Histopathological lesions induced by stroke in the encephalon.

Strokes are conditions with a high degree of morbidity and mortality worldwide. These conditions profoundly affect the quality of life of patients; in addition to physical disabilities, patients present various mental disorders, such as mood disorders, anxiety, depression, behavioral disorders, fatigue, etc. Microscopic lesions of the brain parenchyma explain the clinical symptoms and correlate with the severity of the stroke. Our study consisted of the histopathological (HP) and immunohistochemical analysis of brain fragments, collected from 23 patients, with a clinical and imagistic diagnosis of stroke, who died during hospital admission. The microscopic analysis showed that both neurons and glial cells are affected in the ischemic focus. Neuronal death in the ischemic focus was mostly caused by cell necrosis and only about 10% by apoptosis. Regarding vascular lesions, it was observed that the most frequent HP lesion of intracerebral arterioles was arteriosclerosis. The lumen of the arterioles was reduced, and the vascular endothelium had a discontinuous aspect, which indicates a change in the blood-brain barrier. Sometimes the arteriole lumen was completely obstructed, with fibrinoid necrosis in the internal and middle tunic, or with the proliferation of fibroblasts and the formation of young intraluminal connective tissue. Intraparenchymal blood capillaries in the ischemic area showed endothelium discontinuities, lumen collapse, and sometimes massive perivascular edema. As for neuroinflammation, the presence of numerous neutrophils, lymphocytes, plasma cells and macrophages was found in the ischemic focus, forming a complex and inhomogeneous cellular mixture. Of the inflammatory cells present in the ischemic focus and in the ischemic penumbra area, the most numerous were the macrophages. The HP analysis showed that neuroinflammation is very complex and different in intensity from one patient to another, most likely due to associated comorbidities, age, treatment administered until death, etc.

Assessment of tumor microenvironment in gastric adenocarcinoma.

Gastric cancer (GC), despite the current possibilities of early diagnosis and curative treatment, remains a major public health problem, being one of the main causes of cancer, due to its detection in advanced stages. Screening programs applied in Western countries led to low incidence rates in these countries. Helicobacter pylori bacterial infection is considered to be the highest risk factor for the onset of GC because it causes chronic inflammation of the gastric mucosa and damages hydrochloric acid secretory glands, eventually leading to atrophic gastritis, which has a potential to progress to GC. In our study, we aimed at assessing the tumor microenvironment in gastric adenocarcinomas as approximately 90% of GCs are adenocarcinomas. Our study showed that the tumor microenvironment has an extremely complex morphological structure, totally different from the microscopic structure of the gastric wall, consisting of stromal cells, lymphocytes, plasma cells, macrophages, blood vessels, collagen fibers, extracellular connective matrix, other cells. The tumor microenvironment presents phenotypic, cellular and molecular heterogeneity; therefore, the microscopic aspect differs from one tumor to another and even from one region to another in the same tumor. Poorly or moderately differentiated adenocarcinomas show a more intense desmoplastic reaction than well-differentiated ones. Alpha-smooth muscle actin (α-SMA)-positive stromal cells (tumor-associated fibroblasts) and tumor macrophages were the most numerous cells of the tumor microenvironment. The tumor microenvironment is the result of cooperation between tumor cells, cancer-associated fibroblasts, immune system cells and blood vessels. It allows tumor cells to multiply, grow and metastasize.

Assessment of tumoral and peritumoral inflammatory reaction in cutaneous malignant melanomas.

Skin cancer is one of the most common types of cancer, with an increasing worldwide incidence in recent decades. The main risk factor for increasing the skin cancer incidence is ultraviolet (UV) radiation. Of the two major forms of skin cancer (melanomas and non-melanotic cancers), the cutaneous melanoma (CM) is the most aggressive form, causing about 80% of the deaths resulted from this type of tumor. Malignant melanoma develops through malignant transformation of melanocytes in the skin because of prolonged exposure to solar or artificial UV. The malignant transformation of the melanocytes in the skin is accompanied by the presence of a local inflammatory reaction that, in the initial stages of carcinogenesis, would oppose to tumor development. Chronic exposure to UV or other etiopathogenic factors induces chronic inflammation, which, by producing inflammatory molecules (cytokines, chemokines, prostaglandins), constitutes a tumoral microenvironment that favors carcinogenesis, tumor invasion, metastasis, and the presence of neoplastic "mutant cells" that avoid the protective action of the immune system. Using immunohistochemistry techniques, we assessed the intra- and peritumoral inflammatory infiltrate cells in CM. The chronic inflammatory infiltrate presented more intense in the peritumoral stroma compared to the intratumoral one, heterogenous, more intensely composed of lymphocytes, plasma cells, macrophages, and mast cells (MCs), the most numerous cells in the inflammatory infiltrate being T-lymphocytes, plasma cells and macrophages; B-lymphocytes and MCs were in a small number, especially intratumorally. Inflammatory cells had a direct contact with tumor cells, blood vessels, connective matrix, suggesting that the inflammatory microenvironment plays an important role in carcinogenesis, tumor invasion, local angiogenesis, and tumor metastasis.

