31 research outputs found
Information and Communication Technology (Ict) Integration Into Science, Technology, Engineering And Mathematic (Stem) In Nigeria
As Nigeria aspires for technological growth, positive changes need be made by placing proper educational values towards Science, Technology, Engineering and Mathematics (STEM) education. Some problems faced by STEM include lack of qualified teachers, curriculum, the misconception that STEM
education is reserved for the less intelligent in the society, amongst others. Need thus arises, to develop alternative strategies to alleviate such problems. Bridging ICT and constructivism will exponentially change educational processes of both teachers and students to succeed as well as present new forms of learning environment. It will also unveil the power shift in educational structures; equip students to become knowledge producers rather than consumers. Thus, an ICT-Constructivist rich class will help teachers enfranchise, emancipate students academically with a framework that measures quality of engaged student’s learning. This paper aims to reveal links between effective use of ICT and the long
neglected theory of constructivism in the area of STEM education.
Keywords: Constructivism, Rationale, informatics, productivity, meida literacy, lifelong
The response to carbogen breathing in experimental tumour models monitored by gradient-recalled echo magnetic resonance imaging.
Gradient-recalled echo magnetic resonance imaging (GRE MRI), which gives information on blood flow and oxygenation changes (Robinson SP, Howe FA, Griffiths JR 1995, Int J Radiat Oncol Biol Phys 33: 855), was used to observe the responses of six rodent tumour models to carbogen breathing. In one transplanted rat tumour, the Morris hepatoma 9618a, and a chemically induced rat tumour, the MNU-induced mammary adenocarcinoma, there were marked image intensity increases, similar to those previously observed in the rat GH3 prolactinoma. In contrast, the rat Walker carcinosarcoma showed no response. In two mouse tumours, the RIF-1 fibrosarcoma and the human xenograft HT29, carbogen breathing induced a transient fall in signal intensity that reversed spontaneously within a few minutes. The rat GH3 prolactinoma was xenografted into nude mice, and an increase in image intensity was found in response to carbogen, suggesting that any effects that carbogen may have had on the host were not significant determinants of the tumour response. The increases in GRE image intensity of the MNU, H9618a and GH3 tumours during carbogen breathing are consistent with increases in tumour oxygenation and blood flow, whereas the responses of the RIF-1 and HT29 tumours may be the result of a transient steal effect followed by homeostatic correction
Intrusion Detection Systems Based on Artificial Intelligence Techniques in Wireless Sensor Networks
[EN] Intrusion detection system (IDS) is regarded as the second line of defense against network anomalies and threats. IDS plays an important role in network security. There are many techniques which are used to design IDSs for specific scenario and applications. Artificial intelligence techniques are widely used for threats detection. This paper presents a critical study on genetic algorithm, artificial immune, and artificial neural network (ANN) based IDSs techniques used in wireless sensor network (WSN)The authors extend their appreciation to the Distinguished Scientist Fellowship Program(DSFP) at King Saud University for funding this research.Alrajeh, NA.; Lloret, J. (2013). Intrusion Detection Systems Based on Artificial Intelligence Techniques in Wireless Sensor Networks. International Journal of Distributed Sensor Networks. 2013(351047):1-6. https://doi.org/10.1155/2013/351047S16201335104
Hypoxia and oxidative stress in breast cancer: Tumour hypoxia – therapeutic considerations
Conclusive research has shown that regions of acute/chronic hypoxia, which exist within the majority of solid tumours, have a profound influence on the therapeutic outcome of cancer chemotherapy and radiotherapy and are a strong prognostic factor of disease progression and survival. A strong argument therefore exists for assessing the hypoxic fraction of tumours, prior to patient treatment, and to tailor this treatment accordingly. Tumour hypoxia also provides a powerful physiological stimulus that can be exploited as a tumour-specific condition, allowing for the rationale design of hypoxia-activated anticancer drugs or novel hypoxia-regulated gene therapy strategies
Fizikalni mehanizmi i metode u tumorskim terapijama i prijenosu lijekova do tumora
In addition to several well-known drug delivery strategies developed to facilitate effective chemotherapy with anticancer agents, some new approaches have been recently established, based on specific effects arising from the applications of ultrasound, magnetic and electric fields on drug delivery systems. This paper gives an overview of newly developed methods of drug delivery to tumors and of the related anticancer therapies based on the combined use of different physical methods and specific drug carriers. The conventional strategies and new approaches have been put into perspective to revisit the existing and to propose new directions to overcome the threatening problem of cancer diseases.Osim dobro poznatih metoda prijenosa lijekova u kemoterapijskom pristupu lijeÄŤenja tumora, nedavno su otkriveni novi naÄŤini prijenosa koji se zasnivaju na specifiÄŤnim mehanizmima uzrokovanim upotrebom ultrazvuka, magnetskih i elektriÄŤnih polja. ÄŚlanak sadrĹľi prikaz fizikalnih mehanizama na kojima se temelje ove nove metode, kao i pregled novootkrivenih prijenosnika lijekova (Pluronske micele, magnetoliposomi, magnetski fluidi), novih terapija tumora (magnetska hipertermija, elektrokemoterapija) i najnovijih istraĹľivanja temeljenih na fizikalnom pristupu ovoj problematici
The role of pH in 5-fluouracil trapping in tumors An NMR investigation
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN030645 / BLDSC - British Library Document Supply CentreGBUnited Kingdo
Can localised 19F magnetic resonance spectroscopy pharmacokinetics of 5FU in colorectal metastases predict clinical response?
