Effect of inhibition of nitric oxide synthesis on the diaphragmatic microvascular response to hypoxia

Ward, Michael E. Effect of inhibition of nitric oxidesynthesis on the diaphragmatic microvascular response to hypoxia. J. Appl. Physiol. 81(4):1633-1641, 1996.The purpose of this study was to determine theeffect of inhibition of nitric oxide (NO) release on the diaphragmaticmicrovascular responses to hypoxia. In -chloralose-anesthetizedmongrel dogs, the microcirculation of the vascularly isolated ex vivoleft hemidiaphragm was studied by intravital microscopy. The diaphragmwas pump perfused with blood diverted from the femoral artery through aseries of membrane oxygenators. The responses to supramaximalconcentrations of sodium nitroprusside, moderate hypoxia (phrenicvenous PO₂ 27 Torr), andsevere hypoxia (phrenic venous PO₂ 15 Torr) were recorded before and after an infusion ofN^G-nitro-L-arginine(L-NNA; 6 × 10⁴ M) into the phreniccirculation for 20 min. Under control conditions, diaphragmatic bloodflow was 12.4 ± 1.1 ml ^· min^{1 ·} 100 g¹. Diaphragmatic bloodflows recorded during moderate and severe hypoxia were 15.6 ± 1.2 and 24.3 ± 1.5 ml ^· min^{1 ·} 100 g¹, respectively(P < 0.05 for both compared withcontrol values). Treatment withL-NNA reduced diaphragmaticblood flow to 9.6 ± 0.8 ml ^· min^{1 ·} 100 g¹ under control conditions(P < 0.05) and caused arteriolarvasoconstriction to a degree that was dependent on vessel size (i.e.,larger vessels constricted more than smaller vessels).L-NNA eliminated the increase inblood flow during moderate hypoxia and inhibited arteriolar dilation byan amount that was related to vessel size (i.e., dilation of largervessels was inhibited more than that of smaller vessels). Inhibition ofNO synthesis had no effect on the increase in diaphragmatic blood flow(23.6 ± 1.9 ml ^· min^{1 ·} 100 g¹;P > 0.05 compared with that duringsevere hypoxia before treatment withL-NNA) or arteriolar diametersduring severe hypoxia. NO release plays a role in the diaphragmaticvascular response to hypoxia, but this role is limited to dilation oflarger arterioles during hypoxia of moderate severity.

     

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.

     

Role for anions in pulmonary endothelial permeability

Griffin, M. Pamela. Role for anions in pulmonaryendothelial permeability. J. Appl.Physiol. 83(2): 615-622, 1997.-Adrenergic stimulation reduces albumin permeation across pulmonary artery endothelial monolayers and induces changes in cell morphology that aremediated by Cl flux. Wetested the hypothesis that anion-mediated changes in endothelial cellsresult in changes in endothelial permeability. We measured permeationof radiolabeled albumin across bovine pulmonary arterial endothelialmonolayers when the extracellular anion was Cl,Br,I,F, acetate(Ac), gluconate(G), and propionate(Pr). Permeability toalbumin (P_albumin)was calculated before and after addition of 0.2 mM of thephosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX), whichreduces permeability. InCl, theP_albumin was 3.05 ± 0.86 × 10⁶ cm/s andfell by 70% with the addition of IBMX. The initialP_albumin was lowest forPr andAc. InitialP_albumin was higher inBr,I,G, andF than inCl. A permeability ratiowas calculated to examine the IBMX effect. The greatest IBMX effect wasseen when Cl was theextracellular anion, and the order among halide anions wasCl > Br > I > F. Although the level ofextracellular Ca²⁺ concentration([Ca²⁺]_o)varied over a wide range in the anion solutions,[Ca²⁺]_odid not systematically affect endothelial permeability in this system.When Cl was theextracellular anion, varying[Ca²⁺]_ofrom 0.2 to 2.8 mM caused a change in initialP_albumin but no changein the IBMX effect. The anion channel blockers4-acetamido-4-isothiocyanotostilbene-2,2-disulfonic acid(0.25 mM) and anthracene-9-carboxylic acid (0.5 mM) significantly altered initialP_albumin and the IBMXeffect. The anion transport blockers bumetanide (0.2 mM) and furosemide(1 mM) had no such effects. We conclude that extracellular anionsinfluence bovine pulmonary arterial endothelial permeability and thatthe pharmacological profile fits better with the activity of anionchannels than with other anion transport processes.

