Meropenem-RPX7009 Concentrations in Plasma, Epithelial Lining Fluid, and Alveolar Macrophages of Healthy Adult Subjects

The steady-state concentrations of meropenem and the β-lactamase inhibitor RPX7009 in plasma, epithelial lining fluid (ELF), and alveolar macrophage (AM) concentrations were obtained in 25 healthy, nonsmoking adult subjects. Subjects received a fixed combination of meropenem (2 g) and RPX7009 (2 g)...

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Published in	Antimicrobial agents and chemotherapy Vol. 59; no. 12; pp. 7232 - 7239
Main Authors	Wenzler, Eric, Gotfried, Mark H., Loutit, Jeffrey S., Durso, Stephanie, Griffith, David C., Dudley, Michael N., Rodvold, Keith A.
Format	Journal Article
Language	English
Published	United States American Society for Microbiology 01.12.2015
Subjects	Adult Anti-Bacterial Agents Anti-Bacterial Agents - blood Anti-Bacterial Agents - pharmacokinetics Area Under Curve Boronic Acids Boronic Acids - blood Boronic Acids - pharmacokinetics Bronchoalveolar Lavage Fluid - chemistry Bronchoscopy Drug Administration Schedule Drug Combinations Female Heterocyclic Compounds, 1-Ring Heterocyclic Compounds, 1-Ring - blood Heterocyclic Compounds, 1-Ring - pharmacokinetics Humans Lung Lung - chemistry Lung - drug effects Lung - metabolism Macrophages, Alveolar Macrophages, Alveolar - chemistry Macrophages, Alveolar - drug effects Macrophages, Alveolar - metabolism Male Middle Aged Pharmacology Respiratory Mucosa Respiratory Mucosa - chemistry Respiratory Mucosa - drug effects Respiratory Mucosa - metabolism Thienamycins Thienamycins - blood Thienamycins - pharmacokinetics
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ISSN	0066-4804 1098-6596
DOI	10.1128/AAC.01713-15

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Abstract	The steady-state concentrations of meropenem and the β-lactamase inhibitor RPX7009 in plasma, epithelial lining fluid (ELF), and alveolar macrophage (AM) concentrations were obtained in 25 healthy, nonsmoking adult subjects. Subjects received a fixed combination of meropenem (2 g) and RPX7009 (2 g) administered every 8 h, as a 3-h intravenous infusion, for a total of three doses. A bronchoscopy and bronchoalveolar lavage were performed once in each subject at 1.5, 3.25, 4, 6, or 8 h after the start of the last infusion. Meropenem and RPX7009 achieved a similar time course and magnitude of concentrations in plasma and ELF. The mean pharmacokinetic parameters ± the standard deviations of meropenem and RPX7009 determined from serial plasma concentrations were as follows: C max = 58.2 ± 10.8 and 59.0 ± 8.4 μg/ml, V ss = 16.3 ± 2.6 and 17.6 ± 2.6 liters; CL = 11.1 ± 2.1 and 10.1 ± 1.9 liters/h, and t 1/2 = 1.03 ± 0.15 and 1.27 ± 0.21 h, respectively. The intrapulmonary penetrations of meropenem and RPX7009 were ca. 63 and 53%, respectively, based on the area under the concentration-time curve from 0 to 8 h (AUC 0–8 ) values of ELF and total plasma concentrations. When unbound plasma concentrations were considered, ELF penetrations were 65 and 79% for meropenem and RPX7009, respectively. Meropenem concentrations in AMs were below the quantitative limit of detection, whereas median concentrations of RPX7009 in AMs ranged from 2.35 to 6.94 μg/ml. The results from the present study lend support to exploring a fixed combination of meropenem (2 g) and RPX7009 (2 g) for the treatment of lower respiratory tract infections caused by meropenem-resistant Gram-negative pathogens susceptible to the combination of meropenem-RPX7009.
