A comparison of rate human lipid profile changes at moderate altitude

The paper studies antiatherogenic changes of serum lipid profile in various conditions, namely: 1) the mountain and climatic treatment on Caucasian resorts, 2) periodic hypobaric therapy, 3) trekking in mountains with regular cold tests (the Tibetan yoga gTum-mo). We made the comparison of rate of change of serum total cholesterol, high (HDL), low (LDL) and very low density (VLDL) lipoproteins, and also triglycerides by use of exponential model of changes of lipid profile. By application of new computing algorithm it was proved that the maximal rate of antiatherogenic changes of serum lipid profile (decrease in the total cholesterol and in LDL, increase in HDL) is characteristic for a combination of three conditions: 1) moderate altitude hypoxia, 2) moderate physical activities and 3) special exercises for increase of cold tolerance (the Tibetan yoga gTum-mo).     

Age-related changes in the immunoglobulins of human blood serum

It has been shown that the content of G and A immunoglobulin (IgG, IgA) in blood serum increases with human age. IgM quantity is maximum at child age and at old age (about 80 years old and elder), at the age of 15-20 it is minimum. Immunoglobulin concentration is higher in female's blood serum than in male's, particularly at middle and old ages. The role of X-chromosome in regulation of serum IgM concentration is being discussed.     

An instrument to evaluate the time dependent flow properties of blood at moderate shear rates

The rheology of blood is characterized by shear thinning, viscoelasticity, and thixotropy. Its rheological evaluation is usually accomplished using a torque balance technique during rotational viscometry. Because a stable torque balance does not develop instantly, studies of thixotropy and viscoelasticity of blood have usually been carried out only at low shear rate where their development is slow enough to be monitored accurately. The torque balance technique may be converted from static to dynamic by incorporating the rate of change of sensing system angular momentum. We have modified our Couette viscometer, adding a computer-controlled stepping motor and a second digital voltmeter. The latter is used to determine the angular position of the sensing system every 25 or 50 msec. The new approach allows rapid observation of the development and disappearance of shear stress, enabling us to examine the transient behavior of blood at moderate shear rate (1 to 100 inverse seconds). The transient flow behavior of blood at moderate shear rate is most easily compared directly with the behavior of Newtonian fluids. We present information about the response of our system using a torque balance observation rate of 20 per second. Blood's viscoelasticity is observed to fall substantially as shear rate rises, while its thixotropic transient excess stress rises steadily with increasing shear rate.     

System analysis of heart rate variability,hemodynamics, and bioelectrical activity of the human brain at moderate altitudes

Heart rate variability (HRV), hemodynamics, cerebral α rhythm, and systemic relations between them have been investigated in 35 normal human subjects at the age of 37.2 ± 3.8 years. The results of comprehensive clinical, functional and instrumental HRV investigation, electroencephalography (EEG) using 21 monopolar electrodes, and blood pressure (BP) monitoring were embodied in mathematical models that describe the relations of these parameters, multiple regression equations, and generated 3D diagrams. It has been found that a relative increase in the LF range and a decrease in HF one are accompanied by elevations of BP. The EEG α amplitude has been depressed, and α index has decreased. The HRV reduction and modification of the α rhythm structure have been demonstrated to affect the BP values. These data indicate interactions and close relations between the autonomic and central nervous systems and BP.     

Age-related changes of lipid spectrum, level of lipid peroxidation, and antioxidant defence in the liver and blood of rats

It has been shown that the lowest level of total lipids, cholesterol, triacylglycerols and products of lipid peroxidation of blood and liver, as a rule, is specific to adult rats. These characteristics are significantly higher for old and young animals. At the same time, the level of glutathione and alphatocopherols in adults' liver is much higher than in young and old rats. It suggests the lower level of processes of lipid peroxidation in adult mature rats. The relative high level of products of lipid peroxidation and low content of alpha-tocopherols in old rats' liver (against the background of higher activity and glutamineperoxidase, and glutathionereductase than in adults) suggests tocopherol deficiency in old animals. High content of total lipids, cholesterol and cholesterol entering into the composition of lipoprotein of different density, triacylglycerols, diene conjugates and malonic dialdehide, activity of glutathione-dependent enzymes of antioxidant defence in young animals as compared with these levels in adult rats seems to be associated with agerelated hypercholesterolemia and intensive plastic changes of a growing organism.     

