Some properties of NaBaPO[4]:Eu luminophore surface

There is an increased interest to the compounds of the ABPO[4] type, activated by europium, where A and B are mono- and divalent cations, because of their luminescent properties. In this paper NaBaPO[4]:Eu{2+}phosphors with different europium content were synthesized by SHS method. It is shown that phosphor surface becomes less alkaline (pHiis changes in the interval 10,7-9,5) with an increase in the concentration of an introduced activator (5-12%). Two bands with maxima wavelength of approximately 425 and 490 nm are observed in the luminescent spectra (the positions of maxima differ somewhat in different spectra). The relationship between acid-base and luminescent properties of the investigated phosphor samples is traced

ОПТИМІЗАЦІЯ ВИКОРИСТАННЯ РЕСУРСІВ ВУГЛЕВИДОБУВНИХ ПІДПРИЄМСТВ НА ОСНОВІ ВРАХУВАННЯ ВНУТРІШНІХ ЕНТРОПІЙНИХ ЗВ'ЯЗКІВ

У статті розглядаються питання оцінки ефективності використання внутрішніх ресурсів підприємства з метою гармонізації економічних та екологічних взаємовідносин та розробки ноосферного підходу до розробки родовищ корисних копалин. The article is dealt with some problems of the estimation of an enterprise's internal resources utilization. The main goal of it is coordination of economic and ecological interrelations and development of the noosphere approach to the utilization of natural resources' deposits

Metal detector by the principle phasemeter

Рассмотрен новый способ обработки сигнала металлоискателя, основанный на измерениях фазы разностного сигнала. Определены преимущества над разработанными металлоискателями имеющих фазометрическую схему. Изучена зависимость фазы разностного сигнала от амплитуды входных сигналов и разности их фаз. Проведен анализ чувствительностей к разности амплитуд входных сигналов и разности фаз. Установлено, что данный металлоискатель обладает большей чувствительности по сравнению с известными разработками и способен детектировать металл при малейшем изменении выходного сигнала первичного преобразователя. Разработана структурная схема для предлагаемого металлоискателя и приведено описание принципа работы

Метод поиска легких нейтронных кластеров в распаде ядер 235U

Background: Cold storage using histidine-typtophan-ketoglutarate (HTK) solution is used widely in clinical practice for the preservation of warm ischaemia-damaged kidney grafts. This study assessed the efficacy of pulsatile machine perfusion in combination with Polysol (R) for the preservation of warm ischaemia-damaged kidney grafts. Methods: After induction of warm ischaemia by clamping of the left renal pedicle for 30 min, pigs were subjected to left nephrectomy. Thereafter, grafts were preserved for 20 h by cold storage with HTK (CS-HTK) or Polysol (R) (CS-PS), or machine preservation with Polysol (R) (MP-PS). Subsequently, contralateral kidneys were removed and preserved kidneys were transplanted. Control pigs underwent unilateral nephrectomy. Renal function was assessed daily for I week. Kidney biopsies were analysed for morphology and proliferative response. Results: Renal function of warm ischaemia-damaged grafts preserved using INIP-PS was comparable to that of non-ischaemic controls. NIP-PS and CS-PS groups showed improved renal function compared with the CS-HTK group, with more favourable results for MP-PS than for CS-PS. The proliferative response of tubular cells in the CS-HTK group was higher than in all other groups. Conclusion: This study demonstrated that the function of warm ischaemia-damaged kidney grafts after pulsatile perfusion preservation was comparable to that of non-ischaemic control

Machine perfusion preservation of the non-heart-beating donor rat livers using polysol, a new preservation solution

