Lyette S Richards scite author profile

Lyette S Richards

5Publications

154Citation Statements Received

25Citation Statements Given

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146

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Multiple‐Dose, Linear, Dose‐Proportional Pharmacokinetics of Retigabine in Healthy Volunteers

Ferron¹,

Paul²,

Fruncillo³

et al. 2002

The Journal of Clinical Pharma

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Retigabine, a first-in-class selective M-current potassium channel opener, is a novel antiepileptic compound currently in clinical development. The purpose of this randomized placebo-controlled study was to assess retigabine oral safety and pharmacokinetics in healthy male volunteers (N = 45). Subjects received one dose on day 1 and doses every 12 hours for the next 14 days. Fixed doses were given to the first four groups (200, 400, 500, and 600 mg per day). Titrated doses were given to group 5 in 100 mg increases every 4 days, achieving 700 mg per day on day 15. Serial blood samples were collected on days 1 and 15. Pharmacokinetic parameters were compared between days and among dose groups. After administration of a single dose, retigabine was rapidly absorbed, with maximum concentrations of 387 ng/ml (normalized to a 100 mg dose) occurring within 1.5 hours. Retigabine was eliminated with a mean terminal half-life of 8.0 hours and an apparent oral clearance of 0.70 L/h/kg in white subjects. In black subjects, retigabine clearance and volume of distribution were 25% and 30% lower, respectively, after normalizing by body weight, leading to higher exposure in this population. Retigabine's pharmocokinetics was linearly dose proportional. Steady-state pharmacokinetics was in agreement with single-dose pharmacokinetics, and the accumulation ratio was about 1.5. Retigabine and AWD21-360 trough evening concentrations were significantly lower (about 30% to 35%) than morning values. The titration regimen allowed for higher doses to be tolerated compared to the fixed-dose regimen. In conclusion, the pharmacokinetics of retigabine is linearly dose proportional for daily doses of 100 to 700 mg and is not modified on multiple administrations.

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Pharmacokinetic interaction between retigabine and lamotrigine in healthy subjects

Hermann¹,

Knebel²,

Niebch³

et al. 2003

Eur J Clin Pharmacol

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RGB and LTG exhibit a modest pharmacokinetic interaction on each other. The slight decline in RGB clearance due to LTG is believed to result from competition for renal elimination rather than competition for glucuronidation. The induction of LTG clearance due to retigabine was unexpected since RGB did not show enzyme induction in various other drug-drug interaction studies. Further studies in patients are needed to assess the clinical relevance of these findings for concomitant treatment with both drugs in the upper recommended dose range.

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The pharmacokinetics and safety of desvenlafaxine in subjects with chronic renal impairment

Nichols¹,

Richards²,

Behrle³

et al. 2011

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The Absolute Bioavailability of Desvenlafaxine in Healthy Subjects

Nichols¹,

Behrle²,

Richards³

2012

JBB

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Background and Objective: Desvenlafaxine (administered as desvenlafaxine succinate) is approved for the treatment of major depressive disorder (MDD). If eliminated by the kidney, desvenlafaxine may have more favorable pharmacokinetic or drug-drug interaction profiles compared to its parent compound, venlafaxine, which depends primarily on the CYP2D6 enzyme system. Therefore, the pharmacokinetics and bioavailability of desvenlafaxine was assessed in healthy human subjects. Methods: In a single-dose, open-label, crossover study, subjects were randomly assigned to 100 mg/d of oral desvenlafaxine or intravenous (50 mg/1 hr) desvenlafaxine. Plasma and urine were collected for 72 hours postdosing and assayed to determine pharmacokinetics and bioavailability of (R)-, (S)-, and (R+S)-desvenlafaxine and N,O-didesmethylvenlafaxine. Results and Discussion: Pharmacokinetic parameters for (R)-and (S)-desvenlafaxine enantiomers were approximately equivalent for the oral and intravenous formulations of desvenlafaxine. Compared with 50 mg intravenous desvenlafaxine, 100 mg oral desvenlafaxine had a higher area under the plasma concentration-time curve and an absolute bioavailability of 80.5%. Urinary excretion of total desvenlafaxine and N,O-didesmethylvenlafaxine accounted for 69% of the orally administered desvenlafaxine dose, with the majority of a dose being excreted unchanged or as the glucuronide conjugate (66%). Conclusion: Desvenlafaxine has high oral bioavailability and provides an evenly balanced enantiomeric ratio.

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Pharmacokinetics of etodolac in patients with stable juvenile rheumatoid arthritis

Boni¹,

Korth‐Bradley²,

Martin³

et al. 1999

Clinical Therapeutics

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