Seasonal variation in sweating responses of older and younger men

Eight older (60–65 years) and six younger (20–25 years) men were exposed to a standard heat stress for 60 min in summer, autumn, winter, and spring. The test consisted of placing the lower legs and feet in a 42°C water bath while sitting in constant environmental conditions (30°C and 45% relative humidity). The increase of rectal temperature (T _re) was significantly greater (P < 0.05) in autumn, winter, and spring than in summer for the older group, but significantly greater only in winter than in summer for the younger group (P < 0.05). The T _re was greater for the older group in all seasons, but of significance only in autumn and spring (P < 0.01). There were no significant season-related differences for metabolic heat production (m) and mean skin temperature ( _sk) during the heat test in the respective groups, although the m and _sk were lower for the older group in all seasons (P < 0.01). In the older group total body sweating rate (m_sw) divided by T _re (total m_sw/T _re) decreased from summer to winter (P < 0.02) and did not differ between winter and spring, whereas total m_sw/T _re in the younger group increased in spring after decreasing from autumn to winter (P < 0.03). The variations of the value, local sweating rate on the back and thigh divided by T _re (back m_sw/T _re and thigh m_sw/T _re), were similar to those of the total m_sw/T _re in each group, except for back m_sw/T _re in the younger group, which did not increase from winter to spring. The total m_sw/T _re, back m_sw/T _re and thigh m_sw/T _re were significantly less for the older group in summer, autumn and spring (P < 0.05). The range of seasonal variations was significantly less for the older group (P < 0.001). The results indicated that, compared with younger men in older men, the enhancement of sweating function toward summer occurred later and its reduction toward winter occurred earlier despite a smaller range of seasonal variation and that older men had a somewhat lesser capability to maintainT _re when challenged by heat stress in all seasons.     

Regional differences in age-related decrements of the cutaneous vascular and sweating responses to passive heating

Ten older (aged 64–76 years) and ten younger (aged 20–24 years) healthy men were exposed to a standard heat stress [by placing the lower legs and feet in a water bath at 42°C while sitting in a controlled environment (ambient temperature 35°C and 45 % relative humidity) for 60 min]. During passive heating, the rectal temperature of the older men was significantly greater (P < 0.05) and mean skin temperature was lower (P < 0.001), compared to the younger men. Skin blood flow by laser Doppler flowmetry (LDF) was significantly lower on the chest and thigh for the older men (P < 0.001), but forehead LDF did not differ between the groups. The percentages of total LDF in the older men to total LDF in the younger men for the last 30 min were 99%, 58% and 50% on the forehead, chest and thigh, respectively. The age-related differences in LDF responses mirrored cutaneous vascular conductances (CVC), since no group and time effects were observed in mean arterial blood pressure during the test. During the last 30 min the local sweat rates (m_sw) on the back and thigh were significantly lower for the older men (P < 0.02), but not on forehead, chest and forearm, although the older men had lower m_sw during the first 30 min exposure regardless of site (P < 0.03). The percentages of total m_sw in the older men to total m_sw in the younger men during the last 30 min were 105%, 99%, 63%, 106% and 88% on the forehead, chest, thigh, forearm, and back, respectively. During the latter half of the exposure, the older men had similar LDF, CVC and m_sw on the forehead, lower LDF and CVC and a similar m_sw on the chest, and lower LDF, CVC and m_sw on the thigh, compared to the younger men. These results suggest firstly that regional differences exist in the age-related decrement of cutaneous vasodilatation as well as sweat gland function, secondly that the age-related decrement in cutaneous vascular function may precede a decrement in sweat gland function, and thirdly that the successive decrements may develop sequentially from the lower limbs to the upper body, and head.     

Benefit of endurance training in elderly people over a short period is reversible

