Circadian and Ultradian Rhythms in Heart Rate and Motor Activity of Smokers,Abstinent Smokers,and Nonsmokers

In a field study, heart rate and motor activity were assessed continuously in 12 male smokers during 2 smoking and 2 abstinence days and in 12 male nonsmokers during 4 days. A circadian analysis revealed earlier activity acrophases in smokers than nonsmokers and earlier heart rate acrophases in abstinent than smoking smokers. Furthermore, heart rate acrophases of smoking smokers significantly anticipated activity acrophases;, whereas in abstinent smokers and nonsmokers the two parameters oscillated in phase. With the use, in smoking smokers, of the individual average smoking interval as a hypothetical ultradian period length, significant periodicities were found for heart rates in 16 and for activity in 15 of 24 observation days. These rhythms were nicotine independent and based on heart rate and activity increases prior to lighting up the cigarettes. Individual frequency spectra for the 16 h after getting up and the 7 h after going to bed did not reveal single dominant frequencies but rather complex frequency distributions. Power spectra of the daytime data revealed no group differences for activity and no heart rate differences between smoking smokers and nonsmokers. In abstinent smokers, however, a significant reduction of heart rate frequencies slower than 1 cycle/135 min and a significant increase of heart rate frequencies faster than 1 cycle/20 min were observed as compared with all other groups. This effect persisted over the 2 abstinence days, suggesting an activity-independent change in the frequency distribution of heart rates after quitting smoking.     

Circadian and Ultradian Rhythms in Heart Rate and Motor Activity of Smokers, Abstinent Smokers, and Nonsmokers

In a field study, heart rate and motor activity were assessed continuously in 12 male smokers during 2 smoking and 2 abstinence days and in 12 male nonsmokers during 4 days. A circadian analysis revealed earlier activity acrophases in smokers than nonsmokers and earlier heart rate acrophases in abstinent than smoking smokers. Furthermore, heart rate acrophases of smoking smokers significantly anticipated activity acrophases;, whereas in abstinent smokers and nonsmokers the two parameters oscillated in phase. With the use, in smoking smokers, of the individual average smoking interval as a hypothetical ultradian period length, significant periodicities were found for heart rates in 16 and for activity in 15 of 24 observation days. These rhythms were nicotine independent and based on heart rate and activity increases prior to lighting up the cigarettes. Individual frequency spectra for the 16 h after getting up and the 7 h after going to bed did not reveal single dominant frequencies but rather complex frequency distributions. Power spectra of the daytime data revealed no group differences for activity and no heart rate differences between smoking smokers and nonsmokers. In abstinent smokers, however, a significant reduction of heart rate frequencies slower than 1 cycle/135 min and a significant increase of heart rate frequencies faster than 1 cycle/20 min were observed as compared with all other groups. This effect persisted over the 2 abstinence days, suggesting an activity-independent change in the frequency distribution of heart rates after quitting smoking.     

Circadian and Ultradian Periodicities of Grooming Behavior in Family Groups of Common Marmosets (Callithrix jacchus) in Captivity

Three families' groups of common marmosets were observed to describe the characteristics of their grooming rhythmicity, as the duration of the episodes of self- and social grooming made and received by the animals, in captivity under natural environmental conditions. Data were collected by focal animal sampling, at 20 min hourly intervals during 16 non-consecutive days, from January to March in 1994 (sunrise: 05:24 h ± 2 min; sunset: 17:34 h ± 1 min). Time series were obtained for each individual and for each family through hourly duration of grooming. Family time serie was obtained through the mean of its individuals time series. Spectral analysis revealed statistically significant circadian rhythms for all families and individuals. Ultradian components were detected in 50% of the families and in 46.7% of the animals. Acrophases of self- and social grooming calculated by Single Cosinor took place between 9:21 h and 10:39 h, for the families. For individuals self- and social grooming made and received, acrophases occurred from 8:35 h to 12:43 h. The confidence limits of acrophases did not show differences between the families and the individuals within the families, irrespective of their sex, age and reproductive condition, suggesting that this behavior has a stronger temporal marking. Grooming has circadian and ultradian components of rhythmicity in captive families' groups of common marmosets, under natural environmental conditions. Since only some animals showed the ultradian component, it may be consequence of social or environmental masking, or yet phenotypic plasticity of temporal genotype. Further studies are needed to test these possibilities.     

