Hypoxic vasoconstriction in pulmonary arterioles and venules

Hillier, Simon C., Jacquelyn A. Graham, Christopher C. Hanger, Patricia S. Godbey, Robb W. Glenny, and Wiltz W. Wagner, Jr.Hypoxic vasoconstriction in pulmonary arterioles and venules. J. Appl. Physiol. 82(4):1084-1090, 1997.Pulmonary microvessels (<70 µm) lack acomplete muscular media. We tested the hypothesis that thesethin-walled vessels do not participate in the hypoxic pressor response.Isolated canine lobes were pump perfused at precisely knownmicrovascular pressures. A videomicroscope, coupled to a computerizedimage-enhancement system, permitted accurate diameter measurements ofsubpleural arterioles and venules, with each vessel serving as its owncontrol. While vascular pressure was maintained constant throughout theprotocol, hypoxia caused an average reduction of 25% of microvesseldiameters. The constriction was reversed when nitric oxide was added tothe hypoxic gas mixture. The nitric oxide reversal, combined with alack of lobar blood flow redistribution as measured by fluorescentmicrospheres, shows that the constriction was active. This responsesuggests the unexpected potential for active intra-acinarventilation-perfusion matching.

     

Effect of hypoxia on pulmonary blood flow-segmental vascular resistance relationship in perfused cat lungs

To investigate the effect of alveolar hypoxia onthe pulmonary blood flow-segmental vascular resistance relationship, wedetermined the longitudinal distribution of vascular resistance whileincreasing blood flow during hyperoxia or hypoxia in perfused catlungs. We measured microvascular pressures by the micropipetteservo-null method, partitioned the pulmonary vessels into threesegments [i.e., arterial (from main pulmonary artery to 30- to50-µm arterioles), venous (from 30- to 50-µm venules to leftatrium), and microvascular (between arterioles and venules)segments] and calculated segmental vascular resistance. Duringhyperoxia, total resistance decreased with increased blood flow becauseof a reduction of microvascular resistance. In contrast, duringhypoxia, not only microvascular resistance but also arterial resistancedecreased with increase of blood flow while venous resistance remainedunchanged. The reduction of arterial resistance was presumably causedby arterial distension induced by an elevated arterial pressure duringhypoxia. We conclude that, during hypoxia, both microvessels andarteries >50 µm in diameter play a role in preventing furtherincreases in total pulmonary vascular resistance with increased bloodflow.

     

Estimation of thickness of airwaysurface liquid in ferret trachea in vitro

Duneclift, S., U. Wells, and J. Widdicombe. Estimationof thickness of airway surface liquid in ferret trachea in vitro. J. Appl. Physiol. 83(3): 761-767, 1997.The tracheae of ferrets and rabbits were mounted in vitro inorgan baths. While the tracheae were liquid filled, the permeabilitycoefficient ( P) was determined, and then while thetracheae were air filled, the percent clearance for^99mTc-labeleddiethylenetriaminepentaacetic acid (DTPA) was determined. The thicknessof airway surface liquid (ASL) was estimated by three methods.1) The initial concentration of^99mTc-DTPA and the total amount of^99mTc-DTPA (the sum of thatentering the outside medium, that draining from the trachea, and thatwashed out at the end of 40 min) gave the initial volume of ASL andthus its thickness. Mean values were 45.7 µm for the ferret and 41.9 µm for the rabbit. 2) Estimates ofASL thickness at the end of the 40-min period, based on the final^99mTc-DTPA concentration and theamount in the washout, were 42.9 µm for ferret and 45.4 µm forrabbit. 3) The ratio of Pto percent clearance gave mean ASL thickness values of 49.2 µm forthe ferret and 40.3 µm for the rabbit. Thus three separate methodsfor determining ASL thickness give very similar results, with means inthe range 40-49 µm. Administration of methacholine or atropineto ferret tracheae did not significantly change ASL thickness.