     

Diffusional permeability of rabbit mesothelium

Diffusional permeability (P) to sucrose(P_suc) andNa⁺(P_Na⁺)was determined in specimens of rabbit sternal parietal pericardium,which may be obtained without stripping. Specimens were mounted in anUssing apparatus with ³H-labeledsucrose and²²Na⁺in a luminal (L) or interstitial (I) chamber.P_suc was 2.16 ± 0.44 for LI and 2.63 ± 0.45 (SE) × 10⁵ cm/s for IL,i.e., ~10 times smaller than that previously obtained in strippedspecimens of pleura despite the similarity of intercellular junctionsin pericardium and pleural mesothelium of various species. Thesefindings suggest that previousP_suc wasoverestimated because stripping damages the mesothelium.P_Na⁺ (×10⁵ cm/s) was 7.07 ± 0.71 for LI and 7.37 ± 0.69 × 10⁵ cm/s for IL.Measurements were also done with phospholipids, which are adsorbed onthe luminal side of mesothelium in vivo. With phospholipids in L,P_suc was 0.75 ± 0.10 and 0.65 ± 0.08 andP_Na⁺was 3.80 ± 0.32 and 3.76 ± 0.15 × 10⁵ cm/s for LI andIL, respectively, i.e., smaller than without phospholipids.With phospholipids in I (where they are not adsorbed), P_suc (2.33 ± 0.42 × 10⁵ cm/s) andP_Na⁺(7.01 ± 0.45 × 10⁵ cm/s) were similar tothose values without phospholipids. Hence, adsorbed phospholipidsdecrease P of mesothelium. If themesothelium were scraped away from the specimen,P_suc of theconnective tissue would be 13.2 ± 0.76 × 10⁵ cm/s.P_suc of themesothelium, computed fromP_suc of theunscraped and scraped specimens, corrected for the effect of unstirredlayers (2.54 and 19.4 × 10⁵ cm/s, respectively),was 2.92 and 0.74 × 10⁵ cm/s without and withphospholipids, respectively. Hence, most of the resistance to diffusionof the pericardium is provided by the mesothelium.

     

H2O2 increases sheep tracheal blood flow, permeability, and vascular response to luminal capsaicin

Wells, U. M., S. Duneclift, and J. G. Widdicombe.H₂O₂increases sheep tracheal blood flow, permeability, and vascular response to luminal capsaicin. J. Appl.Physiol. 82(2): 621-631, 1997.Exogenous hydrogenperoxide(H₂O₂)causes airway epithelial damage in vitro. We have studied the effectsof luminalH₂O₂in the sheep trachea in vivo on tracheal permeability tolow-molecular-weight hydrophilic (technetium-99m-labeleddiethylenetriamine pentaacetic acid;^99mTc-DTPA) and lipophilic([¹⁴C]antipyrine;[¹⁴C]AP) tracers andon the tracheal vascular response to luminal capsaicin, whichstimulates afferent nerve endings. A tracheal artery was perfused, andtracheal venous blood was collected. H₂O₂exposure (10 mM) reduced tracheal potential difference(42.0 ± 6.4 mV) to zero. It increased arterial andvenous flows (56.7 ± 6.1 and 57.3 ± 10.0%,respectively; n = 5, P < 0.01, paired t-test) but not tracheal lymph flow(unstimulated flow 5.0 ± 1.2 µl ^· min^{1 ·} cm¹,n = 4). DuringH₂O₂exposure, permeability to ^99mTc-DTPA increased from2.6 to 89.7 × 10⁷ cm/s(n = 5, P < 0.05), whereas permeability to[¹⁴C]AP (3,312.6 × 10⁷ cm/s,n = 4) was not altered significantly(2,565 × 10⁷cm/s). Luminal capsaicin (10 µM) increased tracheal blood flow (10.1 ± 4.1%, n = 5)and decreased venous ^99mTc-DTPAconcentration (19.7 ± 4.0, P < 0.01), and these effects weresignificantly greater after epithelial damage (28.1 ± 6.0 and45.7 ± 4.3%, respectively,P < 0.05, unpairedt-test). Thus H₂O₂increases the penetration of a hydrophilic tracer into tracheal bloodand lymph but has less effect on a lipophilic tracer. It also enhancesthe effects of luminal capsaicin on blood flow and tracer uptake.