AIMS: The increasing shortage of donor organs has led to a focus on extended criteria donors, including the non-heart-beating donor (NHBD). An optimal preservation method is required to facilitate successful transplantation of these ischemically damaged organs. The recent literature has shown clear advantages of hypothermic machine perfusion (MP) over cold storage (CS). For MP, modified University of Wisconsin perfusion solution (UW-G) is often used, which, however, is known to cause microcirculatory obstruction, is difficult to obtain, and is expensive. Therefore, Polysol was developed as a MP preservation solution that contains specific nutrients for the liver, such as amino acids, energy substrates, and vitamins. The aim of this study was to compare Polysol with UW-G in a NHBD rat liver model. METHODS: After 24 hours hypothermic MP of NHBD rat livers using UW-G or Polysol, liver damage and function parameters were assessed during 60 minutes of reperfusion with Krebs-Henseleit buffer. Control livers were reperfused after 24 hours CS in UW. RESULTS: Liver enzyme release was significantly higher among the CS-UW group compared to MP using UW-G or Polysol. Flow during reperfusion was significantly higher when using Polysol compared to UW-G. Bile production and ammonia clearance were highest when using Polysol compared to UW-G. There was less cellular edema after preservation with Polysol compared to UW-G. CONCLUSIONS: MP of NHBD rat livers for 24 hours using UW-G or Polysol resulted in less hepatocellular damage than CS in UW. MP of NHBD livers for 24 hours using Polysol is superior to MP using UW-

Preservation of rat livers by cold storage: a comparison between the University of Wisconsin solution and Hypothermosol

OBJECTIVES: The University of Wisconsin solution (UW) is the gold standard for cold storage (CS) of donor livers. However, UW contains the colloid Hydroxyethyl starch (HES), which may cause perfusion deficits due to its high viscosity. Recently, a new CS preservation solution, Hypothermosol (HTS), was introduced which contains the less viscous colloid Dextran. The aim of this study was to assess HTS as a cold storage solution for preservation of the liver. METHODS: In an isolated perfused rat liver model, hepatocellular damage was assessed after 24 hours of CS. Liver enzymes were measured during reperfusion with Krebs-Henseleit Buffer. Bile was collected during reperfusion as a parameter of liver function. RESULTS: CS using HTS showed a significant decrease of ALT and LDH levels (as compared to UW) at all time points during reperfusion. For LDH these results where most pronounced at t=10 min (84 +/- 7.09 vs 113 +/- 7.57: p < 0.05) and t=30 min (149.2 +/- 9.68 vs 194 +/-6.52: p <0.05). Regarding liver function, more bile was produced after 24 hours CS in HTS, but this did not reach statistical significancy. CONCLUSIONS: Cold storage preservation of rat livers using Hypothermosol results in equal or even better preservation as compared to cold storage using U

Comparison of preservation solutions for washout of kidney grafts: an experimental study

Objective. The impact of different preservation solutions for washout of kidney grafts was evaluated regarding temperature, kidney weight, remaining red blood cells (RBCs) and histological evaluation after ex vivo washout using 500 mL cold preservation solution at 4 degrees C followed by 24 hours cold storage (CS). Methods. Kidneys retrieved from Landrace pigs (20-30 kg) were immediately washed (warm ischemic time 0 min [WIT 0]), using 500 mL cold University of Wisconsin solution (UW), histidine-tryptophan-ketoglutarate (HTK), or Polysol (PS) followed by 24 hours, CS. Also, kidneys were retrieved after a WIT of 30 minutes followed by washout using HTK or PS. Results. After washout, the weight of kidneys washed out with HTK had increased, whereas that of organs in the UW or PS group had decreased. After washout with UW, the core temperature of WIT 0 kidneys was lower than that with HTK. The time needed for washout using 500 mL solution was shorter using PS compared with HTK for both WIT 0 and WIT 30 groups. The amount of remaining RBCs was similar between all WIT 0 groups; whereas in the WIT 30 groups the amount was higher in kidneys washed out using HTK compared with PS. Histological evaluation showed less tissue injury among PS-washed kidneys compared with UW or HTK. Conclusion. Overall, kidneys washed-out with PS showed better preservation of structural integrity after 24 hours, CS compared with either UW or HTK. Washout of warm ischemically damaged kidneys was more effective using PS compared with HT

Optimization of a new preservation solution for machine perfusion of the liver: Which is the preferred colloid?