     

Blood flow vs. venous pressure effects on filtration coefficient in oleic acid-injured lung

On the basis ofchanges in capillary filtration coefficient(K_fc) in 24 rabbit lungs, we determined whether elevations in pulmonary venouspressure (Ppv) or blood flow (BF) produced differences infiltration surface area in oleic acid-injured (OA) or control (Con)lungs. Lungs were cyclically ventilated and perfused under zone 3 conditions by using blood and 5% albumin with no pharmacological modulation of vascular tone. Pulmonary arterial, venous, and capillary pressures were measured by using arterial, venous, and double occlusion. Before and during eachK_fc-measurementmaneuver, microvascular/total vascular compliance was measured by usingvenous occlusion.K_fc was measuredbefore and 30 min after injury, by using a Ppv elevation of 7 cmH₂O or a BF elevation from 1 to2 l · min¹ · 100 g¹ to obtain a similardouble occlusion pressure. Pulmonary arterial pressure increased morewith BF than with Ppv in both Con and OA lungs [29 ± 2 vs. 19 ± 0.7 (means ± SE) cmH₂O;P < 0.001]. In OA lungscompared with Con lungs, values ofK_fc (200 ± 40 vs. 83 ± 14%, respectively; P < 0.01) and microvascular/total vascular compliance ratio (86 ± 4 vs. 68 ± 5%, respectively; P < 0.01) increased more with BF than with Ppv. In conclusion, for a given OA-induced increase in hydraulic conductivity, BF elevation increased filtration surface area more than did Ppv elevation. The steep pulmonary pressure profile induced by increased BF could result in therecruitment of injured capillaries and could also shift downstream thecompression point of blind (zone 1) and open injured vessels (zone 2).

     

Flow-induced vasodilation in the ferret lung

Chammas, Joseph H., David. A. Rickaby, Margarita Guarin,John H. Linehan, Christopher C. Hanger, and Christopher A. Dawson. Flow-induced vasodilation in the ferret lung. J. Appl. Physiol. 83(2): 495-502, 1997.To examinethe possibility that shear stress may be a pulmonary vasodilatorstimulus, we studied the effect of changing blood flow on the diametersof small pulmonary arteries in isolated perfused ferret lung lobes. Thearteries studied were in the ~0.3- to 1.3-mm-diameter range, and thediameters were measured by using microfocal X-ray imaging. Thediameters were measured at two flow rates, 10 and 40 ml/min, with theintravascular pressure in the measured vessels the same at the two flowrates as the result of venous pressure adjustment. The response to a change in flow was studied under both normoxic and hypoxic conditions. Hypoxia was used to elevate pulmonary arterial tone to increase thelikelihood of detecting a vasodilator response. Under normoxic conditions, changing flow had little effect on the arterial diameters, but under hypoxic conditions the arteries were consistently larger atthe higher flow than at the lower flow, even though the distending pressure was the same at the two flow rates. The results are consistent with the hypothesis that shear stress is a pulmonary vasodilator stimulus.

     

Innervation pattern of guinea pig pulmonary vasculature depends on vascular diameter

Haberberger, Rainer, Michael Schemann, Holger Sann, andWolfgang Kummer. Innervation pattern of guinea pig pulmonary vasculature depends on vascular diameter. J. Appl.Physiol. 82(2): 426-434, 1997.The pulmonaryvasculature is supplied by various neurochemically distinct types ofnerve fibers, including sensory substance P-containing and autonomicnoradrenergic, nitrergic, and cholinergic axons.Pharmacological experiments have suggested that various segments of thepulmonary vascular tree respond differently to the respectiveneuromediators. We, therefore, aimed to determine histochemically andimmunohistochemically for each of these neurochemically distinctperivascular axons their quantitative distribution along the vasculartree from the extrapulmonary trunks to the smallest intraparenchymalramifications in control guinea pigs(n = 5). Generally, arterialinnervation was more developed than that of veins. Along the arterialtree, noradrenergic and substance P-containing axons were ubiquitousfrom the pulmonary trunk to smallest intraparenchymal vessels, whereasnitrergic axons were practically restricted to large (>700-µm)extrapulmonary arteries. Cholinergic axons were regularly present atarteries down to 100 µm in diameter and innervated two-thirds ofsmall arteries (50-100 µm). The results demonstrate thatthe noradrenergic vasoconstrictor innervation extends throughout thepulmonary vascular system whereas the innervation pattern with varioustypes of vasodilator fibers changes with vascular diameter, parallel toknown pharmacological differences in cholinergic and nitrergicvasodilator effects.

     

Morphometry of the human pulmonary vasculature

Huang, W., R. T. Yen, M. McLaurine, and G. Bledsoe.Morphometry of the human pulmonary vasculature.J. Appl. Physiol. 81(5):2123-2133, 1996.The morphometric data on the branching patternand vascular geometry of the human pulmonary arterial and venous treesare presented. Arterial and venous casts were prepared by the siliconeelastomer casting method. Three recent innovations are used to describethe vascular geometry: the diameter-defined Strahler ordering model isused to assign branching orders, the connectivity matrix is used todescribe the connection of blood vessels from one order to another, anda distinction between vessel segments and vessel elements is used toexpress the series-parallel feature of the pulmonary vessels. A totalof 15 orders of arteries were found between the main pulmonary arteryand the capillaries in the left lung and a total of 15 orders of veinsbetween the capillaries and the left atrium in the right lung. Theelemental and segmental data are presented. The morphometric data arethen used to compute the total cross-sectional areas, blood volumes, and fractal dimensions in the pulmonary arterial and venous trees.