     

Changes in maximum oxygen uptake during prolonged training, overtraining, and detraining in horses

Tyler, Catherine M., Lorraine C. Golland, David L. Evans,David R. Hodgson, and Reuben J. Rose. Changes in maximum oxygenuptake during prolonged training, overtraining, and detraining inhorses. J. Appl. Physiol. 81(5):2244-2249, 1996.Thirteen standardbred horses were trained asfollows: phase 1 (endurance training, 7 wk),phase 2 (high-intensity training, 9 wk),phase 3 (overload training, 18 wk), andphase 4 (detraining, 12 wk). Inphase 3, the horses were divided intotwo groups: overload training (OLT) and control (C). The OLT groupexercised at greater intensities, frequencies, and durations than groupC. Overtraining occurred after 31 wk of training and was defined as asignificant decrease in treadmill run time in response to astandardized exercise test. In the OLT group, there was a significantdecrease in body weight (P < 0.05).From pretraining values of 117 ± 2 (SE)ml ^· kg^{1 ·} min¹,maximal O₂ uptake(O_{2 max}) increased by15% at the end of phase 1, and when signs of overtraining werefirst seen in the OLT group,O_{2 max} was 29%higher (151 ± 2 ml ^· kg^{1 ·} min¹in both C and OLT groups) than pretraining values. There was nosignificant reduction inO_{2 max} until after 6 wk detraining whenO_{2 max} was 137 ± 2 ml ^· kg^{1 ·} min¹.By 12 wk detraining, meanO_{2 max} was134 ± 2 ml ^· kg^{1 ·} min¹,still 15% above pretraining values. When overtraining developed, O_{2 max} was notdifferent between C and OLT groups, but maximal values forCO₂ production (147 vs. 159 ml ^· kg^{1 ·} min¹)and respiratory exchange ratio (1.04 vs. 1.11) were lower in the OLTgroup. Overtraining was not associated with a decrease inO_{2 max} and, afterprolonged training, decreases inO_{2 max} occurredslowly during detraining.

     

Contraction-induced increase in Vmax of palmitate uptake and oxidation in perfused skeletal muscle

To evaluate the effects of contractions on thekinetics of uptake and oxidation of palmitate in a physiological musclepreparation, rat hindquarters were perfused with glucose (6 mmol/l),albumin-bound [1-¹⁴C]palmitate, andvarying amounts of albumin-bound palmitate (200-2,200 µmol/l) atrest and during muscle contractions. When plotted against the unboundpalmitate concentration, palmitate uptake and oxidation displayedsimple Michaelis-Menten kinetics with estimated maximal velocity(V_max)and Michaelis-Menten constant(K_m) values of42.8 ± 3.8 (SE)nmol · min¹ · g¹and 13.4 ± 3.4 nmol/l for palmitate uptake and 3.8 ± 0.4 nmol · min¹ · g¹and 8.1 ± 2.9 nmol/l for palmitate oxidation, respectively, at rest.Whereas muscle contractions increased theV_maxfor both palmitate uptake and oxidation to 91.6 ± 10.1 and 16.5 ± 2.3 nmol · min¹ · g¹,respectively, theK_m remainedunchanged.V_maxand K_m estimates obtained from Hanes-Woolf plots (substrate concentration/velocity vs.substrate concentration) were not significantly different. In theresting perfused hindquarter, an increase in palmitate delivery from31.9 ± 0.9 to 48.7 ± 1.2 µmol · g¹ · h¹by increasing perfusate flow was associated with a decrease in thefractional uptake of palmitate so that the rates of uptake andoxidation of palmitate remained unchanged. It is concluded that therates of uptake and oxidation of long-chain fatty acids (LCFA) saturatewith an increase in the concentration of unbound LCFA in perfusedskeletal muscle and that muscle contractions, but not an increase inplasma flow, increase theV_maxfor LCFA uptake and oxidation. The data are consistent with the notion that uptake of LCFA in muscle may be mediated in part by a transport system.