Effects of photoperiod reduction on rat circadian rhythms of BP, heart rate, and locomotor activity

The effects of a photoperiod reduction in the entrainment of circadian rhythms of systolic blood pressure (SBP), diastolic blood pressure (DBP), heart rate (HR), and spontaneous locomotor activity (SLA) were determined in conscious Wistar rats by using radiotelemetry. Two groups of seven rats were maintained in a 12:12-h light-dark (12L/12D) photoperiod for 11 wk and then placed in a reduced photoperiod of 8:16-h light-dark (8L/16D) by advancing a 4-h darkness or by advancing and delaying a 2-h darkness for 6 wk. Finally, they were resynchronized to 12L/12D. Advancing a 4-h dark phase induced a 1-h advance of acrophase for SBP, DBP, and HR, but not for SLA. The percent rhythm, amplitude, and the 12-h mean values of all parameters were significantly decreased by the photoperiod reduction. When symmetrically advancing and delaying a 2-h dark phase, a 1 h 20 min delay of acrophases and a decrease in percent rhythms and amplitudes of SBP, DBP, HR, and SLA were observed. Only the 12-h mean values of HR and SLA were decreased. Our findings show that the cardiovascular parameters differ from SLA in phase-shift response to photoperiod reduction and that the adjustment of circadian rhythms to change from 12L/12D to 8L/16D photoperiod depends on the direction of the extension of the dark period.     

Daily levels and rhythm in circulating corticosterone and insulin are altered with photostimulated seasonal states in night-migratory blackheaded buntings

The circadian rhythms are involved in the photostimulation of seasonal responses in migratory blackheaded buntings. Here, we investigated whether changes in daily levels and rhythm in corticosterone (cort) and insulin secretions were associated with transitions in the photoperiodic seasonal states. Buntings were exposed to short days to maintain the winter (photosensitive) non-migratory state, and to long days for varying durations to induce the premigratory, migratory (shown by migratory restlessness at night, Zugunruhe) and summer non-migratory (photorefractory) states. We monitored activity patterns, and measured plasma cort and insulin levels at six and four times, respectively, over 24 h in each seasonal state. Buntings were fattened and weighed heavier, and exhibited intense nighttime activity in the migratory state. The daytime activity patterns also showed seasonal differences, with a bimodal pattern with morning and evening activity bouts only in the summer non-migratory state. Further, the average baseline hormone levels were significantly higher in premigratory and migratory than in the winter non-migratory state. Both cort and insulin levels showed a significant daily rhythm, but with seasonal differences. Whereas, cort rhythm acrophases (estimated time of peak secretion over 24 h) were at night in the winter non-migratory, premigratory and migratory states, the insulin rhythm acrophases were found early in the day and night in winter and summer non-migratory states, respectively. These results suggest that changes in daily levels and rhythm in cort and insulin mediate changes in the physiology and behavior with photostimulated transition in seasonal states in migratory blackheaded buntings.     

Respiratory metabolism of salivary glands during the late larval and prepupal development of Drosophila melanogaster

