View clinical trials related to Pharmacokinetics.
Filter by:Caspofungin is an anti-fungal drug mainly metabolized by the liver. The pathophysiological status of children with severe infection will affect the metabolism of caspofungin in the body especially in the case of liver dysfunction. There is little metabolism of caspofungin through the kidney and continuous renal replacement therapy and renal function have little influence on the pharmacokinetics of caspofungin. The study aim to investigate PK/PD of caspofungin in children with specific pathophysiological conditions, such as liver insufficiency, hypoproteinemia, ECMO treatment, or sepsis.
Tigecycline is a commonly used antibiotic in critically ill patients. The pharmacokinetics (PK) of tigecycline in intensive care unit (ICU) patients can be affected by severe pathophysiological changes so that standard dosing might not be adequate. At present, a number of studies have reported that ECMO will affect the PK of anti-infective drugs and lead to treatment failure. The purpose of this study was to describe the population PK of tigecycline in patients treated with ECMO and to evaluate the relationship between individual PK parameters and patient covariates.
Periodontitits is a bacteria induced inflammatory disease that destroys the supporting tissues of the tooth and leads to tooth loss. Treatment consists mainly of the mechanical cleaning of the tooth surfaces in order to remove the bacterial deposits (plaque and calculus). This procedure can reduce the level of pathogenic bacteria but it can not eradicate them. In severe cases, for the complete resolution of the disease, the elimantion of certain species of bacteria is needed. In order to achieve that, the combination of different regimens of antibiotics adjunctive to the mechanical treatment has been proposed. However, dosage and duration of antimicrobial therapy should be optimal and not excessive as issues may arise related to increased antimicrobial resistance in the population and the individual due to habitual prescription of wide-spectrum antibiotic regimens, horizontal gene transfer and genetic mutation. In the present study, in an effort to optimize the dosage and duration of the antimicrobial regimen, we will determine the pharmacokinetics (PK) and pharmacodynamic (PD) properties of the MET-AMO combination and of AZI in Gingival Crevicular Fluid (GCF), saliva and serum in severe periodontitis patients during and after either a 3-day or a 7-day course of treatment.
Laparoscopic gastric sleeve and bypass surgeries the most common bariatric procedures for weight loss and improved management of metabolic syndromes. Patients may suffer from wound pain or referred pain after laparoscopic bariatric operation. Most importantly, 11.8% of these patients complained surgical-related pain one year after operation, and 8% of them required prolonged use of opioid to control chronic postoperative pain (CPSP). However, there are currently lack of clinical practice guidelines or recommendations for prevention of CPSP after laparoscopic abdominal surgery. Although regional block techniques (i.e. truncal block or intrathecal opioid) are considered as effective supplementary analgesic approaches to improve postoperative pain control, parenteral administration of analgesics remain as the mainstay for pain management of laparoscopic abdominal surgery. Naldebain® is prodrug of nalbuphine, which was approved by the Taiwan FDA in 2017. Naldebain® is an extended-release dinalbuphine sebacate, and is rapidly hydrolyzed by tissue of plasma esterase to release nalbuphine. A number of clinical studies have shown that single-dose of pre-operative intramuscular administration of Naldebain® provides significantly higher analgesic effect up to 1 week in hemorrhoidectomy and laparotomy surgery with a well-tolerated safety profile. Therefore, this PI-initiated randomized, double-blind, placebo-control trial aims to investigate the clinical efficacy of Naldebain® in management of acute postoperative pain in patients receiving laparoscopic gastric sleeve or bypass surgery, and prevention of the development of CPSP after surgery. This study will also analyze the plasma levels of nalbuphine following a single intramuscular injection in obese patients.
