Chronic hormone replacement therapy alters thermoregulatory and vasomotor function in postmenopausal women

Brooks, E. M., A. L. Morgan, J. M. Pierzga, S. L. Wladkowski, J. T. O'Gorman, J. A. Derr, and W. L. Kenney. Chronic hormone replacement therapy alters thermoregulatory and vasomotor function in postmenopausal women. J. Appl.Physiol. 83(2): 477-484, 1997.This investigationexamined effects of chronic (2 yr) hormone replacement therapy (HRT),both estrogen replacement therapy (ERT) and estrogen plus progesteronetherapy (E+P), on core temperature and skin blood flow responses ofpostmenopausal women. Twenty-five postmenopausal women [9 not onHRT (NO), 8 on ERT, 8 on E+P] exercised on a cycle ergometer for1 h at an ambient temperature of 36°C. Cutaneous vascularconductance (CVC) was monitored by laser-Doppler flowmetry, and forearmvascular conductance (FVC) was measured by using venous occlusionplethysmography. Iontophoresis of bretylium tosylate was performedbefore exercise to block local vasoconstrictor (VC) activity at oneskin site on the forearm. Rectal temperature (T_re) was ~0.5°C lower forthe ERT group (P < 0.01) comparedwith E+P and NO groups at rest and throughout exercise. FVC: mean body temperature (T_b) and CVC:T_b curves were shifted~0.5°C leftward for the ERT group(P < 0.0001). Baseline CVC wassignificantly higher in the ERT group(P < 0.05), but there was nointeraction between bretylium treatment and groups once exercise wasinitiated. These results suggest that1) chronic ERT likely acts centrally to decrease T_re,2) ERT lowers theT_re at which heat-loss effector mechanisms are initiated, primarily by actions on active cutaneous vasodilation, and 3) addition ofexogenous progestins in HRT effectively blocks these effects.

     

Posthemorrhagic antipyresis: what stage of fever genesis is affected?

Romanovsky, Andrej A., and Yelena K. Karman.Posthemorrhagic antipyresis: what stage of fever genesis isaffected? J. Appl. Physiol. 83(2):359-365, 1997.It has been shown that hemorrhage leads to adecreased thermal responsiveness to lipopolysaccharide (LPS). The aimof this study was to clarify what stage of fever genesis[production of endogenous pyrogens such as interleukin-1 (IL-1),increase of the prostaglandin E₂(PGE₂) concentration in braintissue, activation of cold-defense effectors] is deficient inposthemorrhagic antipyresis. In adult rabbits, we evaluated the effectof acute hemorrhage (15 ml/kg) on the rectal temperature (T_re) responses to LPS fromSalmonella typhi (200 ng/kg iv),ethanol-purified preparation of homologous IL-1 (1 ml from 3.5 × 10⁷ cells, 1.5 ml/kg iv), andPGE₂ (1 µg,intracisternal injection). The effect of hemorrhage onT_re was also studied in afebrilerabbits, both at thermoneutrality (23°C) and during ramp cooling(to 7°C). The hemorrhage strongly attenuated the biphasicLPS-induced fever (a T_re rise of0.4 ± 0.1 instead of 1.2 ± 0.2°C at the time of the secondpeak), the monophasic T_re responseto IL-1 (by ~0.5°C for over 1-5 h postinjection), and thePGE₂-induced hyperthermia (0.4 ± 0.1 vs. 0.9 ± 0.1°C, maxima). In afebrileanimals, the hemorrhage neither affectedT_re at thermoneutrality norchanged the T_re response to coldexposure. The data suggest that neither insufficiency of cold-defenseeffectors nor lack of endogenous mediators of fever (IL-1,PGE₂) can be the only or eventhe major cause of posthemorrhagic antipyresis. Wespeculate that fever genesis is altered at a stage occurring after theintrabrain PGE₂ level is increasedbut before thermoeffectors are activated.