During the late larval period, the salivary glands (SG) of Drosophila show a cascade of cytological changes associated with exocytosis and the expectoration of the proteinaceous glue that is used to affix the pupariating larva to a substrate. After puparium formation (APF), SG undergo extensive cytoplasmic vacuolation due to endocytosis, vacuole consolidation and massive apocrine secretion. Here we investigated possible correlations between cytological changes, the puffing pattern in polytene chromosomes and respiratory metabolism of the SG. The carefully staged SG were explanted into small amounts (1 or 2 μl) of tissue culture medium. The respiratory metabolism of single or up to 3 pairs of glands was evaluated by recording the rate of O₂ consumption using a scanning microrespirographic technique sensitive to subnanoliter volumes of the respiratory O₂ or CO₂. The recordings were carried out at times between 8 h before pupariation (BPF), until 16 h APF, at which point the SG completely disintegrate. At the early wandering larval stage (8 h BPF), the glands consume 2 nl of O₂/gland/min (=2500 μl O₂/g/h). This relatively high metabolic rate decreases down to 1.2–1.3 nl of O₂ during the endogenous peak in ecdysteroid concentration that culminates around pupariation. The metabolic decline coincides with the exocytosis of the proteinaceous glue. During and shortly after puparium formation, which is accompanied cytologically by intense vacuolation, O₂ consumption in the SG temporarily increases to 1.6 nl O₂/gland/min. After this time, the metabolic rate of the SG decreases downward steadily until 16 h APF, when the glands disintegrate and cease to consume oxygen. The SG we analyzed from Drosophila larvae were composed of 134 intrinsic cells, with the average volume of one lobe being 37 nl. Therefore, a single SG cell of the wandering larva (with O₂ consumption of 2 nl/gland/min), consumes each about 16 pl of O₂/cell/min. A simultaneous analysis of the rate of protein and RNA synthesis in the SG shows a course similar to that found in respiratory metabolism.     

Continuous exposure of airway epithelial cells to hydrogen peroxide: protection by KGF

Reactive oxygen species (ROS) increase permeability in the airway epithelium. Extended periods of oxidant exposure may be experienced by those suffering from chronic inflammation of the lungs, receiving supplemental oxygen, or living in areas with high levels of air pollution. We studied the effects of long-term, continuous exposure to hydrogen peroxide (H(2)O(2)) on the trans-epithelial electrical resistance (TER) across cultured monolayers of a transformed cell line of human bronchial epithelial cells, 16HBE14o- (16HBE). A TER perfusion system was employed to continuously monitor the TER without disturbing the tissue model. The TER decreased in a dose-dependent manner with increasing concentrations of H(2)O(2) (0.1, 0.5, and 1.0 mM), regardless of pre-incubation conditions. Cell cultures pre-treated with 50 ng/ml keratinocyte growth factor (KGF) showed a significant delay in oxidant-induced TER decreases caused by 0.1 mM H(2)O(2). Exposure to 0.1 mM H(2)O(2) for 350 min led to disruption of tight junction proteins, ZO-1 and occludin, but KGF treatment prevented this damage. The recovery of epithelial barrier function after exposure to oxidants was also studied. Tissue models exposed to 0.5 mM H(2)O(2) for 25 min showed complete recovery of TER after 20 h, independent of culture pre-treatment. In contrast, KGF pre-incubation enhanced the recovery of 16HBE cultures exposed for 50 min to 0.5 mM H(2)O(2).     

Comparison of daily rhythms of oxygen metabolites and serum barrier to oxidation in domestic animals

The aim of this study was to compare the daily rhythm of reactive oxygen metabolites (hydroperoxides), and serum barrier to oxidation in five different mammal species. Five female Comisana sheep, five female Maltese goats, five female Bruna cows and five female Thoroughbred horses were housed separately in boxes equipped with an opening window and five female Blue Vienna rabbits were individually housed in metallic cages. All animals were kept under natural photoperiod and indoor environmental conditions. Blood samples were collected every 3 h over a 48 h period for the assessment of hydroperoxides, antioxidant barrier (Oxy-ads) and thiol-antioxidant barrier (SHp). A two-way for repeated measures ANOVA showed a significant effect of time of day and different species on all studied parameters. Daily rhythmicity of hydroperoxides, Oxy-ads and SHp were observed in all studied species. Nocturnal acrophases were observed in sheep, goats and rabbits, diurnal acrophases were observed in cattle and horse. We conclude that there is a synergism of the daily rhythms of hydroperoxides and anti-oxidant power in the different species studied, and that this synergism is typical of each species.     

