lost Earnings after Acute Respiratory Distress Syndrome in a 1-Year National Multicenter Study

Author

Kamdar, Biren B., primary, Huang, Minxuan, additional, Dinglas, Victor D., additional, Colantuoni, Elizabeth, additional, von Wachter, Till M., additional, Hopkins, Ramona O., additional, Needham, Dale M., additional, Hudson, L., additional, Gundel, S., additional, Hough, C., additional, Neff, M., additional, Sims, K., additional, Ungar, A., additional, Watkins, T., additional, Steingrub, J., additional, Tidswell, M., additional, Braden, E., additional, DeSouza, L., additional, Kardos, C., additional, Kozikowski, L., additional, Ouellette, S., additional, Guntupalli, K., additional, Bandi, V., additional, Pope, C., additional, Ross, C., additional, Brower, R., additional, Fessler, H., additional, Hager, D., additional, Mendez-Tellez, P., additional, Needham, D., additional, Oakjones, K., additional, Sevransky, J., additional, Workneh, A., additional, Shanholtz, C., additional, Herr, D., additional, Howes, H., additional, Netzer, G., additional, Rock, P., additional, Sampaio, A., additional, Titus, J., additional, Sloane, P., additional, Beck, T., additional, Highfield, D., additional, King, S., additional, Lee, B., additional, Bolouri, N., additional, Wiedemann, H. P., additional, Ashton, R. W., additional, Culver, D. A., additional, Frederick, T., additional, Guzman, J. A., additional, Komara, J. J., additional, Reddy, A. J., additional, Hejal, R., additional, Andrews, M., additional, Haney, D., additional, Connors, A. F., additional, Lasalvia, S., additional, Thornton, J. D., additional, Warren, E. L., additional, Moss, M., additional, Burnham, E. L., additional, Gray, L., additional, Maloney, J., additional, Mealer, M., additional, Douglas, I., additional, Overdier, K., additional, Thompson, K., additional, Wolken, R., additional, Frankel, S., additional, McKeehan, J., additional, Warner, M. L., additional, Bost, T., additional, Higgins, C., additional, Hodgin, K., additional, MacIntyre, N., additional, Brown, L., additional, Cox, C., additional, Gentile, M., additional, Govert, J., additional, Knudsen, N., additional, Carson, S., additional, Chang, L., additional, Choudhury, S., additional, Hall, W., additional, Lanier, J., additional, Wheeler, A. P., additional, Bernard, G. R., additional, Hays, M., additional, Mogan, S., additional, Rice, T. W., additional, Hite, R. D., additional, Harvey, A., additional, Morris, P. E., additional, Ragusky, M., additional, Wright, P., additional, Groce, S., additional, McLean, J., additional, Overton, A., additional, Truwit, J., additional, Enfield, K., additional, Marshall, M., additional, Morris, A., additional, Grissom, C., additional, Austin, A., additional, Barney, S., additional, Brown, S., additional, Ferguson, J., additional, Gallo, H., additional, Graydon, T., additional, Hirshberg, E., additional, Jephson, A., additional, Kumar, N., additional, Lanspa, M., additional, Miller, R., additional, Murphy, D., additional, Orme, J., additional, Stowe, A., additional, Struck, L., additional, Thomas, F., additional, Ward, D., additional, Bailey, P., additional, Beninati, W., additional, Bezdjian, L., additional, Clemmer, T., additional, Rimkus, S., additional, Tanaka, R., additional, Weaver, L., additional, Lawton, C., additional, Hanselman, D., additional, Sundar, K., additional, Alward, W., additional, Bishop, C., additional, Eckley, D., additional, Harris, D., additional, Hill, T., additional, Jensen, B., additional, Ludwig, K., additional, Nielsen, D., additional, Pearce, M., additional, Matthay, M. A., additional, Calfee, C., additional, Daniel, B., additional, Eisner, M., additional, Garcia, O., additional, Kordesch, K., additional, Liu, K., additional, Shum, N., additional, Zhou, H., additional, Peterson, M. W., additional, Blaauw, J., additional, Van Gundy, K., additional, Kallet, R., additional, Johnson, E., additional, Albertson, T., additional, Morrissey, B., additional, Vlastelin, E., additional, deBoisblanc, B., additional, Antoine, A., additional, Charbonnet, D., additional, Hunt, J., additional, Lauto, P., additional, Marr, A., additional, Meyaski, G., additional, Romaine, C., additional, Brierre, S., additional, Byrne, J., additional, Jagneaux, T., additional, LeBlanc, C., additional, Moreau, K., additional, Thomas, C., additional, Jain, S., additional, Taylor, D., additional, Seoane, L., additional, Hebert, C., additional, Thompson, J., additional, Simeone, F., additional, Fearon, J., additional, Schoenfeld, D., additional, Dong, N., additional, Guha, M., additional, Hammond, E., additional, Lazar, P., additional, Morse, R., additional, Oldmixon, C., additional, Ringwood, N., additional, Smoot, E., additional, Thompson, B. T., additional, Wilson, R., additional, Harabin, A., additional, Bredow, S., additional, Waclawiw, M., additional, Weinmann, G., additional, Spragg, R. G., additional, Slutsky, A., additional, Levy, M., additional, Markovitz, B., additional, Petkova, E., additional, Weijer, C., additional, Sznajder, J., additional, Begg, M., additional, Gilbert-McClain, L., additional, Israel, E., additional, Lewis, J., additional, McClave, S., additional, and Parsons, P., additional

