Influence of contraction velocity in untrained individuals over the initial early phase of resistance training

The purpose of this study was to determine the early phase adaptations in short-term traditional (TRT) versus superslow (SST) resistance training. Sixteen apparently healthy subjects participated in this study. Subjects were pretested and posttested for their 1 repetition maximums (1RM) in the squat and bench press, peak power in a countermovement jump (CMJ) and squat jump (SJ), and body composition using dual energy x-ray absorptiometry. Subjects participated in an 8-week resistance training program in either SST (n = 9, 3 men, 6 women), using 50% of 1RM, or TRT (n = 7, 3 men, 4 women), using 80% of 1RM. Both groups trained 3 days per week. The TRT and SST groups improved in strength by 6.8 and 3.6% in the squat exercise and by 8.6 and 9.1% in the bench press, respectively. Peak power for the CMJ increased significantly in the TRT group, from 23.0 +/- 5.5 W/kg to 25.0 +/- 6.3 W/kg; no such increase was seen with respect to the SST group. Both groups' 1RM increased significantly for both the bench press and the squat. No changes in body composition were seen for either group. The results of this study suggest that TRT is more effective for improving peak power than SST.     

Effect of ethanol on the response of the rat urinary bladder to in vitro ischemia: Protective effect of α-lipoic acid

Purpose: Ethanol exposure has been used to demonstrate the increase of oxidative stress to a variety of tissues. We studied the effect of ethanol on the response of isolated strips of rat bladder to In vitro hypoxia in the absence of glucose (In vitro ischemia). Secondly, we determined if -lipoic acid (LA) could alter the response to ethanol + In vitro ischemia.Methods: Sixty-four rats were used for the these experiments. Each rat was anesthetized and its urinary bladder excised. The bladder body was cut into two longitudinal strips and each strip mounted in individual baths filled with oxygenated Tyrodes solution containing glucose at 37 C. Ethanol (0.3%, 1%, or 3%) was placed in the first six baths (two strips at each concentration). The last two baths did not receive ethanol. Each strip was incubated for 1 h and then stimulated with field stimulation at 2, 8, and 32 Hz. Each strip was stimulated with 10 M carbachol, washed three times with fresh oxygenated buffer and ethanol re-added to their respective baths. Each strip was then stimulated with 120 mM KCl and washed three times as before. Strips were then subjected to 1 h In vitro ischemia (incubation in the absence of glucose with Tyrodes equilibrated with nitrogen instead of oxygen). During the ischemic period, each strip was stimulated for 5 s every 10 min by 32 Hz FS to simulate hyperreflexia. At the end of the hour, the tissues were incubated for an additional hour in the presence of oxygen + glucose and subjected to a second series of stimulations as before. At all times, ethanol was maintained in baths 1–6. In set 2, 1% ethanol was added to the first six baths. LA was added to every other bath, and the experiments performed as mentioned earlier.Results: (a) Ethanol at 0.3% or 1% had no effect on the contractile responses prior to exposure to In vitro ischemia; 3% was inhibitory. (b) In vitro ischemia mediated a significant decrease in the contractile responses to all forms of stimulation except for carbachol. (c) Ethanol mediated a dose-response enhancement of the contractile dysfunctions caused by In vitro ischemia. (d) LA completely reversed the effects of ethanol on contractile responses following In vitro ischemia except for carbachol.Conclusions: The results demonstrate that direct exposure to ethanol significantly enhanced contractile dysfunctions mediated by In vitro ischemia followed by re-oxygenation and that the presence of LA significantly inhibits this effect of ethanol. (Mol Cell Biochem 271: 133–138, 2005)This material is based upon work supported in part by the Office of Research and Development, Department of Veterans Affairs, and NIH RO-1-DK067114     

Assessing hunters’ ability to identify shot geese: implications for hunting bag accuracy