Background 5-Fluorouracil remains widely used in
colorectal cancer treatment more than 40 years after its
development. 19F magnetic resonance spectroscopy can be
used in vivo to measure 5FU’s half-life and metabolism to
cytotoxic fluoronucleotides. Previous studies have shown
better survival associated with longer 5FU tumour half-life.
This work investigated 5FU pharmacokinetics in liver
metastases of colorectal cancer.
Methods A total of 32 subjects with colorectal cancer
undergoing 5FU treatment, 15 of whom had liver metastases,
were examined in a 1.5T MRI scanner, using a large
coil positioned over the liver. Non-localised spectra were
acquired in 1-min blocks for 32 min after injection of a
5FU bolus. The 5FU half-life was measured in each subject,
and averaged spectra were examined for the presence
of fluoronucleotides. Associations with progression-free
survival were assessed.
Results No association was observed between 5FU halflife,
tumour burden and survival. Half-lives were all shorter
than those associated with improved survival in the literature.
Remarkably, in the group with liver metastases, high
levels of fluoronucleotides were associated with poorer
survival; this counterintuitive result may be due to the
higher levels of fluoronucleotides (whose level is higher in
tumour tissue than in normal liver) in patients with higher
tumour burdens.
Conclusions It is recommended that future studies use
chemical shift imaging at higher field strengths to better
resolve tumour from normal liver. Non-localised spectroscopy
retains prognostic potential by enabling straightforward
detection of fluoronucleotides, which are present at
very low concentrations distributed throughout the tissue
Connexin-43 channels are a pathway for discharging lactate from glycolytic pancreatic ductal adenocarcinoma cells.
Glycolytic cancer cells produce large quantities of lactate that must be removed to sustain metabolism in the absence of oxidative phosphorylation. The only venting mechanism described to do this at an adequate rate is H+-coupled lactate efflux on monocarboxylate transporters (MCTs). Outward MCT activity is, however, thermodynamically inhibited by extracellular acidity, a hallmark of solid tumours. This inhibition would feedback unfavourably on metabolism and growth, raising the possibility that other venting mechanisms become important in under-perfused tumours. We investigated connexin-assembled gap junctions as an alternative route for discharging lactate from pancreatic ductal adenocarcinoma (PDAC) cells. Diffusive coupling (calcein transmission) in vitro was strong between Colo357 cells, weaker yet hypoxia-inducible between BxPC3 cells, and very low between MiaPaCa2 cells. Coupling correlated with levels of connexin-43 (Cx43), a protein previously linked to late-stage disease. Evoked lactate dynamics, imaged in Colo357 spheroids using cytoplasmic pH as a read-out, indicated that lactate anions permeate gap junctions faster than highly-buffered H+ ions. At steady-state, junctional transmission of lactate (a chemical base) from the spheroid core had an alkalinizing effect on the rim, producing therein a milieu conducive for growth. Metabolite assays demonstrated that Cx43 knockdown increased cytoplasmic lactate retention in Colo357 spheroids (diameter ~150 μm). MiaPaCa2 cells, which are Cx43 negative in monolayer culture, showed markedly increased Cx43 immunoreactivity at areas of invasion in orthotopic xenograft mouse models. These tissue areas were associated with chronic extracellular acidosis (as indicated by the marker LAMP2 near/at the plasmalemma), which can explain the advantage of junctional transmission over MCT in vivo. We propose that Cx43 channels are important conduits for dissipating lactate anions from glycolytic PDAC cells. Furthermore, lactate entry into the better-perfused recipient cells has a favourable alkalinizing effect and supplies substrate for oxidative phosphorylation. Cx43 is thus a novel target for influencing metabolite handling in junctionally-coupled tumours.peerReviewe