Tumor necrosis factor-alpha in ischemia and reperfusion injury in rat lungs

The effects ofboth recombinant rat tumor necrosis factor- (TNF-) and ananti-TNF- antibody were studied in isolated buffer-perfused ratlungs subjected to either 45 min of nonventilated[ischemia-reperfusion (I/R)] or air-ventilated(/R) ischemia followed by 90 min of reperfusion and ventilation. In the I/R group, the vascularpermeability, as measured by the filtration coefficient(K_fc),increased three- and fivefold above baseline after 30 and 90 min ofreperfusion, respectively (P < 0.001). Over the same time intervals, theK_fc for the/R group increased five- and tenfold above baseline values, respectively (P < 0.001).TNF- measured in the perfusates of both ischemic modelssignificantly increased after 30 min of reperfusion. Recombinant ratTNF- (50,000 U), placed into perfusate after baseline measurements,produced no measurable change in microvascular permeability in controllungs perfused over the same time period (135 min), but I/R injury wassignificantly enhanced in the presence of TNF-. An anti-TNF-antibody (10 mg/rat) injected intraperitoneally into rats 2 h beforethe lung was isolated prevented the microvascular damage in lungsexposed to both I/R and /R (P < 0.001). These results indicatethat TNF- is an essential component at the cascade of events thatcause lung endothelial injury in short-term I/R and/R models of lung ischemia.

     

Muscle capillarization, O2 diffusion distance, and VO2 kinetics in old and young individuals

Chilibeck, P. D., D. H. Paterson, D. A. Cunningham, A. W. Taylor, and E. G. Noble. Muscle capillarization,O₂ diffusion distance, andO₂ kinetics in old andyoung individuals. J. Appl. Physiol.82(1): 63-69, 1997.The relationships between muscle capillarization, estimated O₂diffusion distance from capillary to mitochondria, andO₂ uptake(O₂) kineticswere studied in 11 young (mean age, 25.9 yr) and 9 old (mean age, 66.0 yr) adults. O₂kinetics were determined by calculating the time constants () forthe phase 2 O₂ adjustment to andrecovery from the average of 12 repeats of a 6-min, moderate-intensityplantar flexion exercise. Muscle capillarization was determined fromcross sections of biopsy material taken from lateral gastrocnemius.Young and old groups had similarO₂ kinetics(O₂-on = 44 vs. 48 s;O₂-off = 33 vs. 44 s, for young and old, respectively), muscle capillarization, andestimated O₂ diffusion distances.Muscle capillarization, expressed as capillary density or averagenumber of capillary contacts per fiber/average fiber area, and theestimates of diffusion distance were significantly correlated toO₂-off kinetics in theyoung (r = 0.68 to 0.83;P < 0.05). We conclude that1) capillarization andO₂ kinetics during exerciseof a muscle group accustomed to everyday activity (e.g., walking) arewell maintained in old individuals, and2) in the young, recovery of O₂ after exercise isfaster, with a greater capillary supply over a given muscle fiber areaor shorter O₂ diffusion distances.

     

Association of chest wall motion and tidal volume responses during CO2 rebreathing