Reliable hunting bag statistics are a prerequisite for sustainable harvest management. Recently, Internet-based hunting bag reporting systems have been introduced in some European countries, e.g. Denmark, which may enable faster and more detailed reporting. However, reporting of waterfowl bags on a species-specific level may be biased from the individual hunters’ ability to correctly identify species, particularly because juvenile birds can only be identified from subtle differences. We assessed hunters’ ability to identify the five goose species huntable in Denmark. Identifications were made from a line-up of ten full-bodied geese including adults and juveniles. From a total of 2160 identifications made by active hunters, 85.5% were correct while 14.5% were assigned to a wrong species. Active hunters had on average an identification accuracy of 76.0%, highest for Canada goose (99.1%) and lowest for white-fronted goose (74.6%) and bean goose (73.7%). Identification accuracy was significantly lower for juvenile than for adult individuals of white-fronted and bean geese. Correcting the official Danish Bag Record (2013/2014) for identification accuracy, the bags of white-fronted and bean geese increase by 56.5 and 104.4%, respectively, while the bags of greylag and pink-footed geese decrease by 6.7 and 9.0%; the bag for Canada goose remains unchanged. Although identification accuracy is probably higher under field conditions, the study documents that inaccurate species identification is a source of bias in national bag statistics. Hence, improving identification skills by hunters is important to improve bag data accuracy when based on Internet reporting.     

Mitochondrial involvement in bladder function and dysfunction

Benign bladder pathology resulting from prostatic hypertrophy or other causes is a significant problem associated with ageing in humans. This condition is characterized by increased bladder mass, decreased urinary flow rate, decreased compliance, and these and other changes in bladder function often subject patients to increased risk of urinary tract infection. While the physiologic attributes of benign bladder pathology have been extensively described in humans and in various animal model systems, the biochemical and molecular genetic bases for that pathology have only recently been investigated in detail. Studies demonstrate that mitochondrial energy production and utilization are severely impaired in bladder smooth muscle during benign bladder disease, and to a large extent this realization has provided a rational basis for understanding the characteristic alterations in urinary flow and compliance in bladder tissue. Recent investigations targeting the detailed molecular basis for impaired mitochondrial function in the disease have shown that performance of the organellar genetic system, and to a large extent that of relevant portions of the nuclear genetic system as well, is severely aberrant in bladder tissue. In this article, we discuss the physiologic aspects of benign bladder disease, summarize biochemical evidence for the altered mitochondrial energy metabolism that appears to underlie bladder pathology, review the structure and function of the mitochondrial genetic system, and discuss molecular genetic studies of that system which have begun to provide a mechanistic explanation for the biochemical and physiological abnormalities that characterize the disease. We also discuss areas for further research which will be critically important in increasing our understanding of the detailed causes of benign bladder pathology.     

Cerebral blood flow and metabolism during exercise: implications for fatigue.

During exercise: the Kety-Schmidt-determined cerebral blood flow (CBF) does not change because the jugular vein is collapsed in the upright position. In contrast, when CBF is evaluated by (133)Xe clearance, by flow in the internal carotid artery, or by flow velocity in basal cerebral arteries, a approximately 25% increase is detected with a parallel increase in metabolism. During activation, an increase in cerebral O(2) supply is required because there is no capillary recruitment within the brain and increased metabolism becomes dependent on an enhanced gradient for oxygen diffusion. During maximal whole body exercise, however, cerebral oxygenation decreases because of eventual arterial desaturation and marked hyperventilation-related hypocapnia of consequence for CBF. Reduced cerebral oxygenation affects recruitment of motor units, and supplemental O(2) enhances cerebral oxygenation and work capacity without effects on muscle oxygenation. Also, the work of breathing and the increasing temperature of the brain during exercise are of importance for the development of so-called central fatigue. During prolonged exercise, the perceived exertion is related to accumulation of ammonia in the brain, and data support the theory that glycogen depletion in astrocytes limits the ability of the brain to accelerate its metabolism during activation. The release of interleukin-6 from the brain when exercise is prolonged may represent a signaling pathway in matching the metabolic response of the brain. Preliminary data suggest a coupling between the circulatory and metabolic perturbations in the brain during strenuous exercise and the ability of the brain to access slow-twitch muscle fiber populations.     