The effect of endurance exercise at moderate altitude on serum lipid peroxidation and antioxidative functions in humans

We investigated the effect of training and racing at moderate altitude (MA) on oxidative stress by assessment of serum diene conjugation (DC) and serum antioxidant potential (TRAP). Nine male top level skiers were studied during a national race (20–30 km) at sea level (SL). Thereafter, the athletes trained for 2 weeks at MA, after which they participated in a 20–30 km race at MA. Venous blood samples were taken before and after the race. The DC, indicating early events of lipid peroxi dation, did not change during the race at SL (16 850 vs 15 900 ΔAbsorbance · l⁻¹) or at MA (19 870 vs. 20 630 ΔAbs · l⁻¹). At MA serum DC was higher than at SL both before (25%) and after (30%) the race, the postrace difference being statistically significant (P < 0.05). The TRAP increased during the race at MA (from 1387 to 1943 μmol · 1⁻¹, P  =  0.016), but not at SL (1713 vs 1582 μmol · l⁻¹). These observations would suggest that the level of oxidative stress might be greater during living, training and racing at MA (higher DC levels). Increased TRAP during the race at MA may indicate that the physiological adaptation to extreme acute oxidative stress was altered. The physiological significance of this observation remains to be investigated. Accepted: 18 October 1996     

Cations in the human blood serum

The review summarizes data (more than 450 references) on concentration of human serum cations (Na+, K+, Ca2+, and Mg2+) and human blood serum osmolality depending on age, diverse physiological and pathological states, and action of physiologically active substances. There are summarized data of many thousand measurements of physicochemical parameters of the blood serum, the mean values of osmolality and cation concentrations in healthy people are calculated. The values are kept at a stable level throughtout the entire life since the moment of birth; in many cases they are maintained by regulatory systems within the normal limits and during various physiological and pathological states. There are formulated the main types of the states characterized by deviations from norm of physicochemical parameters of the internal medium fluids.     

Age changes in lipoprotein spectrum of blood in men

Norms of lipoproteid blood composition in men are determined from examination of nonorganized men population at the age of 20-69 years (for each age decade separately in one of the Kiev regions). It is found that lipid distributions vary essentially up to 50 years: the content of cholesterol and triglyceride in blood plasma and cholesterol in high-density lipoproteids increases. Differences in the cholesterol amount in high density lipoproteids in all age groups are statistically insignificant.     

Content of the main lipid components in blood serum lipoproteins of human and of some animal species

Using precipitation method, low-density (LDL) and high-density (HDL₂ and HDL₃) lipoproteins were isolated from blood serum of human (donors and patients with ischemic heart diseases—IHD, bronchial asthma—BA, chronic obstructive bronchitis—(COB) and mammals predisposed (pig, rabbit) and resistant (rat, mink, Arctic fox) to atherosclerosis, of birds (hen, pigeon), of bony fish (trout, white-fish, pike-perch, pike, bream, burbot), and of cartilaginous fish (sturgeon, white sturgeon). From each lipoprotein group, lipids were extracted, separated by thin-layer chromatography, and analyzed quantitatively by spectrophotometric method. In phosphatidylcholine and HDL₂ cholesterol esters, bound fatty acids (FA) were determined by gas-liquid chromatography. The main amount of total cholesterol has been established to be present in human LDL, especially in the cases of IHD, and in LDL in mammals predisposed to atherosclerosis. In mammals resistant to atherosclerosis and in fish the almost entire cholesterol was revealed in HDL. The phospholipid (phosphatidylcholine) was represented by the ω6-series. Acids of the ω3-series accounted for a negligible percentage, especially in IHD. On the contrary, the HDL FA composition in poikilothermal animals (fish) was characterized by a very high content of polyunsaturated FA of the ω3-series. It is concluded that by the example of several studied species and of human, composition of lipid components in animal lipoproteins has a non-stable character and is submitted to changes. Their most pronounced modifications with a negative trend were revealed in human LDL and HDL in IHD.     

