Katarzyna Matusiak

Elemental anomalies in the hippocampal formation after repetitive electrical stimulation: an X-ray fluorescence microscopy study

Our previous studies carried out on the pilocarpine model of seizures showed that highly resolved elemental analysis might be very helpful in the investigation of processes involved in the pathogenesis of epilepsy, such as excitotoxicity or mossy fiber sprouting. In this study, the changes in elemental composition that occurred in the hippocampal formation in the electrical kindling model of seizures were examined to determine the mechanisms responsible for the phenomenon of kindling and spontaneous seizure activity that may occur in this animal model. X-ray fluorescence microscopy was applied for topographic and quantitative analysis of selected elements in tissues taken from rats subjected to repetitive transauricular electroshocks (ES) and controls (N). The detailed comparisons were carried out for sectors 1 and 3 of the Ammon’s horn (CA1 and CA3, respectively), the dentate gyrus (DG) and hilus of DG. The obtained results showed only one statistically significant difference between ES and N groups, namely a higher level of Fe was noticed in CA3 region in the kindled animals. However, further analysis of correlations between the elemental levels and quantitative parameters describing electroshock-induced tonic and clonic seizures showed that the areal densities of some elements (Ca, Cu, Zn) strongly depended on the progress of kindling process. The areal density of Cu in CA1 decreased with the cumulative (totaled over 21 stimulation days) intensity and duration of electroshock-induced tonic seizures while Zn level in the hilus of DG was positively correlated with the duration and intensity of both tonic and clonic seizures.

Various ketogenic diets can differently support brain resistance against experimentally evoked seizures and seizure-induced elemental anomalies of hippocampal formation

In this paper the influence of two different ketogenic diets (KDs) on the seizure-evoked elemental anomalies of hippocampal formation was examined. To achieve this purpose normal and pilocarpine treated rats previously fed with one of the two high fat and carbohydrate restricted diets were compared with animals on standard laboratory diet. The ketogenic ratios of the examined KDs were equal to 5:1 (KD1) and 9:1 (KD2). KD1 and standard diet fed animals presented similar patterns of seizure-evoked elemental changes in hippocampal formation. Also the analysis of behavioral data recorded after pilocarpine injection did not show any significant differences in intensity and duration of seizures between KD1 and standard diet fed animals. Higher ketogenic ratio KD2 introduced in the normal hippocampal formation prolonged changes in the accumulation of P, K, Zn and Ca. Despite this, both the intensity and duration of seizures were significantly reduced in rats fed with KD2 which suggests that its saving action on the nerve tissue may protect brain from seizure propagation. Also seizure-evoked elemental anomalies in KD2 animals were different than those observed for rats both on KD1 and standard diets. The comparison of seizure experiencing and normal rats on KD2, did not show any statistically significant differences in elemental composition of CA1 and H hippocampal areas whilst in CA3 area only Zn level changed as a result of seizures. DG was the area mostly affected by seizures in KD2 fed rats but areal densities of all examined elements increased in this hippocampal region.

Dynamic heart phantom for the quality control of SPECT equipment.

A nuclear imaging of heart is a noninvasive procedure that reveals the cardiac structure and physiology enabling evaluation of cardiac function. According to the regulations published by the Polish Government and the Polish Ministry of Health, the nuclear medicine departments must follow the new legislation which has imposed quality assurance (QA) and quality control (QC) of equipment and medical testing procedures as compulsory. The foremost reason to perform QC tests of medical imaging equipment, using ionizing radiation, is to assure the provision of the best possible diagnostic service to the patient with the least radiological hazard. One of the most common ways of testing in nuclear medicine is using phantoms. The aim of this study was to design and perform a dynamic heart phantom. The heart phantom was designed according to directive of the ICRU Report 48. It consists of a pump, tubes, cardiac volume and a membrane simulating left ventricle. The pump compresses and decompresses membrane. The pumping frequency can be changed from 60 to 200 bpm. The phantom cardiac volume should be filled with radiopharmaceutical. The elaborated dynamic heart phantom is used for QC of imaging system in nuclear medicine department. The QC measurements were performed with the phantom filled with 45-50 MBq of (99m)Tc-MIBI solution and placed in water filled anthropomorphic torso phantom. The dynamic heart phantom can also be used to simulate all types of the myocardial infarctions and help to choose the best geometry of the measurement.