     

Effects of dopamine and domperidone on ventilatory sensitivity to hypoxia after 8h of isocapnic hypoxia

Acclimatization to altitude involves an increase in the acutehypoxic ventilatory response (AHVR). Because low-dose dopamine decreases AHVR and domperidone increases AHVR, the increase in AHVR ataltitude may be generated by a decrease in peripheral dopaminergicactivity. The AHVR of nine subjects was determined with and without aprior period of 8 h of isocapnic hypoxia under each of threepharmacological conditions: 1)control, with no drug administered;2) dopamine (3 µg · min¹ · kg¹);and 3) domperidone (Motilin, 40 mg).AHVR increased after hypoxia (P  0.001). Dopaminedecreased (P  0.01), and domperidone increased (P  0.005) AHVR. The effect of both drugs on AHVR appearedlarger after hypoxia, an observation supported by a significantinteraction between prior hypoxia and drug in the analysis of variance(P  0.05). Although the increasedeffect of domperidone after hypoxia of 0.40 l · min¹ · %saturation¹[95% confidence interval (CI) 0.11 to 0.92 l · min¹ · %¹]did not reach significance, the lower limit for this confidence interval suggests that little of the increase in AHVR after sustained hypoxia was brought about by a decrease in peripheral dopaminergic inhibition.

     

Training-induced alterations of glucose flux in men

Friedlander, Anne L., Gretchen A. Casazza, Michael A. Horning, Melvin J. Huie, and George A. Brooks. Training-induced alterations of glucose flux in men. J. Appl.Physiol. 82(4): 1360-1369, 1997.We examined thehypothesis that glucose flux was directly related to relative exerciseintensity both before and after a 10-wk cycle ergometer trainingprogram in 19 healthy male subjects. Two pretraining trials [45and 65% of peak O₂ consumption(O_{2 peak})] andtwo posttraining trials (same absolute and relative intensities as 65%pretraining) were performed for 90 min of rest and 1 h of cyclingexercise. After training, subjects increasedO_{2 peak} by9.4 ± 1.4%. Pretraining, the intensity effect on glucose kinetics was evident with rates of appearance(R_a; 5.84 ± 0.23 vs. 4.73 ± 0.19 mg · kg¹ · min¹),disappearance (R_d; 5.78 ± 0.19 vs. 4.73 ± 0.19 mg · kg¹ · min¹),oxidation (R_ox; 5.36 ± 0.15 vs. 3.41 ± 0.23 mg · kg¹ · min¹),and metabolic clearance (7.03 ± 0.56 vs. 5.20 ± 0.28 ml · kg¹ · min¹)of glucose being significantly greater(P  0.05) in the 65% than the 45%O_{2 peak} trial. WhenR_d was expressed as a percentage of total energy expended per minute(R_{d E}), there was nodifference between the 45 and 65% intensities. Training did reduceR_a (4.63 ± 0.25),R_d (4.65 ± 0.24),R_ox (3.77 ± 0.43), andR_{d E} (15.30 ± 0.40 to12.85 ± 0.81) when subjects were tested at the same absolute workload (P  0.05). However, whenthey were tested at the same relative workload,R_a,R_d, andR_{d E} were not different,although R_ox was lowerposttraining (5.36 ± 0.15 vs. 4.41 ± 0.42, P  0.05). These results show1) glucose use is directly relatedto exercise intensity; 2) trainingdecreases glucose flux for a given power output;3) when expressed as relativeexercise intensity, training does not affect the magnitude of bloodglucose use during exercise; 4)training alters the pathways of glucose disposal.