Content of the main lipid components in blood serum lipoproteins of human and of various animal species

Using precipitation method, low-density (LDL) and high-density (HDL2 and HDL3) lipoproteins were isolated from blood serum of human (donors, patients with ischemic heart) diseases--IHD, with bronchial asthma--BA, with chronic obstructive bronchitis--COB), of mammals predisposed (pig, rabbit) and resistant (rat, mink, Arctic fox) to atherosclerosis, of birds (hen, pigeon), of bony fish (trout, white-fish, pike-perch, pike, bream, burbot), and of cartilaginous fish (sturgeon, white sturgeon). From each lipoprotein group, lipids were extracted, separated by thin-layer chromatography, and analyzed quantitatively by the spectrophotometric method. In phosphatidylcholine and HDL2 cholesterol esters, bound fatty acids (FA) were determined by the method of gas-liquid chromatography. The main amount of total cholesterol has been established to be concentrated in human LDL, especially in the cases of IHD, and in LDL in mammals predisposed to atherosclerosis. In mammals resistant to atherosclerosis and in fish the almost entire cholesterol was revealed in HDL. The phospholipid content in HDL was lower in patients with pathologies and in mammals predisposed to atherosclerosis, while the highest content--in fish and mammals resistant to atherosclerosis. In homoiothermal animals and in human the main FA amount in HDL was represented by the omega6-series. Acids of the omega3-series amounted to a negligible percentage, especially in IHD. On the contrary, the HDL FA composition of poikilothermal animals (fish) had a very high content of polyunsaturated FA of the omega3-series. A conclusion is made that composition of lipid components in animal lipoproteins by the example of several studied species and of human has a non-stable character and is submitted to changes. Their most pronounced modifications with a negative trend took place in human LDL and HDL in IHD.     

Defining the spectrum of alleles that contribute to blood lipid concentrations in humans

PURPOSE OF REVIEW: Recently, genome-wide genetic screening of common DNA sequence variants has proven a successful approach to identify novel genetic contributors to complex traits. This review summarizes recent genome-wide association studies for lipid phenotypes, and evaluates the next steps needed to obtain a full picture of genotype-phenotype correlation and apply these findings to inform clinical practice. RECENT FINDINGS: So far, genome-wide association studies have defined at least 19 genomic regions that contain common DNA single nucleotide polymorphisms associated with LDL cholesterol, HDL cholesterol and/or triglycerides. Of these, eight represent novel loci in humans, whereas 11 genes have been previously implicated in lipoprotein metabolism. Many of the same loci with common variants have already been shown to lead to monogenic lipid disorders in humans and/or mice, suggesting that a spectrum of common and rare alleles at each validated locus contributes to blood lipid concentrations. SUMMARY: At least 19 loci harbor common variations that contribute to blood lipid concentrations in humans. Larger scale genome-wide association studies should identify additional loci, and sequencing of these loci should pinpoint all relevant alleles. With a full catalog of DNA polymorphisms in hand, a panel of lipid-related variants can be studied to provide clinical risk stratification and targeting of therapeutic interventions.     

The inefficiency of ribosomes functioning in Escherichia coli growing at moderate rates

It is generally agreed that ribosomes function with reduced efficiency (i.e. a smaller proportion is actually engaged in protein synthesis) in bacteria growing at low growth rates (doubling times greater than 2 h). This paper examines whether the efficiency is constant in bacteria growing at various rates corresponding to doubling times of less than 2 h. Because isotopic methods cannot be used in very rich media, turbidimetric methods have been extended to follow the kinetics of growth immediately following the shift-up of cultures of Escherichia coli ML308 growing in glucose minimal medium or succinate minimal medium into a very rich medium supporting a balanced doubling time of 17.4 min. It is concluded that the efficiency of ribosome participation in protein synthesis is higher in the very rich medium than in the two minimal media, which support doubling times of 43 and 65 min, respectively, at 37 degrees C.