Yan, Sheng, Pawel Sliwinski, and Peter T. Macklem.Association of chest wall motion and tidal volume responses during CO₂ rebreathing.J. Appl. Physiol. 81(4):1528-1534, 1996.The purpose of this study is to investigate theeffect of chest wall configuration at end expiration on tidal volume(VT) response duringCO₂ rebreathing. In a group of 11 healthy male subjects, the changes in end-expiratory andend-inspiratory volume of the rib cage (Vrc,E andVrc,I, respectively) and abdomen (Vab,E and Vab,I, respectively) measured by linearizedmagnetometers were expressed as a function of end-tidalPCO₂(PET_CO2). The changes inend-expiratory and end-inspiratory volumes of the chest wall(Vcw,E and Vcw,I,respectively) were calculated as the sum of the respectiverib cage and abdominal volumes. The magnetometer coils were placed atthe level of the nipples and 1-2 cm above the umbilicus andcalibrated during quiet breathing against theVT measured from apneumotachograph. TheVrc,E/PET_CO2 slope was quite variable among subjects. It was significantly positive (P < 0.05) in fivesubjects, significantly negative in four subjects(P < 0.05), and not different fromzero in the remaining two subjects. TheVab,E/PET_CO2slope was significantly negative in all subjects(P < 0.05) with a much smallerintersubject variation, probably suggesting a relatively more uniformrecruitment of abdominal expiratory muscles and a variable recruitmentof rib cage muscles during CO₂rebreathing in different subjects. As a group, the meanVrc,E/PET_CO2,Vab,E/PET_CO2, andVcw,E/PET_CO2slopes were 0.010 ± 0.034, 0.030 ± 0.007, and0.020 ± 0.032 l / Torr, respectively;only theVab,E/PET_CO2 slope was significantly different from zero. More interestingly, theindividualVT/PET_CO2slope was negatively associated with theVrc,E/PET_CO2(r = 0.68,P = 0.021) and Vcw,E/PET_CO2slopes (r = 0.63,P = 0.037) but was not associated withtheVab,E/PET_CO2slope (r = 0.40, P = 0.223). There was no correlation oftheVrc,E/PET_CO2 andVcw,E/PET_CO2slopes with age, body size, forced expiratory volume in 1 s, orexpiratory time. The groupVab,I/PET_CO2 slope (0.004 ± 0.014 l / Torr) was not significantlydifferent from zero despite theVT nearly being tripled at theend of CO₂ rebreathing. Inconclusion, the individual VTresponse to CO₂, althoughindependent of Vab,E, is a function ofVrc,E to the extent that as theVrc,E/PET_CO2slope increases (more positive) among subjects, theVT response toCO₂ decreases. These results maybe explained on the basis of the respiratory muscle actions andinteractions on the rib cage.

     

Chest wall mechanics in sustained microgravity

We assessed theeffects of sustained weightlessness on chest wall mechanics in fiveastronauts who were studied before, during, and after the 10-daySpacelab D-2 mission (n = 3)and the 180-day Euromir-95 mission (n = 2). We measured flow and pressure at the mouth and rib cage andabdominal volumes during resting breathing and during a relaxationmaneuver from midinspiratory capacity to functional residual capacity.Microgravity produced marked and consistent changes () in thecontribution of the abdomen to tidal volume [Vab/(Vab + Vrc), where Vab is abdominal volume and Vrc is rib cagevolume], which increased from 30.7 ± 3.5 (SE)% at1 G head-to-foot acceleration to 58.3 ± 5.7% at 0 G head-to-foot acceleration (P < 0.005). Values ofVab/(Vab + Vrc) did not change significantly during the 180 days of the Euromir mission, but in the two subjects Vab/(Vab + Vrc) was greater on postflight day1 than on subsequent postflight days or preflight. Inthe two subjects who produced satisfactory relaxation maneuvers, the slope of the Konno-Mead plot decreased in microgravity; this decrease was entirely accounted for by an increase in abdominal compliance because rib cage compliance did not change. These alterations aresimilar to those previously reported during short periods ofweightlessness inside aircrafts flying parabolic trajectories. They arealso qualitatively similar to those observed on going from upright tosupine posture; however, in contrast to microgravity, such posturalchange reduces rib cage compliance.

     

Age-related declines in maximal aerobic capacity in regularly exercising vs. sedentary women: a meta-analysis

Fitzgerald, Margaret D., Hirofumi Tanaka, Zung V. Tran, andDouglas R. Seals. Age-related declines in maximal aerobic capacityin regularly exercising vs. sedentary women: a meta-analysis. J. Appl. Physiol. 83(1): 160-165, 1997.Our purpose was to determine the relationship between habitualaerobic exercise status and the rate of decline in maximal aerobiccapacity across the adult age range in women. A meta-analytic approachwas used in which mean maximal oxygen consumption(O_{2 max}) values fromfemale subject groups (ages 18-89 yr) were obtained from thepublished literature. A total of 239 subject groups from 109 studiesinvolving 4,884 subjects met the inclusion criteria and werearbitrarily separated into sedentary (groups = 107; subjects = 2,256),active (groups = 69; subjects = 1,717), and endurance-trained (groups = 63; subjects = 911) populations.O_{2 max} averaged 29.7 ± 7.8, 38.7 ± 9.2, and 52.0 ± 10.5 ml · kg¹ · min¹,respectively, and was inversely related to age within each population (r = 0.82 to 0.87, allP < 0.0001). The rate of decline inO_{2 max} withincreasing subject group age was lowest in sedentary women (3.5ml · kg¹ · min¹· decade¹), greater inactive women (4.4ml · kg¹ · min¹· decade¹), andgreatest in endurance-trained women (6.2ml · kg¹ · min¹ · decade¹)(all P < 0.001 vs. each other). Whenexpressed as percent decrease from mean levels at age ~25 yr, therates of decline inO_{2 max} were similarin the three populations (10.0 to 10.9%/decade). Therewas no obvious relationship between aerobic exercise status and therate of decline in maximal heart rate with age. The results of thiscross-sectional study support the hypothesis that, in contrast to theprevailing view, the rate of decline in maximal aerobic capacity withage is greater, not smaller, in endurance-trained vs. sedentary women.The greater rate of decline inO_{2 max} in endurance-trained populations may be related to their higher values asyoung adults (baseline effect) and/or to greater age-related reductions in exercise volume; however, it does not appear to berelated to a greater rate of decline in maximal heart rate with age.