 The present study assessed daily activity, physical capacity and body composition in 11 initially sedentary healthy subjects [5 men and 6 women, mean age 62.8 (SD 2.7) years] before training (T_o), after completion of 7 (T_7w) and 14 (T_14w) weeks of training, and again 6 (T_6m) and 12 (T_12m) months after training. The mean daily activity index decreased from T_7w to T_12m reaching a lower level than at T_o [T_12m − T_o = −1.5 (SD 4.6) units, P = 0.18]. Mean maximal oxygen uptake (V˙O_2max) and its corresponding mean power output (W˙ _max) were increased by 12.5 (SD 6.6)% (P = 0.003) and 22.8 (SD 12.8)% (P = 0.003), respectively, at T_14w, and returned to their T_o levels within 1 year. Mean body mass (m _b) remained stable until T_6m but increased significantly by 2.6 (SD 3.7)% from T_6m to T_12m (P < 0.05). Mean fat mass (m _f, from bioelectrical impedance analysis measurements) tended to decrease [−2.0 (SD 4.2)%, P = 0.10] during the training period but increased by 7.8 (SD 10.9)% between T_6m and T_12m (P < 0.05). The mean fat free mass did not vary during the study period (P = 0.81) but magnetic resonance imaging (MRI) showed that mean thigh muscle volume decreased between T_7w and T_12m to less than at T_o [T_12m − T_o = −2.3 (SD 3.6)%, P = 0.05]. Therefore, this study confirmed the favourable effects of endurance training on the physical capacity and body composition of elderly people, but demonstrated that the training programme would have to be continued to maintain the training-related benefits (i.e. increased V˙O_2max and W˙ _max) which would otherwise be lost within 1 year. After training, m _b and m _f were found to be increased. Furthermore, a fast and reproducible MRI protocol was validated for study of small intra-individual variations in tissue volumes in longitudinal studies. Accepted: 7 September 1999     

Cardiac, arterial and venous adaptation to weightlessness during 6-month MIR spaceflights with and without thigh cuffs (bracelets)

The objectives of this investigation were to study the effects of thigh cuffs (bracelets) on cardiovascular adaptation and deconditioning in 0 g. The cardiovascular parameters of six cosmonauts were measured by echocardiography, Doppler, and plethysmography, during three 6-month MIR spaceflights. Measurements were made at rest during preflight (−30 days), inflight (1, 3–4, and 5–5.5 months) without cuffs (morning) and after 5 h with cuffs, and during postflight (+3 and +7 days). Lower-body negative pressure (LBNP) measurements were performed 1 day after each resting session. Inflight values of left ventricle end-diastolic volume and stroke volume measured without the thigh cuffs (−8 to −24% and −10 to −16%, respectively, both P < 0.05) were lower than corresponding preflight values. The jugular and femoral vein cross-sectional areas (A _jv and A _fv, respectively) were enlarged (A _jv: by 23–30%, P < 0.001; A _fv: by 33–70% P < 0.01). The renal and femoral vascular resistances (R _ra and R _fa, respectively) decreased (R _ra: by −15 to −16%, P < 0.01; R _fa: by −5 to −11%, P < 0.01). Inflight, the thigh cuffs reduced the A _jv (by −12 to −20%, P < 0.02), but enlarged the A _fv (A _fv: by 9–20%, P < 0.02) and increased the vascular resistance (R _ra: by 8–13%, P < 0.05; R _fa: by 10–16%, P < 0.01) compared to corresponding inflight, without-cuffs values. During LBNP (−45 mmHg, where 1 mmHg=133.3 N/m²), R _fa and the ratio between cerebral and femoral blood flow (Q˙ _ca/Q˙ _fa) increased less inflight and postflight (+25% for R _fa and +30% for Q˙ _ca/Q˙ _fa) than during preflight (60% for R _fa and 75% for Q˙ _ca/Q˙ _fa, P < 0.01). This reduced vasoconstrictive response and less efficient flow redistribution toward the brain was associated with orthostatic intolerance during postflight stand tests in all of the cosmonauts. The calf circumference increased less inflight and postflight (6% P < 0.05) than preflight (9% P < 0.05). The vascular response to LBNP remained similarly altered throughout the flight. The thigh cuffs compensated partially for the cardiovascular changes induced by exposure to 0 g, but did not interfere with 0 g deconditioning. Accepted: 5 November 1999     

Comparative study on determination of plasma thyroid hormones by chemiluminescence and electrochemiluminescence immunoassay methods in sheep

The aim of this study was to compare plasma thyroid hormone concentrations by both chemiluminescence (CLIA) and electrochemiluminescence immunoassay (ECLIA) methods in sheep. Blood samples were taken from the jugular vein of 25 clinically healthy, non-pregnant adult ewes. The plasma was analyzed to determine thyroxine (T₄), tri-iodothyronine (T₃), free thyroxine (fT₄) and free tri-iodothyronine (fT₃) concentrations. The data from this study indicates, there were significant differences in the T₄ (P < 0.0001), T₃(P < 0.01) and fT₃(P < 0.01) concentrations between the two methods, and the levels of these hormones were higher when using the ECLIA method. In determining thyroid hormones using the CLIA and ECLIA methods, significant positive correlations were found between T₄ and fT₄ (P < 0.001, r = 0.703; P < 0.0001, r = 0.806) also between T₃ and fT₃ (P < 0.0001, r = 0.922; P < 0.0001, r = 0.923) concentrations, respectively. The linear regression analysis of these hormones showed that the CLIA and ECLIA results were significantly correlated (T₄ (P < 0.01, r = 0.583), T₃ (P < 0.0001, r = 0.898), fT4 (P < 0.0001, r = 0.796) and fT₃ (P < 0.0001, r = 0.898).     