     

Effects of nitric oxide on blood flow distribution and O2 extraction capabilities during endotoxic shock

Zhang, Haibo, Peter Rogiers, Nadia Smail, Ana Cabral,Jean-Charles Preiser, Marie-Odile Peny, and Jean-Louis Vincent.Effects of nitric oxide on blood flow distribution andO₂ extraction capabilities duringendotoxic shock. J. Appl. Physiol.83(4): 1164-1173, 1997.The effects of the nitric oxide (NO)synthase inhibitorN^G-monomethyl-L-arginine(L-NMMA) and the NO donor3-morpholinosydnonimine (SIN-1) were tested in 18 endotoxic dogs. L-NMMA infusion(10 mg · kg¹ · h¹)increased arterial and pulmonary artery pressures and systemic andpulmonary vascular resistances but decreased cardiac index, leftventricular stroke work index, and blood flow to the hepatic, portal,mesenteric, and renal beds. SIN-1 infusion (2 µg · kg¹ · min¹)increased cardiac index; left ventricular stroke work index; andhepatic, portal, and mesenteric blood flow. It did not significantly influence arterial and pulmonary artery pressures but decreased renalblood flow. The critical O₂delivery was similar in the L-NMMA group and in the controlgroup (13.3 ± 1.6 vs. 12.8 ± 3.3 ml · kg¹ · min¹)but lower in the SIN-1 group (9.1 ± 1.8 ml · kg¹ · min¹,both P < 0.05). The criticalO₂ extraction ratio was alsohigher in the SIN-1 group than in the other groups (58.7 ± 10.6 vs.42.2 ± 7.6% in controls, P < 0.05; 43.0 ± 15.5% inL-NMMA group,P = not significant). We conclude thatNO is not implicated in the alterations inO₂ extraction capabilitiesobserved early after endotoxin administration.

     

Endothelial cell dilatory pathways link flow and wall shear stress in an intact arteriolar network

Frame, Mary D. S., and Ingrid H. Sarelius. Endothelialcell dilatory pathways link flow and wall shear stress in an intactarteriolar network. J. Appl. Physiol.81(5): 2105-2114, 1996.Our purpose was to determine whether theendothelial cell-dependent dilatory pathways contribute to theregulation of flow distribution in an intact arteriolar network. Cellflow, wall shear stress (T),diameter, and bifurcation angle were determined for four sequentialbranches of a transverse arteriole in the superfused cremaster muscleof pentobaribtal sodium (Nembutal, 70 mg/kg)-anesthetized hamsters(n = 51). Control cell flow wassignificantly greater into upstream than into downstream branches[1,561 ± 315 vs. 971 ± 200 (SE) cells/s,n = 12]. Tissue exposure to 50 µMN-nitro-L-arginine + 50 µM indomethacin (L-NNA + Indo) produced arteriolar constriction of 14 ± 4% and decreasedflow into the transverse arteriole. More of the available cell flow wasdiverted to downstream branches, yet flow distribution remainedunequal. Control T was higherupstream than downstream (31.3 ± 6.8 vs. 9.8 ± 1.5 dyn/cm²).L-NNA + Indo decreasedT upstream and increasedT downstream to become equal inall branches, in contrast to flow. To determine whether constriction ingeneral induced the same changes, 5%O₂ (8 ± 4% constriction) or10⁹ M norepinephrine (NE;4 ± 3% constriction) was added to the tissue (n = 7). WithO₂, flow was redistributed tobecome equal into each branch. With NE, flow decreased progressivelymore into the first three branches. The changes in flow distributionwere thus predictable and dependent on the agonist. WithO₂ or NE, the spatial changes inflow were mirrored by spatial changes inT. Changes in diameter and incell flux were not related forL-NNA + Indo (r = 0.45),O₂(r = 0.07), or NE(r = 0.36). For all agonists, when thebifurcation angle increased, cell flow to the branch decreasedsignificantly, whereas if the angle decreased, flow was relativelypreserved; thus active changes in bifurcation angle may influence redcell distribution at arteriolar bifurcations. Thus, when theendothelial cell dilatory pathways were blocked, the changes in flowand in T were uncoupled; yet when they were intact, flowand T changed together.

