TY  - JOUR
A1  - Lindhoff-Last, Edelgard
A1  - Birschmann, Ingvild
A1  - Bidenharn, Antonia J.
A1  - Kuhn, Joachim
A1  - Lindau, Simone
A1  - Konstantinides, Stavros
A1  - Grottke, Oliver
A1  - Nowak-Göttl, Ulrike
A1  - Lucks, Jessica
A1  - Zydek, Barbara
A1  - Heymann, Christian von
A1  - Sümnig, Ariane
A1  - Beyer-Westendorf, Jan
A1  - Schellong, Sebastian
A1  - Meybohm, Patrick
A1  - Greinacher, Andreas
A1  - Herrmann, Eva
T1  - Pharmacokinetics of phenprocoumon in emergency situations – results of the prospective observational RADOA-registry (reversal agent use in patients treated with direct oral anticoagulants or vitamin K antagonists registry)
JF  - Pharmaceuticals
N2  - Background: Phenprocoumon has been used as an oral anticoagulant in patients with thromboembolic disease for more than 40 years. So far its pharmacokinetics have not been analyzed in emergency situations. Methods: Phenprocoumon-treated patients with major bleeding or urgent surgery were included in a prospective, observational registry. Phenprocoumon drug concentrations were analyzed in samples, collected as part of routine care using ultraperformance liquid chromatography tandem mass spectrometry. Moreover, anticoagulant intensity and drug half-life (t1/2) were calculated. Results: 115 patients were included. Phenprocoumon levels declined over time with a half-life of 5.27 and 5.29 days in patients with major bleedings (n = 82) and with urgent surgery (n = 33). Baseline phenprocoumon levels were 2.2 times higher in the bleeding group compared to the surgery group (1.92 vs. 0.87 ng/mL, p < 0.0001). International normalized ratio (INR) values decreased rapidly during the first 24 h. In 27.6% of patients a rebound of INR (recurrent increase > 1.5) was observed which was associated with significantly increased bleeding rates (22% vs. 4.2% in patients with or without INR rebound, p = 0.012). Conclusions: In emergency situations, the long half-life of phenprocoumon may cause INR rebound and associated recurrent bleedings. Optimal management may need to include repeated vitamin K supplementation over days.
KW  - phenprocoumon
KW  - pharmacokinetics
KW  - emergency
KW  - major bleeding
KW  - urgent surgery
KW  - INR rebound
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-297226
SN  - 1424-8247
VL  - 15
IS  - 11
ER  - 
TY  - JOUR
A1  - Gerner, Bettina
A1  - Aghai-Trommeschlaeger, Fatemeh
A1  - Kraus, Sabrina
A1  - Grigoleit, Götz Ulrich
A1  - Zimmermann, Sebastian
A1  - Kurlbaum, Max
A1  - Klinker, Hartwig
A1  - Isberner, Nora
A1  - Scherf-Clavel, Oliver
T1  - A physiologically-based pharmacokinetic model of ruxolitinib and posaconazole to predict CYP3A4-mediated drug–drug interaction frequently observed in graft versus host disease patients
JF  - Pharmaceutics
N2  - Ruxolitinib (RUX) is approved for the treatment of steroid-refractory acute and chronic graft versus host disease (GvHD). It is predominantly metabolized via cytochrome P450 (CYP) 3A4. As patients with GvHD have an increased risk of invasive fungal infections, RUX is frequently combined with posaconazole (POS), a strong CYP3A4 inhibitor. Knowledge of RUX exposure under concomitant POS treatment is scarce and recommendations on dose modifications are inconsistent. A physiologically based pharmacokinetic (PBPK) model was developed to investigate the drug–drug interaction (DDI) between POS and RUX. The predicted RUX exposure was compared to observed concentrations in patients with GvHD in the clinical routine. PBPK models for RUX and POS were independently set up using PK-Sim\(^®\) Version 11. Plasma concentration-time profiles were described successfully and all predicted area under the curve (AUC) values were within 2-fold of the observed values. The increase in RUX exposure was predicted with a DDI ratio of 1.21 (C\(_{max}\)) and 1.59 (AUC). Standard dosing in patients with GvHD led to higher RUX exposure than expected, suggesting further dose reduction if combined with POS. The developed model can serve as a starting point for further simulations of the implemented DDI and can be extended to further perpetrators of CYP-mediated PK-DDIs or disease-specific physiological changes.
