Comparing growth of pork- and venison-reared Phormia regina (Diptera: Calliphoridae) for the application of forensic entomology to wildlife poaching.

Laboratory rearing of Phormia regina Meigen larvae on pork and venison was conducted as part of a study to determine whether forensic entomology approaches can be used in wildlife poaching investigations. Larvae were reared at 30 degrees C, 75% relative humidity, and a photoperiod of 14:10 (L:D) h on pork or venison diets, and samples were collected every 8 h until >90% of the maggots reached the third-instar wandering or prepupal stage. Significant differences were found in the distribution of lengths of the third instar and combined instars for maggots reared on the two different meat sources. Maggots reared on venison reached the prepupal wandering stage significantly faster (approximately 6 h) compared with maggots on the pork diet. Mean adult weight and wing length of venison-reared flies were significantly greater than for flies reared on pork. The lower crude fat content of venison appears to make this meat source a more suitable medium than pork for larvae of P. regina. The difference in growth rate could introduce error into PMImin estimations from third-instar maggots in deer poaching cases if estimates are based on data from studies in which maggots were reared on pork.

Passive tension in rat hindlimb during suspension unloading and recovery: muscle/joint contributions.

Muscle/joint stiffness associated with disuse conditions or weightlessness may seriously impair movement and work capacity. The purposes of this study were 1) to develop a noninvasive model to measure rat hindlimb passive tension, 2) to describe changes in passive tension (i.e., flexibility) during whole body suspension and weight-bearing recovery, and 3) to determine relative contributions of the posterior hindlimb to passive tension. Male Sprague-Dawley rats were suspended (14 days) and reloaded (14 days). On days 0, 7, 14, 17, 21, and 28, animals were anesthetized and hindlimb passive tension was measured during ankle dorsiflexion. Seven days of suspension significantly increased passive tension. Recovery of passive tension occurred by 14 days of weight bearing. In suspended animals, increased passive tension was due to musculotendinous units (75%) rather than to the joint (25%). Increased passive tension did not appear to be due to a shorter muscle, but changes in muscle architecture, cytoskeletal proteins, or viscoelastic properties of the muscle and its connective tissue elements cannot be excluded.

Translocation of two glucose transporters in heart: effects of rotenone, uncouplers, workload, palmitate, insulin and anoxia.

Our previous studies on the acute regulation of glucose transport in perfused rat hearts were extended to explore further the mechanism of regulation by anoxia; to test the effects of palmitate, a transport inhibitor; and to compare the translocation of two glucose transporter isoforms (GLUT1 and GLUT4). Following heart perfusions under various conditions, glucose transporters in intracellular membranes were quantitated by reconstitution of transport activity and by Western blotting. Rotenone stimulated glucose uptake and decreased the intracellular contents of glucose transporters. This indicates that it activates glucose transport via net outward translocation, similarly to anoxia. However, two uncouplers of oxidative phosphorylation produced little or no effect. Increased workload (which stimulates glucose transport) reduced the intracellular contents of transporters, while palmitate increased the contents, indicating that these factors cause net translocation from or to the intracellular pool, respectively. Relative changes in GLUT1 were similar to those in GLUT4 for most factors tested. A plot of changes in total intracellular transporter content vs. changes in glucose uptake was roughly linear, with a slope of -0.18. This indicates that translocation accounts for most of the changes in glucose transport, and the basal pool of intracellular transporters is five times as large as the plasma membrane pool.

Increased glucose and 2-deoxy-D-glucose uptake in skeletal muscle of suspended rats.