     

Thermal and metabolic responses to cold-water immersion at knee, hip, and shoulder levels

Lee, Dae T., Michael M. Toner, William D. McArdle, IoannisS. Vrabas, and Kent B. Pandolf. Thermal and metabolic responses tocold-water immersion at knee, hip, and shoulder levels.J. Appl. Physiol. 82(5):1523-1530, 1997.To examine the effect of cold-water immersion atdifferent depths on thermal and metabolic responses, eight men (25 yrold, 16% body fat) attempted 12 tests: immersed to the knee (K), hip(H), and shoulder (Sh) in 15 and 25°C water during both rest (R) orleg cycling [35% peak oxygen uptake; (E)] for up to 135 min. At 15°C, rectal (T_re)and esophageal temperatures(T_es) between R and E were notdifferent in Sh and H groups (P > 0.05), whereas both in K group were higher during E than R(P < 0.05). At 25°C,T_re was higher(P < 0.05) during E than R at alldepths, whereas T_es during E washigher than during R in H and K groups.T_re remained at control levels inK-E at 15°C, K-E at 25°C, and in H-E groups at 25°C,whereas T_es remained unchanged inK-E at 15°C, in K-R at 15°C, and in all 25°C conditions (P > 0.05). During R and E, themagnitude of T_re change wasgreater (P < 0.05) than themagnitude of T_es change in Sh andH groups, whereas it was not different in the K group(P > 0.05). Total heat flow wasprogressive with water depth. During R at 15 and 25°C, heatproduction was not increased in K and H groups from control level(P > 0.05) but it did increase in Shgroup (P < 0.05). The increase inheat production during E compared with R was smaller(P < 0.05) in Sh (121 ± 7 W/m² at 15°C and 97 ± 6 W/m² at 25°C) than in H (156 ± 6 and 126 ± 5 W/m²,respectively) and K groups (155 ± 4 and 165 ± 6 W/m², respectively). These datasuggest that T_re andT_es respond differently duringpartial cold-water immersion. In addition, water levels above knee in15°C and above hip in 25°C cause depression of internal temperatures mainly due to insufficient heat production offsetting heatloss even during light exercise.

     

A role for gastrointestinal endotoxins in enhancement of heat tolerance by physical fitness

Sakurada, Sotaro, and J. Robert S. Hales. A role forgastrointestinal endotoxins in enhancement of heat tolerance by physical fitness. J. Appl. Physiol.84(1): 207-214, 1998.To further elucidate mechanisms underlyingthe higher heat tolerance of physically fit compared with sedentarypeople, we have investigated the possibility that endotoxins (ofgastrointestinal origin) act, as in the normal development of fever, toraise body temperature and therefore reduce heat tolerance. In aninitial series of experiments, five physically fit and four sedentarysheep were exposed twice at rest to an environment of 42/35°C(dry/wet bulb temperature). When animals were given normal saline iv,rectal temperature (T_re) rose at a significantly higherrate in sedentary than in fit animals; this confirms that heattolerance is improved by physical fitness. Treatment withiv indomethacin did not affect the rate of rise of T_re infit animals. In sedentary animals, however, T_re was loweredto approximate that of fit animals. Because indomethacin blocksprostaglandin pathways involved in endotoxin-induced fever, theindomethacin-induced improvement of heat tolerance of sedentary but notfit animals supports the contention that endotoxins play a role indetermining that difference in heat tolerance. In a second series ofexperiments, quantitative cardiovascular measurements were made byusing radioactive microspheres. Under normothermic conditions, bloodflows in the brain, ileum, and diaphragm were higher in fit than insedentary animals. During hyperthermia up to T_re of42°C (in a 42/39°C environment), fit compared with sedentary animals exhibited 1) a greaterincrease in cardiac output, 2) anincrease in blood flow through arteriovenous anastomoses to higher andbetter maintained levels, 3) lessreduction in blood flow to the ileum, and4) greater increase in blood flowsto the myocardium, turbinates, nasal mucosa, and respiratorymuscles. Endotoxins are likely to come from the gut lumen,because reduction of gut blood flow forms part of the normal responseto heat stress. We suggest that improvement of heat tolerance byphysical fitness is caused by a greater cardiovascular capacity thatpermits not only greater perfusion of heat-loss tissues but themaintenance of a better gastrointestinal tract blood supply, therebybetter maintaining the normal barrier to movement of endotoxins from gut lumen to plasma. Sedentary people, with their lower cardiovascular capacity, redistribute more blood flow away from the gut during environmentally induced hyperthermia, thus allowing endotoxin-induced fever to aggravate hyperthermia.