KW  - physiologically based pharmacokinetic (PBPK) modeling
KW  - ruxolitinib
KW  - posaconazole
KW  - drug–drug interactions (DDIs)
KW  - graft versus host disease
KW  - cytochrome P450 3A4 (CYP3A4)
KW  - pharmacokinetics
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-297261
SN  - 1999-4923
VL  - 14
IS  - 12
ER  - 
TY  - JOUR
A1  - Umstätter, Florian
A1  - Werner, Julia
A1  - Zerlin, Leah
A1  - Mühlberg, Eric
A1  - Kleist, Christian
A1  - Klika, Karel D.
A1  - Hertlein, Tobias
A1  - Beijer, Barbro
A1  - Domhan, Cornelius
A1  - Zimmermann, Stefan
A1  - Ohlsen, Knut
A1  - Haberkorn, Uwe
A1  - Mier, Walter
A1  - Uhl, Philipp
T1  - Impact of linker modification and PEGylation of vancomycin conjugates on structure-activity relationships and pharmacokinetics
JF  - Pharmaceuticals
N2  - As multidrug-resistant bacteria represent a concerning burden, experts insist on the need for a dramatic rethinking on antibiotic use and development in order to avoid a post-antibiotic era. New and rapidly developable strategies for antimicrobial substances, in particular substances highly potent against multidrug-resistant bacteria, are urgently required. Some of the treatment options currently available for multidrug-resistant bacteria are considerably limited by side effects and unfavorable pharmacokinetics. The glycopeptide vancomycin is considered an antibiotic of last resort. Its use is challenged by bacterial strains exhibiting various types of resistance. Therefore, in this study, highly active polycationic peptide-vancomycin conjugates with varying linker characteristics or the addition of PEG moieties were synthesized to optimize pharmacokinetics while retaining or even increasing antimicrobial activity in comparison to vancomycin. The antimicrobial activity of the novel conjugates was determined by microdilution assays on susceptible and vancomycin-resistant bacterial strains. VAN1 and VAN2, the most promising linker-modified derivatives, were further characterized in vivo with molecular imaging and biodistribution studies in rodents, showing that the linker moiety influences both antimicrobial activity and pharmacokinetics. Encouragingly, VAN2 was able to undercut the resistance breakpoint in microdilution assays on vanB and vanC vancomycin-resistant enterococci. Out of all PEGylated derivatives, VAN:PEG1 and VAN:PEG3 were able to overcome vanC resistance. Biodistribution studies of the novel derivatives revealed significant changes in pharmacokinetics when compared with vancomycin. In conclusion, linker modification of vancomycin-polycationic peptide conjugates represents a promising strategy for the modulation of pharmacokinetic behavior while providing potent antimicrobial activity.
KW  - glycopeptide antibiotics
KW  - antimicrobial resistance
KW  - vancomycin
KW  - polycationic peptides
KW  - linker influence
KW  - pharmacokinetics
KW  - PEGylation
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-255197
SN  - 1424-8247
VL  - 15
IS  - 2
ER  - 
TY  - JOUR
A1  - Schlauersbach, Jonas
A1  - Hanio, Simon
A1  - Raschig, Martina
A1  - Lenz, Bettina
A1  - Scherf-Cavel, Oliver
A1  - Meinel, Lorenz
T1  - Bile and excipient interactions directing drug pharmacokinetics in rats
JF  - European Journal of Pharmaceutics and Biopharmaceutics
N2  - Bile solubilization plays a major role in the absorption of poorly water-soluble drugs. Excipients used in oral drug formulations impact bile-colloidal properties and their molecular interactions. Polymer-induced changes of bile colloids, e.g., by Eudragit E, reduced the flux of the bile interacting drug Perphenazine whereas bile non-interacting Metoprolol was not impacted. This study corroborates these in vitro findings in rats. Eudragit E significantly reduced systemic availability of Perphenazine but not Metoprolol compared to the oral administrations without polymer. This study confirms the necessity to carefully select polymers for bile interacting drugs whereas non-bile interacting drugs are more robust in terms of excipient choice for formulation. The perspective of bile interaction may introduce interesting biopharmaceutical leverage for better performing oral formulations of tomorrow.
KW  - in vitro-in vivo correlation
KW  - pharmacokinetics
KW  - bile
KW  - excipient
KW  - rat study
Y1  - 2022
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-296969
VL  - 178
ET  - accepted version
ER  -