     

Determination of production of nitric oxide by lower airways of humans---theory

Hyde, Richard W., Edgar J. Geigel, Albert J. Olszowka, JohnA. Krasney, Robert E. Forster II, Mark J. Utell, and Mark W. Frampton.Determination of production of nitric oxide by the lower airwaysof humanstheory. J. Appl. Physiol.82(4): 1290-1296, 1997.Exercise and inflammatory lung disorderssuch as asthma and acute lung injury increase exhaled nitric oxide(NO). This finding is interpreted as a rise in production of NO by thelungs (NO)but fails to take into account the diffusing capacity for NO(DNO) that carries NO into thepulmonary capillary blood. We have derived equations to measureNO from thefollowing rates, which determine NO tension in the lungs(PL) at any moment from 1) production(NO);2) diffusion, whereDNO(PL) = rate of removal by lung capillary blood; and3) ventilation, whereA(PL)/(PB  47) = the rate of NO removal by alveolar ventilation(A) and PB is barometric pressure. During open-circuit breathingwhen PL is not in equilibrium,d/dtPL[V_L/(PB  47)] (where V_L is volumeof NO in the lower airways) = NO  DNO(PL)  A(PL)/(PB  47). When PL reaches asteady state so that d/dt = 0 andA iseliminated by rebreathing or breath holding, then PL = NO/DNO.PL can be interpreted as NOproduction per unit of DNO. Thisequation predicts that diseases that diminishDNO but do not alterNO willincrease expired NO levels. These equations permit precise measurementsof NO thatcan be applied to determining factors controlling NO production by thelungs.

     

Influence of age and gender on cardiac output-VO2 relationships during submaximal cycle ergometry

Proctor, David N., Kenneth C. Beck, Peter H. Shen, Tamara J. Eickhoff, John R. Halliwill, and Michael J. Joyner. Influence ofage and gender on cardiacoutput-O₂ relationshipsduring submaximal cycle ergometry. J. Appl.Physiol. 84(2): 599-605, 1998.It is presentlyunclear how gender, aging, and physical activity status interact todetermine the magnitude of the rise in cardiac output(c) during dynamic exercise. To clarify this issue,the present study examined thec-O₂ uptake(O₂) relationship duringgraded leg cycle ergometry in 30 chronically endurance-trained subjects from four groups (n = 6-8/group): younger men (20-30 yr), older men (56-72yr), younger women (24-31 yr), and older women(51-72 yr). c (acetylene rebreathing), strokevolume (c/heart rate), and whole bodyO₂ were measured at restand during submaximal exercise intensities (40, 70, and ~90% of peakO₂). Baseline restinglevels of c were 0.6-1.2 l/min less in theolder groups. However, the slopes of thec-O₂relationship across submaximal levels of cycling were similar among allfour groups (5.4-5.9 l/l). The absolute cassociated with a given O₂(1.0-2.0 l/min) was also similar among groups. Resting andexercise stroke volumes (ml/beat) were lower in women than in men butdid not differ among age groups. However, older men and women showed areduced ability, relative to their younger counterparts, to maintainstroke volume at exercise intensities above 70% of peakO₂. This latter effect wasmost prominent in the oldest women. These findings suggest that neitherage nor gender has a significant impact on thec-O₂ relationships during submaximal cycle ergometry among chronically endurance-trained individuals.