Circadian variation of sweating responses to passive heat stress

The aim of present study was to examine whether sweating responses to passive heat stress change with the circadian rhythm of internal temperature. Six men had their legs immersed in water at 42 °C for 60 min in an ambient temperature of 28 °C on four separate days. Experiments were conducted at four different times [ 06.00 h (morning), 12.00 h (daytime), 18.00 h (evening) and 24.00 h (night)]. We measured oesophageal temperature (T_oes), mean body temperature T¯_b, local sweating rate m˙_sw on the forehead, back, forearm and thigh, the densities of activated sweat gland (ASG) on the back, forearm and thigh, and the frequency of sweat expulsion per minute (F_sw) which has been suggested to represent central sudomotor activity. Sweat gland output (SGO) on each site was calculated by dividing m˙_sw by ASG. ASG was significantly higher on the forearm than on the back and thigh, and SGO was significantly lower on the forearm than on the back and thigh. However, ASG and SGO did not significantly change over the day. T¯_b and T_oes thresholds for the onset of sweating showed a significant change with both the temperature rhythms at rest prior to each procedure, while the slopes of the relationships F_sw– T¯_b and m˙_sw–F_sw showed no significant difference over the day. We suggest that the circadian variation of sweating response to passive heat stress is regulated by a central sudomotor mechanism rather than by sweat gland function.     

Thermoregulatory responses of young and older men to cold exposure

Summary Nine young (20–25 years) and ten older (60–71 years) men, matched for body fatness and surface area :mass ratio, underwent cold tests in summer and winter. The cold tests consisted of a 60-min exposure, wearing only swimming trunks, to an air temperature of 17°C (both seasons) and 12°C (winter only). Rectal (T _re) and mean skin ( _sk) temperatures, metabolic heat production (M), systolic (BP_S) and diastolic (BP_d) blood pressures and heart rate (f _c) were measured. During the equilibrium period (28°C air temperature) there were no age-related differences inT _re, _sk, BP_S, BP_d, orf _c regardless of season, although M of the older men was significantly lower (P<0.003). The decrease inT _re and _sk (due to the marked decrease in six of the older men) and the increase in BPS and BPd were significantly greater (P<0.004) for the older men during all the cold exposures. The rate of increase inM was significantly greater (P<0.01) for the older group when exposed to 12°C in winter and 17°C in summer (due to the marked increase in four of the older men). This trend was not apparent during the 17°C exposure in winter. There was no age-related difference in f_c during the exposures. Significant decreases inT _re and _sk and increases inM, BP_S and BP_d during the 12°C exposure were observed for the older group (P< 0.003) compared to their responses during the 17°C exposure in winter. In contrast,T _re,M, BP_S in the young group were not affected as much by the colder environment. It was concluded that older men have more variable responses and some appear more or less responsive to mild and moderate cold air than young men.     

Effect of exercise on the mitochondrial DNA content of peripheral blood in healthy women

