The aim of the study is to study the results of the most significant studies on the forms of tumor cell death and targets in photodynamic therapy (PDT). Material and methods. On the problem, we analyzed the Scopus, WoS, MedLine databases and found 31 sources. Results. PDT is an important tool for studying the pathways leading to the complete devitalization of a malignant tumor. Moreover, subcellular targets in pdt are determined by the properties of photosensitizers (PS). Particularly effective targets are lysosomes and mitochondria, including those for class I PS, photofrin. This explains the effectiveness of photofrin, although it has a weak absorption band in the region of 630 nm with a limited penetration depth into tissues. The development of new PSs with subcellular targets of photofrin, but with an absorption band in the long-wavelength region, is becoming very topical. Such FS are ideal for PDT. Second-generation PSS have already been introduced into clinical practice. The effectiveness of PDT with the use of photoditazine was shown. The mechanisms of action and targets of this PS have been established. The latter include the vessel wall, cytoplasmic membranes, and internal structures of tumor cells. The main type of neoplastic cell death during PDT with photoditazine is direct photocoagulation and ischemic necrosis of the tumor parenchyma due to the destruction of the neoplasm vascular bed. Today, considerable attention is paid to the development of other new PSS, namely, bacteriochlorophyll-α derivatives, which have an intense absorption of radiation in the long-wavelength region of the spectral range. These include the disulfide-bpi conjugate, which contains 2 molecules of dipropoxybacteriopurpurinimide and a cystamine residue, the results of which showed its high efficiency due to the destruction of the tumor vascular bed, the rapid slowdown and/or cessation of cell proliferative activity and their death by necrosis and apoptosis. Rapid progress in studying the mechanisms of action of PDt has shown that autophagy triggering using the lysosomal compartment to degrade and utilize damaged cell organelles and paraptosis associated with defective proteins in the endoplasmic reticulum also play an important role in the elimination of tumor cells. Conclusion. Apoptosis, autophagy, and paraptosis can occur after photodamage to mitochondria, lysosomes, or the endoplasmic reticulum. The balance of cell death pathways is often a determining factor in the effectiveness of PDT.
AIM: to establish the consensus on controversial issues of the surgery for Сrohn’s disease by Delphi method.METHODS: a cross-sectional study was conducted by the Delphi method. 62 experts voted intramural and anonymous (31.03.23). 5 statements from the current edition of clinical guidelines were selected for correction by working group and further voting [2]. Based on the practical experience of the working group and literature data, 3 new statements were created also. Statements that do not reach the required level of agreement (80% or more) will be subjected to Round 2 of the Delphi method.RESULTS: all experts took part in the anonymous voting. The panel of experts is represented by 8 different areas of practical medicine and the median of the professional experience of the respondents was 30 (12–49) years. Of the 8 statements submitted for voting, consensus (80% or more) was reached on 6 out of 8. 2 statements have been revised by working group for the distance 2nd round of the Delphi study. Consensus (more than 80%) was reached on both.CONCLUSION: a cross-sectional study by the Delphi method provided the opinions of a panel of experts on controversial issues in the surgical treatment of Crohn’s disease. Statements that reach consensus will be included by the working group in a new edition of clinical guidelines of Crohn’s disease.
The creation and use of biobanks is an actively growing field that plays an important role in the development of many branches of biotechnology and biomedicine, including oncology and translational medicine. In this review, based on the analysis of more than 80 Russian and foreign publications, we describe the current state of biobanking and its future perspectives. The diversity of biobanking and the problems arising from it, including the limits of applicability to different types of research, as well as the prospects for development are discussed. The role of biobanks in the study of malignant neoplasms, including rare/orphan diseases, and in the development of new diagnostic and therapeutic approaches, personalised medicine and pre-clinical screening studies, are highlighted.
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