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Nutritional Mode (nutritional + mode)

Distribution by Scientific Domains
Life Sciences60%

Selected Abstracts

Elective gastrostomy, nutritional status and quality of life in advanced head and neck cancer patients receiving chemoradiotherapy

ANZ JOURNAL OF SURGERY, Issue 10 2009
Randall P. Morton
Abstract Background:, Chemoradiotherapy for treatment of advanced head and neck cancer (HNC) is used to achieve organ preservation without compromising survival. Because chemoradiotherapy usually impacts adversely on nutritional and functional status, feeding by percutaneous endoscopic gastrostomy (PEG) is often part of the management regimen for these patients, but the presence of a PEG tube can also be associated with reduced quality of life (QOL). This study aimed to examine the factors associated with PEG insertion and the effects of PEG use on QOL and functional outcomes in HNC patients receiving chemoradiotherapy. Method:, Survey of 36 consecutive patients treated by primary chemoradiotherapy for HNC. Patient weight, age, tumour type, details of PEG insertion, feeding regimens and treatment were noted. The survey comprised the Performance Status Scale, the Functional Measure for Swallowing, Nutritional Mode and a self-assessment of QOL. Results:, PEG insertion within 1 month of treatment was associated with smaller fall in body mass index at 12 months than PEG insertion 1 month or more after the start of the treatment (P < 0.05). Body mass index change was inversely correlated with health-related quality of life and significantly related to lower speech and swallowing function scores. Longer PEG duration correlated with poorer performance status and swallowing function (P < 0.01). Longer PEG duration also predicted poorer overall QOL (P < 0.01) and poorer swallowing (P < 0.01) and speech (P < 0.05). Nutritional mode was related to overall QOL (P < 0.01). Conclusions:, Nutritional support for HNC patients undergoing chemoradiotherapy is an essential component of patient care. Early PEG insertion and shorter PEG duration are associated with more favourable QOL-related outcomes. [source]

Thyroid hormones determine developmental mode in sand dollars (Echinodermata: Echinoidea)

EVOLUTION AND DEVELOPMENT, Issue 6 2004
Andreas Heyland
Summary Evolutionary transitions in larval nutritional mode have occurred on numerous occasions independently in many marine invertebrate phyla. Although the evolutionary transition from feeding to nonfeeding development has received considerable attention through both experimental and theoretical studies, mechanisms underlying the change in life history remain poorly understood. Facultative feeding larvae (larvae that can feed but will complete metamorphosis without food) presumably represent an intermediate developmental mode between obligate feeding and nonfeeding. Here we show that an obligatorily feeding larva can be transformed into a facultative feeding larva when exposed to the thyroid hormone thyroxine. We report that larvae of the subtropical sand dollar Leodia sexiesperforata (Echinodermata: Echinoidea) completed metamorphosis without exogenous food when treated with thyroxine, whereas the starved controls (no thyroxine added) did not. Leodia sexiesperforata juveniles from the thyroxine treatment were viable after metamorphosis but were significantly smaller and contained less energy than sibling juveniles reared with exogenous food. In a second starvation experiment, using an L. sexiesperforata female whose eggs were substantially larger than in the first experiment (202±5 vs. 187±5 ,m), a small percentage of starved L. sexiesperforata larvae completed metamorphosis in the absence of food. Still, thyroxine-treated larvae in this experiment completed metamorphosis faster and in much higher numbers than in the starved controls. Furthermore, starved larvae of the sand dollar Mellita tenuis, which developed from much smaller eggs (100±2 ,m), did not complete metamorphosis either with or without excess thyroxine. Based on these data, and from recent experiments with other echinoids, we hypothesize that thyroxine plays a major role in echinoderm metamorphosis and the evolution of life history transitions in this group. We discuss our results in the context of current life history models for marine invertebrates, emphasizing the role of egg size, juvenile size, and endogenous hormone production for the evolution of nonfeeding larval development. [source]

Stoichiometric relationships in vernal pond plankton communities

FRESHWATER BIOLOGY, Issue 7 2008
CARLA E. CÁCERES
Summary 1. The light-nutrient hypothesis (LNH) predicts that changes in light supply can alter the balance of nutrient and energy limitation in primary producers. We tested this prediction by examining temporal changes in vernal forest ponds, which are highly dynamic systems with respect to seasonal change in light and nutrient supply. In three vernal ponds that differ in productivity, we measured changes in light, total and seston nitrogen and phosphorus, and seston carbon and chlorophyll during the spring, before and after tree leaf-out. We also quantified changes in the population dynamics of the major zooplankton grazers in these systems. 2. In each pond, nutrient levels increased and light levels declined, creating a temporal shift in light-nutrient supply to the plankton. Results generally supported predictions of stoichiometric theory and the LNH, but there were notable exceptions. 3. Seston C : N : P ratios rapidly changed in response to dramatic increases in N and P supply rates. However, seston N : P was typically lower than values for total N : P in the water. Furthermore, as predicted, we observed a decline in seston C : P as the light : nutrient ratio declined, but seston C : N simultaneously increased. These results suggest an unexpected shift towards potential nitrogen limitation. Alternatively, this change in nutrient ratios may be driven by a seasonal change in phytoplankton composition or nutritional mode. 4. Seston carbon concentrations remained stable despite seasonal changes in grazing intensity associated with the phenology of large-bodied Daphnia grazers. However, chlorophyll concentrations declined dramatically as the season progressed, resulting in a simultaneous decline in the C : Chlorophyll ratio of seston. Both pond shading and increased grazing probably contributed to the decline in chlorophyll. [source]

Kleptoplasty in an Antarctic dinoflagellate: caught in evolutionary transition?

ENVIRONMENTAL MICROBIOLOGY, Issue 1 2007
Rebecca J. Gast
Summary Photosynthetic dinoflagellates contain a diverse collection of plastid types, a situation believed to have arisen from multiple endosymbiotic events. In addition, a number of heterotrophic (phagotrophic) dinoflagellates possess the ability to acquire chloroplasts temporarily by engulfing algae and retaining their chloroplasts in a functional state. These latter relationships typically last from a few days to weeks, at which point the chloroplasts lose function, are digested and replaced with newly acquired plastids. A novel and abundant dinoflagellate related to the icthyotoxic genera Karenia and Karlodinium was recently discovered by us in the Ross Sea, Antarctica. Sequencing of its plastid small subunit ribosomal gene indicated that it did not share evolutionary history with the plastids of Karenia or Karlodinium, but was closely related to the free-living haptophyte Phaeocystis antarctica, a species that often dominates phytoplankton blooms in the Ross Sea. Chloroplast uptake was observed to occur rapidly (within 2 days), with retention in cultures being long-lived (several months) but not permanent. The dinoflagellate was also incapable of growing indefinitely in continuous darkness with algae as prey. Our findings may indicate an emerging endosymbiotic event yielding a dinoflagellate that is presently neither purely phototrophic nor purely heterotrophic, but occupies a niche juxtaposed between these contrasting nutritional modes. [source]