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Optimal Survival (optimal + survival)

Distribution by Scientific Domains
Life Sciences50%

Selected Abstracts

Genetic heterogeneity and functional properties of intestinal bifidobacteria

JOURNAL OF APPLIED MICROBIOLOGY, Issue 3 2004
J. Mättö
Abstract Aims:, The aim of the present study was to compare several molecular methods for the identification and genotyping of bifidobacteria, and further to investigate genetic heterogeneity and functional properties of bifidobacterial isolates from intestinal samples of Finnish adult subjects. Methods and Results:, A total of 153 intestinal bifidobacterial isolates were included in initial screening and 34 isolates were further characterized. Identification results obtained with PCR,ELISA and ribotyping were well in accordance with each other, while randomly amplified polymorphic DNA (RAPD) gave tentative identification only to Bifidobacterium bifidum and to 65% of the B. longum isolates. The most commonly detected species were B. longum biotype longum followed by B. adolescentis and B. bifidum. In addition, B. animalis (lactis), B. angulatum and B. pseudocatenulatum were found. Ribotyping and pulsed-field gel electrophoresis (PFGE) proved to be discriminatory methods for bifidobacteria, but also RAPD revealed intraspecies heterogeneity. Besides two B. animalis (lactis) isolates with very close similarity to a commercially available probiotic strain, none of the intestinal isolates showed optimal survival in all tolerance (acid, bile and oxygen) or growth performance tests. Conclusions:, Several species/strains of bifidobacteria simultaneously colonize the gastrointestinal tract of healthy Finnish adults and intestinal Bifidobacterium isolates were genetically heterogeneous. Functional properties of bifidobacteria were strain-dependent. Significance and Impact of the Study:, Applicability of ribotyping with the automated RiboPrinter® System for identification and genotyping of bifidobacteria was shown in the present study. [source]

Bilateral thoracoscopy, mediastinoscopy and laparoscopy, in addition to CT, MRI and PET imaging, are essential to correctly stage and treat patients with mesothelioma prior to trimodality therapy,

ANZ JOURNAL OF SURGERY, Issue 10 2009
John M. Alvarez
Abstract Background:, Trimodality therapy (TMT; extrapleural pneumonectomy (EPP), chemotherapy and radiation therapy) offers the potential of optimal survival in selected patients with Brigham stage I,II epitheliod mesothelioma based on CT, MRI and PET scanning. We hypothesized that these scanning modalities were inadequate to accurately stage these patients. Methods:, Patients suitable for TMT, in addition to CT, MRI and PET scanning, prior to EPP, underwent bilateral thoracoscopy, mediastinoscopy and laparoscopy (surgical staging). Follow-up CT scans were performed, six monthly, quality of life assessments yearly. Results:, From 1 June 2004 to 28 February 2007, 34 patients were referred; mean age was 66 years (range: 44,69). Surgical staging was performed in 30 patients; 24 patients were confirmed as Brigham Stage I,II. However, six were upstaged, five as stage IV disease (one contralateral chest, two contralateral chest and abdomen, two abdomen) and one as mediastinal node positive; two further patients were reclassified histologically (one sarcomatoid, one biphasic). These eight patients fared poorly, 50% dying within 1 year from mesothelioma. Following surgical staging, 3 patients declined further surgery; thus, 19 patients proceeded to surgery, 3 were unresectable and 16 received EPP. Follow-up of all 34 patients is complete. Conclusion:, Surgical staging identified 26% of patients who would have received no benefit from TMT. [source]

Feeding strategies for striped blenny Meiacanthus grammistes larvae

AQUACULTURE RESEARCH, Issue 9 2010
Ike Olivotto
Abstract Rotifers and Artemia salina nauplii are the most widely used live prey for newly hatched larvae, but they do not always promote optimal survival and growth. Alternative food sources such as copepods, which bypass these inadequacies and promote adequate growth, are needed and they are viewed with considerable interest by the scientific community. The aim of the present study was to test two different diets [rotifers and A. salina nauplii (group A) and a mixture (group B) of rotifers/Tisbe spp. copepods and A. salina nauplii/copepods] during the larval rearing of the striped blenny Meiacanthus grammistes. The analysis of the survival rate, size (total length and wet weight) and metamorphosis time during the larval phase of this species showed that Tisbe spp. administration can significantly improve larval survival and growth and also reduce the metamorphosis time. The results obtained are related to the fatty acid content of the live prey used and are essential in order to improve the captive production of M. grammistes through a closed system and, in turn, to preserve natural stocks. [source]

Physiological Ecology of Aquatic Overwintering in Ranid Frogs

BIOLOGICAL REVIEWS, Issue 2 2008
Glenn J. Tattersall
Abstract In cold-temperate climates, overwintering aquatic ranid frogs must survive prolonged periods of low temperature, often accompanied by low levels of dissolved oxygen. They must do so with the energy stores acquired prior to the onset of winter. Overwintering mortality is a significant factor in their life history, occasionally reaching 100% due to freezing and/or anoxia. Many species of northern ranid frogs overwinter in the tadpole stage, which increases survival during hypoxic episodes relative to adults, as well as allowing for larger sizes at metamorphosis. At temperatures below 5 °C, submerged ranid frogs are capable of acquiring adequate oxygen via cutaneous gas exchange over a wide range of ambient oxygen partial pressures (PO2), and possess numerous physiological and behavioural mechanisms that allow them to maintain normal rates of oxygen uptake across the skin at a relatively low PO2. At levels of oxygen near and below the critical PO2 that allows for aerobic metabolism, frogs must adopt biochemical mechanisms that act to minimise oxygen utilisation and assist in maintaining an aerobic state to survive overwintering. These mechanisms include alterations in mitochondrial metabolism and affinity, changes in membrane permeability, alterations in water balance, and reduction in cellular electrochemical gradients, all of which lead to an overall reduction in whole-animal metabolism. Winter energetic requirements are fueled by the energy stores in liver, muscle, and fat depots, which are likely to be sufficient when the water is cold and well oxygenated. However, under hypoxic conditions fat stores cannot be utilised efficiently and glycogen stores are used up rapidly due to recruitment of anaerobiosis. Since ranid frogs have minimal tolerance to anoxia, it is untenable to suggest that they spend a significant portion of the winter buried in anoxic mud, but instead utilise a suite of behavioural and physiological mechanisms geared to optimal survival in cold, hypoxic conditions. [source]