     

Heat acclimation, aerobic fitness, and hydration effects on tolerance during uncompensable heat stress

The purpose ofthe present study was to determine the separate and combined effects ofaerobic fitness, short-term heat acclimation, and hypohydration ontolerance during light exercise while wearing nuclear, biological, andchemical protective clothing in the heat (40°C, 30% relativehumidity). Men who were moderately fit [(MF); <50ml · kg¹ · min¹maximal O₂ consumption;n = 7] and highly fit[(HF); >55ml · kg¹ · min¹maximal O₂ consumption;n = 8] were tested while theywere euhydrated or hypohydrated by ~2.5% of body mass throughexercise and fluid restriction the day preceding the trials. Tests wereconducted before and after 2 wk of daily heat acclimation (1-htreadmill exercise at 40°C, 30% relative humidity, while wearingthe nuclear, biological, and chemical protective clothing). Heatacclimation increased sweat rate and decreased skin temperature andrectal temperature (T_re) in HF subjects but had no effecton tolerance time (TT). MF subjects increased sweat rate but did notalter heart rate, Tre, or TT. In both MF and HF groups, hypohydration significantly increased T_re and heart rate and decreasedthe respiratory exchange ratio and the TT regardless of acclimationstate. Overall, the rate of rise of skin temperature was less, whileT_re, the rate of rise of T_re, and the TTwere greater in HF than in MF subjects. It was concluded thatexercise-heat tolerance in this uncompensable heat-stress environmentis not influenced by short-term heat acclimation but is significantlyimproved by long-term aerobic fitness.

     

Diaphragm thickening during inspiration

Cohn, David, Joshua O. Benditt, Scott Eveloff, and F. DennisMcCool. Diaphragm thickening during inspiration.J. Appl. Physiol. 83(1): 291-296, 1997.Ultrasound has been used to measure diaphragm thickness(T_di) in thearea where the diaphragm abuts the rib cage (zone of apposition).However, the degree of diaphragm thickening during inspiration reportedas obtained by one-dimensional M-mode ultrasound was greater than thatpredicted by using other radiographic techniques. Becausetwo-dimensional (2-D) ultrasound provides greater anatomic definitionof the diaphragm and neighboring structures, we used this technique toreevaluate the relationship between lung volume andT_di. We firstestablished the accuracy and reproducibility of 2-D ultrasound bymeasuring T_diwith a 7.5-MHz transducer in 26 cadavers. We found thatT_di measured byultrasound correlated significantly with that measured by ruler (R² = 0.89), withthe slope of this relationship approximating a line of identity(y = 0.89x + 0.04 mm). The relationship between lung volume andT_di was thenstudied in nine subjects by obtaining diaphragm images at the fivetarget lung volumes [25% increments from residual volume (RV) tototal lung capacity (TLC)]. Plots ofT_di vs. lungvolume demonstrated that the diaphragm thickened as lung volumeincreased, with a more rapid rate of thickening at the higher lungvolumes[T_di = 1.74 vital capacity (VC)² + 0.26 VC + 2.7 mm] (R² = 0.99; P < 0.001) where lung volumeis expressed as a fraction of VC. The mean increase inT_di between RVand TLC for the group was 54% (range 42-78%). We conclude that2-D ultrasound can accurately measureT_di and that theaverage thickening of the diaphragm when a subject is inhaling from RVto TLC using this technique is in the range of what would be predictedfrom a 35% shortening of the diaphragm.

     

Dehydration markedly impairs cardiovascular function in hyperthermic endurance athletes during exercise

González-Alonso, José, RicardoMora-Rodríguez, Paul R. Below, and Edward F. Coyle.Dehydration markedly impairs cardiovascular function inhyperthermic endurance athletes during exercise. J. Appl. Physiol. 82(4): 1229-1236, 1997.Weidentified the cardiovascular stress encountered by superimposingdehydration on hyperthermia during exercise in the heat and themechanisms contributing to the dehydration-mediated stroke volume (SV)reduction. Fifteen endurance-trained cyclists [maximalO₂ consumption(O_{2 max}) = 4.5 l/min] exercised in the heat for 100-120 min and either became dehydrated by 4% body weight or remained euhydrated by drinkingfluids. Measurements were made after they continued exercise at 71%O_{2 max} for 30 minwhile 1) euhydrated with anesophageal temperature (T_es) of38.1-38.3°C (control); 2)euhydrated and hyperthermic (39.3°C);3) dehydrated and hyperthermic withskin temperature (T_sk) of34°C; 4) dehydrated withT_es of 38.1°C and T_sk of 21°C; and5) condition4 followed by restored blood volume. Compared withcontrol, hyperthermia (1°C T_esincrease) and dehydration (4% body weight loss) each separatelylowered SV 7-8% (11 ± 3 ml/beat;P < 0.05) and increased heart ratesufficiently to prevent significant declines in cardiac output.However, when dehydration was superimposed on hyperthermia, thereductions in SV were significantly (P < 0.05) greater (26 ± 3 ml/beat), and cardiac output declined 13% (2.8 ± 0.3 l/min). Furthermore, mean arterialpressure declined 5 ± 2%, and systemic vascular resistanceincreased 10 ± 3% (both P < 0.05). When hyperthermia wasprevented, all of the decline in SV with dehydration was due to reducedblood volume (~200 ml). These results demonstrate that thesuperimposition of dehydration on hyperthermia during exercise in theheat causes an inability to maintain cardiac output and blood pressurethat makes the dehydrated athlete less able to cope with hyperthermia.