Application of the Amplex red/horseradish peroxidase assay to measure hydrogen peroxide generation by recombinant microsomal enzymes

The formation of reactive oxygen species by the cytochrome P450 monooxygenase system is thought to be due to autoxidation of NADPH-cytochrome P450 reductase and the nonproductive decay of oxygen-bound cytochrome P450 intermediates. To characterize this process in recombinant microsomal enzymes, we used a highly sensitive hydrogen peroxide assay based on Amplex red oxidation. This assay is 20 times more sensitive (LLD = 5.0 pmol/assay and LLQ = 30 pmol/assay) than the standard ferrous thiocyanate assay for detection of hydrogen peroxide. We found low, but detectable, spontaneous generation of hydrogen peroxide by recombinant human NADPH-cytochrome P450 reductase complexes (0.09 nmol hydrogen peroxide/min/100 Units of NADPH-cytochrome P450 reductase). Significantly higher rates of hydrogen peroxide production were observed when recombinant cytochrome P450 enzymes were coexpressed with NADPH-cytochrome P450 reductase (0.31 nmol of hydrogen peroxide/min/100 Units of NADPH-cytochrome P450 reductase). This was independent of the addition of any exogenous cytochrome P450 substrates. These data demonstrate that cytochrome P450s are a major source of hydrogen peroxide in the recombinant cytochrome P450 monooxygenase system. Moreover, substrate binding is not required for the cytochrome P450s to generate reactive oxygen species.     

Application of polyethylene glycol immobilized Clostridium sp. LS2 for continuous hydrogen production from palm oil mill effluent in upflow anaerobic sludge blanket reactor

A novel polyethylene glycol (PEG) gel was fabricated and used as a carrier to immobilize Clostridium sp. LS2 for continuous hydrogen production in an upflow anaerobic sludge blanket (UASB) reactor. Palm oil mill effluent (POME) was used as the substrate carbon source. The optimal amount of PEG-immobilized cells for anaerobic hydrogen production was 12% (w/v) in the UASB reactor. The UASB reactor containing immobilized cells was operated at varying hydraulic retention times (HRT) that ranged from 24 to 6 h at 3.3 g chemical oxygen demand (COD)/L/h organic loading rate (OLR), or at OLRs that ranged from 1.6 to 6.6 at 12 h HRT. The best volumetric hydrogen production rate of 336 mL H₂/L/h (or 15.0 mmol/L/h) with a hydrogen yield of 0.35 L H₂/g COD_removed was obtained at a HRT of 12 h and an OLR of 5.0 g COD/L/h. The average hydrogen content of biogas and COD reduction were 52% and 62%, respectively. The major soluble metabolites during hydrogen fermentation were butyric acid followed by acetic acid. It is concluded that the PEG-immobilized cell system developed in this work has great potential for continuous hydrogen production from real wastewater (POME) using the UASB reactor.     

Assessment of constancy and plasticity of biological rhythms of physiological processes under comfortable and subextreme (high altitude and desert) conditions

A relative constancy of the acrophases of human circadian rhythms of autonomic functions was studied. Quantitative assessment was performed for interdaily, interindividual, intragroup, intraindividual, and total changes in the acrophases of the circadian rhythms of 22 parameters of hemodynamics, heart rate control, thermal status, and salivary electrolyte levels under comfortable environmental conditions and during early adaptation to high-altitude hypoxic and hot desert conditions. A biological interpretation was given for different criteria of changes in the acrophases. Phase-constant and phase-shifting circadian rhythms were determined.     