     

Non-cAMP-mediated bronchial arterial vasodilation in response to inhaled beta -agonists

Carvalho, Paula, Shane R. Johnson, Nirmal B. Charan.Non-cAMP-mediated bronchial arterial vasodilation in response toinhaled -agonists. J. Appl.Physiol. 84(1): 215-221, 1998.We studied thedose-dependent effects of inhaled isoetharine HCl, a -adrenergicbronchodilator (2.5, 5.0, 10.0, and 20.0 mg), on bronchial blood flow(br) in anesthetized sheep. Isoetharine resulted ina dose-dependent increase in br. With atotal dose of 17.5 mg, br increased from baselinevalues of 22 ± 3.4 (SE) to 60 ± 16 ml/min(P < 0.001), an effect independentof changes in cardiac output and systemic arterial pressure. To furtherstudy whether synthesis of endogenous nitric oxide (NO) affects-agonist-induced increases in br, weadministered isoetharine (20 mg) by inhalation before and after theNO-synthase inhibitorN-nitro-L-argininemethyl ester (L-NAME).Intravenous L-NAME (30 mg/kg) rapidly decreased br by ~80% of baseline,whereas L-NAME via inhalation(10 mg/kg) resulted in a delayed and smaller (~22%) decrease.Pretreatment with L-NAME viaboth routes of administration attenuated bronchial arterialvasodilation after subsequent challenge with isoetharine. We concludethat isoetharine via inhalation increases br in adose-dependent manner and that -agonist-induced relaxation ofvascular smooth muscle in the bronchial vasculature is partiallymediated via synthesis of NO.

     

Influence of muscle fiber type and pedal frequency on oxygen uptake kinetics of heavy exercise

Barstow, Thomas J., Andrew M. Jones, Paul H. Nguyen, andRichard Casaburi. Influence of muscle fiber type and pedal frequency on oxygen uptake kinetics of heavy exercise.J. Appl. Physiol. 81(4):1642-1650, 1996.We tested the hypothesis that the amplitude ofthe additional slow component ofO₂ uptake(O₂) during heavy exerciseis correlated with the percentage of type II (fast-twitch) fibers inthe contracting muscles. Ten subjects performed transitions to a workrate calculated to require aO₂ equal to 50% betweenthe estimated lactate (Lac) threshold and maximalO₂ (50%).Nine subjects consented to a muscle biopsy of the vastus lateralis. Toenhance the influence of differences in fiber type among subjects,transitions were made while subjects were pedaling at 45, 60, 75, and90 rpm in different trials. Baseline O₂ was designed to besimilar at the different pedal rates by adjusting baseline work ratewhile the absolute increase in work rate above the baseline was thesame. The O₂ response after the onset of exercise was described by a three-exponential model. Therelative magnitude of the slow component at the end of 8-min exercisewas significantly negatively correlated with %type I fibers at everypedal rate (r = 0.64 to 0.83, P < 0.05-0.01). Furthermore,the gain of the fast component forO₂ (asml ^· min^{1 ·} W¹)was positively correlated with the %type I fibers across pedal rates(r = 0.69-0.83). Increase inpedal rate was associated with decreased relative stress of theexercise but did not affect the relationships between%fiber type and O₂parameters. The relative contribution of the slow component was alsosignificantly negatively correlated with maximalO₂(r = 0.65), whereas the gainfor the fast component was positively associated(r = 0.68-0.71 across rpm). Theamplitude of the slow component was significantly correlated with netend-exercise Lac at all four pedal rates(r = 0.64-0.84), but Lac was notcorrelated with %type I (P > 0.05).We conclude that fiber type distribution significantly affects both thefast and slow components ofO₂ during heavy exerciseand that fiber type and fitness may have both codependent andindependent influences on the metabolic and gas-exchange responses toheavy exercise.

     

Magnitude and time course of hemodynamic responses to Mueller maneuvers in patients with congestive heart failure