The influence of 7-d of whole-body suspension (WBS) on insulin stimulated glucose and 2-deoxy-D-glucose uptake in resting skeletal muscle was examined. Differential hindlimb muscle atrophic effects characteristic of this model (soleus > gastrocnemius > EDL) were observed. WBS and control (C) rats underwent hindlimb perfusion following an overnight fast. The rate and magnitude of glucose uptake across the entire hindlimb and within six individual muscles were assessed following the addition of 150, or 1000 microU/ml insulin to a perfusate containing 10 mM glucose and 5 microCi of the non-metabolizable glucose analog 2-deoxy-D-glucose (2-DG). The rate of uptake across the hindlimbs (A-V glucose difference x perfusate flow rate) was not different between C and WBS groups in the absence of exogenous insulin. At insulin concentrations of 150 and 1000 microU/ml the hindlimb musculature of suspended rats exhibited uptakes significantly (p < 0.05) more rapid (increased initial slope of the uptake curve) and of greater magnitude (increased area under uptake curve) than that of C. Overall, no differences in basal (no exogenous insulin) 2-DG uptake were observed between C and WBS muscles. When 150 and 1000 microU/ml of insulin were added to the perfusate, individual muscles from suspended rats exhibited significantly (p < 0.05) greater accumulation of 2-DG than C. These in situ results derived from an intact hindlimb preparation are the first to correlate both total hindlimb and individual muscle glucose uptakes in suspended rats, and suggest an enhanced effect of insulin in skeletal muscle of suspended rats.(ABSTRACT TRUNCATED AT 250 WORDS)

Pheromonal basis of aggregation in European earwig,Forficula auricularia L. (Dermaptera: Forficulidae).

The aggregation behavior of the European earwigForficula auricularia was investigated. Bioassays of frass extracts, cuticular washings, and the defensive exudate have been conducted to locate the source of an aggregation pheromone, and aggregation behavior has been demonstrated with extracts of frass and the washings of male cuticular lipids. Chemical investigations revealed the presence of a unique pattern of typical normal, monomethyl-, and dimethylalkanes, along with a series of fatty acids and the well-known defensive quinones from these insects. It has been concluded from the bioassays of a number of authentic compounds and the lack of a chemically discernible difference between male and female extracts that the aggregation pheromone ofF. auricularia is quite probably a minor component of the male cuticular lipids.

Skeletal muscle atrophy in response to 14 days of weightlessness: vastus medialis.

The vastus medialis (VM) from rats after 14 days of microgravity on COSMOS 2044 (F) was compared with VM from tail-suspended hindlimb-unloaded rats (T) and ground controls, including vivarium (V), synchronous (S), and basal (B) animals. The VM is composed chiefly of fast-twitch fibers; however, it contains a deep portion closer to the bone with mixed slow- and fast-twitch fibers. In the mixed-fiber portion, type I and II fiber areas were significantly reduced in F animals. In the homogeneous portion with chiefly fast-twitch fibers, F rats also showed reductions in cross-sectional areas compared with T, V, and B but not S rats. Fiber densities (fibers/mm2) were greatest in VM from F rats. Capillary density changes paralleled fiber density changes. F animals have significantly greater density of capillaries in the mixed-fiber portion. Concentrations of protein, RNA, and DNA were highest in V controls, whereas F rats had the lowest level of total RNA. Lactate dehydrogenase activity, one measure of anaerobic capacity, was greater in F than in S rats. Citrate synthase activity, a measure of oxidative capacity, showed no significant differences between groups. Although triglyceride stores of VM were greater in F than in T rats, there were no significant differences from any of the control groups. It was concluded that VM wet weights may be a less sensitive measure of atrophy than the fiber area measurements. Fiber area decreases and fiber density increases in F animals were quantitatively comparable to those in soleus and extensor digitorum longus after 7 days of weightless flight in Spacelab 3. Our results suggest that VM shows measurable responses to weightlessness.

Skeletal muscle response to spaceflight, whole body suspension, and recovery in rats.

Comparisons of soleus and extensor digitorum longus (EDL) muscles from male Sprague-Dawley rats (350-400 g) after 7 days of weightlessness, 7 and 14 days of whole body suspension (WBS), and 7 days of recovery from WBS and from vivarium controls were made. Muscle mass loss of approximately 30% was observed in soleus after 7 and 14 days of WBS. Measurement of slow- and fast-twitch fibers showed significant alterations. Reductions in cross-sectional areas and increases in fiber densities in soleus after spaceflight and WBS were related to previous findings of muscle atrophy during unloading. Capillary density also showed a marked increase with unloading. Seven days of weightlessness were sufficient to effect a 20 and 15% loss in absolute muscle mass in soleus and EDL, respectively. However, the antigravity soleus was more responsive in terms of cross-sectional area reductions. After 7 days of recovery from WBS, with normal ambulatory loading, the parameters studied showed a reversal to control levels. Muscle plasticity, in terms of fiber and capillary responses, indicated differences in responses in the two types of muscles and further amplified that antigravity posture muscles are highly susceptible to unloading. Studies of recovery from spaceflight for both muscle metabolism and microvascular modifications are further justified.

