STUDENTS’ IDEAS ABOUT TRUST IN INTERETHNIC RELATIONS

The article reviews approaches to understanding the phenomenon of trust in relationships. It is noted that various authors consider trust as the main principle of forming constructive relations in modern society. The paper gives data on the research of the ideas of students of the Republic of North Ossetia – Alania (Ossetians and Russians, aged 15 to 22 years) about trust in interethnic relations. According to the results of the study, students who are representatives of Ossetian nationality most often define trust in interethnic relations as “Acceptance of “foreign” national values, customs and culture”. Russian students understand trust in interethnic relations as “Confidence in assistance and support in a difficult situation from a representative of another ethnic group”. Both groups of students surveyed believe that the willingness of representatives of different ethnic groups to cooperate is important in trusting inter-ethnic relations

Parameter Optimization of Information Channels for Laser Fluorescence Method of Vegetation Monitoring

Nowadays, there is a growing interest in application of remote monitoring and accounting systems in agriculture.One of the promising areas of remote vegetation monitoring is a fluorescence analysis, as it potentially allows sensing stress of plants according to characteristics of their fluorescent radiation.The shape of the fluorescence spectra of vegetation in the normal condition differs from that of the fluorescence spectra of vegetation in stressful conditions. This potentially allows you to sence the plants by recording information about the shape of the fluorescence spectra.Analysis of the fluorescence spectrum shape can be replaced by the analysis of fluorescence intensities in several spectral bands, which simpifies problem-solving.Currently, there are various devices developed for laser fluorescence sensing of plant stress. However, a lot of issues important to the practice remain unclear.Most of these issues concern the parameters of receiving channels to record information signals, which allow you to perceve the stress-sensed plants:- how many information channels of spectral bands better to use;- what the best width of these spectral bands of information is ;- what is the best width of the spectral bands of information;- what the best threshold value for the threshold algorithm is, and if there is the better algorithm to process measurement data.The work uses mathematical modeling based on the experimentally measured fluorescence spectra to determine the optimal (in terms of probability of sensing characteristics of the stress of plants, i.e. the probability of good sense and false alarm) parameters of information channels for laser fluorescence method to sense the plant stress: the central wavelength of the information spectral bands, their spectral width, and parameters of the algorithm in the case of processing two spectral channels of information. It is shown that using the additional third information spectral band allows you to improve significantly the probability characteristics of sensing stress of plants.</p

RETINAL PIGMENT EPITHELIUM CONDITION AFTER LASER AND ULTRASOUND PHACOFRAGMENTATION. ELECTRON MICROSCOPY IN EXPERIMENT. REPORT 1

Purpose. To perform a comparative evaluation of a macular retinal pigment epithelium condition after laser and ultrasound phacofragmentations in experiment.Material and method. Electron microscopy of macular retinal pigment epithelium was conducted in 3 cadaver eyes after the laser (Nd:YAG 1.44µm) phacofragmentation using the Russian device «RAKOT» and in 3 fellow eyes – after the ultrasound phacoemulsification using Millenium phacomachine.Results. After the laser phacofragmentation the ultra-structure of pigment retinal epithelium in macular area corresponded to the norm. After the ultrasound phacoemulsification some disturbances were noted in the ultra-structural organization of retinal pigment epithelium cells manifested in a rarefaction of the electron optical density of the cell cytoplasm, in an increase of vacuoles.Conclusion. Laser energy is safer for the posterior segment of the eye than ultrasound energy used in the cataract surgery

In-vivo-Analyse der Wundheilung mit optischen Methoden

The analysis of wound healing is important for the therapy control and for the development of drugs stimulating the healing process. Wounds cause damage to the skin barrier. A damaged stratum corneum leads to an increased water loss through the skin barrier. The standard measuring procedure for characterization of wound healing is the measurement of transepidermal water loss (TEWL). The disadvantage of this method is that it can be easily disturbed by the perspiration of the volunteers and by topically applied substances, for instance wound healing creams. In the study presented, in vivo laser scanning microscopy and optical coherent tomography were compared concerning the application for their analysis of wound healing processes. The laser scanning microscopy allows the analysis of the healing process on a cellular level. The course of wound healing determined by laser scanning microscopy was correlated with numerical values, allowing the numerical characterization of the wound healing process.Die Analyse der Wundheilung ist wichtig zur Therapiekontrolle und für die Entwicklung von Arzneimitteln zur Wundheilungsförderung. Wunden verursachen eine Schädigung der Hautbarriere. Ein geschädigtes Stratum corneum verursacht einen erhöhten Wasserverlust durch die Hautbarriere. Daher ist das Standardverfahren zur Charakterisierung von Wundheilungsprozessen die Messung des transepidermalen Wasserverlusts (TEWL). Der Nachteil dieser Methode ist die Störanfälligkeit durch die Perspiration der Probanden sowie durch topisch applizierte Substanzen, z.B. Wundheilungscremes. In der vorliegenden Studie werden die In-vivo-Laser-Scan-Mikroskopie und die optische Koheränztomographie in ihrer Aussagekraft, Wundheilungsprozesse zu charakterisieren, verglichen. Die In-vivo-Laser-Scan-Mikroskopie ermöglicht die Darstellung des Heilungsprozesses auf zellulärer Ebene. Mit Bewertungskriterien, die die Stadien des Wundheilungsprozesses beschreiben, lässt sich der Heilungsprozess numerisch beschreiben

