Metabolic Heat Flow Patterns in the Intertidal Mussel Ischadium ( = Modiolus=Geukensia) demissum demissum during Aerial and Underwater Respiration

Rapid changes in heat production rate by Ischadium demissum demissum (=Modiolus demissus demissus, Geukensia demissa), largely though not exclusively effected by opening and closing of shell valves, signify changing metabolic states, physical activity level, and body processes with time and experimental condition. It is theorized that the relative rates of anaerobic metabolism and oxygen uptake, as influenced by temperature, and the presence or absence of unfavorable external stimuli all interact, in feedback mode, to regulate the opening and closing of shell valves. Knowledge of the pattern of instantaneous changes in metabolic rates of organisms is essential in analysis of, and interpreting and comparing data on, average metabolic rates. Direct calorimetry should be particularly useful in understanding the evolutionary ecology of facultatively anaerobic organisms.     

Calorespirometric studies of in vitro-grown carnation (Dianthus caryophyllus L. var. ‘Improved White Sim’) shoot tips

This study characterizes a potential model system for the use of calorespirometry to make rapid and non-destructive estimations of in vitro responses of carnation. Determinations of steady-state heat production rates, long-term heat rate stability, base trap limitations, effects of wounding and the predictions of dry mass accumulation using calorespirometric measurements were undertaken. Carnation shoot tips grown in vitro provide stable and adequately large heat production rates that vary linearly depending on dry mass. Wounding of tissues had inconsistent effects on R_{CO 2}, but greatly increased q. Linear relationships were found between dry mass and both q and R_{CO 2}. This revised version was published online in June 2006 with corrections to the Cover Date.     

Power and heat measurement by direct calorimetry of individual insect response to allelo- and toxic compounds

A microcalorimeter was constructed for the individual insect in order to measure the insect's power output as a function of time (the thermogram). The instrument has a figure of merit of 7 μW/μV. It includes a Peltier pumped thermoelectric control loop which protects from intruding ambient thermals, and holds baseline drift to less than 2 μV/day. The design is a conventional twin, or differential heat conduction calorimeter, with two insect-holding vessels of glass. The vessels are connected by a stopcock, to give the insect the option of crawling from the sample chamber to the reference chamber. Continuous, metered air flow is provided. A small pulse of compound may be born in, as vapor with the air flow, for the study of attractants, toxic compounds, anesthetics and allelochemicals. The insect's reaction to such compounds, appears in the thermogram. Cabbage looper larvae were examined in their irritative exothermic reaction to microgram amounts of benzene, and in their neutral behavior toward similar amounts of aliphatic hydrocarbons delivered as a single pulse of vapor. The male northern corn rootworm was monitored in his attraction to female rootworm extract (‘pheromone’) and his tendency to move upwind, or up airflow, toward the pheromone. The instrument enables discrimination of the transient metabolism of muscle use, from that of the resting state power which is probably the true basal metabolic rate power.     

Long-term effects of foetal undernutrition on intermediary metabolism in growing lambs

The objective of this study was to investigate the effects of foetal undernutrition on the metabolism in growing lambs. Seven-month-old lambs whose mothers had been fed either restrictively (RN; n = 14) or adequately (AN; n = 6) in late gestation were fasted for three days. One hour before fasting and after 48 h and 72 h fasting, changes in plasma concentrations of metabolites, i.e. glucose, non-esterified fatty acids (NEFA), 3-β-hydroxybutyrate (BOHB) and urea as well as hormones, i.e. insulin, the insulin-like growth factor (IGF-I) and leptin, were determined. Blood glucose, NEFA, urea, insulin, IGF-I and leptin were not different between the two groups of lambs. Unexpectedly, at the end of the 3 d fasting, in spite of lower NEFA concentration (1.6 ± 0.03 vs. 1.9 ± 0.05 mM in Groups RN and AN, respectively), the BOHB concentration in RN lambs (0.94 ± 0.02 mM) was significantly higher than that in AN lambs (0.78 ± 0.04 mM). This higher rate of BOHB production might be interpreted as perturbations in ketone body metabolism potentially induced by undernutrition during foetal life. However, more investigations are necessary to clarify this interrelationship.     

On-line heat flux measurements improve the culture medium for the growth and productivity of genetically engineered CHO cells

With the increasingly competitive commercial production of target proteins by hybridoma and genetically engineered cells, there is an urgent requirement for biosensors to monitor and control on-line and in real time the growth of cultured cells. Since growth is accompanied by an enthalpy change, heat dissipation measured by calorimetry could act as an index for metabolic flow rate. Recombinant CHO cell suspensions producing interferon-γ were pumped to an on-line flow calorimeter. The results showed that an early reflection of metabolic change is size-specific heat flux obtained from dividing heat flow rate by the capacitance change of the cell suspension, using the on-line probe of a dielectric spectroscope. Comparison of heat flux with glucose and glutamine fluxes indicated that the former most accurately reflected decreased metabolic activity. Possibly this was due to accumulation of lactate and ammonia resulting from catabolic substrates being used as biosynthetic precursors. Thus, the heat flux probe is an ideal on-line biosensor for fed-batch culture. A stoichiometric growth reaction was formulated and data for material and heat fluxes incorporated into it. This showed that cell demand for glucose and glutamine was in the stoichiometric ratio of ∼3:1 rather than the ∼5:1 in the medium. It was demonstrated that the set of stoichiometric coefficients in the reaction were related through the extent of reaction (advancement) to overall metabolic activity (flux). The fact that this approach can be used for medium optimisation is the basis for an amino-acid-enriched medium which improved cell growth while decreasing catabolic fluxes. This revised version was published online in July 2006 with corrections to the Cover Date.     

