Detection of Australia antigen (HBAg) in blood donors and hepatoma patients in Mozambique

The evaluation of three different methods (counter mmuno-electrophoresis, latex agglutination and radioimmunoassay) for Australia antigen detection is discussed with regard to their sensitivity in the analysis of sera from blood donors and primary liver cancer patients. The counter immuno-electrophoretic method is the least sensitive, particularly in the analysis of sera from hepatoma patients. The latex agglutination test seems to have the same reliability in both groups, but gave a higher percentage of positive results compared with the radioimmunoassay technique. The value of an improved latex agglutination test for Australia antigen detection in field work in southern Mozambique, is stressed.S. Afr. Med. J. 48, 267 (1974)

Dynamical mechanism for sharp orientation tuning in an integrate-and-fire model of a cortical hypercolumn

Orientation tuning in a ring of pulse-coupled integrate-and-fire (IF) neurons is analyzed in terms of spontaneous pattern formation. It is shown how the ring bifurcates from a synchronous state to a non-phase-locked state whose spike trains are characterized by clustered but irregular fluctuations of the interspike intervals (ISIs). The separation of these clusters in phase space results in a localized peak of activity as measured by the time-averaged firing rate of the neurons. This generates a sharp orientation tuning curve that can lock to a slowly rotating, weakly tuned external stimulus. Under certain conditions, the peak can slowly rotate even to a fixed external stimulus. The ring also exhibits hysteresis due to the subcritical nature of the bifurcation to sharp orientation tuning. Such behavior is shown to be consistent with a corresponding analog version of the IF model in the limit of slow synaptic interactions. For fast synapses, the deterministic fluctuations of the ISIs associated with the tuning curve can support a coefficient of variation of order unity.<br/

Fucoidan hydrogels significantly alleviate oxidative stress and enhance the endocrine function of encapsulated beta cells

Microencapsulating pancreatic islets in immunoprotective hydrogels is a promising cellular therapy for type 1 diabetes. However, a major factor limiting the encapsulated islet efficacy is inflammatory/hypoxia mediated oxidative stress, resulting in impaired insulin secretion and ultimately islet cell death. Fucoidan, a natural polysaccharide, possess strong anti-oxidant properties but its effects on beta cells and encapsulation is unknown. Here, we assessed the anti-oxidant effect of fucoidan on beta cells and its effect on encapsulated beta cell viability and function, using fucoidans extracted from two different seaweeds, namely Fucus vesiculosus (FF) and Ascophyllum nodosum (FA). FF exhibited significantly higher total antioxidant capacity and free radical scavenging activity, significantly alleviating intracellular oxidative stress in INS1E beta cells, when compared to FA. In presence of high glucose, FF fucoidans significantly increased insulin secretion both in a dose- and time-dependent manner. Viability, ATP levels and high-glucose responsiveness of rat islets encapsulated in fucoidan-containing hydrogel (Fucogel) microcapsules were significantly higher compared to those encapsulated in pure alginate microcapsules. Similar results were obtained with INS1E pseudo-islets and neonatal pig islets. Fucogels can provide a redox-modulatory niche and an immune barrier in the same time, presenting as an outstanding biomaterial for bioengineered immunoprotective beta cell replacement devices