The morphofunctional pattern of neuronal biogenic amines in postpartum involution period-an in vivo study.

Postpartum uterine diseases are associated with significant imbalance in the levels of biogenic amines (BAs) in rat uterus. Mast cells (MCs) are the main suppliers of BAs such as serotonin, catecholamines, and histamine in uterus. There is limited evidence of the BA-positive elements involved in the physiological regulation of uterus during postpartum involution. The aim of present study is to determine the concentration and distribution of biogenic amines (BAs) such as histamine, serotonin, and catecholamines in the uterine endometrium, myometrium, and peritoneal fluid (PF) during the postpartum uterine involution. A total of 110 nulliparous outbred female nonpregnant Wistar rats of mature age were divided into eleven groups (n=10 per group) according to days of postpartum involution. Tissue specimens of uterine segments, PF were prepared. Serotonin, catecholamines, and histamine concentrations were examined by fluorescence-histochemical techniques. The fluorescence of the BA-positive elements was detected and analyzed by microspectrofluorimetry. Results were analyzed using the Kruskal-Wallis chi-squared test and pairwise Mann-Whitney-Wilcoxon tests with "Benjamini-Hochberg correction" in R 3.6.3. Mast cells in uterine segments, PF exhibited characteristic yellowish-green fluorescence. The highest MCs number was reported in corpus uteri on the 15th day of postpartum involution. Serotonin, catecholamines, and histamine levels were significantly higher in BA-positive elements in the initial days. BA content was dynamic and relies on the time elapsed after parturition. There was statistically significant difference in the levels of BAs in the cornu and cervix uteri. A single morphofunctional complex of BA supply was noticed in the reproductive system of the rats. The coupled interactions of intra- and extra-organic BA-positive elements was associated with anabolic/catabolic equilibrium in uterus through the metabolism of serotonin, catecholamines, and histamine during postpartum involution.

The Role of Neurogenic Bioamines in Nerve Fibers of Uterus during the Postpartum Involution in Experimental Animal Models.

BACKGROUND: Biogenic amines (BAs) secreted by the sympathetic neural apparatus of rat uterus are reported to be conducive to the uterine functional activity during postpartum involution; the imbalance in BAs ratio could confer postpartum reproductive disorders including improper postpartum involution. OBJECTIVE: The objective of this study is to identify the changes in the density of uterine sympathetic nerves implicated in the pathology of endometriosis, adenomyosis, and delayed uterine involution. The present study aims to ascertain 'serotonin' and 'catecholamine' concentrations in mesenteric mast cells (MCs), and structural elements of nerve fibers across the perivascular plexuses (PPs) and single sympathetic nerve terminals (SST). METHODS: Furthermore, the density of their spatial distribution (SDP and SDT) in the uterine body, cervix, and mesometrium was determined during postpartum involution. Tissue specimens of postpartum uterus were obtained from 55 nulliparous female Wistar outbred strain rats, which were grouped according to the days after parturition at the time of sacrifice. The nerve fibers of PP and SST exhibited emerald green fluorescence, which was detected by glyoxylic acid fluorescence technique; the fluorescence invoked by BAs was identified by microspectrofluorimetry. RESULTS: Concentrations of BAs were extensive in the varicosities of PP and SST on the 10th day. However, the highest BA concentrations were found in structural elements of PP in the uterine mesometrium in the initial days of postpartum. In mesenteric MC, serotonin and catecholamines were at the highest concentration on the 10th day of postpartum. Histamines peaked on the 6th day. CONCLUSION: SDP and SDT were increased significantly in all structural elements of uterine nerve fibers in the uterine body and cervix compared to SDP in mesentery. Considering that catecholamines and serotonin are antagonists in many aspects of their biological action, the ratio of BAs should be well-balanced to maintain anabolic- catabolic equilibrium in the rat uterus.