The Effects of Circadian Rhythmicity and Time‐Awake on a Simple Motor Task

The aim of the study was to assess if a simple motor task, one that required muscle contractions well below maximum, showed evidence of circadian changes and time‐awake. The task consisted of using a larger counter to flick a number of smaller counters to land as near as possible to the center of a target. The closer a counter landed next to the center of the target, the higher the score obtained. Two distances from the target were used (long and short), and 20 counters were flicked at each distance. The task was performed by 72 diurnally active healthy participants at six test sessions distributed every 4 h throughout the day (08:00 h, 12:00 h, … , 04:00 h), so covering a circadian cycle. When performing the sessions, subjects had been awake for about 1, 4, … , 20 h. Before each test session, sublingual temperature was measured, and estimates of the individual's fatigue and alertness were made. Clear normally phased circadian rhythms (p<0.0001) in oral temperature and alertness with mean peak time (i.e., acrophases of 17.2 h and 15.9 h, respectively) and fatigue (i.e., mean acrophase of 3.4 h) were detected. The total scores for both the long and short distances also showed circadian rhythms that peaked slightly before the temperature rhythm (by 2.31±0.91 h and 1.77±0.77 h, mean±SE, respectively), and the number of occasions that the target was missed altogether showed rhythms that were in anti‐phase (mean acrophases=3.8 h and 4.1 h for the long and short distances, respectively) to that of total scores (mean acrophases=16.0 h and 15.2 h for the long and short distances, respectively). With the long and, particularly, short distances, there were generally significant correlations (r<0.0005) between both the measures of accuracy (total score and number of misses) and body temperature and time‐awake. The accuracy of performance at this task seems to show circadian and time‐awake effects, and so makes it of potential value in protocols where repetitive measurements during the course of a day are required.     

The effects of circadian rhythmicity and time-awake on a simple motor task

The aim of the study was to assess if a simple motor task, one that required muscle contractions well below maximum, showed evidence of circadian changes and time-awake. The task consisted of using a larger counter to flick a number of smaller counters to land as near as possible to the center of a target. The closer a counter landed next to the center of the target, the higher the score obtained. Two distances from the target were used (long and short), and 20 counters were flicked at each distance. The task was performed by 72 diurnally active healthy participants at six test sessions distributed every 4 h throughout the day (08:00 h, 12:00 h, ... , 04:00 h), so covering a circadian cycle. When performing the sessions, subjects had been awake for about 1, 4, ... , 20 h. Before each test session, sublingual temperature was measured, and estimates of the individual's fatigue and alertness were made. Clear normally phased circadian rhythms (p<0.0001) in oral temperature and alertness with mean peak time (i.e., acrophases of 17.2 h and 15.9 h, respectively) and fatigue (i.e., mean acrophase of 3.4 h) were detected. The total scores for both the long and short distances also showed circadian rhythms that peaked slightly before the temperature rhythm (by 2.31+/-0.91 h and 1.77+/-0.77 h, mean+/-SE, respectively), and the number of occasions that the target was missed altogether showed rhythms that were in anti-phase (mean acrophases=3.8 h and 4.1 h for the long and short distances, respectively) to that of total scores (mean acrophases=16.0 h and 15.2 h for the long and short distances, respectively). With the long and, particularly, short distances, there were generally significant correlations (r<0.0005) between both the measures of accuracy (total score and number of misses) and body temperature and time-awake. The accuracy of performance at this task seems to show circadian and time-awake effects, and so makes it of potential value in protocols where repetitive measurements during the course of a day are required.     

RETINAL CIRCADIAN RHYTHMS IN HUMANS *

Circadian rhythms in the retina may reflect intrinsic rhythms in the eye. Previous reports on circadian variability in electrophysiological human retinal measures have been scanty, and the results have been somewhat inconsistent. We studied the circadian variation of the electrooculography (EOG), electroretinography (ERG), and visual threshold (VTH) in subjects undergoing a 36h testing period. We used an ultrashort sleep-wake cycle to balance effects of sleep and light-dark across circadian cycles. Twelve healthy volunteers (10 males, 2 females; mean age 26.3 years, standard deviation [SD] 8.0 years, range 19-40 years) participated in the study. The retinal functions and oral temperature were measured every 90 min. The EOG was measured in the light, whereas the ERG and the VTH were measured in the dark. Sleep was inferred from activity detected by an Actillume monitor. The EOG peak-to-peak responses followed a circadian rhythm, with the peak occurring late in the morning (acrophase 12:22). The ERG b-wave implicit time peaked in the early morning (acrophase 06:46). No statistically significant circadian rhythms could be demonstrated in the ERG a-wave implicit time or peak-to-peak amplitude. The VTH rhythm peaked in the early morning (acrophases 07:59 for blue and 07:32 for red stimuli). All retinal rhythms showed less-consistent acrophases than the temperature and sleep rhythms. This study demonstrated several different circadian rhythms in retinal electrophysiological and psychophysical measures of healthy subjects. As the retinal rhythms had much poorer signal-to-noise ratios than the temperature rhythm, these measures cannot be recommended as circadian markers. (Chronobiology International, 18(6), 957-971, 2001)     