Published

2017

4. A Safety Monitoring Framework for Critical Care Trials of Agents with Potential to Lower Blood Pressure

Author

Peltan, I., Barkauskas, C. E., Mistry, S. S., Grund, B., Teitelbaum, M., Oldmixon, C. F., Matthay, M. A., Kan, V. L., Babiker, A. G., Bickell, N. A., Higgs, E. S., Gelijns, A. C., Jens Lundgren, Neaton, J. D., Thompson, B., and Brown, S. M.

5. Longitudinal importance of the soluble receptor for advanced glycation end-products in nonintubated hospitalized patients with COVID-19 pneumonia.

Author

Wick KD, Siegel L, Oldmixon C, Lundgren JD, Thompson BT, Jones C, Leroux C, and Matthay MA

Subjects

Humans, Male, Female, Middle Aged, Aged, COVID-19 Drug Treatment, Antibodies, Monoclonal, Humanized therapeutic use, Biomarkers blood, Antibodies, Neutralizing, Receptor for Advanced Glycation End Products blood, COVID-19 blood, COVID-19 therapy, COVID-19 mortality, Hospitalization, SARS-CoV-2

Abstract

The soluble receptor for advanced glycation end-products (sRAGE) is a marker of alveolar type I cell injury associated with outcomes in COVID-19 pneumonia. How plasma sRAGE changes over time and whether it remains associated with long-term clinical outcomes beyond a single measurement in COVID-19 have not been well studied. We studied two cohorts in randomized clinical trials of monoclonal antibody treatment for COVID-19 (bamlanivimab and tixagevimab/cilgavimab). We first studied the association between baseline plasma sRAGE and 90-day clinical outcomes, which had been previously demonstrated in the bamlanivimab cohort, among hospitalized patients with COVID-19 supported with high-flow nasal oxygen (HFNO) or noninvasive ventilation (NIV) in the tixagevimab/cilgavimab study. Next, we investigated the relationship between day 3 sRAGE and 90-day outcomes and how plasma sRAGE changes over the first 3 days of hospitalization in both clinical trial cohorts. We found that plasma sRAGE in the highest quartile in the HFNO/NIV participants in the tixagevimab/cilgavimab trial was associated with a significantly lower rate of 90-day sustained recovery [recovery rate ratio = 0.31, 95% confidence interval (CI) = 0.14-0.71, P = 0.005] and with a significantly higher rate of 90-day mortality (hazard ratio = 2.49, 95% CI = 1.15-5.43, P = 0.021) compared with the lower three quartiles. Day 3 plasma sRAGE in both clinical trial cohorts remained associated with 90-day clinical outcomes. The trajectory of sRAGE was not influenced by treatment assignment. Our results indicate that plasma sRAGE is a valuable prognostic marker in COVID-19 up to 3 days after initial hospital presentation. NEW & NOTEWORTHY The soluble receptor for advanced glycation end-products (sRAGE) is a marker of alveolar type I epithelial cell injury associated with clinical outcomes in acute respiratory distress syndrome and, more recently, in hospitalized subjects with COVID-19. How plasma sRAGE changes over time and whether plasma sRAGE remains associated with long-term clinical outcomes beyond a single baseline measurement in patients with COVID-19 have not been well studied.

Published

2024

6. RAGE has potential pathogenetic and prognostic value in nonintubated hospitalized patients with COVID-19.

Author

Wick KD, Siegel L, Neaton JD, Oldmixon C, Lundgren J, Dewar RL, Lane HC, Thompson BT, and Matthay MA

Subjects

Antibodies, Monoclonal, Humanized, Antibodies, Neutralizing, Biomarkers, Humans, Interleukin-6, Prognosis, Receptor for Advanced Glycation End Products, COVID-19