     

Upper airway muscle activity and upper airway resistance in young adults during sleep

Henke, Kathe G. Upper airway muscle activity and upperairway resistance in young adults during sleep. J. Appl. Physiol. 84(2): 486-491, 1998.To determinethe relationship between upper airway muscle activity and upper airwayresistance in nonsnoring and snoring young adults, 17 subjects werestudied during sleep. Genioglossus and alae nasi electromyogramactivity were recorded. Inspiratory and expiratory supraglotticresistance (Rinsp and Rexp, respectively) were measured at peak flow,and the coefficients of resistance(K_insp andK_exp,respectively) were calculated. Data were recorded during control,with continuous positive airway pressure (CPAP), and on the breathimmediately after termination of CPAP. Rinsp during control averaged 7 ± 1 and 10 ± 2 cmH₂O · l¹ · sand K_inspaveraged 26 ± 5 and 80 ± 27 cmH₂O · l¹ · s²in the nonsnorers and snorers, respectively(P = not significant). Onthe breath immediately after CPAP,K_insp did notincrease over control in snorers (80 ± 27 for control vs. 46 ± 6 cmH₂O · l¹ · s²for the breath after CPAP) or nonsnorers (26 ± 5 vs. 29 ± 6 cmH₂O · l¹ · s²).These findings held true for Rinsp.K_exp did notincrease in either group on the breath immediately after termination ofCPAP. Therefore, 1) increases inupper airway resistance do not occur, despite reductions inelectromyogram activity in young snorers and nonsnorers, and2) increases in Rexp and expiratoryflow limitation are not observed in young snorers.

     

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.

     

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.

     

Bioenergetics of contracting skeletal muscle after partial reduction of blood flow

The purpose ofthis study was to examine the bioenergetics and regulation ofO₂ uptake(O₂) and force productionin contracting muscle when blood flow was moderately reduced during asteady-state contractile period. Canine gastrocnemius muscle(n = 5) was isolated, and 3-minstimulation periods of isometric, tetanic contractions were elicitedsequentially at rates of 0.25, 0.33, and 0.5 contractions/s (Hz)immediately followed by a reduction of blood flow [ischemic (I)condition] to 46 ± 3% of the value obtained at 0.5 Hz with normal blood flow. TheO₂ of thecontracting muscle was significantly (P < 0.05) reduced during the Icondition [6.5 ± 0.8 (SE) ml · 100 g¹ · min¹]compared with the same stimulation frequency with normal flow (11.2 ± 1.5 ml · 100 g¹ · min¹),as was the tension-time index (79 ± 12 vs. 123 ± 22 N · g¹ · min¹,respectively). The ratio ofO₂ to tension-time indexremained constant throughout all contraction periods. Musclephosphocreatine concentration, ATP concentration, and lactate effluxwere not significantly different during the I condition compared withthe 0.5-Hz condition with normal blood flow. However, at comparable rates of O₂ andtension-time index, muscle phosphocreatine concentration and ATPconcentration were significantly less during the I condition comparedwith normal-flow conditions. These results demonstrate that, in thishighly oxidative muscle, the normal balance ofO₂ supply to force output wasmaintained during moderate ischemia by downregulation of forceproduction. In addition,1) the minimal disruption inintracellular homeostasis after the initiation of ischemia waslikely a result of steady-state metabolic conditions having alreadybeen activated, and 2) thedifference in intracellular conditions at comparable rates ofO₂ and tension-time index between the normal flow and I condition may have been due to altered intracellular O₂ tension.

     