Tau protein in neurodegenerative diseases - a review.

The study of rare, inherited forms of different diseases resulted in the discovery of gene defects that cause inherited variants of the respective diseases. The defective genes were found to encode major molecular players leading to the neuropathological lesions or factors that characterize these diseases. The exact role of the tau protein in the neurodegenerative process is still under debate. It is very important to understand the normal biological roles of tau and the specific events that induce tau to become neurotoxic. Tau is the major microtubule-associated protein (MAP) of a mature neuron. The other neuronal MAPs are MAP1 and MAP2. These three MAPs perform similar function, promoting assembly and stability of microtubules. Tau protein was isolated as a microtubule-associated factor in the porcine brain. It was isolated as a protein that co-purified with tubulin and had the ability to promote microtubule assembly in vitro. Normal adult human brain tau contains 2-3 moles phosphate÷mole of tau protein. Hyperphosphorylation of tau depress this biological activity of tau. Almost 80 diseases caused by missense mutations and intronic mutations in the tau gene have been found in familial cases of frontotemporal dementia (FTD). In Alzheimer's disease (AD), there are intraneuronal neurofibrillary tangles composed of the microtubule-associated protein tau (MAPT). In other neurodegenerative diseases, there are similar deposits of tau, in the absence of extracellular deposits (progressive supranuclear palsy, corticobasal degeneration, argyrophilic grain disease, etc.). Tau pathology is also often seen in some forms of Parkinson's disease (PD) and prion diseases. In genetic forms of FTD, mutations in tau implicate abnormal tau as the initiation of neurodegeneration. In FTD, there are deposits especially in temporal and frontal lobes, regions that are very important for behavior and executive function. It is critical to understand how tau becomes pathogenic, in order to consider developing any strategies for treatment.

Study on cognitive decline in patients diagnosed with brain tumors.

AIM: The purpose of our study was to assess the cognitive performance in patients with primitive brain tumors and to analyze the cognitive status of these patients, correlated with histological type of brain tumors. PATIENTS, MATERIALS AND METHODS: The study enrolled 52 patients diagnosed with primitive brain tumors, hospitalized in Neuropsychiatry Hospital of Craiova, Romania, from December 2013 to December 2015. According to the histological type of tumors, the patients were classified into three groups: Group A included 22 patients with meningioma, Group B composed of 16 patients diagnosed with glioblastoma, and Group C including 14 patients diagnosed with diffuse astrocytoma. Neurological examination, neuroimaging assessment [computed tomography (CT) or magnetic resonance imaging (MRI) for skulls] to diagnose primitive brain tumors, then the confirmation of clinical and histopathological diagnoses were performed for these patients. For cognitive assessment performed before surgery, Montreal Cognitive Assessment (MoCA) and Cambridge Cognitive Examination (CAMCOG) scales were used. The results were statistically analyzed using the Student's t-test; p-values less than 0.05 were considered statistically significant. RESULTS: In terms of age, we did not observe statistically significant differences between the three groups of patients. The group of patients with diffuse astrocytoma presented a higher educational level compared to patients with glioblastoma or meningioma. MoCA score obtained in glioblastoma group was 21.7 points, while in the group of patients with diffuse astrocytoma was 23.5 points, and in the group of patients with meningioma 24.2 points. The cognitive assessment using CAMCOG scale led to the following results: group of patients diagnosed with glioblastoma showed an average score of 83.5 points, the diffuse astrocytoma group had an average score of 88.9 points and the group with meningioma an average score of 90.1 points. CONCLUSIONS: Patients diagnosed with glioblastoma showed a statistically significant cognitive decline in comparison to patients diagnosed with diffuse astrocytoma (p<0.05). We did not notice statistically significant differences in the cognitive decline of patients with meningioma compared to those diagnosed with diffuse astrocytoma (p>0.05).