Application of laser scanning microscopy for the characterization of wound healing

Optical non-invasive methods have become more and more important for the characterization of skin lesions and for therapy control. In vivo laser scanning microscopy is a promising method which can be used for the analysis of cellular structures in the skin up to a depth of 250 µm. Therefore, laser scanning microscopy (LSM) is well-suited for the characterization of wound healing processes. In contrast to measurements of the transepidermal waterloss (TEWL) the laser scanning microscopy allows the analysis of the healing process on a cellular level. The course of wound healing determined by laser scanning microscopy was correlated with numerical values, which correspond to those used for measurements of TEWL, allowing the numerical characterization of the wound healing process. Laser scanning microscopy showed that wound healing starts not only from the wound edges but also from "islands" inside the wound area. In contrast to TEWL measurements the LSM analysis is not influenced by disturbing factors such as temperature, humidity and topically applied substances. Therefore, the laser scanning microscopy is well-suited for the characterization of different types of wound healing therapies including the topical application of creams and lotions.Optische, nicht invasive Verfahren finden in der Dermatologie zur Charakterisierung von Hautzuständen und zur Therapiekontrolle eine zunehmende Anwendung. Besonders geeignet ist hierfür die In-vivo-Laser-Scan-Mikroskopie, welche es ermöglicht, zelluläre Strukturen bis zu einer Tiefe von 250 µm in der Haut nachzuweisen. Damit eignet sich die In-vivo-Laser-Scan-Mikroskopie sehr gut, Wundheilungsprozesse zu charakterisieren. Im Gegensatz zur klassischen Analyse von Wundheilungsprozessen mit Hilfe des transepidermalen Wasserverlustes (TEWL) ermöglicht die In-vivo-Laser-Scan-Mikroskopie die Darstellung des Heilungsprozesses auf zellulärer Ebene. Mit Bewertungskriterien, welche die Stadien des Wundheilungsprozesses beschreiben, lässt sich der Heilungsprozess numerisch beschreiben. Die Untersuchungen zeigen, dass die Wundheilung nicht nur von den Rändern her erfolgt, sondern auch innerhalb der Wunde "Inseln" entstehen, von welchen die Erneuerung des Stratum corneum erfolgt. Im Gegensatz zu den TEWL-Messungen werden laser-scan-mikroskopische Untersuchungen nicht durch äußere Faktoren wie Temperatur, Luftfeuchtigkeit und topisch applizierte Substanzen gestört. Die In-vivo-Laser-Scan-Mikroskopie ist sehr gut dazu geeignet, die Wirkung von verschiedenen Formen der Wundbehandlung einschließlich der Applikation von Wundsalben zu charakterisieren

Characterization of wound healing by in vivo laser scanning microscopy

Recent developments of new optical technologies in the past years lead to modern analytical systems suitable for new applications in the field of dermatology. In our study we describe the value of in vivo laser scanning microscopy (LSM) for the characterization of wound healing. In contrast to the gold standard - the measurements of the transepidermal water lost (TEWL) - this optical method has the advantage not to be disturbed by any interstitial fluid or topically applied substances. Standardized superficial wounds were produced by the suction blister technique and the healing process of the wounds was investigated using LSM. The LSM method has been proven to be a suitable technique for an objective evaluation of the wound healing process. Quantitative analysis of the healing process was facilitated by introducing scales characterizing the exact healing phase of the investigated wounds. This study revealed that the onset of tissue repair is not rectricted to the edges of the cutaneous wound but is found at the same time around the area of the hair follicles. Small islands of corneocytes were forming around the hair follicles leading to fully covered wound surface consisting of a first layer of corneocytes.Die erfolgreiche Entwicklung der optischen Technologien in den letzten Jahren führte zu Analysesystemen, die speziell im Bereich der Dermatologie neue Möglichkeiten der Anwendung erschließen. Im vorliegenden Beitrag wird über den Einsatz eines In-vivo-Laser-Scan-Mikroskops zur Charakterisierung von Wundheilungsprozessen berichtet. Im Gegensatz zum Goldstandard - den Messungen des transepidermalen Wasserverlusts (TEWL) - hat diese optische Methode den Vorteil, dass sie nicht durch Störfaktoren wie Wundflüssigkeit und topisch applizierte Substanzen beeinflusst wird. In der vorliegenden Studie wurden definierte oberflächliche Wunden mit Hilfe der Saugblasentechnik erzeugt und deren Abheilungsprozess mit Hilfe der In-vivo-Laser-Scan-Mikroskopie (LSM) untersucht. Es zeigte sich, dass die LSM-Technik eine objektive Bewertung des Wundheilungsprozesses ermöglicht. Durch die Einführung von charakteristischen Stadien der Wundheilung ist es sogar möglich, eine quantitative Bewertung des Wundheilungsprozesses vorzunehmen. Im Rahmen der Untersuchungen konnte u.a. nachgewiesen werden, dass der Wundheilungsprozess nicht nur von den Wundrändern her erfolgt. Auch um die Haarfollikel bilden sich Inseln von Korneozyten, die allmählich miteinander verschmelzen und zu einer ersten Bedeckung der Wundoberfläche mit einer geschlossenen Zellschicht von Korneozyten führen