Aims. Machine perfusion (MP) has proven to be beneficial in experimental preservation of the liver. The modified University of Wisconsin solution (UW-Gluconate or UW-G) is used as the MP preservation solution of choice. We have developed Polysol, an enriched MP preservation solution based on a colloid. We sought to optimize Polysol by substituting the colloid hydroxyethylstarch (HES) with the colloids dextran and polyethylene glycol (PEG). Methods. In an isolated perfused rat liver model, hepatocellular damage and liver function were assessed during reperfusion with Krebs-Henseleit buffer after 24 hours hypothermic MP using Polysol-HES, Polysol-dextran, or Polysol-PEG. Control livers were preserved by MP using UW-G. Results. Compared to MP-UW-G, MP using Polysol resulted in significantly less damage and improved function during reperfusion. MP using Polysol-dextran or Polysol-PEG resulted in equal or less damage than Polysol-HES. Differences in ammonia clearance and bile production were not significant. Tissue edema was higher after MP using Polysol-HES as compared to Polysol-dextran and Polysol-PEG. Conclusions. MP of rat livers for 24 hours using UW-G results in more extensive damage and reduced liver function compared to MP using Polysol. MP using Polysoldextran or Polysol-PEG results in equal or even better preservation compared to Polysol-HE

Wash-out of the non-heart-beating donor liver: A comparison between ringer lactate, HTK, and polysol

The solution of choice for wash-out of non-heart-beating donor (NHBD) livers is histidine tryptophan ketoglutarate (HTK). This solution has a lower viscosity, due to absence of a colloid, and is less expensive as compared to the University of Wisconsin (UW) solution. A new preservation solution for machine perfusion was developed, named Polysol. In order to apply Polysol clinically in NHBD organ retrieval, the efficacy as a wash-out solution was investigated. Methods. After a warm ischemic time of 30 minutes, the rat liver was washed out via the portal vein with 50 mL of either ringer lactate (RL), HTK or Polysol. After wash-out and harvesting, the liver was reperfused with Krebs-Henseleit buffer. Samples were taken to assess hepatocellular injury and liver function. Results. Liver damage parameters were elevated in the RL group as compared to the HTK and Polysol groups. Liver/rat weight ratios were significantly lower after wash-out with Polysol. Overall, no differences were seen in ammonia clearance and bile production. In conclusion, wash-out of the NHBD liver with Polysol results in equal to improved reperfusion results as compared to HTK. Polysol is feasible as a wash-out solution in combination with machine perfusion using Polyso

Machine perfusion preservation of the pig liver using a new preservation solution, polysol

INTRODUCTION: The current gold standard for donor liver preservation is cold storage in a preservation solution (4 degrees C), such as Celsior or the University of Wisconsin solution (UW). Recent studies have suggested the benefits of machine perfusion (MP) over cold storage. To improve the results of MP, an enriched preservation solution (named Polysol) was developed, which in a rat liver preservation model proved to be superior to the UW-gluconate solution. The aim of this study was to assess Polysol in a pig liver preservation model. MATERIALS AND METHODS: Female pigs (35 to 40 kg) were used as liver donors. After heparinization, the liver was washed out using Ringer's lactate, followed by the preservation solution (4 degrees C). The liver was preserved for 24 hours by either cold storage using Celsior (n=5) or MP using Polysol (n=5). For analysis of liver damage and function, livers were reperfused for 60 minutes using oxygenated Krebs-Henseleit buffer. RESULTS: CS-Celsior caused significantly more damage compared with MP-Polysol (t=60, AST: 622+/-215 versus 222+/-55; ALT: 17+/-6 versus 5+/-1). Intravascular resistance during reperfusion was significantly higher after CS-Celsior compared with MP-Polysol (t=0, 0.20+/-0.01 and 0.11+/-0.02 mm Hg/mL/min, respectively). No differences were seen regarding ammonia clearance and urea production. In both groups, no bile was produced during reperfusion. CONCLUSIONS: In an ex vivo pig liver preservation model significantly less damage was observed after machine perfusion preservation using Polysol, in comparison to cold storage using Celsio