Tacrolimus is a drug administered orally available with different formulations: immediate release (Prograf®), prolonged-release (Advagraf®) and an extended-release one named LCP-Tacro (Envarsus®), formulated using the Melt-Dose process. Tacrolimus is a lipophilic macrolide drug able to passive transmembrane diffusion. Its bioavailability displays a large interindividual variability, from 9 to 43%. Indeed, tacrolimus is a substrate of P-glycoprotein (P-gp) and cytochrome P450 3A4 (CYP3A4). P-gp is an efflux protein mainly located at the apex of the epithelia of the intestine, lymphocyte, kidney and blood-brain barrier. P-gp therefore limits the intestinal resorption of tacrolimus and also its diffusion into its target compartment (i.e the lymphocyte. The expression of this protein is different throughout the digestive tract with maximum expression at the ileal level. CYP3A4 is a coenzyme that is responsible of more than 90% of the metabolism of tacrolimus, at the digestive and hepatic level. Both P-gp and CYP3A4 play a role in tacrolimus absorption/diffusion process. A new formulation of tacrolimus, LCP-Tacro, (Envarsus®) was approved in 2014. Its efficacy was compared to Prograf® in two phase III de novo or switch Prograf® trials in kidney transplantation. With tacrolimus, there is a strong inter-individual pharmacokinetic variability which, to date, has not been fully characterized. Variations in bioavailability may partly explain this high variability. The different formulations are resorbed at distinct gastrointestinal sites which could explain different absorptions between Prograf/Advagraf and LCP-Tacro forms. These findings raise the question of the role of P-gp in explaining the difference in bioavailability between formulations. The use of a P-gp inhibitor could therefore have a different impact on exposure to different galenic formulations. Verapamil is an inhibitor of P-gp and CYP 3A4, which is frequently prescribed and recommended by FDA for drug-drug interaction studies aiming at evaluating P-gp substrates, used in healthy volunteers at dosages up to 240 mg/D13-14. Otherwise, verapamil-tacrolimus interaction has been characterized in vitro. It has also been shown that inhibitory effect of verapamil at a single dose of 120 mg administered one hour prior to the administration of a P-gp substrate exhibited an optimum power of inhibition. The safety of Advagraf® and Envarsus® administrations have already been subjected to several phase I trials in healthy volunteers reinforcing the knowledge of their safety profile. The aim of the study is to compare the interaction profile of Advagraf® and Envarsus® when co-administered with verapamil in healthy subjects and to provide guidelines on tacrolimus dosage adjustment in such cases.
A small cross-over trial on 3 different doses of liposomal vitamin C, comparing vitamin C uptake and downstream effects when 24 people consume 1, 2, and 5 grams on different test days, compared to placebo.
The Cerebrospinal fluid penetration of ceftobiprole has been studied in an animal model of meningitidis. Ceftobiprole is bactericidal, well tolerated and it has anti-biofilm activity. Altogether, these pharmacodynamics and pharmacokinetic properties of ceftobiprole are suitable for its use in case of External Ventricular Derivation(EVD)-related ventriculitis. Nowadays there are no human studies on the penetration and efficacy of ceftobiprole in the CSF. The study aims to evaluate characteristics of the CSF penetration of Ceftobiprole after intravenous administration in patients with EVD, that need for a concomitant infection this therapy (prescribed by an Infectious Diseases doctor).
This study is a phase 1, open label, randomized, three-way crossover, single dose, oral- administration of Andrographis paniculata and Metformin in healthy volunteers under fasting condition. The study will demonstrate the pharmacokinetics profile and pharmacodynamic through metabolic pathway analysis for Andrographis paniculata and Metformin.
The main purpose of the present study is to investigate the risk factors that affect drug pharmacokinetic (PK) during extracorporeal membrane oxygenation (ECMO). To advance understanding of PK variance and improve the patients outcomes during ECMO.
The purpose of this study is to assess pharmacokinetics of liposomal bupivacaine (Exparel) after multilevel intercostal injections of this local anesthetic for pain control during and after thoracoscopic surgeries. The specific aim of this study is to evaluate plasma concentration of bupivacaine after intraoperative intercostal injections of 266 mg of liposomal bupivacaine and compare it to plasma concentrations of bupivacaine after intercostal injections of 2mg/kg of 0.5% plain Bupivacaine with maximal dose of 30 ml or 150 mg. The hypothesis of the study is that plasma concentration of bupivacaine after intercostal injections of 266 mg of liposomal bupivacaine will be similar to concentrations after injections of plain bupivacaine, and will remain below the toxic level threshold range of 2000-3000 ng/mL (2-3 mg/L) at which central nervous system and cardiovascular adverse events would be expected to occur. The secondary objective is to evaluate if intercostal injections of 266 mg of liposomal bupivacaine will significantly reduce opioid consumption and postsurgical pain, within the first 48 hours and up to 3 months after minimally invasive thoracic surgeries, to determine if both acute and chronic post-thoracotomy pain can be decreased by intraoperative intercostal injections of liposomal bupivacaine. Additionally, the rate of pneumonia, the rate of atrial fibrillation and length of hospital stay will be assessed as secondary outcomes after thoracic surgeries. These outcomes can be affected by the level of postoperative pain and inflammation. Significance of this study: If positive, the results of this research have the potential to significantly improve pain management after thoracoscopic surgery. Based on prior experience, prolonged analgesia after liposomal bupivacaine injection is safe, and may help reduce perioperative opioid consumption and decrease opioid related complications. It will improve patient comfort, eliminate need for indwelling neuraxial catheters and risks associated with them.