Effects of acute smoking and exercise on high-density lipoprotein-cholesterol and subfractions in black female smokers.

This study investigated the effects of acute bouts of both exercise and smoking on high-density lipoprotein-cholesterol subfractions, HDL2-C and HDL3-C in black females. During two testing trials, seven subjects were exposed to either acute exercise or smoking. Treadmill exercise was performed at 70% of heart rate reserve for 15 minutes. Blood samples were taken before, immediately after, and 10 minutes after exercise. The smoking trial consisted of subjects smoking two cigarettes followed by 30 minutes of nonsmoking. Blood samples were taken before smoking, after each cigarette, and after two 15-minute intervals of nonsmoking. The exercise protocol resulted in a 10.8% increase in total HDL-C, primarily through an increase in the HDL2-C subfraction. The values returned to baseline within 10 minutes after exercise. Smoking one cigarette decreased total HDL-C by 10%. Neither subfraction was significantly effected by smoking; however, the HDL3-C subfraction was decreased 11% and HDL2-C subfraction was decreased 14.7% from resting values. The maximum reduction in HDL3-C subfraction occurred after the smoking of the first cigarette, while the maximum reduction in the HDL2-C subfraction occurred after the first 15-minute nonsmoking period. Acute cigarette smoking was associated with a decrease in total HDL-C that was maintained through 15 minutes of nonsmoking. It is suggested that the adverse effect on HDL-C by acute smoking is a significant contributor to coronary heart disease (CHD) risk in black females. Results further indicate that low-intensity exercise is capable of transiently increasing the total HDL-C via an increase in the anti-atherogenic HDL2-C subfraction.(ABSTRACT TRUNCATED AT 250 WORDS)

Age effects on rat hindlimb muscle atrophy during suspension unloading.

Disuse can induce numerous adaptive alterations in skeletal muscle. In the present study the effects of hindlimb unloading on muscle mass and biochemical responses were examined and compared in adult (450 g) and juvenile (200 g) rats after 1, 7, or 14 days of whole body suspension. Quantitatively and qualitatively the soleus (S), gastrocnemius (G), plantaris (P), and extensor digitorum longus (EDL) muscles of the hindlimb exhibited a differential sensitivity to suspension and weightlessness unloading in both adults and juveniles. The red slow-twitch soleus exhibited the most pronounced atrophy under both conditions, with juvenile responses being greater than adult. In contrast, the fast-twitch EDL hypertrophied during suspension and atrophied during weightlessness, with no significant difference between adults and juveniles. Determination of biochemical parameters (total protein, RNA, and DNA) indicated a less rapid rate of response in adult muscles. This was corroborated by assessment of muscle alpha-actin mRNA levels, which indicated a rapid (within 1 day) and significant (P less than 0.05) effect in juveniles but not in adults. The results of this investigation indicate 1) a qualitatively similar differential effect of unloading on muscles of adults and juveniles, 2) a quantitatively reduced and less rapid effect of suspension on adult muscles, and 3) a close similarity of adult and juvenile muscle responses during suspension and spaceflight, suggesting that this ground-based model simulates many of the unloading effects of weightlessness.

Autonomic influence on cardiovascular performance in diabetic subjects.