To simulate theimmediate hemodynamic effect of negative intrathoracic pressure duringobstructive apneas in congestive heart failure (CHF), without inducingconfounding factors such as hypoxia and arousals from sleep, eightawake patients performed, at random, 15-s Mueller maneuvers (MM) attarget intrathoracic pressures of 20 (MM 20) and40 cmH₂O (MM 40),confirmed by esophageal pressure, and 15-s breath holds, as apneic timecontrols. Compared with quiet breathing, at baseline, before theseinterventions, the immediate effects [first 5 cardiac cycles(SD), P values refer to MM 40compared with breath holds] of apnea, MM 20, and MM 40 were, for left ventricular (LV) systolic transmural pressure (Ptm), 1.0 ± 1.9, 7.2 ± 3.5, and 11.3 ± 6.8 mmHg(P < 0.01); for systolic bloodpressure (SBP), 2.9 ± 2.6, 5.5 ± 3.4, and 12.1 ± 6.8 mmHg (P < 0.01); and forstroke volume (SV) index, 0.4 ± 2.8, 4.1 ± 2.8, and6.9 ± 2.3 ml/m²(P < 0.001), respectively.Corresponding values over the last five cardiac cycles were for LVPtm6.4 ± 4.4, 5.4 ± 6.6, and 4.5 ± 9.1 mmHg (P < 0.01); for SBP6.9 ± 4.2, 8.2 ± 7.7, and 24.2 ± 6.9 mmHg (P < 0.01); and for SVindex 0.4 ± 2.1, 5.2 ± 2.8, and 9.2 ± 4.8 ml/m²(P < 0.001), respectively.Thus, in CHF patients, the initial hemodynamic response to thegeneration of negative intrathoracic pressure includes an immediateincrease in LV afterload and an abrupt fall in SV. The magnitude ofresponse is proportional to the intensity of the MM stimulus. By theend of a 15-s MM 40, LVPtm falls below baseline values, yet SVand SBP do not recover. Thus, when 40cmH₂O intrathoracic pressure issustained, additional mechanisms, such as a drop in LV preload due toventricular interaction, are engaged, further reducing SV. The neteffect of MM 40 was a 33% reduction in SV index (from 27 to 18 ml/min²), and a 21% reductionin SBP (from 121 to 96 mmHg). Obstructive apneas can have adverseeffects on systemic and, possibly, coronary perfusion in CHF throughdynamic mechanisms that are both stimulus and timedependent.

     

Greater rate of decline in maximal aerobic capacity with age in physically active vs. sedentary healthy women

Tanaka, Hirofumi, Christopher A. DeSouza, Pamela P. Jones,Edith T. Stevenson, Kevin P. Davy, and Douglas R. Seals. Greater rate of decline in maximal aerobic capacity with age in physically active vs. sedentary healthy women. J. Appl.Physiol. 83(6): 1947-1953, 1997.Using ameta-analytic approach, we recently reported that the rate of declinein maximal oxygen uptake(O_{2 max}) with age inhealthy women is greatest in the most physically active and smallest inthe least active when expressed in milliliters per kilogram per minuteper decade. We tested this hypothesis prospectively underwell-controlled laboratory conditions by studying 156 healthy, nonobesewomen (age 20-75 yr): 84 endurance-trained runners (ET) and 72 sedentary subjects (S). ET were matched across the age range forage-adjusted 10-km running performance. Body mass was positivelyrelated with age in S but not in ET. Fat-free mass was not differentwith age in ET or S. Maximal respiratory exchange ratio and rating ofperceived exertion were similar across age in ET and S, suggestingequivalent voluntary maximal efforts. There was a significant butmodest decline in running mileage, frequency, and speed with advancingage in ET.O_{2 max}(ml · kg¹ · min¹)was inversely related to age (P < 0.001) in ET (r = 0.82) and S(r = 0.71) and was higher atany age in ET. Consistent with our meta-analysic findings,the absolute rate of decline inO_{2 max} was greater inET (5.7ml · kg¹ · min¹ · decade¹)compared with S (3.2 ml · kg¹ · min¹ · decade¹;P < 0.01), but the relative (%)rate of decline was similar (9.7 vs 9.1%/decade; notsignificant). The greater absolute rate of decline inO_{2 max} in ET comparedwith S was not associated with a greater rate of decline in maximalheart rate (5.6 vs. 6.2beats · min¹ · decade¹),nor was it related to training factors. The present cross-sectional findings provide additional evidence that the absolute, but not therelative, rate of decline in maximal aerobic capacity with age may begreater in highly physically active women compared with theirsedentary healthy peers. This difference does not appear to be relatedto age-associated changes in maximal heart rate, bodycomposition, or training factors.