Exercise decreases insulin resistance and increases maximal exercise capacity as estimated from maximal oxygen uptake (V˙O_2max). Recent reports have demonstrated that the mitochondrial DNA (mtDNA) content of blood is correlated with V˙O_2max in healthy subjects (mean age 31 years) and is inversely correlated with insulin resistance parameters. The aim of this study was to determine the effect of regular exercise on the mtDNA content in the peripheral blood of 16 healthy young women of mean age 24.8 (SD 6.2) years and 14 healthy older women of mean age 66.7 (SD 5.8) years. The exercise programme lasted for 10 weeks and consisted of three sessions a week, each of 1 h and aiming to attain 60%–80% of V˙O_2max. The mtDNA content of peripheral blood was measured by competitive polymerase chain reaction. The V˙O_2max had significantly increased following the exercise programme [from 33.1 (SD 3.4) to 35.2 (SD 3.4) ml · kg⁻¹ · min⁻¹ in the young and from 24.3 (SD 5.3) to 30.3 (SD 7.3) ml · kg⁻¹ · min⁻¹ in the older women, both P < 0.05]. Exercise decreased systolic blood pressure, and concentrations of triglyceride, low density lipoprotein-cholesterol (LDL-C), glucose and insulin in the blood of the young and of total cholesterol, LDL-C and glucose in that of the older women. High density lipoprotein-cholesterol (HDL-C) in the young women was increased by exercise. The mtDNA content significantly increased following the exercise programme in both groups [from 27.1 (SD 17.9) to 52.7 (SD 44.6) amol · 5 ng⁻¹ genomic DNA in the young and from 15.3 (SD 10.2) to 32.1 (SD 30.0) amol · 5 ng⁻¹ genomic DNA in the older women, both P < 0.05]. There was a significant positive correlation between the change in mtDNA content and the change in V˙O_2max (r=0.74 in the young and r=0.71 in the older women, both P < 0.01). In conclusion, 10 weeks of moderate intensity, regular exercise increased the mtDNA content in peripheral blood and decreased insulin resistance parameters. This data suggests that increase in the mtDNA content may be associated with increased insulin sensitivity. Accepted: 15 April 2000     

Effects of improvement in aerobic power on resting insulin and glucose concentrations in children

In this study we determined the influence of improving aerobic power (V˙O_2max) on basal plasma levels of insulin and glucose of 11- to 14-year-old children, while accounting for body fat, gender, pubertal status, and leisure-time physical activity (LTPA) levels. Blood samples were obtained from 349 children after an overnight fast and analyzed for plasma insulin and glucose. Height, mass, body mass index (BMI), and sum of skinfolds (Σ triceps + subscapular sites) were measured. LTPA levels and pubertal status were estimated from questionnaires, and V˙O_2max was predicted from a cycle ergometry test. Regardless of gender, insulin levels were significantly correlated (P = 0.0001) to BMI, skinfolds, pubertal stage, and predicted V˙O_2max, but were not related to LTPA levels. Fasting glucose levels were not correlated to measures of adiposity or exercise (LTPA score, V˙O_2max) for females; however, BMI and skinfolds were correlated for males (P < 0.006). The children then took part in an 8-week aerobic exercise program. The 60 children whose V˙O_2max improved (≥3 ml · kg⁻¹ · min⁻¹) had a greater reduction in circulating insulin than the 204 children whose V˙O_2max did not increase −16 (41) vs −1 (63) pmol · l⁻¹; P = 0.028. The greatest change occurred in those children with the highest initial resting insulin levels. Plasma glucose levels were slightly reduced only in those children with the highest insulin levels whose V˙O_2max improved (P < 0.0506). The results of this study indicate that in children, adiposity has the most significant influence on fasting insulin levels; however, increasing V˙O_2max via exercise can lower insulin levels in those children with initially high levels of the hormone. In addition, LTPA does not appear to be associated with fasting insulin status, unless it is sufficient to increase V˙O_2max. Accepted: 2 June 1999     

Effects of glucose ingestion at the onset of moderate-intensity, prolonged exercise in women as compared to men

To test glucose tolerance during exercise, the effects of oral glucose ingestion (0.5 g · kg⁻¹) on plasma glucose and hormonal responses (insulin, catecholamines) were investigated in 11 women [mean (SEM) age 21.6 (1.3) years] and 10 men [22.0 (0.3) years] during cycle ergometer exercise (30 min at 60% maximum oxygen consumption, V˙O_2max). The two groups exhibited similar V˙O_2max values, when expressed per kg of lean body mass. Venous blood samples (5 ml) were withdrawn immediately before the exercise, during the exercise (at 3, 5, 10, 15 and 30 min) and at the 30th min of the recovery period. Glucose was ingested orally between the 2nd and the 3rd min of the exercise. As compared to men, plasma glucose concentrations were lower in women during exercise (P < 0.05 at 3, 15 and 30 min) and at the 30th min of the recovery period (P < 0.001), while plasma insulin concentrations were higher in women during exercise (P < 0.05 at 3, 15 and 30 min). The ratio of the area under the curve for glucose over the area under the curve for insulin was lower in women during exercise (P < 0.0002). A linear relationship between glucose and insulin concentrations was found only for women during exercise (r = 0.615, P < 0.0001). No gender difference was observed for the catecholamine concentration during exercise. In conclusion, this study postulates that an oral glucose load given at the onset of a prolonged and moderate exercise bout induced lesser plasma glucose and greater insulin concentrations in women as compared to men. These data argue in favour of a greater glucose tolerance in women during exercise. Accepted: 5 June 1999     