PURPOSE: Cardiomyopathy, coronary artery atherosclerosis, or autonomic neuropathy may affect the cardiovascular performance of the diabetic patient. To evaluate the role of parasympathetic nervous system activity on cardiovascular performance, 25 diabetic subjects who lacked symptoms, signs, or objective measurements of ischemia or cardiomyopathy were studied. PATIENTS AND METHODS: Diabetic subjects were classified according to their RR variation, an index of cardiac parasympathetic nervous system activity. Fourteen diabetic subjects had a normal RR variation of greater than 30 (D-NOR), and 11 diabetic patients had an abnormal RR variation of less than 20 (D-ABN). Fifteen age- and weight-matched, healthy, nondiabetic subjects (NOR) constituted the control group. All subjects had oxygen consumption, multigated acquisition determination of cardiac output, and work product measured before and during supine bicycle maximum exercise testing. RESULTS: There was no difference in the resting cardiac output among the groups. Resting work product, however, was greatest in the D-ABN group when compared with performance in the other two groups (D-ABN: 11,500 +/- 800; D-NOR: 9,000 +/- 600; NOR: 8,700 +/- 400; p less than 0.0025). This was due to an increase in both heart rate (p less than 0.025) and systolic blood pressure (p less than 0.015). In the diabetic subjects, there was an inverse relationship between the RR variation and resting work product (r = 0.47, n = 25, p less than 0.005). In response to exercise, the percent increase in cardiac output at matched percent maximum oxygen uptake was greatest in the NOR, D-NOR, and D-ABN groups, respectively (analysis of variance, p less than 0.01). In the diabetic subjects, there was a significant relationship between the RR variation and the maximum percent change in cardiac output (r = 0.41, n = 25, p less than 0.02). Compared with the NOR group, the maximum increase in work product was impaired in diabetic subjects (p less than 0.002) and not different between the D-NOR and D-ABN groups. CONCLUSIONS: The increase in resting work product and the poor cardiac output responses to exercise in the D-ABN group are due to a decrease in cardiac parasympathetic nervous system activity and can be suggested by an abnormal RR variation. This index of parasympathetic nervous system activity can help the physician identify that subset of diabetic patients that may need special consideration when exercise training is prescribed.

Body fat and the activity of the autonomic nervous system.

The cause of most cases of human obesity is unknown. Specific alterations in the activity of the autonomic nervous system may mediate and perhaps cause obesity in animal models. We therefore looked for alterations in autonomic activity in human obesity. Fifty-six healthy men with various percentages of body fat underwent autonomic testing while at rest. Significant correlations were found between the percentage of body fat and the variation in the R-R interval after beta-adrenergic blockade (r = -0.30, P less than 0.03), the heart rate (r = 0.30, P less than 0.03), the plasma norepinephrine concentration (r = -0.30, P less than 0.05), the plasma epinephrine concentration (r = -0.49, P less than 0.001), and the pupillary latency period (r = 0.39, P less than 0.01). Each of these variables reflects the activity of the sympathetic nervous system or parasympathetic nervous system or both. Depressions in sympathetic and parasympathetic activity were significantly but weakly associated with increasing percentages of body fat. These associations indicate that in obese persons, autonomic changes, though not necessarily causal, involve several organ systems. We suggest that autonomic alterations are important in human obesity, as they are in animal obesity. A disordered homeostatic mechanism may promote excessive storage of energy by decreasing sympathetic activity, while defending against weight gain by decreasing parasympathetic activity. The use of autonomic profiles holds promise for classifying human obesity and identifying obese patients at increased risk for various disorders.

Respiratory alkalosis: no effect on blood lactate decline or exercise performance.

It was the purpose of this study to determine the effects of respiratory alkalosis before and after high intensity exercise on recovery blood lactate concentration. Five subjects were studied under three different acid-base conditions before and after 45 s of maximal effort exercise: 1) hyperventilating room air before exercise (Respiratory Alkalosis Before = RALB, 2) hyperventilating room air during recovery (Respiratory Alkalosis After = RALA), and 3) breathing room air normally throughout rest and recovery (Control = C). RALB increased blood pH during rest to 7.65 +/- 0.03 while RALA increased blood pH to 7.57 +/- 0.03 by 40 min of recovery. Neither alkalosis treatment had a significant effect on blood lactate concentration during recovery. The peak lactate values of 12.3 +/- 1.2 mmol.L-1 for C, 11.8 +/- 1.2 mmol.L-1 for RALB, and 10.2 +/- 0.9 mmol.L-1 for RALA were not significantly different, nor were the half-times (t 1/2) for the decline in blood lactate concentration; C = 18.2 min, RALB = 19.3 min, and RALA = 18.2 min. In C, RALB and RALA, the change in base excess from rest to postexercise was greater than the concomitant increase in blood lactate concentration, suggesting the presence of a significant amount of acid in the blood in addition to lactic acid. There was no significant difference in either the total number of cycle revolutions (C = 77 +/- 2, RALB = 77 +/- 1) or power output at 5 s intervals between RALB and C during the 45 s.(ABSTRACT TRUNCATED AT 250 WORDS)

Comparative morphometry of fibers and capillaries in soleus following weightlessness (SL-3) and suspension.