AbstractList	The steady-state concentrations of meropenem and the β-lactamase inhibitor RPX7009 in plasma, epithelial lining fluid (ELF), and alveolar macrophage (AM) concentrations were obtained in 25 healthy, nonsmoking adult subjects. Subjects received a fixed combination of meropenem (2 g) and RPX7009 (2 g) administered every 8 h, as a 3-h intravenous infusion, for a total of three doses. A bronchoscopy and bronchoalveolar lavage were performed once in each subject at 1.5, 3.25, 4, 6, or 8 h after the start of the last infusion. Meropenem and RPX7009 achieved a similar time course and magnitude of concentrations in plasma and ELF. The mean pharmacokinetic parameters ± the standard deviations of meropenem and RPX7009 determined from serial plasma concentrations were as follows: C max = 58.2 ± 10.8 and 59.0 ± 8.4 μg/ml, V ss = 16.3 ± 2.6 and 17.6 ± 2.6 liters; CL = 11.1 ± 2.1 and 10.1 ± 1.9 liters/h, and t 1/2 = 1.03 ± 0.15 and 1.27 ± 0.21 h, respectively. The intrapulmonary penetrations of meropenem and RPX7009 were ca. 63 and 53%, respectively, based on the area under the concentration-time curve from 0 to 8 h (AUC 0–8 ) values of ELF and total plasma concentrations. When unbound plasma concentrations were considered, ELF penetrations were 65 and 79% for meropenem and RPX7009, respectively. Meropenem concentrations in AMs were below the quantitative limit of detection, whereas median concentrations of RPX7009 in AMs ranged from 2.35 to 6.94 μg/ml. The results from the present study lend support to exploring a fixed combination of meropenem (2 g) and RPX7009 (2 g) for the treatment of lower respiratory tract infections caused by meropenem-resistant Gram-negative pathogens susceptible to the combination of meropenem-RPX7009. The steady-state concentrations of meropenem and the beta -lactamase inhibitor RPX7009 in plasma, epithelial lining fluid (ELF), and alveolar macrophage (AM) concentrations were obtained in 25 healthy, nonsmoking adult subjects. Subjects received a fixed combination of meropenem (2 g) and RPX7009 (2 g) administered every 8 h, as a 3-h intravenous infusion, for a total of three doses. A bronchoscopy and bronchoalveolar lavage were performed once in each subject at 1.5, 3.25, 4, 6, or 8 h after the start of the last infusion. Meropenem and RPX7009 achieved a similar time course and magnitude of concentrations in plasma and ELF. The mean pharmacokinetic parameters plus or minus the standard deviations of meropenem and RPX7009 determined from serial plasma concentrations were as follows: Cmax = 58.2 plus or minus 10.8 and 59.0 plus or minus 8.4 mu g/ml, Vss = 16.3 plus or minus 2.6 and 17.6 plus or minus 2.6 liters; CL = 11.1 plus or minus 2.1 and 10.1 plus or minus 1.9 liters/h, and t1/2 = 1.03 plus or minus 0.15 and 1.27 plus or minus 0.21 h, respectively. The intrapulmonary penetrations of meropenem and RPX7009 were ca. 63 and 53%, respectively, based on the area under the concentration-time curve from 0 to 8 h (AUC0-8) values of ELF and total plasma concentrations. When unbound plasma concentrations were considered, ELF penetrations were 65 and 79% for meropenem and RPX7009, respectively. Meropenem concentrations in AMs were below the quantitative limit of detection, whereas median concentrations of RPX7009 in AMs ranged from 2.35 to 6.94 mu g/ml. The results from the present study lend support to exploring a fixed combination of meropenem (2 g) and RPX7009 (2 g) for the treatment of lower respiratory tract infections caused by meropenem-resistant Gram-negative pathogens susceptible to the combination of meropenem-RPX7009. The steady-state concentrations of meropenem