     

Appropriate thermal manipulations eliminate tremors in rats recovering from halothane anesthesia

Grahn, D. A., M. C. Heller, J. E. Larkin, and H. C. Heller.Appropriate thermal manipulations eliminate tremors in ratsrecovering from halothane anesthesia. J. Appl.Physiol. 81(6): 2547-2554, 1996.Tremors arecommon in mammals emerging from anesthesia. To determine whetherappropriate thermal manipulations immediately before emergence fromanesthesia are sufficient to eliminate these tremors,electroencephalographic (EEG) and electromyographic (EMG) activities,hypothalamic temperature (T_hy),and O₂ consumption were monitoredin 12 rats recovering from halothane anesthesia under three thermalregimes. EEG and EMG activities were recorded throughout anesthesia andserved as feedback signals for controlling anesthetic depth. Duringanesthesia, T_hy was either1) allowed to fall to32-34°C, 2) maintained at37-39°C, or 3) allowed to fall to 32-34°C and then raised to 37-39°C. Whenhypothermic on emergence from anesthesia, all of the animals exhibitedpostanesthetic tremors that persisted untilT_hy values returned tonormothermia. None of the animals expressed postanesthetic tremors whennormothermic on emergence from anesthesia. In addition, the timebetween emergence from anesthesia (as determined by EEG/EMG parameters)and the initiation of coordinated motor activities was significantlydecreased in the normothermic animals.

     

Thermoregulatory control during pregnancy and lactation in rats

Eliason, Heather L., and James E. Fewell.Thermoregulatory control during pregnancy and lactation in rats.J. Appl. Physiol. 83(3): 837-844, 1997.Although the mechanisms remain unknown, maternal coretemperature (T_c) decreases nearterm of pregnancy and is increased throughout lactation in rats. Thepurpose of our present experiments was to determine whether pregnancy and lactation shift the thermoneutral zone of rats and to investigate whether the changes in maternal T_cduring pregnancy and lactation result from "forced" or"regulated" thermoregulatory responses. Conscious, chronicallyinstrumented nonpregnant and pregnant and lactating rats were studiedboth in a thermocline (a chamber with a linear temperature gradientfrom 12 to 36°C) and in a metabolic chamber to determine theinfluence of pregnancy and lactation on selected ambient temperature aswell as the thermoregulatory response to changes in ambienttemperature. We found that selected ambient temperature, oxygenconsumption, and thermal conductance did not change in rats studied ina thermocline as T_c decreased nearterm of pregnancy. There was, however, a downward shift in thethermoneutral zone of rats studied in a metabolic chamber near term ofpregnancy. During lactation, selected ambient temperature decreased inrats studied in a thermocline as oxygen consumption andT_c increased. The thermoneutralzone of lactating rats was not different from that of nonpregnantanimals. Thus our data provide evidence that the decrease inT_c near term of pregnancy in ratsresults from a regulated thermoregulatory response,whereas the increase in T_c duringlactation results from a forced thermoregulatory response.

     

Influence of pregnancy on the febrile response to ICV administration of PGE1 in rats studied in a thermocline