Mechanisms underlying the age-related decrement in the human sweating response

To examine the mechanisms underlying the age-related decrement in the ability to sweat, seven older (64–76 years) and seven younger (20–24 years) men participated in a 60-min sweating test. The test consisted of placing the subject's lower legs in a water bath at 42°C while sitting in a controlled environment of 35°C ambient temperature and 45% relative humidity. The rectal (T _re) and skin temperatures, local sweating rates (m˙ _sw: on the forehead, chest, back, forearm and thigh) and the frequency of sweat expulsion (f _sw) were measured during the test. No group difference was observed in the mean body temperature (T¯ _b) throughout the passive heating, although the older men had a higher T _re and a lower mean skin temperature during the last half of the 60-min test. There were no group differences in the T¯ _b threshold for sweating, although the time to the onset of sweating tended to be longer for the older men regardless of body site. The m˙ _sw increased gradually for approximately 35?min after the start of heat exposure in the older men and for 30?min in the younger men and then reached a steady state. During the first half of the test, the older men had a significantly lower m˙ _sw at all sites. During the last half of the test, only m˙ _sw on the thigh was significantly lower in the older men than in the younger men. There was no group difference in the slope of f _sw versus T¯ _b (an indicator of the change in the central sudomotor response to thermal input). The slope of m˙ _sw versus f _sw (an indicator of the change in peripheral activity in response to central sudomotor changes) was significantly lower on the thigh in the older men, but there were no differences for the other sites. These results suggest that in older men the lower thigh m˙ _sw observed during the last half of the heat test was possibly due to age-related modifications of peripheral mechanisms involving the sweat glands and surrounding tissues. It was not due to a change in the central drive to sudomotor function. Furthermore, the sluggish m˙ _sw responses in the older men appear to have been related to age-related modifications of the sensitivity of thermoreceptors in various body regions to thermal stimuli. They may also involve lower sweat glands' sensitivity to cholinergic stimulus or sluggish vasodilatation, and do not reflect age-related changes in the central drive.     

Mechanisms of underdeveloped sweating responses in prepubertal boys

To approach the mechanisms underlying the underdeveloped sweating responses of prepubertal boys, 8 boys (7–11 years old) and 11 men (21–25 years old) were exposed to a standard heat stress for 60?min. The test consisted of placing the subjects' lower legs into a 42°C water bath while they sat in otherwise constant environmental conditions (ambient temperature 25°C and 45% relative humidity). Rectal (T _re) and skin temperatures, local sweating rates (m˙ _sw: on the chest, back, forearm and thigh) and the frequency of sweating expulsions (?f _sw: as an indicator of central sudomotor activity) were measured during the test. During the passive heating, no group differences were observed for the increase in T _re, mean skin temperature and metabolic heat production. However, mean body temperature (T¯ _b) during heating was significantly higher for the boys (P<0.001) because of a higher baseline T _re. The boys had lower m˙ _sw on the chest (P<0.004) and thigh (P<0.001) during the latter half of the 60-min exposure compared to the young men, although a similar m˙ _sw was observed between the groups during the first half of the test. The group difference of m˙ _sw on the back was similar to that of the chest and thigh, but the difference was not significant (P=0.10). In contrast, the boys had a greater m˙ _sw on the forearm throughout the heating (P<0.03). The slope of the m˙ _sw vs f _sw relationship was significantly lower for the chest and thigh in the boys compared to the men (P<0.05), and the same tendency was observed for the back (but was not significant, P=0.10). In contrast, no difference was observed between the groups for the slope of m˙ _sw vs f _sw for the forearm. Furthermore, a lower sweat output per gland was also observed on the chest, back, and thigh in the boys (P<0.01), but not on the forearm. No group difference was observed for the slope of the f _sw vs T¯ _b relationship. These results suggest that the lower m˙ _sw observed in the prepubertal boys were due possibly to underdeveloped peripheral mechanisms, including the sweat glands and their surrounding tissues, rather than to an underdeveloped central drive activity related to sudomotor function. Regional differences may well exist in any underdeveloped peripheral mechanism associated with maturation.     