Temperature-Dependent Physiology of <Emphasis Type="Italic">Poa secunda</Emphasis>, a Cool Season Grass Native to the Great Basin,United States

Poa secunda Presl. is one of the few native perennial bunchgrasses in the Intermountain West to persist and co-occur with the invasive annual Bromus tectorum L. following widespread overgrazing and frequent wildfires. To identify potential mechanisms responsible for the co-occurrence of P. secunda with B. tectorum, respiration rates (\(R_{\operatorname{CO} _2 }\)) of eight populations were measured at 10, 20, and 30°C on laboratory-grown plants by infrared gas analysis. In addition, \(R_{\operatorname{CO} _2 }\) and metabolic heat rates (q) of nine field-grown populations were measured at 10 and 20°C using calorimetry on eight dates over a growing season to compare temperature-dependent physiology of P. secunda with previous published patterns for B. tectorum. Laboratory respiration rates of P. secunda populations suggest considerable intraspecific variation in physiological response to temperature. Changes in slope for \(R_{\operatorname{CO} _2 }\) and q over the growing season were steeper at 20 than at 10°C , suggesting that P. secunda populations are more capable of maintaining steady rates of metabolism at low than at high temperatures. However, growth rates of P. secunda were relatively lower than those for B. tectorum at 10°C. Calculations of growth rates and efficiency of converting substrate carbon into biomass of P. secunda consistently remained positive, while those for B. tectorum rapidly declined at temperatures above 10°C. These data suggest that P. secunda co-occurrence with B. tectorum over a broad range of plant communities in the Intermountain West may be partially explained by having a similar ability to maintain positive and stable growth rate at low temperature. In addition, the greater ability of P. secunda to maintain growth rates and metabolic efficiency at higher temperatures than B. tectorum may allow this perennial grass to compensate for the greater relative growth rates of B. tectorum at low temperature.     

Physiological interaction processes and radio-frequency energy absorption.

Because exposure to microwave fields at the resonant frequency may generate heat deep in the body, hyperthermia may result. This problem has been examined in an animal model to determine both the thresholds for response change and the steady-state thermoregulatory compensation for body heating during exposure at resonant (450 MHz) and supra-resonant (2,450 MHz) frequencies. Adult male squirrel monkeys, held in the far field of an antenna within an anechoic chamber, were exposed (10 min or 90 min) to either 450-MHz or 2,450-MHz CW fields (E polarization) in cool environments. Whole-body SARs ranged from 0-6 W/kg (450 MHz) and 0-9 W/kg (2,450 MHz). Colonic and several skin temperatures, metabolic heat production, and evaporative heat loss were monitored continuously. During brief RF exposures in the cold, the reduction of metabolic heat production was directly proportional to the SAR, but 2,450-MHz energy was a more efficient stimulus than was the resonant frequency. In the steady state, a regulated increase in deep body temperature accompanied exposure at resonance, not unlike that which occurs during exercise. Detailed analyses of the data indicate that temperature changes in the skin are the primary source of the neural signal for a change in physiological interaction processes during RF exposure in the cold.     

Compensatory growth in Alaska yellowfin sole, Pleuronectes asper, following food deprivation

During the early spring four groups of sub-adult Pleuronectes asper were fasted for either 0, 2, 4 or 6 weeks at the beginning of a 12-week experiment, then fed to satiation to examine their ability to compensate with faster growth after food deprivation. All fish increased their stored energy reserves markedly and at the end of the experiment all four groups had similar body energy content (J g⁻¹), length gains and dry weight to wet weight ratios. The groups of yellowfin sole fed continuously or fasted for 2 weeks gained the most weight, 25 and 24% respectively. Fishes fasted either 4 or 6 weeks exhibited significantly lower weight gains of 16 and 15% respectively over the 12-week experiment. Because of this disparity in weight gain the total body energy content of the continuously fed fish and those fasted for only 2 weeks increased by approximately 60 vs 46% or 35% for sole fasted for 4 or 6 weeks.
The experiment showed P. asper had a limited capacity for compensatory growth. When food was scarce yellowfin sole allocated energy preferentially to growth in length instead of weight. These findings may account for some of the interannual differences in mean length and weight at age for yellowfin sole from the Bering Sea where variations in extent and duration of ice cover and the boreal bottom water delimit the growing season.     