In situ rumen hydrogen concentrations in steers fed eight times daily, measured using a mercury reduction detector

Abstract Dissolved hydrogen was measured in the bovine rumen using an in situ hydrogen probe coupled to a mercury reduction detector. The probe can quantitate dissolved hydrogen from low nM concentrations to saturation. In the rumen of steers fed every 3 h, basal hydrogen concentrations averaged 1.38 μ M ± 0.26, and the basal level remained stable throughout an 18–25 h period. In contrast, a steer fed once a day had a basal hydrogen concentration of 1.40 μM, but the level was not stable between feedings. For the steers fed every 3 h, the reticulum displayed the most dramatic fluctuations in the hydrogen concentration after the feeding event. Hydrogen spikes (10–20 μM) in the reticulum were detected 2 min after feed ingestion, and lasted for 30 min. In the center of the rumen the feeding response was observed 30 min after feeding and typically lasted 1 h. The magnitude of hydrogen spikes in the center of the rumen was reduced in comparison to the reticulum. The magnitude of the hydrogen spikes indicates that feeding steers as frequently as eight times a day does not establish a steady-state with respect to hydrogen concentration. However, frequent feedings do minimize drift from the basal hydrogen level. Assuming Michaelis-Menten kinetics our data predict that methane production from hydrogen proceeds at 22% of its maximal velocity.     

Effects of interpolated dark periods during the first long day of floral induction on the cell cycle in the shoot apex of Silene coelirosa

Seeds of Silene coeli-rosa L. were germinated and grown at 20°C in short days of 8 h light from fluorescent and tungsten (F + T) bulbs and 16 h darkness for 28 days (day 0). At 1700 h of day 0, the plants were exposed to 16 h light from T (LD) followed by 8 h F + T, or the same treatment interrupted at 1700 h of day 0 by 20 or 60 min darkness. Plants were exposed to tritiated (methyl-[³H])-thymidine for 2 h (1645–1845 h) and sampled every 2 h for 24 h. The cell cycle (percentage labelled mitoses method), and changes in cell number were measured in the shoot apical meristems. The cell cycle in the LD, 20 and 60 min dark-interrupted LD (diLD) treatments was 10, 11 and 13 h, respectively. Mean cell generation times were ca 3–5 h longer, suggesting that the shorter cell cycles were transient. The proportions of cells with 2C or 4C amounts of nuclear DNA, indicated that imposition of darkness resulted in a progressive lengthening of G1 from about 3 h in the LD to 7 h in the 60 min diLD treatment. Conversely, G2 shortened from about 4 h in the LD to 3 h in the 60 min diLD treatment. Measurements of labelling index indicated that S-phase was about 1.5 to 2 h in each treatment. The data are discussed in relation to the known inhibitory effect of the diLD treatments on flowering.     

