Biomedicine represents one of the main study areas for dendrimers, which have proven to be valuable both in diagnostics and therapy, due to their capacity for improving solubility, absorption, bioavailability and targeted distribution. Molecular cytotoxicity constitutes a limiting characteristic, especially for cationic and higher-generation dendrimers. Antineoplastic research of dendrimers has been widely developed, and several types of poly(amidoamine) and poly(propylene imine) dendrimer complexes with doxorubicin, paclitaxel, imatinib, sunitinib, cisplatin, melphalan and methotrexate have shown an improvement in comparison with the drug molecule alone. The anti-inflammatory therapy focused on dendrimer complexes of ibuprofen, indomethacin, piroxicam, ketoprofen and diflunisal. In the context of the development of antibiotic-resistant bacterial strains, dendrimer complexes of fluoroquinolones, macrolides, beta-lactamines and aminoglycosides have shown promising effects. Regarding antiviral therapy, studies have been performed to develop dendrimer conjugates with tenofovir, maraviroc, zidovudine, oseltamivir and acyclovir, among others. Furthermore, cardiovascular therapy has strongly addressed dendrimers. Employed in imaging diagnostics, dendrimers reduce the dosage required to obtain images, thus improving the efficiency of radioisotopes. Dendrimers are macromolecular structures with multiple advantages that can suffer modifications depending on the chemical nature of the drug that has to be transported. The results obtained so far encourage the pursuit of new studies.
Currently, the efficacy of antibiotics is severely affected by the emergence of the antimicrobial resistance phenomenon, leading to increased morbidity and mortality worldwide. Multidrug-resistant pathogens are found not only in hospital settings, but also in the community, and are considered one of the biggest public health concerns. The main mechanisms by which bacteria develop resistance to antibiotics include changes in the drug target, prevention of entering the cell, elimination through efflux pumps or inactivation of drugs. A better understanding and prediction of resistance patterns of a pathogen will lead to a better selection of active antibiotics for the treatment of multidrug-resistant infections.
Nowadays, humanity is confronted with one of the most difficult challenges. Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) was identified for the first time in Hubei, China in December 2019 and produced the COVID-19 pandemic, a devastating disease that led to many complications and deaths. The authorities and the global healthcare system have been alerted regarding the prevention and treatment of this pathology. Even though worldwide quarantine was declared, health care professionals, including pharmacists, have been at the frontline in this war. Since the beginning of the pandemic, the authorities relied on the involvement of the community, hospital, or clinical pharmacists in offering support to the entire population. Also, the authorities implemented measures for emergency authorization of the vaccines, or the drugs used in COVID-19 treatment. In order to facilitate the population’s access to healthcare services, the authorities have established regulations regarding, the extension of prescriptions by pharmacists, working hours, prevention of shortages and price-increase, drive-thru services, etc. However, several countries have taken financial measures to support the pharmacies’ activity. At the same time, pharmaceutical associations elaborated guidelines for the protection of pharmacists and patients alike. Additionally, the pharmacies have come to support the health system and patients by adapting pharmaceutical care to the new needs like preparation and supply of disinfectants, patient care, information, and counseling, especially to COVID-19 patients, as well as the implementation of home drugs-delivery systems. The important roles played by pharmacists were to perform COVID-19 tests and further vaccines, as well as to combat the abundance of misinformation and fake news. The clinical and hospital pharmacy services have also been adapted. Strengthening the role of the pharmacist in the medical team was important for the purpose of providing correct and complete information regarding drugs used in the COVID-19 pathology. In all these activities, pharmacists needed creativity and professionalism, but also the support of pharmacy owners and managers. With this crisis, pharmaceutical care has entered a new phase, demonstrating the ability of pharmacists to be competent and accessible providers of public health. Based on this information, we conducted a narrative review whose purpose was to identify the impact of the authorities’ decisions on pharmaceutical practice, the involvement of professional associations, and the responsibilities of the pharmacy owners and management. On the other hand, we performed a global assessment on the pharmaceutical care services provided by community pharmacists as well as by clinical or hospital pharmacists during the COVID-19 pandemic.
Grape pomace and berries represent natural sources of phytochemicals that can increase the quality of life of consumers by contributing to the prevention of chronic diseases; thus, the development of a dietary supplement was necessary. The raw material (r.m.) used for the development of the dietary supplement consisted of dried and powdered bilberries (Vaccinium myrtillus L.), red currants (Ribes rubrum L.), and red fermented pomaces (Vitis vinifera L.) from Feteasca Neagra and Cabernet Sauvignon cultivars. The particle size distribution, powder flow, total phenolic content (TPC), HPLC-DAD phenolic profile assessment, and radical scavenging assay (RSA) were employed for the analysis of the raw material. After encapsulation, the average mass and uniformity of mass, the disintegration, and the uniformity of content for the obtained capsules were performed to obtain a high-quality dietary supplement. All the assays performed complied to the compendial requirements and the TPC was determined at 9.07 ± 0.25 mg gallic acid equivalents/g r.m. and RSA at 48.32 ± 0.74%. The highest quantities of phenolic compounds determined were 333.7 ± 0.50 µg/g r.m. for chlorogenic acid, followed by rutin, ferulic acid, and (+)-catechin with 198.9 ± 1.60 µg/g r.m., 179.8 ± 0.90 µg/g r.m. and 118.7 ± 0.75 µg/g r.m., respectively. The results of this study can be used for the manufacturing and assessing of pilot scale-up capsule batches and thinking of quality assurance, we recommend that the industrial batch extracts should be standardized in polyphenols, and the manufacturing process should be validated.
The aim of this study consisted in the development of a rapid and reliable high performance liquid chromatography (HPLC) method for resveratrol identification and assay in food supplements, trying to offer a robust, direct and convenient solution. By this method, several supplements with varying resveratrol content, between 103 and 119% of the stated amount per dosage form, were analyzed.
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