The effect of age on the power/duration relationship and the intensity-domain limits in sedentary men

The time to fatigue (t) in response to high-intensity constant-load exercise decreases hyperbolically with increasing power (W˙), at least in active and younger individuals [i.e. (W˙−θ_F)t=W′, where θ_F is the critical power asymptote and W′ is the curvature constant]. Little is known, however, about the combined effects of age and sedetarity on these parameters. We therefore evaluated 17 non-trained males (9 aged 60–75 years and 8 aged below 30 years) who underwent ramp-incremental cycle ergometry and, on different days, 4 high-intensity constant-load tests to t. Compared to their younger counterparts, the older subjects presented significantly lower maximum oxygen uptake (i.e. the maximum value of oxygen uptake attained at the end of a progressive exercise with the subject exerting a presumably maximal effort, μV˙O₂), estimated lactate threshold (V˙O₂θ_L), V˙O₂θ_F, and W′ (P < 0.05). Interestingly, however, both V˙O₂θ_L and V˙O₂θ_F, when expressed as a percentage of μV˙O₂, were higher in older than in younger men [61.8 (6.2)% versus 45.4 (4.6)% and 87.8 (7.3)% versus 79.0 (8.2)%, P < 0.05, respectively]. Therefore, age was associated with an increase in the relative magnitude of the “moderate”, sub-θ_L exercise-intensity domain (+30.4%), mainly at the expense of the “very-heavy”, supra-θ_F domain (−56%). Our results demonstrate that age and sedentarity are associated with: (1) marked reductions in both the aerobic (θ_F) and anaerobic (W′) determinants of the W˙/t relationship, and (2) changes in either the absolute or relative magnitudes of the exercise-intensity domains. These findings are consistent with the notion that endurance-related parameters are less diminished with ageing than the maximal capacity, thereby mitigating the deleterious effects of senescence in the functional capacity. Accepted: 5 April 2000     

Relationship between plasma thyroid hormones and some biochemical parameters in Iranian Sarabi calves

The thyroid gland has some important endocrine hormones that regulate basal metabolism in various tissues of domestic animals. Thyroid hormones have a central role in animals’ development and their tissue functions. In this study, the relationship between the plasma thyroxine (T₄), triiodothyronine (T₃), free thyroxine (fT₄), free triiodothyronine (fT₃), triglyceride, cholesterol, glucose, total protein, and albumin concentrations as well as albumin/globulin ratio in different ages of Iranian Sarabi calves was investigated. Blood samples were collected from the jugular vein of 47 clinically healthy calves free from internal and external parasites (grouped according to their age—1–14 days, 1–2, and 3–6 months) in early of winter. The level of thyroid hormones was determined by chemiluminescence, and other parameters were measured by spectrophotometry using commercial kits. Our data from this study indicates that there was no significant difference and correlation in all the studied parameters between age groups and sexes. But we found a significant correlation between plasma T₄ and total protein (P < 0.05, r = 0.600), T₄ and albumin (P < 0.05, r = 0.575), T₃ and fT₃ (P < 0.05, r = 0.610), T₃ and total protein (P < 0.01, r = 0.725), T₃ and glucose (P < 0.01, r = 0.685), and fT₄ and fT₃ (P < 0.05, r = 0.609) concentrations as well as between total protein and albumin/globulin ratio (P < 0.01, r = −0.783).     

Thyroid hormones and their correlations with serum glucose, beta hydroxybutyrate, nonesterified fatty acids, cholesterol, and lipoproteins of high-yielding dairy cows at different stages of lactation cycle

The relationships between circulating thyroid hormones and serum glucose, beta hydroxybutyrate (BHB), nonesterified fatty acid (NEFA), cholesterol and lipoproteins of high-yielding dairy cows were studied in 125 adult Holsteins at various stages of lactation cycle: early (far-off) dry period (n = 24), late (close-up) dry period (n = 10), fresh cows (n = 22), early lactation (n = 13), mid-lactation (n = 27) and late lactation (n = 29). Decreased levels of thyroxin (T₄) and triiodothyronine (T₃) were noted in peripartum cows which were extended to mid- and late-lactation cows, respectively. In fresh cows, glucose showed correlations with T₄ (r = 0.619, P < 0.01) and T₃ (r = 0.627, P < 0.01). In the same cows there were correlations between T₄ and BHB (r = 0.590, P < 0.01) and NEFA (r = 0.470, P < 0.01). In late dry cows, free thyroxin (fT₄) showed correlations with triglyceride (TG) and very-low-density lipoprotein (VLDL; r = −0.638, P < 0.05). Pooled data of the various stages of lactation cycle revealed correlations between glucose and T₄ (r = 0.20, P < 0.05), glucose and T₃ (r = 0.395, P < 0.01), cholesterol and T₃ (r = −0.201, P < 0.05), and free triiodothyronine (fT₃) and high-density lipoprotein (HDL; r = 0.178, P < 0.05). It appears that the time and the pattern of changes and/or correlations of serum thyroid hormones and lipid fractions may vary among dairy cows and other animals.     