Complex Treatment and Prosthetic Rehabilitation of an Acquired Maxillofacial Defect with Tumor Invasion: Brief Report.

BACKGROUND: A patient was evaluated with respect to the effects and results of a complex treatment plan for complete dental rehabilitation. Several steps were required. Each step included immunological tests of salivary biomarkers. Clinical and immunological assessments were evaluated on Day 3, Week 2, Month 3, and Month 6 post-surgery. These evaluations guided the decision-making process with regard to preparation of a permanent prosthesis. OBJECTIVE: The aim of the study is to evaluate the response of tissues and organs of the maxillofacial region in patients during dental rehabilitation after maxillofacial surgery. METHODS: Complex treatment and rehabilitation involving cooperation between the specialists in maxillofacial surgery, prosthetic dentistry, and cancer immunology. RESULTS: Long-term monitoring and clinical examination showed a direct relationship between the patient's clinical and dental status and the changes in oral fluid biomarkers. CONCLUSION: The data revealed that the oral fluid biomarkers reflected the patient's adaptation to prosthodontic rehabilitation. Treatment and monitoring of a maxillofacial tumor patient could use biomarkers as a non-invasive indicator.

Statistical Review of the Suicide Attempts Rates Committed on Polish Railway Tracks between the years 2013-2016.

Suicides on railway tracks are one of the most drastic ones. No research concerning this phenomenon has been done to this date in Poland. This article focuses on the connection between suicidal behaviors on Polish railway tracks and sociodemographic traits and presents risk factors. BACKGROUND: The suicide behavior is largely spread among many European countries. Of these, Poland ranks 22nd in terms of suicide attempts. This study aims to highlight the suicide attempts rates on Polish railways lines and their main risk factors. LIMITATIONS: Limited number of available statistical data before 2013. METHOD: Statistical review of the available Central Police headquarters database and analyses of the influence of the risk factors on people's awareness during the suicide attempts and their geographical distribution in Poland during the years 2013 - 2016. The prevalence of railway suicides in individual voivodeships (provinces) in Poland have been indicated in a 3D map. RESULTS: There were 834 cases of railway suicide fatalities across the entire country. Of the total suicide statistics by any means, 3.75% are railway related. The average known age of those committing railway suicides were: 37.9 years for men (n = 627) and 34.6 for women (n = 155). In most cases, suicides were committed by bachelors (54.3%). The largest group of people who committed suicide had a primary level of education (42.0%). Among the suicides, a significant group are unemployed (45.2%). Alcohol intoxication have been established as responsible for a person's lower awareness of his actions in 70.9% of cases. Almost 63.3% of people had a higher propensity for suicidal ideation and behavior, resulting in their being treated for mental health issues. CONCLUSION: Alcohol intoxication, illegal narcotics and psychotropic medication are responsible for a person's lower awareness during his ore her actions, in most of the cases of suicide on Polish railway lines.

The Dawn of Mitophagy: What Do We Know by Now?

Mitochondria are essential organelles for healthy eukaryotic cells. They produce energyrich phosphate bond molecules (ATP) through oxidative phosphorylation using ionic gradients. The presence of mitophagy pathways in healthy cells enhances cell protection during mitochondrial damage. The PTEN-induced putative kinase 1 (PINK1)/Parkin-dependent pathway is the most studied for mitophage. In addition, there are other mechanisms leading to mitophagy (FKBP8, NIX, BNIP3, FUNDC1, BCL2L13). Each of these provides tethering of a mitochondrion to an autophagy apparatus via the interaction between receptor proteins (Optineurin, p62, NDP52, NBR1) or the proteins of the outer mitochondrial membrane with ATG9-like proteins (LC3A, LC3B, GABARAP, GABARAPL1, GATE16). Another pathogenesis of mitochondrial damage is mitochondrial depolarization. Reactive oxygen species (ROS) antioxidant responsive elements (AREs) along with antioxidant genes, including pro-autophagic genes, are all involved in mitochondrial depolarization. On the other hand, mammalian Target of Rapamycin Complex 1 (mTORC1) and AMP-dependent kinase (AMPK) are the major regulatory factors modulating mitophagy at the post-translational level. Protein-protein interactions are involved in controlling other mitophagy processes. The objective of the present review is to analyze research findings regarding the main pathways of mitophagy induction, recruitment of the autophagy machinery, and their regulations at the levels of transcription, post-translational modification and protein-protein interaction that appeared to be the main target during the development and maturation of neurodegenerative disorders.