Abstract

BackgroundThe value of the soluble receptor for advanced glycation end-products (sRAGE) as a biomarker in COVID-19 is not well understood. We tested the association between plasma sRAGE and illness severity, viral burden, and clinical outcomes in hospitalized patients with COVID-19 who were not mechanically ventilated.MethodsBaseline sRAGE was measured among participants enrolled in the ACTIV-3/TICO trial of bamlanivimab for hospitalized patients with COVID-19. Spearman's rank correlation was used to assess the relationship between sRAGE and other plasma biomarkers, including viral nucleocapsid antigen. Fine-Gray models adjusted for baseline supplemental oxygen requirement, antigen level, positive endogenous anti-nucleocapsid antibody response, sex, age, BMI, diabetes mellitus, renal impairment, corticosteroid treatment, and log2-transformed IL-6 level were used to assess the association between baseline sRAGE and time to sustained recovery. Cox regression adjusted for the same factors was used to assess the association between sRAGE and mortality.ResultsAmong 277 participants, baseline sRAGE was strongly correlated with viral plasma antigen concentration (ρ = 0.57). There was a weaker correlation between sRAGE and biomarkers of systemic inflammation, such as IL-6 (ρ = 0.36) and CRP (ρ = 0.20). Participants with plasma sRAGE in the highest quartile had a significantly lower rate of sustained recovery (adjusted recovery rate ratio, 0.64 [95% CI, 0.43-0.90]) and a higher unadjusted risk of death (HR, 4.70 [95% CI, 2.01-10.99]) compared with participants in the lower quartiles.ConclusionElevated plasma sRAGE in hospitalized, nonventilated patients with COVID-19 was an indicator of both clinical illness severity and plasma viral load. Plasma sRAGE in the highest quartile was associated with a lower likelihood of sustained recovery and higher unadjusted risk of death. These findings, which we believe to be novel, indicate that plasma sRAGE may be a promising biomarker for COVID-19 prognostication and clinical trial enrichment.Trial RegistrationClinicalTrials.gov NCT04501978.FundingNIH (5T32GM008440-24, 18X107CF6, HHSN261201500003I, R35HL140026, and OT2HL156812).

Published

2022

7. Effect of Hydroxychloroquine on Clinical Status at 14 Days in Hospitalized Patients With COVID-19: A Randomized Clinical Trial.

Author

Self WH, Semler MW, Leither LM, Casey JD, Angus DC, Brower RG, Chang SY, Collins SP, Eppensteiner JC, Filbin MR, Files DC, Gibbs KW, Ginde AA, Gong MN, Harrell FE Jr, Hayden DL, Hough CL, Johnson NJ, Khan A, Lindsell CJ, Matthay MA, Moss M, Park PK, Rice TW, Robinson BRH, Schoenfeld DA, Shapiro NI, Steingrub JS, Ulysse CA, Weissman A, Yealy DM, Thompson BT, Brown SM, Steingrub J, Smithline H, Tiru B, Tidswell M, Kozikowski L, Thornton-Thompson S, De Souza L, Hou P, Baron R, Massaro A, Aisiku I, Fredenburgh L, Seethala R, Johnsky L, Riker R, Seder D, May T, Baumann M, Eldridge A, Lord C, Shapiro N, Talmor D, O’Mara T, Kirk C, Harrison K, Kurt L, Schermerhorn M, Banner-Goodspeed V, Boyle K, Dubosh N, Filbin M, Hibbert K, Parry B, Lavin-Parsons K, Pulido N, Lilley B, Lodenstein C, Margolin J, Brait K, Jones A, Galbraith J, Peacock R, Nandi U, Wachs T, Matthay M, Liu K, Kangelaris K, Wang R, Calfee C, Yee K, Hendey G, Chang S, Lim G, Qadir N, Tam A, Beutler R, Levitt J, Wilson J, Rogers A, Vojnik R, Roque J, Albertson T, Chenoweth J, Adams J, Pearson S, Juarez M, Almasri E, Fayed M, Hughes A, Hillard S, Huebinger R, Wang H, Vidales E, Patel B, Ginde A, Moss M, Baduashvili A, McKeehan J, Finck L, Higgins C, Howell M, Douglas I, Haukoos J, Hiller T, Lyle C, Cupelo A, Caruso E, Camacho C, Gravitz S, Finigan J, Griesmer C, Park P, Hyzy R, Nelson K, McDonough K, Olbrich N, Williams M, Kapoor R, Nash J, Willig M, Ford H, Gardner-Gray J, Ramesh M, Moses M, Ng Gong M, Aboodi M, Asghar A, Amosu O, Torres M, Kaur S, Chen JT, Hope A, Lopez B, Rosales K, Young You J, Mosier J, Hypes C, Natt B, Borg B, Salvagio Campbell E, Hite RD, Hudock K, Cresie A, Alhasan F, Gomez-Arroyo J, Duggal A, Mehkri O, Hastings A, Sahoo D, Abi Fadel F, Gole S, Shaner V, Wimer A, Meli Y, King A, Terndrup T, Exline M, Pannu S, Robart E, Karow S, Hough C, Robinson B, Johnson N, Henning D, Campo M, Gundel S, Seghal S, Katsandres S, Dean S, Khan A, Krol O, Jouzestani M, Huynh P, Weissman A, Yealy D, Scholl D, Adams P, McVerry B, Huang D, Angus D, Schooler J, Moore S, Files C, Miller C, Gibbs K, LaRose M, Flores L, Koehler L, Morse C, Sanders J, Langford C, Nanney K, MdalaGausi M, Yeboah P, Morris P, Sturgill J, Seif S, Cassity E, Dhar S, de Wit M, Mason J, Goodwin A, Hall G, Grady A, Chamberlain A, Brown S, Bledsoe J, Leither L, Peltan I, Starr N, Fergus M, Aston V, Montgomery Q, Smith R, Merrill M, Brown K, Armbruster B, Harris E, Middleton E, Paine R, Johnson S, Barrios M, Eppensteiner J, Limkakeng A, McGowan L, Porter T, Bouffler A, Leahy JC, deBoisblanc B, Lammi M, Happel K, Lauto P, Self W, Casey J, Semler M, Collins S, Harrell F, Lindsell C, Rice T, Stubblefield W, Gray C, Johnson J, Roth M, Hays M, Torr D, Zakaria A, Schoenfeld D, Thompson T, Hayden D, Ringwood N, Oldmixon C, Ulysse C, Morse R, Muzikansky A, Fitzgerald L, Whitaker S, Lagakos A, Brower R, Reineck L, Aggarwal N, Bienstock K, Freemer M, Maclawiw M, Weinmann G, Morrison L, Gillespie M, Kryscio R, Brodie D, Zareba W, Rompalo A, Boeckh M, Parsons P, Christie J, Hall J, Horton N, Zoloth L, Dickert N, and Diercks D