V˙E and V˙CO2 remain tightly coupled during incremental cycling performed after a bout of high-intensity exercise

The purpose of the present study was to determine whether the linear relationship between CO₂ output (V˙CO₂) and pulmonary ventilation (V˙ _E) is altered during incremental cycling performed after exercise-induced metabolic acidosis. Ten untrained, female subjects performed two incremental cycling tests (15 W · min⁻¹ up to 165 W) on separate days. One incremental exercise test was conducted without prior exercise, whereas the other test was preceded by a 1-min bout of maximal cycling. The ventilatory equivalent for O₂ (V˙ _E/V˙O₂) was only elevated above control values at 15–60 W during incremental cycling performed after high-intensity exercise. In contrast, the ventilatory equivalent for CO₂ (V˙ _E/V˙CO₂) was significantly increased above control levels at nearly every work stage of incremental work (all except 165 W). Hyperventilation relative to V˙CO₂ was confirmed by the significantly lower end-tidal CO₂ tension (P _ETCO₂) obtained throughout the incremental cycling that was performed after high-intensity exercise (except at 165 W). V˙ _E and V˙CO₂ were significantly correlated under both treatment conditions (r > 0.99; P < 0.001). Moreover, both the slope and y-intercept of the linear regression were found to be significantly elevated during the incremental cycling performed after high-intensity cycling compared to control conditions (P < 0.01). The increase in the slope of the V˙ _E-V˙CO₂ relationship during incremental exercise performed under these conditions does not represent an uncoupling of V˙ _E from V˙CO₂, but could be accounted for by the significantly lower P _ETCO₂ observed during exercise. Accepted: 20 June 1997     

The effects of drafting on stroking variations during swimming in elite male triathletes

The aim of this study was to determine the effects of drafting behind another swimmer on the metabolic response and stroke characteristics. Six highly trained male triathletes performed two maximal 400-m swims, one in a drafting (D) and one in a non-drafting condition (ND). Their metabolic response was assessed by measuring the oxygen uptake (V˙O₂) and the blood lactate concentration at the end of each 400 m. Swimming velocity, stroke frequency, stroke length, and stroke index (velocity multiplied by stroke length) were recorded every 50 m. In the D and ND conditions, there was no difference in V˙O₂ [66.7 (1.7) ml · kg⁻¹ · min⁻¹ vs 65.6 (1.2) ml · kg⁻¹ · min⁻¹, respectively], however, the lactate concentrations were lower in D than in ND [9.6 (0.9) mM vs 10.8 (0.9) mM, respectively, P < 0.01]. In D, the performance [1.39 (0.02) m · s⁻¹ vs 1.34 (0.02) m · s⁻¹, respectively, P < 0.01] and the stroking parameters (i.e., stroke length and stroke index) increased significantly, while the stroke frequency remain unchanged. In D, a stable pace was maintained, while in ND, velocity decreased significantly throughout the 400 m. In D, the performance gains were related to the 400-m D velocity (r=0.78, P < 0.05), and to the body fat mass (BFM, r=0.99, P < 0.01). The stroke index in D was also related to BFM (r=0.78, P < 0.05). Faster and leaner swimmers achieved greater performance gains and stroke index when drafting. Thus, drafting during swimming increases the performance and contributes to the maintenance of stable stroking parameters such as stroke frequency and stroke length during a 400-m swim. Accepted: 10 April 2000     

Gender differences during treadmill walking with graded loads: biomechanical and physiological comparisons