     

Mechanical and metabolic determination of VO2 and fatigue during repetitive isometric contractions in situ

Repetitiveisometric tetanic contractions (1/s) of the caninegastrocnemius-plantaris muscle were studied either at optimal length(L_o) or shortlength (L_s;~0.9 · L_o),to determine the effects of initial length on mechanical and metabolicperformance in situ. Respective averages of mechanical and metabolicvariables were(L_o vs.L_s, allP < 0.05) passive tension (preload) = 55 vs. 6 g/g, maximal active tetanic tension(P_o) = 544 vs. 174 (0.38 · P_o)g/g, maximal blood flow () = 2.0 vs. 1.4 ml · min¹ · g¹,and maximal oxygen uptake(O₂) = 12 vs. 9 µmol · min¹ · g¹.Tension at L_odecreased to0.64 · P_o over20 min of repetitive contractions, demonstrating fatigue; there were nosignificant changes in tension atL_s. In separatemuscles contracting atL_o, was set to that measured atL_s (1.1 ml · min¹ · g¹),resulting in decreased O₂(7 µmol · min¹ · g¹),and rapid fatigue, to0.44 · P_o. Thesedata demonstrate that 1)muscles at L_ohave higher andO₂ values than those at L_s;2) fatigue occurs atL_o with highO₂, adjusting metabolic demand (tension output) to match supply; and3) the lack of fatigue atL_s with lowertension, , andO₂ suggestsadequate matching of metabolic demand, set low by shortmuscle length, with supply optimized by low preload. Thesedifferences in tension andO₂ betweenL_o andL_s groupsindicate that muscles contracting isometrically at initial lengthsshorter than L_oare working under submaximal conditions.

     

Reductions in visceral fat during weight loss and walking are associated with improvements in {V}O2 max

The accumulation ofvisceral fat is independently associated with an increased risk forcardiovascular disease. The aim of this study was to determine whetherthe loss of visceral adipose tissue area (VAT; computed tomography) isrelated to improvements in maximal O₂ uptake(O_2 max) during a weight loss(250-350 kcal/day deficit) and walking (3 days/wk, 30-40 min)intervention. Forty obese [body fat 47 ± 1 (SE) %], sedentary(O_2 max 19 ± 1 ml · kg¹ · min¹)postmenopausal women (age 62 ± 1 yr) participated in the study. The intervention resulted in significant declines in body weight (8%), total fat mass (dual-energy X-ray absorptiometry; 17%), VAT(17%), and subcutaneous adipose tissue area (17%) with no changein lean body mass (all P < 0.001). Women with anaverage 10% increase in O_2 max reducedVAT by an average of 20%, whereas those who did not increaseO_2 max decreased VAT by only 10%,despite comparable reductions in body fat, fat mass, and subcutaneousadipose tissue area. The decrease in VAT was independently related tothe change in O_2 max(r² = 0.22; P < 0.01) andfat mass (r² = 0.08; P = 0.05). These data indicate that greater improvements inO_2 max with weight loss and walking areassociated with greater reductions in visceral adiposity in obesepostmenopausal women.

     

Protein kinase C modulation of ventilatory response to hypoxia in nucleus tractus solitarii of conscious rats

This study aimedto determine the role of protein kinase C (PKC) in signal transductionmechanisms underlying ventilatory regulation in the nucleus tractussolitarii (NTS). Microinjection of phorbol 12-myristate 13-acetate intothe commissural NTS of nine chronically instrumented, unrestrained ratselicited significant cardiorespiratory enhancements that lasted for atleast 4 h, whereas administration of vehicle(n = 15) or the inactive phorbol ester 4-phorbol 12,13-didecanoate (n = 7)did not elicit minute ventilation (E)changes. Peak hypoxic Eresponses (10% O₂-balanceN₂) were measured in 19 additional animals after NTS microinjection of bisindolylmaleimide(BIM) I, a selective PKC inhibitor (n = 12), BIM V (inactive analog; n = 7),or vehicle (Con; n = 19). In Con,E increased from 139 ± 9 to 285 ± 26 ml/min in room air and hypoxia, respectively, and similarresponses occurred after BIM V. BIM I did not affect room airE but markedly attenuated hypoxia-induced E increases (128 ± 12 to 167 ± 18 ml/min; P < 0.02 vs. Con and BIM V). When BIM I was microinjected into the cerebellum(n = 4), cortex(n = 4), or spinal cord(n = 4),E responses were similar to Con.Western blots of subcellular fractions of dorsocaudal brain stemlysates revealed translocation of PKC, , , , , and  isoenzymes during acute hypoxia, and enhanced overall PKC activity wasconfirmed in the particulate fraction of dorsocaudal brain stem lysatesharvested after acute hypoxia. These studies suggest that, in the adultrat, PKC activation in the NTS mediates essential components of theacute hypoxic ventilatory response.