Subjects

Adult, Aged, Female, Humans, Hydroxychloroquine administration & dosage, Male, Middle Aged, Treatment Failure, Hydroxychloroquine therapeutic use, COVID-19 Drug Treatment

Abstract

Importance: Data on the efficacy of hydroxychloroquine for the treatment of coronavirus disease 2019 (COVID-19) are needed., Objective: To determine whether hydroxychloroquine is an efficacious treatment for adults hospitalized with COVID-19., Design, Setting, and Participants: This was a multicenter, blinded, placebo-controlled randomized trial conducted at 34 hospitals in the US. Adults hospitalized with respiratory symptoms from severe acute respiratory syndrome coronavirus 2 infection were enrolled between April 2 and June 19, 2020, with the last outcome assessment on July 17, 2020. The planned sample size was 510 patients, with interim analyses planned after every 102 patients were enrolled. The trial was stopped at the fourth interim analysis for futility with a sample size of 479 patients., Interventions: Patients were randomly assigned to hydroxychloroquine (400 mg twice daily for 2 doses, then 200 mg twice daily for 8 doses) (n = 242) or placebo (n = 237)., Main Outcomes and Measures: The primary outcome was clinical status 14 days after randomization as assessed with a 7-category ordinal scale ranging from 1 (death) to 7 (discharged from the hospital and able to perform normal activities). The primary outcome was analyzed with a multivariable proportional odds model, with an adjusted odds ratio (aOR) greater than 1.0 indicating more favorable outcomes with hydroxychloroquine than placebo. The trial included 12 secondary outcomes, including 28-day mortality., Results: Among 479 patients who were randomized (median age, 57 years; 44.3% female; 37.2% Hispanic/Latinx; 23.4% Black; 20.1% in the intensive care unit; 46.8% receiving supplemental oxygen without positive pressure; 11.5% receiving noninvasive ventilation or nasal high-flow oxygen; and 6.7% receiving invasive mechanical ventilation or extracorporeal membrane oxygenation), 433 (90.4%) completed the primary outcome assessment at 14 days and the remainder had clinical status imputed. The median duration of symptoms prior to randomization was 5 days (interquartile range [IQR], 3 to 7 days). Clinical status on the ordinal outcome scale at 14 days did not significantly differ between the hydroxychloroquine and placebo groups (median [IQR] score, 6 [4-7] vs 6 [4-7]; aOR, 1.02 [95% CI, 0.73 to 1.42]). None of the 12 secondary outcomes were significantly different between groups. At 28 days after randomization, 25 of 241 patients (10.4%) in the hydroxychloroquine group and 25 of 236 (10.6%) in the placebo group had died (absolute difference, -0.2% [95% CI, -5.7% to 5.3%]; aOR, 1.07 [95% CI, 0.54 to 2.09])., Conclusions and Relevance: Among adults hospitalized with respiratory illness from COVID-19, treatment with hydroxychloroquine, compared with placebo, did not significantly improve clinical status at day 14. These findings do not support the use of hydroxychloroquine for treatment of COVID-19 among hospitalized adults., Trial Registration: ClinicalTrials.gov: NCT04332991.

Published

2020