Low doses of polyethylene glycol coated iron oxide nanoparticles cause significant elemental changes within main organs

The main goal of this study was to evaluate the elemental changes occurring in the main rat organs (kidneys, spleen, heart, brain) as a result of polyethylene glycol-coated magnetic iron oxide nanoparticles (PEG-IONPs) administration. For this purpose, 24 animals were divided into four equinumerous groups, and the three of them were intravenously injected with PEG-IONPs dispersed in 15% solution of mannitol in dose of 0.03 mg of Fe per 1 kg of body weight. The organs were collected 2 h, 24 h and 7 days passing from NPs administration, respectively, for the 2H, 24H, and 7D experimental groups. The forth group of animals, namely control group, was injected with 1 mL of physiological saline solution. For the analysis of subtle elemental changes occurring in the organs after nanoparticles injection, highly sensitive method of total reflection X-ray fluorescence spectroscopy was used. Obtained results showed that administration of even such low doses of PEG-IONPs may lead to statistically significant changes in the accumulation of selected elements within kidneys and heart. Two hours and 7 days from NPs injection, the Fe level in kidneys was higher compared to that of control rats. Elevated levels of Cu, possibly associated with systemic action of ceruloplasmine enzyme, were found within kidneys in 24H and 7D groups, while in heart the similar observation was done only for 24H group. The levels of Ca and Zn increased in kidneys and heart during the first 2 h from the injection and were again elevated in these organs 7 days later. The abnormalities in Ca and Zn accumulations occurring exactly in the same manner may suggest that these elements may interplay either in the mechanisms responsible for the detoxification of the PEG-IONPs or pathological processes occurring as a result of their action.

The elemental changes occurring in the rat liver after exposure to PEG-coated iron oxide nanoparticles : total reflection x-ray fluorescence (TXRF) spectroscopy study

Abstract The main goal of this study was to evaluate in vivo effects of low dose of PEG-coated magnetic iron oxide nanoparticles (IONPs) on the rat liver. The IONPs was intravenously injected into rats at a dose equaled to 0.03 mg of Fe per 1 kg of an animal body weight. The elemental composition of liver tissue in rats subjected to IONPs action and controls were compared. Moreover, in order to determine the dynamics of nanoparticles (NPs) induced elemental changes, the tissues taken from animals 2 hours, 24 hours, and 7 days from IONPs injection were examined. The analysis of subtle elemental anomalies occurring as a result of IONPs action required application of highly sensitive analytical method. The total reflection X-ray fluorescence spectroscopy perfectly meets such requirements and therefore it was used in this study. The obtained results showed increasing trend of Fe level within liver occurring 2 hours from IONPs injection. One day after NPs administration, the liver Fe content presented the baseline level what suggests only the short-term accumulation of nanoparticles in the organ. The Ca, Cu, and Zn levels changed significantly as a result of NPs action. Moreover, the anomalies in their accumulation were still observed 7 days after IONPs injection. The level of Cu decreased while those of Ca and Zn increased in the liver of NPs-treated animals. The reduced liver Cu, followed by elevated serum level of this element, might be related in triggering the mechanisms responsible for Fe metabolism in the organism.

Evaluation of spatial and seasonal radioactivity dose fluctuations in a Wierzchowska Górna limestone cave

Measurements of the dose rate changes were carried out in order to assess seasonal and spatial radioactivity variations in the largest limestone cave of the Polish Jura Wierzchowska Górna. Thermoluminescence detectors, which were annealed, calibrated and protected against humidity were used. Measurements were repeated four times in 13 locations to observe possible changes. The external dose rate was in the range of 0.004–0.106 mGy/quarter. The results were influenced by the detector locations – lower doses were estimated closer to the cave entrance and the highest doses were in the so-called ‘primitive man room’. Doses measured in four periods were statistically significantly different. The external dose level as well as seasonal and spatial dose changes measured in the cave were low. In other caves where external doses are higher, seasonal and spatial dose changes may have a stronger impact on radiological hazard.