     

Computer determination of perfusion patterns in pulmonary capillary networks

Hanger, Christopher C., Robert G. Presson, Jr., Osamu Okada,Steven J. Janke, John J. Watkins, Wiltz W. Wagner, Jr., and Ronald L. Capen. Computer determination of perfusion patterns in pulmonarycapillary networks. J. Appl. Physiol.82(4): 1283-1289, 1997.Individual pulmonary capillaries are notsteadily perfused. By using in vivo microscopy, it can readily bedemonstrated that perfusion continually switches between capillarysegments and between portions of the network within a single alveolarwall. These changes in capillary perfusion occur even when upstream pressure and flow are constant. Flow switching between capillary segments in the absence of hemodynamic changes in large upstream vessels suggests that capillary perfusion patterns could be random. Tocalculate the probability that perfusion patterns could occur bychance, it is necessary to know the total number of possible perfusionpatterns in a given capillary network. We developed a computer programthat can determine every possible perfusion pattern for any givencapillary network, and from that information we can calculate whetherperfusion of individual segments in the network is random. With theresults of the computer program, we have obtained statistical evidencethat some capillary segments in a network are nonrandomly perfused.

     

Effect of mechanical deformation on structure and function of polymorphonuclear leukocytes

Kitagawa, Yuko, Stephan F. Van Eeden, Darlene M. Redenbach,Maleki Daya, Blair A. M. Walker, Maria E. Klut, Barry R. Wiggs, andJames C. Hogg. Effect of mechanical deformation on structure andfunction of polymorphonuclear leukocytes. J. Appl.Physiol. 82(5): 1397-1405, 1997.The presentstudies were designed to test the hypothesis that mechanicaldeformation of polymorphonuclear leukocytes (PMN) leads to functionalchanges that might influence their transit in the pulmonarycapillaries. Human leukocytes were passed through 5- or 3-µm-porepolycarbonate filters under controlled conditions. Morphometricanalysis showed that the majority of PMN were deformed and that thisdeformation persisted longer after filtration through 3-µm filtersthan through 5-µm filters (P < 0.05) but did not result in the cytoskeletal polarizationcharacteristic of migrating cells. Flow cytometric studies of thefiltered PMN showed that there was a transient increase in thecytosolic free Ca²⁺ concentrationafter both 3- and 5-µm filtration (P < 0.01) with an increase in F-actin content after 3-µm filtration(P < 0.05). AlthoughL-selectin expression on PMN wasnot changed by either 5- or 3-µm filtration, CD18 and CD11b wereincreased by 3-µm filtration (P < 0.05). Priming of the PMN withN-formyl-methionyl-leucyl-phenylalanine (0.5 nM) before filtration resulted in an increase of CD11b by both 5 (P < 0.05)- and 3-µm(P < 0.01) filtration. Neither 5- nor 3-µm filtration induced hydrogen peroxide production. We conclude that mechanical deformation of PMN, similar to what occurs in thepulmonary microvessels, induces both structural and functional changesin the cells, which might influence their passage through the pulmonarycapillary bed.

     

Reflex responses to regional venous pooling during lower body negative pressure in humans

Halliwill, John R., Lori A. Lawler, Tamara J. Eickhoff,Michael J. Joyner, and Sharon L. Mulvagh. Reflex responses toregional venous pooling during lower body negative pressure in humans.J. Appl. Physiol. 84(2): 454-458, 1998.Lower body negative pressure is frequently used to simulateorthostasis. Prior data suggest that venous pooling in abdominal orpelvic regions may have major hemodynamic consequences. Therefore, we developed a simple paradigm for assessing regional contributions tovenous pooling during lower body negative pressure. Sixteen healthy menand women underwent graded lower body negative pressure protocols to 60 mmHg while wearing medical antishock trousers to prevent venous poolingunder three randomized conditions:1) no trouser inflation (control),2) only the trouser legs inflated, and 3) the trouser legs andabdominopelvic region inflated. Without trouser inflation, heart rateincreased 28 ± 4 beats/min, mean arterial pressure fell 3 ± 2 mmHg, and forearm vascular resistance increased 51 ± 9 units at 60 mmHg lower body negative pressure. With inflation of eitherthe trouser legs or the trouser legs and abdominopelvic region, heartrate and mean arterial pressure did not change during lower bodynegative pressure. By contrast, although the forearm vasoconstrictorresponse to lower body negative pressure was attenuated by inflation ofthe trouser legs (forearm vascular resistance 33 ± 10 units,P < 0.05 vs. control), attenuation was greater with the inflation of the trouser legs and abdominopelvic region (forearm vascular resistance 16 ± 5 units,P < 0.05 vs. control and trouserlegs-only inflation). Thus the hemodynamic consequences of pooling inthe abdominal and pelvic regions during lower body negative pressureappear to be less than in the legs in healthy individuals.

