SIRT1 gene polymorphisms have been linked with an increased risk of diabetic nephropathy in several epidemiological studies. Importantly, there is an inverse relationship between the activity of SGLT2 and signaling through the SIRT1/PGC-1α/FGF21 pathway, and SGLT2 inhibition leads to activation of these ketogenic nutrient deprivation sensors. Therefore, activation of SIRT1/PGC-1α/FGF21 may explain the effect of SGLT2 inhibitors not only to promote ketogenesis, but also to preserve renal function in type 2 diabetes.Mathematical models are an important tool in pharmaceutical formulations development, to evaluate in vitro and in vivo drug release processes and to optimize the design of new systems. Dome Matrix technology allows the combination of modules with different types of drugs, doses, and releases kinetics. This work aimed to design drug release systems based on Dome Matrix technology, with different swelling and erosion properties, to obtain complex drug release profiles and analyze them with simple mathematical models. Most of the release profiles followed a sigmoid curve, with an inflection point corresponding to a change in the release rate behavior. The experimental data were fitted with a simple model recently developed, named the Dual Release model, which consists in the combination of a modified Korsmayer-Peppas model from the beginning to the inflection point and the Lumped model from there until the end. This approach allowed determining relevant pharmaceutical parameters, such as the maximum release rate and the dissolution efficiency, among others. The use of the Dual Release model and the pharmaceutical parameters that characterize the different Dome Matrix modules allows optimizing the choice of the composition and the configuration during the development of a drug delivery system.The combination of focused ultrasound (FUS) and microbubbles, an ultrasound (US) contrast agent, has attracted much attention for its ability to open the blood brain barrier (BBB) and deliver drugs to the brain parenchyma. FUS can concentrate US energy in a restricted space, whereas non-focused US can affect a wide area of tissue. Non-focused US is also promising for drug delivery to the brain and other tissues. We have previously developed lipid-based microbubbles (LBs), and demonstrated that non-focused US and LBs have potential for drug delivery to tumor tissues. In this study, to achieve efficient and safe brain-targeted drug delivery, we evaluated the characteristics of BBB opening using non-focused US and LBs. Our results indicated that LBs could induce BBB opening with non-focused US. US frequency and intensity affected the efficiency of BBB opening and brain damage, and showed that the dose of LBs was also related to the efficiency of BBB opening. Furthermore, the combination of non-focused US and LBs could deliver macromolecules at 2,000 kDa to the brain, and the induction of BBB opening was found to be reversible. These results suggest that the combination of non-focused US and LBs has potential as a brain-targeted drug delivery system.Pressure ulcers are commonly associated with microbial infections on the wounds which require an effective wound dressing for treatment. Thus far, the available silver dressing has shown tremendous result, however, it may cause argyria and complicate the internal organ function. Hence, our study aims to develop and characterize phomopsidione-loaded chitosan-polyethylene glycol nanocomposite hydrogel (C/PEG/Ph) as an antimicrobial dressing. Physically, the C/PEG/Ph hydrogel demonstrated a uniform light blue color, soft, flexible, and elastic, with no aggregation form. The evaluation via Fourier Transform Infrared (FTIR) exposed the C/PEG/Ph hydrogel has a notable shift towards lower frequency at 1600 and 1554 cm-1. For drug release test, the phomopsidione attained plateau at 24 h, with a total release of 67.9 ± 6.4% from the C/PEG/Ph hydrogel. There was a null burst release effect discovered throughout the experimental period.  https://www.selleckchem.com/products/AZD6244.html  The C/PEG/Ph hydrogel showed significant results against all 4 Gram-negative bacteria and 1 yeast, with 99.99-100% reduction of microbial growth. The findings revealed that the C/PEG/Ph hydrogel can potentially act as an antimicrobial dressing for pressure ulcers.In this monograph, literature data is reviewed to evaluate the feasibility of waiving in vivo bioequivalence testing and instead applying the Biopharmaceutics Classification System (BCS) based methods to the approval of immediate-release solid oral dosage forms containing moxifloxacin hydrochloride as the sole active pharmaceutical ingredient. To facilitate the feasibility decision, solubility and permeability and dissolution characteristics in the context of the BCS, therapeutic index, therapeutic use, pharmacokinetic parameters, bioequivalence/bioavailability issues, drug-excipient interactions and other relevant data were taken into consideration. Moxifloxacin is a BCS class I drug with a wide therapeutic index. Bioequivalence risks arising from the presence of different excipients in the formulation and due to manufacturing variables were deemed to be low. The risks can be further reduced if the choice of excipients is limited to those present in products already approved in International Conference on Harmonisation or associated countries and if the results of in vitro dissolution studies comply with the specifications stipulated in the appropriate biowaiver guidelines. Under these conditions, we conclude that a BCS-based biowaiver can be recommended for moxifloxacin immediate-release solid oral dosage forms.Dose individualization is essential in epilepsy treatment, especially in antiepileptic drugs that present high interindividual variability such as lamotrigine. We aimed an observational study to develop a population pharmacokinetic model for quantitative evaluation of the factors that influence lamotrigine pharmacokinetics in Mexican adults with epilepsy. Patients on stable treatment with lamotrigine therapy were included, plasma concentrations were analyzed by a high-performance liquid chromatography method and UGT2B7-161C > T polymorphism was determined. The data were analyzed by NONMEM® 7.3, model validation was performed using bootstrap approach and visual predictive check. Finally, stochastic simulations were carried out to propose dosage regimens. A total of 73 lamotrigine plasma concentrations from 2 h after last dose and up to 0.5 h prior to next administration were fitted to a one-compartment open model. The final population pharmacokinetic model for lamotrigine indicates that concomitant treatment with valproic acid and carbamazepine should be considered to individualize epilepsy treatment with this drug.