Comparison of the post-antibiotic effect (PAE) induced by ceftizoxime, ceftriaxone, cefoxitin, ampicillin-sulbactam, and ticarcillin-clavulanate against selected isolates of Bacteroides fragilis and B. thetaiotaomicron

The exposure of bacteria to various groups of antimicrobials at different concentrations can produce damage to the bacteria that persists even after removal of the antimicrobial agent. The post antibiotic effect (PAE) of beta-lactams on aerobic gram-negative bacilli is relatively short (<1 h), however, little information is available regarding anaerobic gram-negative bacilli. We studied the PAE of ceftizoxime, ampicillin-sulbactam, ticarcillin-clavulanate, cefoxitin, and ceftriaxone against strains of Bacteroides fragilis and B. thetaiotaomicron at antimicrobial concentrations 4x, 8x, and 16x the MIC values using colony count determinations of treated and untreated cultures. Against B. fragilis H931, ceftizoxime-induced PAE values were 2 h, 3 h 24 min, and 11 h 36 min at 4xMIC, 8xMIC, and 16xMIC while for the B. thetaiotaomicron isolates PAEs ranged from 2 h 27 min to 6 h 12 min at the same concentrations. Cefoxitin PAE values were 3 h 6 min and 2 h 18 min for the clinical isolates at 16xMIC and 3 h 24 min and 1 h 12 min against the laboratory strains at 16xMIC respectively, and for ceftriaxone 1 h 12 min and 5 h 12 min, respectively, for the B. thetaiotaomicron D933 and B. fragilis H931 strains at 16xMIC. With ampicillin-sulbactam, the longest PAE values were observed at 16xMIC with all the test isolates of B. fragilis and B. thetaiotaomicron. PAE values induced by ticarcillin-clavulanate overall were the shortest for the two clinical isolates. These studies indicate substantial PAE values for beta-lactams against selected anaerobes which may be an important factor in the dosing regimen of these test agents.     

Swine manure fermentation for hydrogen production

Biohydrogen fermentation using liquid swine manure as substrate supplemented with glucose was investigated in this project. Experiments were conducted using a semi-continuously-fed fermenter (8 L in total volume and 4 L in working volume) with varying pHs from 4.7 through 5.9 under controlled temperature (35 ± 1 °C). The hydraulic retention time (HRT) tested include 16, 20, and 24 h; however, in two pH conditions (5.0 and 5.3), an additional HRT of 12 h was also tried. The experimental design combining HRT and pH provided insight on the fermenter performance in terms of hydrogen generation. The results indicated that both HRT and pH had profound influences on fermentative hydrogen productivity. A rising HRT would lead to greater variation in hydrogen concentration in the offgas and the best HRT was found to be 16 h for the fermenter in this study. The best pH value in correspondence to the highest hydrogen generation was revealed to be 5.0 among all the pHs studied. There was no obvious inhibition on hydrogen production by methanogenesis when methane content in the offgas was lower than 2%. Otherwise, an inverse linear relationship between hydrogen and methane content was observed with a correlation coefficient of 0.9699. Therefore, to increase hydrogen content in the offgas, methane production has to be limited to below 2%.     

Effects of cadmium on polyribosome sedimentation pattern in mouse liver.

Cadmium injected to mice provokes an acute disaggregation of hepatic polyribosomes. The effect appears within 15 min, it is maximal after 1 h and then gradually disappears. The reaggregation of polyribosomes takes place 6--12 h after injection. The disaggregation of polyribosomes is linear with log doses in a range of 7.25--20 mumol/kg CdCl2. Cycloheximide pretreatment prevents the disaggregation of polyribosomes in the livers of cadmium-treated mice.     

Circadian rhythms of adrenaline and noradrenaline excretion in man in normal conditions and after alcohol intake

Circadian rhythms of adrenaline and noradrenaline excretion with urine in health and during 3 days after a single intake of 40 degrees alcohol from 5 to 6 p.m. in a dose of 6.2 ml/kg bw were examined in 20 healthy male volunteers aged 20 to 26 years, in spring. The data obtained were processed according to the "cosinor" program. Alcohol intake resulted in the tension of the sympathoadrenal system, with that tension being observed over 2 days and not removed after ethanol elimination. Circadian rhythms of catecholamine excretion essentially changed. Within the first day after alcohol intake, mesor and rhythm amplitudes increased, acrophases displaced for a time following alcoholization. By the second day the increase of the mesors was preserved, the acrophases returned to normal. Complete recovery of the normal circadian time structure took place during the third circadian cycle after alcohol intake.