Eliason, Heather L., and James E. Fewell. Influence ofpregnancy on the febrile response to ICV administration ofPGE₁ in rats studied in athermocline. J. Appl. Physiol. 82(5):1453-1458, 1997.Rats near term of pregnancy have an attenuatedfebrile response to intracerebroventricular (ICV) injection ofprostaglandin E₁ (PGE₁) when they are studied atan ambient temperature below their thermoneutral zone. Given thatnonshivering thermogenesis in brown adipose tissue is impaired inrodents near term of pregnancy, it is possible that the attenuatedfebrile response is forced by impairment of this component of theautonomic thermoregulatory response. If this were the case, thennear-term pregnant rats should develop a "normal" fever afterPGE₁ administration if they werestudied in a thermocline where they could utilize behavioral as well asautonomic thermoregulatory effectors to increase their body coretemperature (T_bc). Experimentswere, therefore, carried out on 13 nonpregnant and 14 pregnantchronically instrumented rats in a thermocline (temperature gradient10-40°C) to investigate theirT_bc responses to ICV injection ofPGE₁. ICV injection of 0.2 µgPGE₁ produced significantincreases in T_bc and fever index in both nonpregnant and pregnant animals (day19 of gestation); the increases, however, weresignificantly attenuated in the pregnant compared with the nonpregnantrats. Behavioral (e.g., selected ambient temperature) and autonomic(e.g., oxygen consumption) thermoregulatory effectors were activated toincrease T_bc after ICVPGE₁ in both groups of animals,but the duration of activation was shortened in pregnant compared withnonpregnant rats. The abbreviated thermoregulatory effector responsesand the resulting attenuated febrile response toPGE₁ in the pregnant rats may have resulted from a pregnancy-related activation of an endogenous antipyretic system.

     

Heat stroke: opioid-mediated mechanisms

Romanovsky, Andrej A., and Clark M. Blatteis. Heatstroke: opioid-mediated mechanisms. J. Appl.Physiol. 81(6): 2565-2570, 1996.In our previousstudy in guinea pigs, intensive and prolonged intraperitoneal heating(IPH) caused heat stroke characterized by high mortality andaccompanied by two paradoxical phenomena: ear skin vasoconstriction ata high body temperature (T_b)(hyperthermia-induced vasoconstriction) and a post-IPHT_b fall at an ambient temperature (T_a) below thermoneutrality(hyperthermia-induced hypothermia). In this study, we tested thehypothesis that the mechanisms of the two phenomena involve endogenousopioid agonists. Experiments were conducted in 24 unanesthetized,lightly restrained guinea pigs, each chronically implanted with anintraperitoneal thermode and intrahypothalamic thermocouple. Thethermoregulatory effects of a wide-spectrum opioid-receptor antagonist,naltrexone (NTX; 50 or 0 µmol/kg sc), were studied in IPH-inducedheat stroke and under normal conditions. IPH was accomplished byperfusing (50 ml/min; 80 min) water (45°C) through the thermode.T_a was maintained at ~24°C.Skin vasodilation occurred at the onset of IPH but later changed tovasoconstriction despite high T_band continuing IPH. IPH-induced hyperthermia (1.8 ± 0.1°C) was followed by a post-IPH T_b fall (5.1 ± 0.7°C; calculated for the survivors only). The 48-h mortality ratewas 50%. NTX prevented the hyperthermia-induced vasoconstriction andattenuated the hyperthermia-induced hypothermia (1.8 ± 0.4°C). None of the NTX-treated animals died. The effects of NTX onT_b regulation under normalconditions were minor. These results indicate that the phenomena ofboth hyperthermia-induced vasoconstriction and hyperthermia-inducedhypothermia are opioid dependent. The latter is speculated to reflectopioid-mediated inhibition of metabolism; the former is thought toresult from opioid-induced hemodynamic alterations. Because bothphenomena did not occur in the NTX-treated survivors, the skinvasoconstriction at high T_b andthe posthyperthermia T_b fall maybe viewed as markers of the severity of heat stroke. It is suggestedthat opioid antagonists may have therapeutic potential in heat-induceddisorders.

     

Exertional fatigue, sleep loss, and negative energy balance increase susceptibility to hypothermia

The purpose ofthis study was to determine how chronic exertional fatigue and sleepdeprivation coupled with negative energy balance affectthermoregulation during cold exposure. Eight men wearing only shortsand socks sat quietly during 4-h cold air exposure (10°C)immediately after (<2 h, A) they completed 61 days of strenuousmilitary training (energy expenditure ~4,150 kcal/day, energy intake~3,300 kcal/day, sleep ~4 h/day) and again after short (48 h, SR)and long (109 days, LR) recovery. Body weight decreased 7.4 kg frombefore training to A, then increased 6.4 kg by SR, with an additional6.4 kg increase by LR. Body fat averaged 12% during A and SR andincreased to 21% during LR. Rectal temperature(T_re) was lower before andduring cold air exposure for A than for SR and LR.T_re declined during cold exposurein A and SR but not LR. Mean weighted skin temperature(_sk)during cold exposure was higher in A and SR than in LR. Metabolic rate increased during all cold exposures, but it was lower during A and LRthan SR. The mean body temperature (0.67 T_re + 0.33 _sk) threshold for increasing metabolism was lower during A than SR and LR.Thus chronic exertional fatigue and sleep loss, combined withunderfeeding, reduced tissue insulation and blunted metabolic heatproduction, which compromised maintenance of body temperature. A shortperiod of rest, sleep, and refeeding restored the thermogenic responseto cold, but thermal balance in the cold remained compromised untilafter several weeks of recovery when tissue insulation had beenrestored.