Continuous measurement of microbial heat production in laboratory fermentors

The possibility of continuously measuring the heat produced by microorganisms in an ordinary laboratory fermentor was studies. An inventory of the heat flows influencing the temperature of the culture was made. The magnitude and standard deviation in these heat flows were studied from theoretical and practical viewpoints. Calibration procedures were tested, and a model describing the heat flows in steady state and during dynamic conditions was made. Microbial heat production could be calculated accurately with the help of this model, appropriate temperature measurements, and equipment properties measured during the calibration procedures. It was found that the measurement of heat production could be done with an accuracy similar to that in the O(2) uptake measurement. (c) 1993 John Wiley & Sons, Inc.     

Cross-contamination with Salmonella on a broiler slaughterhouse line demonstrated by use of epidemiological markers

AIMS: To investigate contamination of surfaces on a poultry slaughter line from infected poultry and subsequent cross-contamination of non-infected poultry. METHODS AND RESULTS: A broiler slaughterhouse was investigated for the presence of Salmonella on 17 defined points over two 1-week periods. Flocks supplied to slaughter and neck skin samples from processed chicken were likewise investigated. Salmonella was detected in 10 out of 18 flocks at ante-mortem inspection, while seven flocks tested positive in the finished products. Equipment at all but one control point at the slaughter line tested positive at least once during the study. The chicken receiving area was the most contaminated. By comparison of typing results from serotyping, plasmid profile typing and phage typing, direct evidence for cross-contamination with Salm. serotype Typhimurium, Salm. Serotype 4.12:b:- and Salm. serotype Virchow on the slaughter line was obtained for four of the flocks. The cleaning procedure in place did not remove all Salmonella from the contaminated areas. CONCLUSIONS: Evidence for contamination of equipment on a slaughter line and subsequent cross-contamination to non-infected chicken was provided by typing methods. SIGNIFICANCE AND IMPACT OF THE STUDY: This study has provided detailed information on cross-contamination on a slaughter line by the use of phage typing and plasmid profiling. The study stresses the importance of controlling Salmonella in the primary production, as contamination of the equipment on the slaughter line will act as a vehicle to contaminate finished products. Cleaning procedures on slaughter lines cannot be expected to control this problem with the current equipment.     

Estimating the maintenance energy and biomass concentration of Saccharomyces cerevisiae by continuous calorimetry

Continuous calorimetry has been applied to monitoring the heat evolution of Saccharomyces cerevisiae grown on d-glucose. The heat evolution, together with the energy and carbon balances, was used to evaluate the energetic efficiency of biomass, by-product biosynthesis, fermentative heat evolution as well as the maintenance energy of S. cerevisiae in ‘aerobic fermentation’ and ‘aerobic respiration’. In aerobic fermentation, under catabolite repression, the fraction of substrate energy converted to heat evolution, maintenance requirement, and biomass decreased with the increase of d-glucose concentration. The fraction of substrate energy converted to ethanol is the highest value and it could contribute up to 70% of the total substrate energy. In aerobic respiration, 43% of the total substrate energy was evolved as heat. While 50% of the total substrate energy was converted into biomass, only 7% of the total substrate energy was used for maintenance functions. The maintenance energy coefficient of S. cerevisiae was determined to be 0.427 MJ kg^?1 cell h^?1 (0.102 kcal g^?1 cell h^?1). For the first time, heat evolution together with yield-maintenance energy was used to predict biomass concentration during the fed-batch cultivation of S. cerevisiae.     

Usefulness of Fluoxetine in Obese Non-Insulin-Dependent Diabetics: A Multicenter Study

Weight reduction is essential in the management of most noninsulin-dependent diabetics, but this therapeutical goal is difficult to obtain. In this double-blind parallel study, 82 noninsulin-dependent diabetics, moderately obese (BMI = 30–39 kg/nr²), were given for an 8-week period either placebo (P) or fluoxetine (F), a specific serotonin reuptake inhibitor, in addition to their usual antidiabetic treatment. Thirty-nine of them received 60 mg fluoxetine a day and 43 were given the placebo. At admission, both groups had similar weight excess, metabolic control and serum lipid values. In comparison with the P-treated subjects, those treated with fluoxetine (F) lost more weight after 3 weeks (-1.9 vs. ?0.7 kg, p<0.0009) and after 8 weeks (-3.1 vs. ?0.9 kg, p<0.0007). Fasting blood glucose decreased in group F after 3 weeks (- 1.5 vs. ?0.4 mmol/L, p<0.003) and after 8 weeks (-1.7 vs. ?0.02 mmol/L, p<0.0004). HbAlc decreased from 8.5% to 7.7% in group F and from 8.6% to 8.3% in group P (p=0.057). Mean triglyceride level was also reduced in group F after 8 weeks (p=0.042). Fasting C-pep-tide did not change in either group, but fasting insulin values decreased in group F after 3 weeks (p<0.02) and after 8 weeks (p<0.05). The insulin/C-peptide molar ratio decreased significantly in group F after 3 weeks (p<0.04) and after 8 weeks (p<0.05) in comparison with group P. The drug was generally well tolerated and no major side effects were reported. In conclusion, the addition of fluoxetine to the usual oral hypoglycemic agent therapy might be beneficial in obese non-insulin-dependent diabetics, at least on a short-term basis.