Smaller lungs in women affect exercise hyperpnea

We subjected 29 healthy young women (age: 27 ± 1 yr) with a wide range of fitness levels [maximal oxygenuptake (O_{2 max}): 57 ± 6 ml · kg¹ · min¹;35-70ml · kg¹ · min¹]to a progressive treadmill running test. Our subjects had significantly smaller lung volumes and lower maximal expiratory flow rates, irrespective of fitness level, compared with predicted values for age-and height-matched men. The higher maximal workload in highly fit(O_{2 max} > 57 ml · kg¹ · min¹,n = 14) vs. less-fit(O_{2 max} < 56 ml · kg¹ · min¹,n = 15) women caused a higher maximalventilation (E) with increased tidal volume (VT)and breathing frequency (f_b) atcomparable maximal VT/vitalcapacity (VC). More expiratory flow limitation (EFL; 22 ± 4% ofVT) was also observed duringheavy exercise in highly fit vs. less-fit women, causing higherend-expiratory and end-inspiratory lung volumes and greater usage oftheir maximum available ventilatory reserves.HeO₂ (79% He-21%O₂) vs. room air exercise trialswere compared (with screens added to equalize external apparatusresistance). HeO₂ increasedmaximal expiratory flow rates (20-38%) throughout the range ofVC, which significantly reduced EFL during heavy exercise. When EFL wasreduced with HeO₂, VT,f_b, andE (+16 ± 2 l/min) weresignificantly increased during maximal exercise. However, in theabsence of EFL (during room air exercise),HeO₂ had no effect onE. We conclude that smaller lungvolumes and maximal flow rates for women in general, and especiallyhighly fit women, caused increased prevalence of EFL during heavyexercise, a relative hyperinflation, an increased reliance onf_b, and a greater encroachment onthe ventilatory "reserve." Consequently,VT andE are mechanically constrained duringmaximal exercise in many fit women because the demand for highexpiratory flow rates encroaches on the airways' maximum flow-volumeenvelope.

     

Effects of hyperthermia on contraction and dilatation of rabbit femoral arteries

To analyze the effect of hyperthermia on thevascular response, the isometric response of isolated rabbit femoralartery segments was recorded at 37°C and hyperthermia (41 and44°C). Contraction to potassium (5 × 10³-5 × 10² M) was significantlygreater at 41 and 44 than at 37°C and increased by inhibition ofnitric oxide (NO) synthesis withN-nitro-L-arginine(L-NNA;10⁴ M) or endotheliumremoval at 37°C but not at 41 or 44°C. Norepinephrine (10⁹-10⁴M) produced a concentration-dependent contraction greater at 41 or 44 than at 37°C and not modified by endothelium removal orL-NNA at either temperature.Phenylephrine(10⁹-10⁴M) produced a contraction increased by warming to 44°C but not to41°C. The specific₂-adrenoceptor agonist BHT-920produced a weak contraction, reduced by the₁-adrenoceptor antagonist prazosin (10⁶ M) andincreased at 44°C but not at 41°C. The concentration-dependent contraction to endothelin-1 (ET-1;10¹¹-10⁷M) was increased by warming to 41 and 44°C and by endothelium removal or L-NNA at 37°C butnot at 41 or 44°C. Response to ET-1 was reduced by endothelinET_A-receptor antagonist BQ-123(10⁵ M) andET_B-receptor antagonist BQ-788(10⁵ M). In arteriesprecontracted with ET-1(10⁸-3 × 10⁸ M), relaxation tosodium nitroprusside(10⁸-10⁴M) was increased at 41 and 44°C vs. at 37°C, but that of ACh (10⁸-10⁴M) or adenosine(10⁸-10⁴M) was not different at all temperatures studied. Relaxation to ACh,but not adenosine, was reduced similarly byL-NNA at all temperaturesstudied. These results suggest hyperthermia in muscular arteries mayinhibit production of, and increase dilatation to, NO, resulting inunchanged relaxation to ACh and increased constriction to KCl and ET-1,and may increase constriction to stimulation of₁-adrenoceptors byNO-independent mechanisms.

     

Improved oxygenation with prostaglandin F2alpha with and without inhaled nitric oxide in dogs