     

Modification of active cutaneous vasodilation by oral contraceptive hormones

Charkoudian, Nisha, and John M. Johnson. Modificationof active cutaneous vasodilation by oral contraceptive hormones. J. Appl. Physiol. 83(6):2012-2018, 1997.It is not clear whether the alteredthermoregulatory reflex control of the cutaneous circulation seen amongphases of the menstrual cycle also occurs with the synthetic estrogenand progesterone in oral contraceptive pills and whether any suchmodifications include altered control of the cutaneous activevasodilator system. To address these questions, we conducted controlledwhole body heating experiments in seven women at the end of the thirdweek of hormone pills (HH) and at the end of the week of placebo/nopills (LH). A water-perfused suit was used to control body temperature.Laser Doppler flowmetry was used to monitor cutaneous blood flow at acontrol site and at a site at which noradrenergic vasoconstrictorcontrol had been eliminated by iontophoresis of bretylium (BT),isolating the active cutaneous vasodilator system. The oral temperature(T_or) thresholds for cutaneousvasodilation were higher in HH at both control [37.09 ± 0.12 vs. 36.83 ± 0.07°C (LH), P < 0.01] and BT-treated [37.19 ± 0.05 vs. 36.88 ± 0.12°C (LH), P < 0.01]sites. The T_or threshold forsweating was similarly shifted (HH: 37.15 ± 0.11°C vs. LH: 36.94 ± 0.11°C, P < 0.01). Arightward shift in the relationship of heart rate toT_or was seen in HH. Thesensitivities (slopes of the responses vs.T_or) did not differstatistically between phases. The similar threshold shifts at controland BT-treated sites suggest that the hormones shift the function ofthe active vasodilator system to higher internal temperatures. Thesimilarity of the shifts among thermoregulatory effectors suggests acentrally mediated action of these hormones.

     

Hypoxia, temperature, and pH/CO2 effects on respiratory discharge from a turtle brain stem preparation

Johnson, Stephen M., Rebecca A. Johnson, and Gordon S. Mitchell. Hypoxia, temperature, andpH/CO₂ effects on respiratory discharge from a turtle brain stem preparation. J. Appl. Physiol. 84(2): 649-660, 1998.An in vitrobrain stem preparation from adult turtles (Chrysemyspicta) was used to examine the effects of anoxia andincreased temperature and pH/CO₂on respiration-related motor output. At pH ~7.45, hypoglossal (XII)nerve roots produced patterns of rhythmic bursts (peaks) of discharge(0.74 ± 0.07 peaks/min, 10.0 ± 0.6 s duration) that werequantitatively similar to literature reports of respiratory activity inconscious, vagotomized turtles. Respiratory discharge was stable for 6 h at 22°C; at 32°C, peak amplitude and frequency progressivelyand reversibly decreased with time. Two hours of hypoxia had no effecton respiratory discharge. Acutely increasing bath temperature from 22 to 32°C decreased episode and peak duration and increased peakfrequency. Changes in pH/CO₂increased peak frequency from zero at pH 8.00-8.10 to maxima of0.81 ± 0.01 and 1.44 ± 0.02 peaks/min at 22°C (pH 7.32) and32°C (pH 7.46), respectively;pH/CO₂ sensitivity was similar atboth temperatures. We conclude that1) insensitivity to hypoxiaindicates that rhythmic discharge does not reflect gasping behavior,2) increased temperature altersrespiratory discharge, and 3)central pH/CO₂ sensitivity isunaffected by temperature in this preparation (i.e.,Q₁₀ ~1.0).