and the β-lactamase inhibitor RPX7009 in plasma, epithelial lining fluid (ELF), and alveolar macrophage (AM) concentrations were obtained in 25 healthy, nonsmoking adult subjects. Subjects received a fixed combination of meropenem (2 g) and RPX7009 (2 g) administered every 8 h, as a 3-h intravenous infusion, for a total of three doses. A bronchoscopy and bronchoalveolar lavage were performed once in each subject at 1.5, 3.25, 4, 6, or 8 h after the start of the last infusion. Meropenem and RPX7009 achieved a similar time course and magnitude of concentrations in plasma and ELF. The mean pharmacokinetic parameters ± the standard deviations of meropenem and RPX7009 determined from serial plasma concentrations were as follows: Cmax = 58.2 ± 10.8 and 59.0 ± 8.4 μg/ml, Vss = 16.3 ± 2.6 and 17.6 ± 2.6 liters; CL = 11.1 ± 2.1 and 10.1 ± 1.9 liters/h, and t1/2 = 1.03 ± 0.15 and 1.27 ± 0.21 h, respectively. The intrapulmonary penetrations of meropenem and RPX7009 were ca. 63 and 53%, respectively, based on the area under the concentration-time curve from 0 to 8 h (AUC0-8) values of ELF and total plasma concentrations. When unbound plasma concentrations were considered, ELF penetrations were 65 and 79% for meropenem and RPX7009, respectively. Meropenem concentrations in AMs were below the quantitative limit of detection, whereas median concentrations of RPX7009 in AMs ranged from 2.35 to 6.94 μg/ml. The results from the present study lend support to exploring a fixed combination of meropenem (2 g) and RPX7009 (2 g) for the treatment of lower respiratory tract infections caused by meropenem-resistant Gram-negative pathogens susceptible to the combination of meropenem-RPX7009.
Author	Griffith, David C. Gotfried, Mark H. Durso, Stephanie Rodvold, Keith A. Wenzler, Eric Dudley, Michael N. Loutit, Jeffrey S.
Author_xml	– sequence: 1 givenname: Eric surname: Wenzler fullname: Wenzler, Eric organization: College of Pharmacy, University of Illinois at Chicago, Chicago, Illinois, USA – sequence: 2 givenname: Mark H. surname: Gotfried fullname: Gotfried, Mark H. organization: Pulmonary Associates, Phoenix, Arizona, USA – sequence: 3 givenname: Jeffrey S. surname: Loutit fullname: Loutit, Jeffrey S. organization: The Medicines Company, San Diego, California, USA – sequence: 4 givenname: Stephanie surname: Durso fullname: Durso, Stephanie organization: The Medicines Company, San Diego, California, USA – sequence: 5 givenname: David C. surname: Griffith fullname: Griffith, David C. organization: The Medicines Company, San Diego, California, USA – sequence: 6 givenname: Michael N. surname: Dudley fullname: Dudley, Michael N. organization: The Medicines Company, San Diego, California, USA – sequence: 7 givenname: Keith A. surname: Rodvold fullname: Rodvold, Keith A. organization: College of Pharmacy, University of Illinois at Chicago, Chicago, Illinois, USA, College of Medicine, University of Illinois at Chicago, Chicago, Illinois, USA
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/26349830$$D View this record in MEDLINE/PubMed
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Copyright	Copyright © 2015, American Society for Microbiology. All Rights Reserved. Copyright © 2015, American Society for Microbiology. All Rights Reserved. 2015 American Society for Microbiology
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Citation Wenzler E, Gotfried MH, Loutit JS, Durso S, Griffith DC, Dudley MN, Rodvold KA. 2015. Meropenem-RPX7009 concentrations in plasma, epithelial lining fluid, and alveolar macrophages of healthy adult subjects. Antimicrob Agents Chemother 59:7232–7239. doi:10.1128/AAC.01713-15.