     

Thromboxane A2 mediates increased pulmonary microvascular permeability after intestinal reperfusion

Turnage, Richard H., John L. LaNoue, Kevin M. Kadesky, YanMeng, and Stuart I. Myers. ThromboxaneA₂ mediates increased pulmonarymicrovascular permeability after intestinal reperfusion. J. Appl. Physiol. 82(2): 592-598, 1997.This study examines the hypothesis that intestinal reperfusion(IR)-induced pulmonary thromboxane A₂(TxA₂) release increases localmicrovascular permeability and induces pulmonary vasoconstriction.Sprague-Dawley rats underwent 120 min of intestinal ischemia and 60 minof IR. Sham-operated animals (Sham) served as controls. After IR orSham, the pulmonary vessels were cannulated, and the lungs wereperfused in vitro with Krebs buffer. Microvascular permeability wasquantitated by determining the filtration coefficient(K_f),and pulmonary arterial (Ppa), venous (Ppv), and capillary (Ppc)pressures were measured to calculate vascular resistance (Rt). Afterbaseline measurements, imidazole(TxA₂ synthase inhibitor) orSQ-29,548 (TxA₂-receptorantagonist) was added to the perfusate; thenK_f, Ppa, Ppv, and Ppc were again measured. TheK_fof lungs from IR animals was four times greater than that of Sham(P = 0.001), and Rt was 63% greaterin the injured group (P = 0.01). Pc of IR lungs was twice that of controls (5.4 ± 1.0 vs. 2.83 ± 0.3 mmHg, IR vs. Sham, respectively; P < 0.05). Imidazole or SQ-29,548 returnedK_fto baseline measurements (P < 0.05)and reduced Rt by 23 and 17%, respectively(P < 0.05). IR-induced increases in Pc were only slightly reduced by 500 µg/ml imidazole (14%;P = 0.05) but unaffected by lowerdoses of imidazole (5 or 50 µg/ml) or SQ-29,548. These data suggestthat IR-induced pulmonary edema is caused by both increasedmicrovascular permeability and increased hydrostatic pressure and thatthese changes are due, at least in part, to the ongoing release ofTxA₂.

     

Hemodynamic correlates of effective arterial elastance in mitral stenosis before and after balloon valvotomy

Colin, Patrice, Michel Slama, Alec Vahanian, YvesLecarpentier, Gilbert Motté, and Denis Chemla. Hemodynamiccorrelates of effective arterial elastance in mitral stenosis beforeand after balloon valvotomy. J. Appl.Physiol. 83(4): 1083-1089, 1997.This study hadthe purpose of documenting the hemodynamic correlates of effectivearterial elastance (Ea; i.e., an accurate estimate of hydraulic load)in mitral stenosis (MS) patients. The main hypothesis tested was thatEa relates to the total vascular resistance (R)-to-pulse intervalduration (T) ratio(R/T) in MS patients both before andafter successful balloon mitral valvotomy (BMV). High-fidelity aorticpressure recordings were obtained in 10 patients (40 ± 12 yr)before and 15 min after BMV. Ea value was calculated as the ratio ofthe steady-state end-systolic aortic pressure (ESAP) to stroke volume(thermodilution). Ea increased after BMV (from 1.55 ± 0.63 to 1.83 ± 0.71 mmHg/ml; P < 0.05). Throughout the procedure, there was a strong linearrelationship between Ea and R/T: Ea = 1.09R/T  0.01 mmHg/ml,r = 0.99, P = 0.0001. This ultimately dependedon the powerful link between ESAP and mean aortic pressure [MAP;r = 0.99, 95% confidence interval for the difference (MAP  ESAP) from 18.5 to +4.5 mmHg].Ea was also related to total arterial compliance (area method) and towave reflections (augmentation index), although to a lesser extent. After BMV, enhanced and anticipated wave reflections were observed, andthis was likely to be explained by decreased arterial compliance. Thepresent study indicated that Ea depended mainly on the steady componentof hydraulic load (i.e., R) and on heart period (i.e., T) in MS patients.