The Links between Cardiovascular Diseases and Alzheimer's Disease.

The root cause of non-inherited Alzheimer's disease (AD) remains unknown despite hundreds of research studies performed to attempt to solve this problem. Since proper prophylaxis remains the best strategy, many scientists have studied the risk factors that may affect AD development. There is robust evidence supporting the hypothesis that cardiovascular diseases (CVD) may contribute to AD progression, as the diseases often coexist. Therefore, a lack of well-defined diagnostic criteria makes studying the relationship between AD and CVD complicated. Additionally, inflammation accompanies the pathogenesis of AD and CVD, and is not only a consequence but also implicated as a significant contributor to the course of the diseases. Of note, АроЕε4 is found to be one of the major risk factors affecting both the cardiovascular and nervous systems. According to genome wide association and epidemiological studies, numerous common risk factors have been associated with the development of AD-related pathology. Furthermore, the risk of developing AD and CVDs appears to be increased by a wide range of conditions and lifestyle factors: hypertension, dyslipidemia, hypercholesterolemia, hyperhomocysteinemia, gut/oral microbiota, physical activity, and diet. This review summarizes the literature and provides possible mechanistic links between CVDs and AD.

Mitochondrial Dysfunction in Intensive Care Unit Patients.

BACKGROUND: In patients admitted to the Intensive Care Unit (ICU), mortality is high due to multiple organ damage. Mitochondrial dysfunction and impaired oxygen consumption, as causative mechanisms, play a significant role in reducing the activity of immune cells in sepsis, resulting in the progression of the multiple organ dysfunction syndromes (MODS). The evaluation of mitochondrial function in critical care patients in the immune cells, especially in lymphocytes, could reveal the target point that determines mitochondrial failure. OBJECTIVE: To find the relationship between mitochondrial reactive oxygen species production (mROS), mitochondrial membrane potential (ΔΨm), and mitochondrial oxygen consumption (mVO2) in peripheral plasma lymphocytes collected from ICU patients. We also compared these three characteristic mitochondrial functions with C-reactive protein (CRP), serum lactate, and central venous saturation (SvO2) that would enable the prediction of the ultimate outcome. METHODS: Isolated lymphocytes from 54 critical care patients with SIRS by sepsis and non-sepsis etiologies were analyzed with flow cytometry by staining with dihydroethidium and JC-1, measuring mROS, ΔΨm, and mVO2. Clinical variables, such as serum lactate (mmol/L) and C-reactive protein (mg/L) from peripheral blood, were measured in the first 24 hours of admission. A confounding analysis was performed using logistic regression, and a p-value of <0.05 was considered statistically significant. RESULTS: It has been confirmed that there is a drastic increase in reactive oxygen species (ROS) and mVO2 in critically ill patients immediately after exposure to the insult pathogen-associated molecular pattern /damageassociated molecular pattern (PAMPS/DAMPS) and continued for the first 24 hours thereafter. The results showed no significant alterations in the mitochondrial membrane potential (ΔΨm) compared with the lymphocytes in controls. A significant correlation between CRP and SvO2 and a strong positive relationship between CRP, values above 3 mg/l, and white blood cells were observed. CONCLUSION: Lymphocytes from patients with SIRS displayed higher mitochondrial respiratory capacities and reactive oxygen species production compared with controls. Clinical markers of inflammation indirectly evaluate the mitochondrial function, most of which have been validated in a clinical setting.