In this study, we compared the biomechanical and physiological responses of healthy men and women during bilateral load carriage while they walked on a treadmill at their self-selected velocity. Eleven men mean (SD) maximal oxygen uptake, [V˙O_{2 max} = 56.0 (7.1) ml · kg⁻¹ · min⁻¹] and 11 women [V˙O_{2 max} = 44.6 (7.6) ml · kg⁻¹ · min⁻¹] carried 15-kg and 20-kg loads in random order using a custom-designed load-carriage device. The load supported by each hand was measured by placing strain gauges in each handle of the device. The load supported by the body was calculated as the difference between the load carried and that supported by each hand. Physiological measurements were recorded using standard procedures, and cardiac output was measured by carbon dioxide rebreathing while standing, walking, and during load carriage. Three-way analysis of variance (gender by load by test phase) indicated no significant (P > 0.05) three-way interaction, implying that the overall trend in these responses was similar in men and women. A-priori Scheffe multiple comparisons revealed the following significant (P < 0.05) gender differences during load carriage: (1) women supported a lower proportion of the load with the hands and transferred a greater amount to the body by resting the load against the chest, (2) the oxygen uptake increased by a greater amount in the women compared with men and exceeded the ventilatory threshold during the 20-kg walk in women, and (3) the cardiovascular stress, as indicated by the percentage of maximal heart rate and rate pressure product (product of heart rate and systolic blood pressure), was significantly higher in women compared with men during both of the load-carriage walks. These observations suggest that when carrying absolute loads of 15 kg and 20 kg, women are more susceptible to fatigue and are at a greater risk of cardiovascular complications than men. Accepted: 18 June 1999     

Sympathetic stimulation induced by hand cooling alters cold-induced vasodilatation in humans

Hand cooling is a cold pressor test, which induces general sympathetic stimulation. This cooling procedure is often performed to investigate cold induced vasodilatation (CIVD) in one finger. To investigate the effects of this sympathetic stimulation on local CIVD, 12 subjects immersed either the right index finger (T1), right hand (T2) or left hand and right index finger (T3) for 30 min in water at 5°C followed by 15-min recovery. Skin temperature and skin blood flow (Q˙ _sk) measured by laser Doppler flowmetry on the right index finger, as well as heart rate (f _c) and mean arterial blood pressure (), were continuously monitored during the three tests. Cutaneous vascular conductance was calculated as Q˙ _sk/. Concentrations of plasma noradrenaline (NA) and adrenaline (AD) were measured at different times during the tests. The results showed no cardiovascular change in T1, whereas f _c and increased significantly at the beginning of both T2 and T3. Similarly, sympathetic stimulation was reflected in the NA concentrations, which increased significantly (P < 0.01) during T2 and T3 after 5 min of immersion, and remained elevated until the recovery period. The AD concentration did not change during the three tests. During T2, the CIVD appeared later and slower in comparison with T1 [CIVD onset: 12.81 (SEM 2.30) min in T2 and 5.62 (SEM 0.33) min in T1] . During T3, the CIVD onset was not delayed compared to T1 [6.38 (SEM 0.67) min], but the rewarming was lower [+5.40 (SEM 0.86)°C in T3 and +9.10 (SEM 1.31)°C in T1]. These results showed that CIVD could be altered by sympathetic stimulation but it also appeared that the onset of CIVD could be influenced by local cooling, independently of the general sympathetic stimulation. Accepted: 23 September 1999     

The topography of eccrine sweating in humans during exercise

The purpose of this study was to investigate the distribution of steady-state sweating rates (m _sw), during stressful exercise and heat exposures. Six men completed 42-min trials: 2-min rest and 40-min cycling at 40% peak power in 36.6° C (relative humidity 46.0%). The m _sw, was monitored using ventilated capsules at the forehead, and at three additional sites. Repeat trials allowed monitoring from eleven skin surfaces. Auditory canal temperature (T_ac) and 11 skin temperatures were measured. After normalising m _sw to the forehead response within subjects, differences in T _ac and onset time thresholds, and transient and steady-state m _sw were examined. The pooled, lower torso m _sw onset [mean 45.5 (SEM 42.0) s] preceded that of the head [mean 126.5 (SEM 34.8) s, P<0.05], but was not significantly different from the legs [mean 66.6 (SEM 25.7) s], upper torso [mean 80.2 (SEM 36.8) s] or arms [mean 108.6 (SEM 31.2) s]. Transient m _sw did not differ among regions (P=0.16). Mean, steady-state forehead m _sw [3.20 (SEM 0.51) mg · cm^–2 · min^–1]was not significantly greater than the scapula, forearm, hand, stomach and lower back m _sw (in descending order), but was greater than the chest [1.6 (SEM 0.2)], upperarm [1.6 (SEM 0.2)], calf [1.5 (SEM 0.3)] and thigh m _sw [1.0 (SEM 0.2), P<0.05 for all comparisons]. The results did not support the caudal-to-rostral sweat onset evident during supine, resting heat stress. Equivalent T _ac sweat thresholds existed between sites, while steady-state m _sw topography varied among subjects and was not dominated by central regions.