     

Thermal drive contributes to hyperventilation during exercise in sheep

The etiology of exercise hypocapnia is unknown.The contributions of exercise intensity (ExInt), lactic acid,environmental temperature, rectal temperature(T_re), and physicalconditioning to the variance in arterialCO₂ tension(Pa_CO2) in the exercising sheep werequantified. We hypothesized that thermal drive contributes tohyperventilation. Four unshorn sheep were exercised at ~30, 50, and70% of maximal O₂ consumption for30 min, or until exhaustion, both before and after 5 wk of physicalconditioning. In addition, two of the sheep were shorn and exercised ateach intensity in a cold (<15°C) environment.T_re andO₂ consumption were measured continuously. Lactic acid and Pa_CO2 weremeasured at 5- to 10-min intervals. Data wereanalyzed by multiple regression onPa_CO2. During exercise,T_re rose andPa_CO2 fell, except at the lowest ExIntin the cold environment. T_reexplained 77% of the variance in Pa_CO2,and ExInt explained 5%. All other variables were insignificant. Weconclude that, in sheep, thermal drive contributes to hyperventilation during exercise.

     

Ozone toxicity in the rat. III. Effect of changes in ambient temperature on pulmonary parameters

Wiester, Mildred J., William P. Watkinson, Daniel L. Costa,Kay M. Crissman, Judy H. Richards, Darrell W. Winsett, and Jerry W. Highfill. Ozone toxicity in the rat. III. Effect of changes inambient temperature on pulmonary parameters. J. Appl.Physiol. 81(4): 1691-1700, 1996.Pulmonarytoxicity of ozone (O₃) wasexamined in adult male Fischer 344 rats exposed to 0.5 parts/millionO₃ for either 6 or 23 h/day over 5 days while maintained at an ambient temperature(T_a) of either 10, 22, or34°C. Toxicity was evaluated by using changes in lung volumes andthe concentrations of constituents of bronchoalveolar lavage fluid thatsignal lung injury and/or inflammation. Results indicated thattoxicity increased as T_adecreased. Exposures conducted at 10°C were associated with thegreatest decreases in body weight and total lung capacity and thegreatest increases in lavageable protein, lysozyme, alkaline phosphatase activity, and percent neutrophils.O₃ effects not modified byT_a included increases in residualvolume and lavageable potassium, glucose, urea, and ascorbic acid.There was a progressive decrease in lavageable uric acid with exposureat 34°C. Most effects were attenuated during the 5 exposure daysand/or returned to normal levels after 7 air recovery days,regardless of prior O₃ exposure orT_a. It is possible thatT_a-induced changes in metabolic rate may have altered ventilation and, therefore, theO₃ doses among rats exposed at thethree different T_a levels.

     

Differential effects of phorbol ester (PMA) on blocker-sensitive ENaCs of frog skin and A6 epithelia

Activation ofprotein kinase C with phorbol 12-myristate 13-acetate (PMA) causedcomplex transient perturbations of amiloride-sensitive short-circuitNa⁺ currents(I_Na) in A6epithelia and frog skins that were tissue and concentration dependent.A noninvasive channel blocker pulse method of noise analysis (18) wasused to investigate how PMA caused time-dependent changes of apicalmembrane epithelial Na⁺ channel(ENaC) single-channel currents, channel open probabilities (P_o), andchannel densities(N_T). In A6epithelia, 5 and 50 nM PMA caused within 7 min concentration-dependentsustained decreases ofP_o (~55% belowcontrol, 50 nM) and rapid compensatory transient increases ofN_T within 7 min(~220% above control, 50 nM), resulting in either small transientincreases of I_Naat 5 nM PMA or small biphasic decreases ofI_Na at 50 nM PMA.In contrast to A6 epithelia, 50 and 500 nM PMA in frog skin causedafter a delay of at least 10 min transient increases ofN_T to~60-70% above control at 30-60 min. Unlike A6 epithelia,P_o was increased~15% above control within 7 min and remained within±10-15% of control for the duration of the 2-h experiments.Despite differences in the time courses of secondary inhibition oftransport in A6 epithelia and frog skin, the delayed downregulation oftransport was due to time-dependent decreases ofN_T from theirpreelevated levels in both tissues. WhereasP_o is decreasedwithin minutes in A6 epithelia as measured by noise analysis or bypatch clamp (8), the discrepancy in regulation ofN_T in A6epithelia as measured by noise analysis and patch clamp is most likelyexplained by the inability of on-cell patches formed before treatmentof tissues with PMA to respond to regulation of their channeldensities.