     

Resistance and aerobic training in older men: effects on VO2 peak and the capillary supply to skeletal muscle

Hepple, R. T., S. L. M. Mackinnon, J. M. Goodman, S. G. Thomas, and M. J. Plyley. Resistance and aerobic training in oldermen: effects onO_{2 peak} and thecapillary supply to skeletal muscle. J. Appl.Physiol. 82(4): 1305-1310, 1997.Both aerobic training (AT) and resistance training (RT) may increase aerobic power(O_{2 peak}) in theolder population; however, the role of changes in the capillary supplyin this response has not been evaluated. Twenty healthymen (age 65-74 yr) engaged in either 9 wk of lower body RTfollowed by 9 wk of AT on a cycle ergometer (RTAT group) or 18 wk of AT on a cycle ergometer (ATAT group). RT was performedthree times per week and consisted of three sets of four exercises at6-12 repetitions maximum. AT was performed threetimes per week for 30 min at 60-70% heart ratereserve. O_{2 peak} was increasedafter both RT and AT (P < 0.05).Biopsies (vastus lateralis) revealed that the number of capillaries per fiber perimeter length was increased after both AT and RT(P < 0.05), paralleling the changesin O_{2 peak}, whereascapillary density was increased only after AT(P < 0.01). These results, and thefinding of a significant correlation between the change in capillarysupply and O_{2 peak}(r = 0.52), suggest the possibility that similar mechanisms may be involved in the increase ofO_{2 peak} afterhigh-intensity RT and AT in the older population.

     

Dissociation between hysteresivity and tension in constricted tracheal and parenchymal strips

The object of this study was to investigatehow changes in the contractile state of smooth muscle would modifyoscillatory mechanics of tracheal muscle and lung parenchyma duringagonist challenge. Guinea pig tracheal and parenchymal lung strips were suspended in an organ bath. Measurements of length(L) and tension (T) were recordedduring sinusoidal oscillations under baseline conditions and afterchallenge with 1 mM ACh. Measurements were also obtained in stripspretreated with the calmodulin inhibitor calmidazolium (Cmz) orstaurosporine (Stauro), a protein kinase C inhibitor. Elastance (E) andresistance (R) were calculated by fitting changes in T,L, andL/tto the equation of motion. Hysteresivity () was obtained from thefollowing equation: = (R/E)2f,where f is frequency. Finally, maximalunloaded shortening velocity during electrical field stimulation wasmeasured in Cmz-pretreated and control tracheal strips. In trachealstrips, pretreatment with Cmz caused a significant decrease in the  response to ACh challenge and in maximal unloaded shortening velocitymeasured during electrical field stimulation; Stauro decreased the T,E, and R response to ACh. In parenchymal strips, Cmz decreased the  response, whereas Stauro had no effect. These results suggest thatmodifications in the contractile state of the smooth muscle arereflected in changes in the hysteretic behavior and that T and  maybe controlled independently. Second, inasmuch as changes in  weresimilar in parenchymal and tracheal strips, the contractile element isimplicated as the structure responsible for constriction-induced changes in the mechanical behavior of the lung periphery.

     

Quantitative analysis of transpleural flux in the isolated lung

Li, M. H., J. Hildebrandt, and M. P. Hlastala.Quantitative analysis of transpleural flux in the isolated lung.J. Appl. Physiol. 82(2): 545-551, 1997.In this study, the loss of inert gas through the pleura of anisolated ventilated and perfused rabbit lung was assessed theoreticallyand experimentally. A mathematical model was used to represent an idealhomogeneous lung placed within a box with gas flow(box) surrounding the lung. Thealveoli are assumed to be ventilated with room air(A) andperfused at constant flow () containinginert gases (x) with various perfusate-air partition coefficients(_p,x).The ratio of transpleural flux of gas(pl_x)to its total delivery to the lung via pulmonary artery( ),representing fractional losses across the pleura, can be shown todepend on four dimensionless ratios:1)_p,x,2) the ratio of alveolar ventilation to perfusion(A/), 3) the ratioof the pleural diffusing capacity(Dpl_x) to the conductance ofthe alveolar ventilation (Dpl_x /A_g,where _g is the capacitancecoefficient of gas), and 4) theratio of extrapleural (box) ventilation to alveolar ventilation(box/A).Experiments were performed in isolated perfused and ventilated rabbitlungs. The perfusate was a buffer solution containing six dissolvedinert gases covering the entire 10⁵-fold range of_p,x usedin the multiple inert gas elimination technique. Steady-state inert gasconcentrations were measured in the pulmonary arterial perfusate,pulmonary venous effluent, exhaled gas, and box effluent gas. Theexperimental data could be described satisfactorily by thesingle-compartment model. It is concluded that a simple theoreticalmodel is a useful tool for predicting transpleural flux from isolatedlung preparations, with known ventilation and perfusion, for inertgases within a wide range of .