This work is a continuation of efforts to assess responses of rat skeletal muscle to weightlessness and earthside laboratory experiments with unloading of hind limbs. The soleus is a slow twitch, load bearing (antigravity) muscle. Both exposure to weightlessness (W) and to the hypokinesia/hypodynamia of whole body suspension (WBS) results in soleus atrophy. Cross sectional areas of both slow and fast twitch fibers decrease during 7 days of W, and 7 or 14 days of WBS. Density and area changes tended to reverse to control levels during 7 days of recovery (R) following WBS. Capillary density was increased with 7 days of W, and 7 or 14 days of WBS. During 7 days of R the capillary density returned toward control levels. In summary, the reduction in fiber cross sectional areas and increase in fiber and capillary densities support the hypothesis that in both forms of disuse, i.e., W and WBS, there is a loss in soleus muscle cell mass and not in fiber numbers.

Energy metabolism in contracting rat skeletal muscle: adaptation to exercise training.

Rats were trained by means of a program of treadmill running. Hindlimb muscles were stimulated to contract in anesthetized rats. Measurements were made on the plantaris and the deep, predominantly fast-twitch red portion of the gastrocnemius. The concentration of ATP plus phosphocreatine (approximately P) decreased less and stabilized at a higher level, whereas inorganic phosphate (Pi) and AMP concentrations increased less and attained lower steady-state levels in trained than in untrained muscles at the same work rate. Similarly, when muscles were stimulated to contract in the perfused rat hindquarter preparation, phosphocreatine (PC) concentration decreased less in trained plantaris muscle during contractile activity that resulted in the same rate of oxygen uptake by trained and untrained muscles. In both preparations, glycogen concentration decreased less and lactate increased less in the trained muscle. From the changes that occurred in the PC-to-creatine ratio during contractile activity and from ATP concentration, it could be estimated that free ADP concentration increased less than one-half as much in trained as in untrained muscles. We conclude that, as a consequence of the adaptive increase in muscle mitochondria, approximately P concentration is higher and Pi, ADP, and AMP concentrations are lower in muscles of exercise-trained compared with untrained rats during the same contractile activity.

Effects of smoking cessation on weight gain, metabolic rate, caloric consumption, and blood lipids.

Thirteen sedentary adult females successfully quit smoking cigarettes for 48 days. Mean daily caloric consumption increased 227 kcal and mean weight gain was 2.2 kg. There were no measurable acute effects of smoke inhalation and no chronic net effects of smoking cessation on resting metabolic rate, as determined by oxygen consumption and respiratory exchange ratio. After 1 yr, subjects who continued to abstain gained an average of 8.2 kg. HDL-cholesterol increased 7 mg/dl in 48 days; however, this effect was lost in those who returned to smoking. Increased caloric consumption accounted for 69% of weight gained immediately following smoking cessation. Factors other than changes in caloric consumption and metabolic rate may be responsible for a significant proportion (31%) of the weight gained in individuals who quit smoking.

Effect of contractile activity on rat skeletal muscle beta-adrenoceptor properties.

The effect of fiber type and endurance exercise training on skeletal muscle beta-adrenoceptor properties were assessed using a direct radioligand binding technique. Six separate muscles, composed of a variety of different fiber types, were examined in treadmill trained and sedentary rats. In trained animals, sarcolemmal preparations from heart and slow twitch soleus muscle exhibited a significantly greater receptor concentration than membranes from white fast twitch glycolytic fibers of the vastus lateralis. No significant changes were observed between trained and sedentary rat muscle beta-adrenoceptor density (beta max, fmole/mg protein) or affinity (Kd, nM) within each muscle type, despite significantly increased myocardial/body weight ratios and skeletal muscle enzyme adaptations associated with the exercise program. These results suggest that muscle beta-adrenoceptor properties may be influenced in part by the motor nerve innervation to that muscle, and are further discussed with respect to a possible relationship between exercise intensity and receptor regulation.