     

Oxygen pulse in guinea pigs in hyperbaric helium and hydrogen

Kayar, Susan R., and Erich C. Parker. Oxygen pulse inguinea pigs in hyperbaric helium and hydrogen. J. Appl. Physiol. 82(3): 988-997, 1997.We analyzedO₂ pulse, the total volume of O₂ consumed per heart beat, inguinea pigs at pressures from 10 to 60 atmospheres. Animals were placedin a hyperbaric chamber and breathed 2%O₂ in either helium (heliox) orhydrogen (hydrox). Oxygen consumption rate(O₂) was measured by gaschromatographic analysis. Core temperature and heart rate were measuredby using surgically implanted radiotelemeters. TheO₂ was modulated over afourfold range by varying chamber temperature from 25 to 36°C. There was a direct correlation betweenO₂ and heartrate, which was significantly different for animals in heliox vs.hydrox (P = 0.003). By usingmultivariate regression analysis, we identified variables that weresignificant to O₂ pulse: bodysurface area, chamber temperature, core temperature, and pressure.After normalizing for all nonpressure variables, the residualO₂ pulse was found to decreasesignificantly (P = 0.02) with pressurefor animals in heliox but did not decrease significantly(P = 0.38) with pressure for animalsin hydrox over the range of pressures studied. This amounted to aroughly 25% lower O₂ pulse fornormothermic animals in 60 atmospheres heliox vs. hydrox. These resultssuggest that reduction of cardiovascular efficiency in a hyperbaricenvironment can be mitigated by the choice of breathing gas.

     

Windchill and the risk of tissue freezing

Danielsson, Ulf. Windchill and the risk of tissuefreezing. J. Appl. Physiol. 81(6): 2666-2673, 1996.Low air temperatures and high wind speeds are associated with anincreased risk of freezing of the exposed skin. P. A. Siple and C. F. Passel (Proc. Am. Phil. Soc. 89: 177-199, 1945) derivedtheir windchill index from cooling experiments on a water-filledcylinder to quantify the risk of frostbite. Their results arereexamined here. It is found that their windchill index does notcorrectly describe the convective heat transfer coefficient(h_c) for such a cylinder; theeffect of the airspeed (v) isunderestimated. New risk curves have been developed, based on theconvection equations valid for cylinders in a cross flow,h_c  v^0.62, and tissuefreezing data from the literature. An analysis of the data reveals alinear relationship between the frequency of finger frostbite and thesurface temperature. This relation closely follows a normaldistribution of finger-freezing temperatures, with an SD of 1°C. Asthe skin surface temperature falls from 4.8 to 7.8°C,the risk of frostbite increases from 5 to 95%. These data indicatethat the risk of finger frostbite is minor above an air temperature of10°C, irrespective of v,but below 25°C there is a pronounced risk, even at lowv.

     

Effect of acute head-down tilt on skeletal muscle cross-sectional area and proton transverse relaxation time

Conley, Michael S., Jeanne M. Foley, Lori L. Ploutz-Snyder,Ronald A. Meyer, and Gary A. Dudley. Effect of acute head-down tilt on skeletal muscle cross-sectional area and proton transverse relaxation time. J. Appl. Physiol.81(4): 1572-1577, 1996.This study investigated changes inskeletal muscle cross-sectional area (CSA) evoked by fluid shifts thataccompany short-term 6° head-down tilt (HDT) or horizontal bedrest, the time course of the resolution of these changes afterresumption of upright posture, and the effect of altered muscle CSA, inthe absence of increased contractile activity, on proton transverserelaxation time (T₂). Averagemuscle CSA and T₂ were determinedby standard spin-echo magnetic resonance imaging. Analyses wereperformed on contiguous transaxial images of the neck and calf. After aday of normal activity, 24 h of HDT increased neck muscle CSA 19 ± 4 (SE)% (P < 0.05) whilecalf muscle CSA decreased 14 ± 3%(P < 0.05). The horizontal posture(12 h) induced about one-half of these responses: an 11 ± 2%(P < 0.05) increase in neck muscleCSA and an 8 ± 2% decrease (P < 0.05) in the calf. Within 2 h after resumption of upright posture, neckand calf muscle CSA returned to within 0.5% (P > 0.05) of the values assessedafter a day of normal activity, with most of the change occurringwithin the first 30 min. No further change in muscle CSA was observedthrough 6 h of upright posture. Despite these large alterations inmuscle CSA, T₂ was not altered bymore than 1.1 ± 0.6% (P > 0.05)and did not relate to muscle size. These results suggest that posturalmanipulations and subsequent fluid shifts modeling microgravity elicitmarked changes in muscle size. Because these responses were notassociated with alterations in muscleT₂, it does not appear that simple movement of water into muscle can explain the contrast shift observed after exercise.