     

Airway thermal volume in humans and its relation to body size

Serikov, Vladimir B., E. Heidi Jerome, Neal W. Fleming,Peter G. Moore, Frederick A. Stawitcke, and Norman C. Staub.Airway thermal volume in humans and its relation to body size.J. Appl. Physiol. 83(2): 668-676, 1997.The objective of this study was to investigate the influence ofvolume ventilation(E) andcardiac output () on the temperature of the expiredgas at the distal end of the endotracheal tube in anesthetized humans.In 63 mechanically ventilated adults, we used a step decrease in thehumidity of inspired gas to cool the lungs. After change from humid todry gas ventilation, the temperature of the expired gas decreased. Weevaluated the relationship between the inverse monoexponential timeconstant of the temperature fall (1/) and eitherE or . WhenE wasincreased from 5.67 ± 1.28 to 7.14 ± 1.60 (SD) l/min(P = 0.02), 1/ did not changesignificantly [from 1.25 ± 0.38 to 1.21 ± 0.51 min¹,P = 0.81]. In the 11 patients in whom changed during the study period(from 5.07 ± 1.81 to 7.38 ± 2.45 l/min,P = 0.02), 1/ increasedcorrespondingly from 0.89 ± 0.22 to 1.52 ± 0.44 min¹(P = 0.003). We calculated the airwaythermal volume (ATV) as the ratio of the measured values to 1/ and related it to the body height (BH):ATV (liters) = 0.086 BH (cm)  9.55 (r = 0.90).

     

Bronchial vasodilatory response to ionic and nonionic contrast media

Baile, Elisabeth M., Lu Wang, Lorraine Verburgt, and PeterD. Paré. Bronchial vasodilatory response to ionic andnonionic contrast media. J. Appl.Physiol. 82(3): 841-845, 1997.It has recentlybeen shown that bronchial arterial injection of conventional contrastmedium causes a significant increase in bronchial blood flow(br) and that this response is partially attenuatedafter infusion ofN-nitro-L-arginine(L-NNA). However, the precisemechanism for this increase in br is unknown. Inthis study we examined the effect of bronchial arterial injection ofconventional ionic as well as nonionic contrast media. We measuredbr in nine anesthetized, ventilated, open-chestsheep. br was recorded before (baseline) and at thepeak response to injection of 0.5 ml of either 0.9% saline (control;isosmolar with plasma), Omnipaque 300 (iohexol; nonionic), Conray 66 (sodium iothalamate; ionic), or 50% dextrose (viscouscontrol).

     

Catecholamine responses to {alpha}-adrenergic blockade during exercise in women acutely exposed to altitude

We have previouslydocumented the importance of the sympathetic nervous system inacclimatizing to high altitude in men. The purpose ofthis investigation was to determine the extent to which -adrenergicblockade affects the sympathoadrenal responses to exercise during acutehigh-altitude exposure in women. Twelve eumenorrheic women (24.7 ± 1.3 yr, 70.6 ± 2.6 kg) were studied at sea level and onday 2 of high-altitude exposure (4,300-m hypobaric chamber)in either their follicular or luteal phase. Subjects performed twograded-exercise tests at sea level (on separate days) on a bicycleergometer after 3 days of taking either a placebo or an -blocker (3 mg/day prazosin). Subjects also performed two similar exercise testswhile at altitude. Effectiveness of blockade was determined byphenylephrine challenge. At sea level, plasma norepinephrine levelsduring exercise were 48% greater when subjects were -blockedcompared with their placebo trial. This difference was only 25% whensubjects were studied at altitude. Plasma norepinephrine values weresignificantly elevated at altitude compared with sea level but to agreater extent for the placebo (59%) vs. blocked (35%) trial. Amore dramatic effect of both altitude (104% placebo vs. 95%blocked) and blockade (50% sea level vs. 44% altitude) wasobserved for plasma epinephrine levels during exercise. No phasedifferences were observed across any condition studied. It wasconcluded that -adrenergic blockade 1) resulted in acompensatory sympathoadrenal response during exercise at sea level andaltitude, and 2) this effect was more pronounced for plasma epinephrine.