Sesquiterpenes of nine european liverworts from the genera, Anastrepta,bazzania, jungermannia,lepidozia and Scapania

The essential oils of fourteen liverwort specimens from nine species of the Jungermanniales have been examined as to their sesquiterpenes. The barbatenes prove to be present in detectable amounts in all but one species. Bazzanene is frequently found with the barbatenes and new chemical evidence does not support the previously assigned structure but is consistent with a structure diastereomeric to trichodiene. This is consistent with a biogenetic rationale for the barbatene skeleton. Anasterptene, a novel crystalline tetracyclic hydrocarbon, has been found in numerous oils, and chemical degradation established a common skeleton with myliol. The samples of genus Scapania elaborate sesquiterpenes of the enantiomeric humulene-longifolene sequence. New members of this group found are (?)-β-longipinene, (?)-longipipanol, and (+)-γ-himachalene. The related germacrene series is represented by a cadinene, (?)-α-ylangene, and (?)-sativene. A series of cis-fused selinenes have also been found, which are more closely allied to the germacrene-sativene group than to typical trans-fused selinenes. One of these selinenes is shown to be the same as the material previously designated as sibirene. Scapania undulata also elaborates (+)-α- and β-chamigrene, and a number of novel hydrocarbons of still unknown structure.     

Changes in insulin sensitivity precede changes in body composition during 14 days of step reduction combined with overfeeding in healthy young men

A lifestyle characterized by inactivity and a high-calorie diet is a known risk factor for impaired insulin sensitivity and development of Type 2 diabetes mellitus. To investigate possible links, nine young healthy men (24 ± 3 yr; body mass index of 21.6 ± 2.5 kg/m(2)) completed 14 days of step reduction (10,000 to 1,500 steps/day) and overfeeding (+50% kcal). Body composition (dual X-ray absorptiometry, MRI), aerobic fitness (maximal O(2) consumption), systemic inflammation and insulin sensitivity [oral glucose tolerance test (OGTT), hyperinsulinemic euglycemic clamp] were assessed before (day 0), during (days 3 and 7), and immediately after the intervention (day 14), with follow-up tests (day 30). Body weight had increased at days 7 and 14 (P < 0.05). The amount of visceral fat had increased at day 14 compared with day 0 (P < 0.05). The insulin response to the OGTT had increased at days 7 and 14 (P < 0.05). Insulin sensitivity, estimated using the Matsuda index, had decreased at days 3 and 7 (P < 0.01). At day 14, glucose infusion rates had decreased by ～44% during the euglycemic clamps (P < 0.05). Also, plasma levels of leptin and adiponectin had increased (P < 0.05), whereas no changes were seen in inflammatory markers. At day 30, body weight and whole body adiposity were still elevated compared with day 0 (P < 0.05), whereas the insulin sensitivity as well as the insulin response to the OGTT did not differ from baseline. The glucose response to the OGTT was only affected at day 30, with a decrease compared with day 0. Our data show that insulin sensitivity was impaired after 3 days of inactivity and overfeeding. Impairments in insulin sensitivity occurred before changes in body composition, supporting the notion that the initial steps in impairment of insulin sensitivity may be linked directly to the effects of inactivity and a high calorie intake.     

Inhibition of growth and decreased survival of B104 rat neuroblastoma cells after exposure to hyperbaric oxygen

The toxic effects of hyperbaric oxygen (HBO) on growth and survival of B104 rat neuroblastoma cells were investigated. Cells in log phase growth were incubated at 37 degrees C with 10 atm O2 for 1 to 4 h. After exposure to HBO, cells were monitored for their subsequent growth and survival. Two hours of exposure caused a slowing of growth, which returned to normal by the end of the 7th d of the postexposure period. Exposures to O2 of 3 h or longer caused a complete cessation of growth for 4 d after the exposure and very little or no recovery after this period. Increased hydrostatic pressure for 6 h using helium as the inert gas had no effect on growth. A colony formation assay was used to quantitate the degree of cell death induced by HBO. The resulting survival curve was of the exponential type with a broad shoulder between 0 to 2.5 h of exposure to 10 atm O2. The curve fell off sharply at 2.5 h with an exponential decrease in survival when the exposure to HBO was extended to 4 h. At 2 h about 50% of cells were killed, but at 4 h only 2% survived the treatment. These results show that the depression of the growth rate by HBO is related to the number of cells that are killed by the exposure. This system provides a model in which the molecular and cellular effects of HBO can be investigated.