Dogs of mixedbreed (n = 7) were anesthetized, rightlung atelectasis was established, and the cyclooxygenase pathway was blocked with ibuprofen. Measurements of pulmonary gas exchange wereperformed (fractional concentration of inspiredO₂ = 0.95) after infusions ofprostaglandin F₂(PGF₂; 2 µg · kg¹ · min¹),ventilation with nitric oxide (NO; 40 ppm), or both(PGF₂ + NO) in random order.The arterial PO₂(Pa_O2) under control conditions was 117 ± 16 Torr (shunt = 33 ± 2.5%), was unchanged with NO alone(Pa_O2 = 114 ± 17 Torr; shunt = 35.7 ± 3.1%), but was significantlyimproved with PGF₂ alone(Pa_O2 = 180 ± 28 Torr; shunt = 23.2 ± 2.8%) and with the combination ofPGF₂ + NO(Pa_O2 = 202 ± 30 Torr; shunt = 20.9 ± 2.5%). The addition of NO didnot significantly enhance the effectiveness of thePGF₂ onPa_O2.Simulation of these data in a computer model, combining pulmonary gasexchange and pulmonary blood flow, reproduced the results on the basisthat vasoconstriction with PGF₂was maximal under hypoxia in the atelectatic lung and reduced byhyperoxia in the ventilated lung, consistent with the hypothesis ofO₂ dependence ofPGF₂ vasoconstriction.

     

Development of ventilatory responsiveness to progressive hypoxia and hypercapnia in low-birth-weight lambs

Moss, T. J., M. G. Davey, G. J. McCrabb, and R. Harding.Development of ventilatory responsiveness to progressive hypoxia and hypercapnia in low-birth-weight lambs. J. Appl.Physiol. 81(4): 1555-1561, 1996.Our aim was todetermine the effects of low birth weight on ventilatory responses toprogressive hypoxia and hypercapnia during early postnatal life. Sevenlow-birth-weight (2.7 ± 0.3 kg) and five normal-birth-weight (4.8 ± 0.2 kg) lambs, all born at term, underwent weekly rebreathingtests during wakefulness while arterialPO₂,PCO₂, and pH were measured. Hypoxicventilatory responsiveness (HOVR; percent increase in ventilation whenarterial PO₂ fell to 60% of resting values) increased in normal lambs from 86.6 ± 7.1% atweek 1 to 227.4 ± 24.9% atweek 6. In low-birth-weight lambs,HOVR was not significantly different at week1 (60.1 ± 18.7%) from that of normal lambs but didnot increase with postnatal age (56.6 ± 19.3% atweek 6). HOVR of all lambs at 6 wkwas significantly correlated with birth weight(r² = 0.8).Hypercapnic ventilatory responsiveness (gradient of ventilation vs.arterial PCO₂) did not change withage and was not significantly different between groups [84.7 ± 7.5 (low-birth-weight lambs) vs. 89.4 ± 6.6 ml ^· min^{1 ·} kg^{1 ·} mmHg¹(normal lambs)]. We conclude that intrauterine conditions that impair fetal growth lead to the failure of HOVR to increase with age.

     

Influence of nicotine on the core temperature response to a novel environment in pregnant rats

Fewell, James E., and Patricia A. Tang. Influence ofnicotine on the core temperature response to a novel environment inpregnant rats. J. Appl. Physiol.83(5): 1612-1616, 1997.Exposure of a male or nonpregnant femalerat to a novel environment, such as a simulated open field, induces atransient increase in core temperature, which is often calledstress-induced hyperthermia. Pregnancy alters this response such thatthe core temperature index increases significantly during exposure to asimulated open field on day 10 but noton days 15 and20 of gestation in rats. The presentexperiments were carried to investigate the effect of chronicadministration of nicotine (0, 1, 2, 4, or 8 mg · kg¹ · 24 h¹ for 13-15 days) onthe core temperature response to a simulated open field in chronicallyinstrumented pregnant (day 20 or21 of gestation) and nonpregnantSprague-Dawley rats. In nonpregnant rats, the core temperature indexincreased more during exposure to a simulated open field after chronicadministration of nicotine at all doses than after chronicadministration of vehicle; the core temperature response was notdependent on the dose of nicotine. In pregnant rats, significantincreases in core temperature as well as in the core temperature indexoccurred only during exposure to a simulated open field after chronicadministration of nicotine in doses of 2, 4, or 8 mg · kg¹ · 24 h¹; the core temperatureresponse was dependent on the dose of nicotine. Our data provideevidence that chronic exposure to nicotine enhances the coretemperature response to a simulated open field in nonpregnant rats andunmasks a maternal thermogenic response that is not seen to the samestimulus near term of pregnancy. The possible physiological consequences for the fetus are presently unknown and requireinvestigation.