Marlowe J. Schneidkraut scite author profile

Marlowe J. Schneidkraut

5Publications

94Citation Statements Received

100Citation Statements Given

How they've been cited

148

How they cite others

Affiliations

Astellas Pharma (United States), Baxter (United States), Georgetown University Medical Center

Publications

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Tissue Distribution and Elimination of Isavuconazole following Single and Repeat Oral-Dose Administration of Isavuconazonium Sulfate to Rats

Schmitt-Hoffmann

Kato

Townsend

et al. 2017

Antimicrob Agents Chemother

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Quantitative whole-body autoradiography was used to assess the distribution and tissue penetration of isavuconazole in rats following single and repeated oral-dose administration of radiolabeled isavuconazonium sulfate, the prodrug of isavuconazole. Following a single-dose administration of radiolabeled isavuconazonium sulfate (labeled on the active moiety), radioactivity was detectable within 1 h postdose in 56 of 65 tissue/fluid specimens. The highest maximum concentrations (Cmax) were observed in bile and liver (66.6 and 24.7 μg eq/g, respectively). The lowest Cmax values were in bone and eye lens (0.070 and 0.077 μg eq/g, respectively). By 144 h postdose, radioactivity was undetectable in all tissues/fluids except liver (undetectable at 336 h) and adrenal gland tissues (undetectable at 672 h). Following daily administration for up to 21 days, 1-h-postdose Cmax values were the highest on or before day 14 in all except seven tissues/fluids, of which only rectum mucosa and small intestine mucosa had Cmax values >25% higher than all other 1-h-postdose values. For 24-h-postdose Cmax values, only large intestine, large intestine mucosa, and urine had the highest Cmax values at day 21. The penetration of single oral doses of unlabeled isavuconazole (25 mg/kg of body weight isavuconazonium sulfate) and voriconazole (50 mg/kg) into rat brain (assessed using liquid chromatography-tandem mass spectrometry) was also compared. Brain concentration/plasma concentration ratios reached approximately 1.8:1 and 2:1, respectively. These data suggest that isavuconazole penetrates most tissues rapidly, reaches a steady state in most or all tissues/fluids within 14 days, does not accumulate in tissues/fluids over time, and achieves potentially efficacious concentrations in the brain.

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Translational science approach for assessment of cardiovascular effects and proarrhythmogenic potential of the beta-3 adrenergic agonist mirabegron

Korstanje

Suzuki

Yuno

et al. 2017

Journal of Pharmacological and Toxicological Methods

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Vernakalant Selectively Prolongs Atrial Refractoriness With No Effect on Ventricular Refractoriness or Defibrillation Threshold in Pigs

Bechard¹,

Gibson²,

Killingsworth³

et al. 2011

Journal of Cardiovascular Pharmacology

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Vernakalant is a novel antiarrhythmic agent that has demonstrated clinical efficacy for the treatment of atrial fibrillation. Vernakalant blocks, to various degrees, cardiac sodium and potassium channels with a pattern that suggests atrial selectivity. We hypothesized, therefore, that vernakalant would affect atrial more than ventricular effective refractory period (ERP) and have little or no effect on ventricular defibrillation threshold (DFT). Atrial and ventricular ERP and ventricular DFT were determined before and after treatment with vernakalant or vehicle in 23 anesthetized male mixed-breed pigs. Vernakalant was infused at a rate designed to achieve stable plasma levels similar to those in human clinical trials. Atrial and ventricular ERP were determined by endocardial extrastimuli delivered to the right atria or right ventricle. Defibrillation was achieved using external biphasic shocks delivered through adhesive defibrillation patches placed on the thorax after 10 seconds of electrically induced ventricular fibrillation. The DFT was estimated using the Dixon "up-and-down" method. Vernakalant significantly increased atrial ERP compared with vehicle controls (34 ± 8 versus 9 ± 7 msec, respectively) without significantly affecting ventricular ERP or DFT. This is consistent with atrial selective actions and supports the conclusion that vernakalant does not alter the efficacy of electrical defibrillation.

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Role of calcium in U 46619 and PGF2 alpha pulmonary vasoconstriction in rat lungs

Santoian

Angerio

Schneidkraut

et al. 1989

American Journal of Physiology-Heart and Circulatory Physiology

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The role of calcium and calmodulin during U 46619 and PGF2 alpha-induced pulmonary vasoconstriction was studied in isolated rat lungs perfused with Krebs-Ringer bicarbonate (KRB) or calcium-free KRB. In lungs perfused with KRB, bolus injections of U 46619 (0.2 microgram) and PGF2 alpha (40.0 micrograms) resulted in a 48.0 +/- 4.0 and 23.9 +/- 2.5% increase in mean pulmonary artery pressure, respectively. During lung perfusion with KRB without calcium, the U 46619 response decreased to 31.1 +/- 7.5% whereas the PGF2 alpha response increased to 34.6 +/- 4.1%. Repeated challenges with PGF2 alpha in the KRB without calcium resulted in reduction of the response to 11.8 +/- 1.2%; the U 46619 response was unaltered. The intracellular calcium blocker, 8-(N,N-diethylamino)-octyl-3,4,5, trimethoxybenzoate HCL (TMB-8) significantly attenuated the pressor response to U 46619 at low doses and PGF2 alpha at high doses. The calmodulin inhibitor trifluoperazine (TFP 100 microM) attenuated the vasoconstrictor response to U 46619 by 54%, whereas the PGF2 alpha was unchanged. However, in the calcium-free KRB, TFP attenuated the pressor response to both U 46619 and PGF2 alpha. The U 46619 pressor response depends on intracellular and extracellular calcium to achieve calmodulin-dependent vasoconstriction. PGF2 alpha requires extracellular calcium to replenish depletable intracellular calcium pools and is independent of calmodulin activation.

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Inhibition of bacterial motility with human antiflagellar monoclonal antibodies attenuates Pseudomonas aeruginosa-induced pneumonia in the immunocompetent rat

et al. 1994

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Two human monoclonal antibodies, directed against the type a and type b flagellar proteins of Pseudomonas aeruginosa, inhibited bacterial motility in vitro specifically and in a concentration-dependent manner. In order to determine if this decreased bacterial motility was associated with a decreased pathogenicity, the ability of these human antiflagellar monoclonal antibodies to attenuate P. aeruginosa-induced pneumonia in the rat was assessed. Incubation of P. aeruginosa with a 1:1 mixture of the human antiflagellar monoclonal antibodies prior to pulmonary instillation significantly (P < 0.05) ameliorated the bacterium-induced decrease in arterial blood oxygen pressure, blunted the increase in respiratory rate, and markedly reduced the area of pulmonary inflammation. Similarly, intravenous administration of the human antiflagellar monoclonal antibodies 1 h after pulmonary instillation of the bacteria also reduced the in vivo pathogenicity of P. aeruginosa. Therefore, human antiflagellar monoclonal antibodies can decrease the in vitro motility of P. aeruginosa and can reduce its in vivo pathogenicity when administered either before or after bacterial challenge.

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