Development of energy demand and carbon emission dataset for Nile University of Nigeria.

The global energy crisis and ozone layer depletion as a result of carbon emissions have increased the awareness and acceptance of renewable energy sources as an alternative form of electric power, resulting in the sizing of renewable energy sources. However, in order to properly size an energy power system, the information being addressed, such as the load demand, is critical. The Load demand data of Nile University campus is obtained from one of its power stations (PS-1) for a period of eight month. The data was measured from the bus bar of the power station using smart meters on a weekly basis. To power the university campus, the diesel generators are synchronized using Genset controllers with suitable communications interfaces and a SMA hybrid controller, which continually checks the power output of the power sources as well as the working condition of all loads in the busbar. The diesel generators are synchronized using SMA hybrid controllers and combined with the other source of the energy at a common bus bar and used to power the university campus. Additionally, carbon emission data were obtained from the PV solar system reading.

Antimicrobial finishing of textiles using nanomaterials.

Metals, such as copper and silver, can be extremely toxic to bacteria at exceptionally low concentrations. Because of this biocidal activity, metals have been widely used as antimicrobial agents in a multitude of applications related with agriculture, healthcare, and the industry in general. A large number of microorganisms live in the human environment. if the balance of these creatures in nature is disturbed, the health of the individual and society will be threatened due to the production and emission of unpleasant odors and the reduction of health standards. The presence of microorganisms on textiles can cause adverse effects such as discoloration or staining on textiles, decomposition of fibrous materials, reduced strength, and eventually decay of textiles. Most fibers and polymers do not show resistance to the effects of microbes and by providing growth factors for microorganisms such as the right temperature and humidity, nutrients from sweat and fat from skin glands, dead skin cells as well as materials used in the stage of finishing the textiles causes the rapid growth and spread of various microbes. With the advent of nanotechnology, various industries and human daily life underwent changes. In recent years, increasing research on nanoparticles has led to the production of textiles with greater efficiency and added value. These modified textiles prevent the spread of unpleasant odors, the spread, and transmission of diseases. This article reviews the basics and principles of antimicrobial tetiles, as well as a brief overview of antimicrobial materials and nanostructures with antimicrobial properties.

Citicoline improved cardiovascular function in animal model of dysautonomia.

The autonomic nervous system controls cardiovascular function. Autonomic dysfunction or dysautonomia is commonly encountered in several diseases like Parkinson's disease. 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) is a chemical that changes into the neurotoxin MPP+, which causes catecholamine depletion. We aimed to study the effects of citicoline on cardiovascular function in MPTP-treated albino rats. Twenty-four male albino rats were divided into four groups (6 rats/group): negative control received intraperitoneal (i.p.) saline injection for five consecutive days, a positive control (Citicoline group) received citicoline (250 mg/kg) by oral gavage for consecutive 20 days, MPTP treated with MPTP-HCL (30 mg/kg, i.p.) for five consecutive days, MPTP + citicoline treated with MPTP-HCL (30 mg/kg, i.p.) for five consecutive days followed by treatment with oral doses of citicoline (250 mg/kg) for 20 days. Cardiovascular functions evaluated through recording electrocardiogram (ECG), echocardiography, measuring arterial blood pressure and assessment of aortic rings vascular reactivity. Biochemical measurements on cardiac tissue for tyrosine hydroxylase, norepinephrine, glucose transporter 1 (GLUT1), insulin receptor substrate 1 (IRS1), peroxisome proliferator-activated receptor γ co-activator-1 (PPAR-γ co-activator-1) (PGC-1), phosphatase and tensin homolog-induced kinase 1 (PINK1), carnitine palmitoyltransferase I (CPT1), uncoupling protein 2 (UCP2) and adenosine monophosphate-activated protein kinase alpha 2 (AMPKα2). Citicoline increased cardiac norepinephrine and tyrosine hydroxylase and improved markers related to ROS scavenger, mitochondrial permeability, calcium homeostasis on the cellular level, metabolic homeostasis, and mitochondrial biogenesis. We conclude that citicoline improved cardiovascular dysautonomia and that was reflected on cardiac contractility, electrical activity, blood pressure, and vascular reactivity.

Caveolin-1 is expressed on multipotent cells of hair follicles and might be involved in their resistance to chemotherapy.

BACKGROUND: Caveolin-1 is the principal protein that composes caveolae, which are vesicular invaginations present on the plasma membrane of different cell types. Caveolae are involved in a variety of cellular functions including regulation of proliferation rate and resistance to chemotherapeutic drugs. Chemotherapy frequently induces alopecia which is reversible most probably due to the low proliferative rate of hair follicle stem cells and due to the expression of proteins which confer resistance. OBJECTIVES: Using a specific animal model and immunohistochemistry, we analysed the expression of both caveolin-1 and the cell proliferation marker beta-catenin, at different stages of the hair follicle cycle, both before and after doxorubicin (DXR) -induced alopecia. METHODS: Seven-week-old C57BL/6 mice were depilated in order to synchronize hair follicle cycle in the anagen phase. Chemotherapy with DXR 15 mg kg(-1) was used to induce alopecia. Control and treated mice were then sacrificed at precise time points and caveolin-1 expression in hairs at different stages of the cycle were analysed by immunohistochemistry. By double immunofluorescence, colocalization of caveolin-1 and cytokeratin-15 was confirmed in the bulge region. The state of proliferation of cells composing hair follicle was assessed by beta-catenin immunohistochemistry. RESULTS: Caveolin-1 was expressed by the cells of the bulge area, the multipotent compartment of the hair follicle, during all phases of growth (anagen), regression (catagen) and resting (telogen). During the anagen phases, nuclear beta-catenin labelling was not observed in bulge cells, but rather in the deeper portion of the follicle. Damaged hair follicles from DXR-treated mice presented bulge cells which still expressed caveolin-1, suggesting that this protein might play a role in their drug resistance. As expected, no beta-catenin nuclear staining was detectable in DXR-treated hair follicles, indicating the complete lack of proliferative processes. The differential localization of caveolin-1 and beta-catenin suggests that the mutually exclusive expression of these proteins is useful for correct hair regrowth, whether during the physiological cycle or after chemotherapy-induced alopecia. CONCLUSIONS: Expression of caveolin-1 within the multipotent cell compartment of the hair follicle can explain the resistance of bulge cells to many chemotherapeutics, suggested by the reversibility of chemotherapy-induced alopecia.