Your search keyword '"Pilli, Nageswara R."' showing total 2 results

1. Effects of sedative psychotropic drugs combined with oxycodone on respiratory depression in the rat.

Author

Xu L, Krishna A, Stewart S, Shea K, Racz R, Weaver JL, Volpe DA, Pilli NR, Narayanasamy S, Florian J, Patel V, Matta MK, Stone MB, Zhu H, Davis MC, Strauss DG, and Rouse R

Subjects

Animals, Oxycodone administration & dosage, Psychotropic Drugs administration & dosage, Rats, Rats, Sprague-Dawley, Drug Therapy, Combination adverse effects, Hypnotics and Sedatives adverse effects, Oxycodone adverse effects, Psychotropic Drugs adverse effects, Respiratory Insufficiency chemically induced

Abstract

Following a decision to require label warnings for concurrent use of opioids and benzodiazepines and increased risk of respiratory depression and death, the US Food and Drug Administratioin (FDA) recognized that other sedative psychotropic drugs may be substituted for benzodiazepines and be used concurrently with opioids. In some cases, data on the ability of these alternatives to depress respiration alone or in conjunction with an opioid are lacking. A nonclinical in vivo model was developed that could detect worsening respiratory depression when a benzodiazepine (diazepam) was used in combination with an opioid (oxycodone) compared to the opioid alone based on an increased arterial partial pressure of carbon dioxide (pCO 2 ). The current study used that model to assess the impact on respiration of non-benzodiazepine sedative psychotropic drugs representative of different drug classes (clozapine, quetiapine, risperidone, zolpidem, trazodone, carisoprodol, cyclobenzaprine, mirtazapine, topiramate, paroxetine, duloxetine, ramelteon, and suvorexant) administered alone and with oxycodone. At clinically relevant exposures, paroxetine, trazodone, and quetiapine given with oxycodone significantly increased pCO 2 above the oxycodone effect. Analyses indicated that most pCO 2 interaction effects were due to pharmacokinetic interactions resulting in increased oxycodone exposure. Increased pCO 2 recorded with oxycodone-paroxetine co-administration exceeded expected effects from only drug exposure suggesting another mechanism for the increased pharmacodynamic response. This study identified drug-drug interaction effects depressing respiration in an animal model when quetiapine or paroxetine were co-administered with oxycodone. Clinical pharmacodynamic drug interaction studies are being conducted with these drugs to assess translatability of these findings., (Published 2021. This article is a U.S. Government work and is in the public domain in the USA. Clinical and Translational Science published by Wiley Periodicals LLC on behalf of the American Society for Clinical Pharmacology and Therapeutics.)

Published

2021

2. Effects of sedative psychotropic drugs combined with oxycodone on respiratory depression in the rat.

Author

Xu, Lin, Krishna, Ashok, Stewart, Sharron, Shea, Katherine, Racz, Rebecca, Weaver, James L., Volpe, Donna A., Pilli, Nageswara R., Narayanasamy, Suresh, Florian, Jeffry, Patel, Vikram, Matta, Murali K., Stone, Marc B., Zhu, Hao, Davis, Michael C., Strauss, David G., and Rouse, Rodney

Subjects

PSYCHOPHARMACOLOGY, BENZODIAZEPINES, PSYCHIATRIC drugs, RESPIRATORY insufficiency, OXYCODONE, TRAZODONE

Abstract

Following a decision to require label warnings for concurrent use of opioids and benzodiazepines and increased risk of respiratory depression and death, the US Food and Drug Administratioin (FDA) recognized that other sedative psychotropic drugs may be substituted for benzodiazepines and be used concurrently with opioids. In some cases, data on the ability of these alternatives to depress respiration alone or in conjunction with an opioid are lacking. A nonclinical in vivo model was developed that could detect worsening respiratory depression when a benzodiazepine (diazepam) was used in combination with an opioid (oxycodone) compared to the opioid alone based on an increased arterial partial pressure of carbon dioxide (pCO2). The current study used that model to assess the impact on respiration of non‐benzodiazepine sedative psychotropic drugs representative of different drug classes (clozapine, quetiapine, risperidone, zolpidem, trazodone, carisoprodol, cyclobenzaprine, mirtazapine, topiramate, paroxetine, duloxetine, ramelteon, and suvorexant) administered alone and with oxycodone. At clinically relevant exposures, paroxetine, trazodone, and quetiapine given with oxycodone significantly increased pCO2 above the oxycodone effect. Analyses indicated that most pCO2 interaction effects were due to pharmacokinetic interactions resulting in increased oxycodone exposure. Increased pCO2 recorded with oxycodone‐paroxetine co‐administration exceeded expected effects from only drug exposure suggesting another mechanism for the increased pharmacodynamic response. This study identified drug‐drug interaction effects depressing respiration in an animal model when quetiapine or paroxetine were co‐administered with oxycodone. Clinical pharmacodynamic drug interaction studies are being conducted with these drugs to assess translatability of these findings. [ABSTRACT FROM AUTHOR]

Published

2021