The use of natural bioactive constituents from various food sources for anticancer purposes has become increasingly popular worldwide. Broccoli (Brassica oleracea var. italica) is on the top of the consumed vegetables by the masses. Its raw matrix contains a plethora of phytochemicals, such as glucosinolates and phenolic compounds, along with rich amounts of vitamins, and minerals. Consumption of broccoli-derived phytochemicals provides strong antioxidant effects, particularly due to its sulforaphane content, while modulating numerous molecules involved in cell cycle regulation, control of apoptosis, and tuning enzyme activity. Thus, the inclusion of broccoli in the daily diet lowers the susceptibility to developing cancers. Numerous studies have underlined the undisputable role of broccoli in the diet as a chemopreventive raw food, owing to the content in sulforaphane, an isothiocyanate produced as a result of hydrolysis of precursor glucosinolates called glucoraphanin. This review will provide evidence supporting the specific role of fresh florets and sprouts of broccoli and its key bioactive constituents in the prevention and treatment of different cancers; a number of studies carried out in the in vitro and in vivo conditions as well as clinical trials were analyzed.

Introduction. The range of medicines with various trade names is extremely large and constantly growing. This is the reason for inadequate selection of medicines and medical errors. The aim: To study the problems of the modern state of medicines naming and to determine the ways of its solution. Materials and methods. General scientific methods of cognition are used: analysis and synthesis, abstraction, deduction, modeling, generalization. The materials were publications from the Google Scholar and PubMed electronic search systems, the Crossref bibliographic database for the period 1984-2024. The following keywords were chosen: medicine and drug, naming, international nonproprietary names, trade name, original drug, generic, brand, branded generic, chemical name, medication error, drug information. Results. It was found that the huge number of trade names of medicinal products causes informational problems with possible clinical consequences. Today, there is no international regulatory system that would guarantee that the trade names of medicines from different manufacturers from different countries differed enough to avoid the risk of incorrect prescriptions due to confusion of their names. It is obvious that the breadth of the modern pharmaceutical market and the huge number of trade names of medicines on it are the reasons for their inadequate selection and medical errors. Conclusions. Based on the results of the study of the problems of the modern system of drug names, the possibility of errors in the use of drugs due to the similarity of their trade names, it is proposed to create, under the auspices of the WHO, a single global system of trade names of drugs based on the globally accepted system of international non-proprietary names, which consists of that the trade name must contain the international non-proprietary name and the name of the manufacturer. The unified global system of trade names of medicines will allow the doctor, pharmacist and patient to choose a generic medicine with a high-quality composition of the active pharmaceutical ingredient and auxiliary substances.

Neurodegenerative diseases pose a significant health challenge for the elderly. The escalating presence of toxic metals and chemicals in the environment is a potential contributor to central nervous system dysfunction and the onset of neurodegenerative conditions. Transition metals play a crucial role in various pathophysiological mechanisms associated with prevalent neurodegenerative diseases such as Alzheimer’s and Parkinson’s. Given the ubiquitous exposure to metals from diverse sources in everyday life, the workplace, and the environment, most of the population faces regular contact with different forms of these metals. Disturbances in the levels and homeostasis of certain transition metals are closely linked to the manifestation of neurodegenerative disorders. Oxidative damage further exacerbates the progression of neurological consequences. Presently, there exists no curative therapy for individuals afflicted by neurodegenerative diseases, with treatment approaches primarily focusing on alleviating pathological symptoms. Within the realm of biologically active compounds derived from plants, flavonoids and curcuminoids stand out for their extensively documented antioxidant, antiplatelet, and neuroprotective properties. The utilization of these compounds holds the potential to formulate highly effective therapeutic strategies for managing neurodegenerative diseases. This review provides a comprehensive overview of the impact of abnormal metal levels, particularly copper, iron, and zinc, on the initiation and progression of neurodegenerative diseases. Additionally, it aims to elucidate the potential of fisetin and curcumin to inhibit or decelerate the
neurodegenerative process.

Background: Berberine is the main active compound of different herbs and is defined as an isoquinoline quaternary botanical alkaloid found in barks and roots of numerous plants. It exhibits a wide range of pharmacological effects, such as anti-obesity and antidiabetic effects. Berberine has antibacterial activity against a variety of microbiota, including many bacterial species, protozoa, plasmodia, fungi, and trypanosomes.
Objective: This review describes the role of berberine and its metabolic effects. It also discusses how it plays a role in glucose metabolism, fat metabolism, weight loss, how it modulates the gut microbiota, and what are its antimicrobial properties along with its potential side effects with maximal tolerable dosage.
Methods: Representative studies were considered and analyzed from different scientific databases, including PubMed and Web of Science, for the years 1982-2022.
Results: Literature analysis shows that berberine affects many biochemical and pharmacological pathways that theoretically yield a positive effect on health and disease. Berberine exhibits neuroprotective properties in various neurodegenerative and neuropsychological ailments. Despite its low bioavailability after oral administration, berberine is a promising tool for several disorders. A possible hypothesis would be the modulation of the gut microbiome. While the evidence concerning the aging process in humans is more limited, preliminary studies have shown positive effects in several models.
Conclusion: Berberine could serve as a potential candidate for the treatment of several diseases. Previous literature has provided a basis for scientists to establish clinical trials in humans. However, for obesity, the evidence appears to be sufficient for handson use.