Extensive tracheal resection in lung cancer and tuberculosis: a case report.

BACKGROUND: Tracheal bifurcation resection remains the greatest challenge in airway reconstruction, especially with extensive lesions. Additionally, lung cancer and pulmonary tuberculosis comorbidity complicate the chemoradiotherapy treatment due to the TB reactivation. This case describes tracheal resection in a patient with both tuberculosis (TB) and lung cancer. CASE PRESENTATION: The patient was diagnosed with right lung tuberculosis and upper lobe cancer with trachea invasion complicated by hemoptysis. A right pneumonectomy with circular trachea bifurcation resection was performed. Radiotherapy and chemotherapy were not administered to avoid TB reactivation. At 5.5 years post-surgery, there was cancer recurrence that was treated with radiation therapy. At 10 years post-surgery, an invasive squamous-cell carcinoma of a three-segment bronchus on the left was revealed. Radiation therapy and a course of chemotherapy were carried out with almost complete tumor regression. CONCLUSIONS: TB presence should not serve as a basis for the refusal of cancer treatment. Combined treatment may be recommended when the main infection focus in the pulmonary parenchyma is removed during surgery.

Malignant Transformation and Associated Biomarkers of Ovarian Endometriosis: A Narrative Review.

This review focuses on pathogenesis of endometriosis, its possible biomarkers and role in endometriosis-associated ovarian cancer. We analyzed various databases to obtain new insights, theories, and biomarkers associated with endometriosis. There are several theories of endometriosis development and biomarker changes including atypical forms. A number of studies have attempted to establish specific, reliable biomarkers to help diagnose endometriosis and endometriosis-associated diseases on the basis of different pathogenetic pathways. Nevertheless, despite intensive research extending even to the molecular level, the origin, natural history, malignant transformation, and laboratory management of endometriosis and related diseases are not yet clearly defined. Therefore, early laboratory diagnoses of endometriosis, its atypical form, and endometriosis-associated ovarian tumors are important problems that require further study in the context of advanced therapeutic strategies to provide maximal health benefits to patients.

The Effect of Short-Term Physical Activity on the Oxidative Stress in Rats with Different Stress Resistance Profiles in Cerebral Hypoperfusion.

Oxidative stress associated with chronic cerebral hypoperfusion is one of the fundamental factors leading to neurodegenerative diseases. To prevent oxidative stress, physical activity is effective. Physical exercise enables development of rehabilitation techniques that can progressively increase patients' stress resistance. We determined the oxidative stress dynamics in experimental hypoperfusion and modeled rehabilitation measures, comparing sex and stress resistance levels. The experiment was performed on 240 Wistar rats of both sexes over a period of 90 days. Based on behavioral test results obtained using the open field test, the rats were divided into active animals with predicted higher stress resistance (HSR) and passive animals with predicted lower stress resistance (LSR). TBA (thiobarbituric acid) plasma concentration of the active products (malondialdehyde-MDA), blood plasma (NO-X) concentration, and L-citrulline (LC) concentration were determined spectrophotometrically at the corresponding wave length (nm). The intensity of oxidative stress was evaluated using the chemoluminscent method to determine the blood plasma antioxidant activity on the BCL-07 biochemoluminometer. This study revealed two stages of oxidative stress: a less pronounced phase covering the first days after surgery and a main one, which starts from the month after the operation to 3 months. Female sex and a high initial level of stress resistance reduced the severity of oxidative stress. Physical activity commencing a week after the surgery resulted in "reloading" the adaptive mechanisms and slowed the onset of the main stage, leading to a decrease in the free-radical process in all studied subgroups and the greater blood plasma (NO)-X decrease in the male animals. Future neuropharmacological intervention most likely will be able to determine the pathophysiology mechanism of chronic brain hypoperfusion and potentially extending adaptive responses.