12 research outputs found
Pharmacokinetic guidance to advance antifungal drug therapy in haematology and critically ill patients
Contains fulltext :
219050.pdf (publisher's version ) (Open Access)Radboud University, 5 juni 2020Promotores : Burger, D.M., Pickkers, P.
Co-promotores : Bruggemann, R.J.M., Velden, W.J.F.M. van de
Aanvulling bij gecompliceerde gistinfecties. Anidulafungine (Ecalta).
Contains fulltext :
69042.pdf (publisher's version ) (Closed access
Mucuna Pruriens Combined with Carbidopa in Parkinson's Disease: A Case Report
We present a 48-year-old woman with Parkinson's disease in whom carbidopa was added to Mucuna pruriens, resulting in marked motor improvement (documented on video and using MDS-UPDRS motor scores). This case report shows that adding a dopa-decarboxylase inhibitor (DDCI) to Mucuna pruriens could fit well in a personalized approach for patients who are reluctant to start levodopa. Meanwhile, larger trials with a longer follow-up are needed to establish the true effects and tolerability of Mucuna pruriens plus a DDCI
Clinical Pharmacokinetics and Pharmacodynamics of Micafungin
Contains fulltext :
190530.pdf (publisher's version ) (Open Access)Micafungin is a selective inhibitor of the synthesis of fungal 1,3-beta-D-glucan, an essential component of the fungal cell wall. It is available as a powder for infusion only and is registered for the treatment of invasive and esophageal candidiasis in addition to prophylaxis of Candida infections in both adults and children. Average exposure after a single intravenous 100 mg dose in healthy adults is 133 mg h/L. Both exposure and maximum plasma concentration show linear dose proportional pharmacokinetics (PK) over a 0.15-8 mg/kg dose range. In healthy adults, the clearance (CL) is 10.4 mL/h/kg and volume of distribution is 0.2 L/kg; both are independent of the dose. Micafungin is metabolized by arylsulfatase, catechol-O-methyltransferase, and several cytochrome P450 (CYP) isoenzymes (3A4, 1A2, 2B6 and 2C), but no dose adjustments are necessary in patients with (severe) hepatic dysfunction. Exposure to micafungin is lower in hematology patients, and is even further lowered in critically ill patients (including burn patients) compared with healthy volunteers, which might have consequences for treatment efficacy. In children, an increased CL has been reported: 40-80 mL/h/kg in premature neonates and 20 mL/h/kg in children >4 months of age. Therefore, relatively higher doses of 4-10 mg/kg in premature neonates and 2-4 mg/kg in children with invasive candidiasis are used. However, these higher CLs may also be explained by the eightfold higher free fraction of unbound micafungin in premature neonates, meaning that an augmented dose might not be required
Manipulated stress and dispositional reinvestment in a wall-volley task: an investigation into controlled processing
Echinocandins belong to the class of antifungal agents. Currently, three echinocandin drugs are licensed for intravenous treatment of invasive fungal infections: anidulafungin, caspofungin and micafungin. While their antifungal activity overlaps, there are substantial differences in pharmacokinetics (PK). Numerous factors may account for variability in PK of echinocandins including age (pediatrics vs adults), body surface area and body composition (normal weight vs obesity), disease status (e.g., critically ill and burn patients) and organ dysfunction (kidney and liver impairment). Subsequent effects of altered exposure might impact efficacy and safety. Knowledge of PK behavior is crucial in optimal clinical utilization of echinocandin in a specific patient or patient population. This review provides up-to-date information on PK data of anidulafungin, caspofungin and micafungin in special patient populations. Patient populations addressed are neonates, children and adolescents, obese patients, patients with hepatic or renal impairment, critically ill patients (including burn patients) and patients with hematological diseases
Pharmacokinetics of extended dose intervals of micafungin in haematology patients: optimizing antifungal prophylaxis
Contains fulltext :
199509.pdf (publisher's version ) (Closed access
Pharmacokinetics of caspofungin in ICU patients
OBJECTIVES: Caspofungin is used for treatment of invasive fungal infections. As the pharmacokinetics (PK) of antimicrobial agents in critically ill patients can be highly variable, we set out to explore caspofungin PK in ICU patients. METHODS: ICU patients receiving caspofungin were eligible. Patients received a loading dose of 70 mg followed by 50 mg daily (70 mg if body weight >80 kg); they were evaluable upon completion of the first PK curve at day 3. Additionally, daily trough samples were taken and a second PK curve was recorded at day 7. PK analysis was performed using a standard two-stage approach. RESULTS: Twenty-one patients were evaluable. Median (range) age and body weight were 71 (45-80) years and 75 (50-99) kg. PK sampling on day 3 (n = 21) resulted in the following median (IQR) parameters: AUC0-24 88.7 (72.2-97.5) mg.h/L; Cmin 2.15 (1.40-2.48) mg/L; Cmax 7.51 (6.05-8.17) mg/L; V 7.72 (6.12-9.01) L; and CL 0.57 (0.54-0.77) L/h. PK sampling on day 7 (n = 13) resulted in AUC0-24 107.2 (90.4-125.3) mg.h/L, Cmin 2.55 (1.82-3.08) mg/L, Cmax 8.65 (7.16-9.34) mg/L, V 7.03 (5.51-7.73) L and CL 0.54 (0.44-0.60) L/h. We did not identify any covariates significantly affecting caspofungin PK in ICU patients (e.g. body weight, albumin, liver function). Caspofungin was well tolerated and no unexpected side effects were observed. CONCLUSIONS: Caspofungin PK in ICU patients showed limited intraindividual and moderate interindividual variability, and caspofungin was well tolerated. A standard two-stage approach did not reveal significant covariates. Our study showed similar caspofungin PK parameters in ICU patients compared with non-critically ill patients
Flucloxacillin Results in Suboptimal Plasma Voriconazole Concentrations
Contains fulltext :
177025.pdf (publisher's version ) (Closed access)Combining voriconazole and flucloxacillin is indicated in patient cohorts experiencing both invasive aspergillosis and Gram-positive infections (e.g., patients with chronic granulomatous disease or postinfluenza pulmonary aspergillosis). We report a highly relevant interaction between voriconazole and flucloxacillin, resulting in subtherapeutic plasma voriconazole concentrations in more than 50% of patients, that poses a severe threat if not managed properly