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References	e_1_3_2_26_2 e_1_3_2_27_2 e_1_3_2_28_2 e_1_3_2_29_2 e_1_3_2_20_2 e_1_3_2_25_2 Dandekar PK (e_1_3_2_22_2) 2003; 23 e_1_3_2_9_2 e_1_3_2_15_2 e_1_3_2_8_2 e_1_3_2_16_2 e_1_3_2_7_2 e_1_3_2_17_2 e_1_3_2_18_2 e_1_3_2_19_2 Drusano GL (e_1_3_2_23_2) 1995; 96 Castanheria M (e_1_3_2_11_2) 2014 U.S. Department of Health and Human Services/Centers for Disease Control and Prevention (e_1_3_2_6_2) 2013 e_1_3_2_10_2 e_1_3_2_5_2 e_1_3_2_4_2 e_1_3_2_12_2 e_1_3_2_3_2 Baldwin DR (e_1_3_2_21_2) 1990; 3 e_1_3_2_2_2 Peleg AY (e_1_3_2_24_2) 2010 Griffith DC (e_1_3_2_14_2) 2014 Griffith DC (e_1_3_2_13_2) 2014 1244564 - Nephron. 1976;16(1):31-41 24926779 - Clin Pharmacol Ther. 2014 Oct;96(4):438-48 20597657 - Clin Infect Dis. 2010 Aug 1;51 Suppl 1:S103-10 21895037 - Clin Pharmacokinet. 2011 Oct;50(10):637-64 10933662 - J Antimicrob Chemother. 2000 Aug;46(2):319-22 1416816 - Antimicrob Agents Chemother. 1992 Jun;36(6):1171-5 1963411 - Eur Respir J. 1990 Sep;3(8):886-90 16280244 - Int J Antimicrob Agents. 2005 Dec;26(6):449-56 12921245 - Pharmacotherapy. 2003 Aug;23(8):988-91 23343059 - N Engl J Med. 2013 Jan 24;368(4):299-302 21300830 - Antimicrob Agents Chemother. 2011 Apr;55(4):1606-10 24379206 - Antimicrob Agents Chemother. 2014;58(4):1835-46 7652497 - Scand J Infect Dis Suppl. 1995;96:11-6 3512509 - J Appl Physiol (1985). 1986 Feb;60(2):532-8 25216821 - J Antimicrob Chemother. 2015 Jan;70(1):207-16 26033723 - Antimicrob Agents Chemother. 2015 Aug;59(8):4856-60 21700626 - J Antimicrob Chemother. 2011 Sep;66(9):1941-4 22802254 - Antimicrob Agents Chemother. 2012 Oct;56(10):5076-81 24080646 - Antimicrob Agents Chemother. 2014;58(2):654-63 25782055 - J Med Chem. 2015 May 14;58(9):3682-92 22000347 - Emerg Infect Dis. 2011 Oct;17(10):1791-8 25361682 - Ann Pharmacother. 2015 Jan;49(1):86-98 25864193 - Eur J Clin Microbiol Infect Dis. 2015 Jul;34(7):1303-8 Peleg, AY, Salmon, M, Grayson, ML (B23) 2010 Frippiat, F, Musuamba, FT, Seidel, L, Albert, A, Denooz, R, Charlier, C, Van Bambeke, F, Wallemacq, P, Descy, J, Lambermont, B, Layios, N, Damas, P, Moutschen, M (B27) 2015; 70 Rodvold, KA, George, JM, Yoo, L (B15) 2011; 50 Spellberg, B, Bartlett, JG, Gilbert, DN (B1) 2013; 368 Baldwin, DR, Honeybourne, D, Wise, R (B16) 1992; 36 Drusano, GL, Hutchison, M (B22) 1995; 96 Toussaint, KA, Gallagher, JC (B8) 2015; 49 Cockcroft, DW, Gault, MH (B18) 1976; 16 Drawz, SM, Papp-Wallace, KM, Bonomo, RA (B6) 2014; 58 Lodise, TP, Sorgel, F, Melnick, D, Mason, B, Kinzig, M, Drusano, GL (B26) 2011; 55 B10 Dandekar, PK, Maglio, D, Sutherland, CA, Nightingale, CH, Nicolau, DP (B21) 2003; 23 B12 Rennard, SI, Basset, G, Lecossier, D, O'Donnell, KM, Pinkston, P, Martin, PG, Crystal, RG (B19) 1986; 60 Conte, JE, Golden, JA, Kelley, MG, Zurlinden, E (B24) 2005; 26 B13 (B5) 2013 Ambrose, PG, Bhavnani, SM, Ellis-Grosse, EJ, Drusano, GL (B14) 2010; 51 Olsen, I (B7) 2015; 34 Felton, TW, McCalman, K, Malagon, I, Isalska, B, Whalley, S, Goodwin, J, Bentley, AM, Hope, WW (B28) 2014; 96 Falagas, ME, Lourida, P, Poulikakos, P, Rafailidis, PI, Tansarli, GS (B4) 2014; 58 Rodvold, KA, Gotfried, MH, Still, JG, Clark, K, Fernandes, P (B17) 2012; 56 Nordmann, P, Naas, T, Poirel, L (B3) 2011; 17 Livermore, DM (B2) 2011; 66 Hecker, SJ, Reddy, KR, Totrov, M, Hirst, GC, Lomovskaya, O, Griffith, DC, King, P, Tsivkovski, R, Sun, D, Sabet, M, Tarazi, Z, Clifton, MC, Atkins, K, Raymond, A, Potts, KT, Abendroth, J, Boyer, SH, Loutit, JS, Morgan, EE, Durso, S, Dudley, MN (B9) 2015; 58 Lapuebla, A, Abdallah, M, Olafisoye, O, Cortes, C, Urban, C, Quale, J, Landman, D (B11) 2015; 59 Allegranzi, B, Cazzadori, A, Di Perri, G, Bonora, S, Berti, M, Franchino, L, Biglino, A, Cipriani, A, Concia, E (B25) 2000; 46 Baldwin, DR, Wise, R, Andrews, JM, Ashby, JP, Honeybourne, D (B20) 1990; 3
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Snippet	The steady-state concentrations of meropenem and the β-lactamase inhibitor RPX7009 in plasma, epithelial lining fluid (ELF), and alveolar macrophage (AM)... The steady-state concentrations of meropenem and the beta -lactamase inhibitor RPX7009 in plasma, epithelial lining fluid (ELF), and alveolar macrophage (AM)...
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SubjectTerms	Adult Anti-Bacterial Agents Anti-Bacterial Agents - blood Anti-Bacterial Agents - pharmacokinetics Area Under Curve Boronic Acids Boronic Acids - blood Boronic Acids - pharmacokinetics Bronchoalveolar Lavage Fluid - chemistry Bronchoscopy Drug Administration Schedule Drug Combinations Female Heterocyclic Compounds, 1-Ring Heterocyclic Compounds, 1-Ring - blood Heterocyclic Compounds, 1-Ring - pharmacokinetics Humans Lung Lung - chemistry Lung - drug effects Lung - metabolism Macrophages, Alveolar Macrophages, Alveolar - chemistry Macrophages, Alveolar - drug effects Macrophages, Alveolar - metabolism Male Middle Aged Pharmacology Respiratory Mucosa Respiratory Mucosa - chemistry Respiratory Mucosa - drug effects Respiratory Mucosa - metabolism Thienamycins Thienamycins - blood Thienamycins - pharmacokinetics
Title	Meropenem-RPX7009 Concentrations in Plasma, Epithelial Lining Fluid, and Alveolar Macrophages of Healthy Adult Subjects
URI	https://www.ncbi.nlm.nih.gov/pubmed/26349830 https://journals.asm.org/doi/10.1128/AAC.01713-15 https://www.proquest.com/docview/1832245405 https://pubmed.ncbi.nlm.nih.gov/PMC4649232
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