     

Suppressive action of endogenous adenosine on ovine fetal nonshivering thermogenesis

Ball, Karen T., Tania R. Gunn, Peter D. Gluckman, and GordonG. Power. Suppressive action of endogenous adenosine on ovinefetal nonshivering thermogenesis. J. Appl.Physiol. 81(6): 2393-2398, 1996.Nonshiveringthermogenesis is not initiated when the fetal sheep is cooled in uterobut appears to require the removal of an inhibitor of placental originat birth. To test whether adenosine is such an inhibitor, we examinedthe effect of the adenosine antagonist theophylline on the initiationof nonshivering thermogenesis during sequential cooling, ventilation, and umbilical cord occlusion in utero. Theophylline (18 mg/kg bolus and0.6 mg ^· kg^{1 ·} min¹thereafter) was infused for 90 min before and 90 min after cord occlusion. Theophylline enhanced the nonshivering thermogenic freefatty acid (FFA) and glycerol responses before cord occlusion, raisingFFA concentrations 99% to 415 ± 60 µeq/l(P < 0.01) and glycerol levels 87%to 526 ± 135 µmol/l (P < 0.05). These FFA (P < 0.001) andglycerol (P < 0.05) concentrationswere significantly greater than the corresponding period during thebirth-simulation control. Umbilical cord occlusion did not alter FFAlevels but induced a 41% rise in glycerol concentrations to 774 ± 203 µmol/l (P < 0.05). Theincreases in nonshivering thermogenic indexes after the administrationof the adenosine-receptor antagonist suggest that the quiescent stateof ovine fetal brown adipose tissue may result, in part, from the tonicinhibitory actions of adenosine and that a decrease in adenosineconcentrations enhances nonshivering thermogenesis. However, thefurther rise after umbilical cord occlusion suggests that at least oneother inhibitor of placental origin inhibits nonshivering thermogenesisbefore birth.

     

Nature and site of action of endogenous nitric oxide in vasculature of isolated pig lungs

Cremona, George, Tim Higenbottam, Motoshi Takao, Edward A. Bower, and Leslie W. Hall. Nature and site of action of endogenousnitric oxide in vasculature of isolated pig lungs. J. Appl. Physiol. 82(1): 23-31, 1997.The site ofaction of endogenous and exogenous nitric oxide (NO) in isolated piglungs was investigated by using arterial, double, and venous occlusion,which allowed precapillary, postcapillary, and venous segments to bepartitioned into arterial, precapillary, postcapillary, and venoussegments. N^G-nitro-L-arginine(L-NNA;10⁵ M) increased resistancein the arterial (35 ± 6.6%, P = 0.003), precapillary (39.3 ± 5.1%,P = 0.001), and venous (18.3 ± 4.8%, P = 0.01) segments,respectively. Sodium nitroprusside(10⁵ M) and NO (80 parts/million) reversed the effects ofL-NNA. Total pulmonary vascularresistance fell with increasing flow, due to a fall in precapillaryresistance and dynamic resistance, and was significantlylower than mean total resistance.L-NNA increased the resistancesbut did not alter the pattern of the pressure-flow relationships. It isconcluded that, in isolated pig lungs, the effect of endogenous NOseems to be dependent on flow in the arterial segment and independentof flow in the precapillary segment, but variation of its release doesnot appear to be fundamental to accommodation to changes in steadyflow.

     

Alterations in the surface properties of lung surfactant in the torpid marsupial Sminthopsis crassicaudata

Lopatko, Olga V., Sandra Orgeig, Christopher B. Daniels, andDavid Palmer. Alterations in the surface propertiesof lung surfactant in the torpid marsupial Sminthopsiscrassicaudata. J. Appl.Physiol. 84(1): 146-156, 1998.Torpor changes thecomposition of pulmonary surfactant (PS) in the dunnartSminthopsis crassicaudata [C.Langman, S. Orgeig, and C. B. Daniels. Am. J. Physiol. 271 (Regulatory IntegrativeComp. Physiol. 40): R437-R445, 1996]. Herewe investigated the surface activity of PS in vitro. Five micrograms ofphospholipid per centimeter squared surface area of whole lavage (frommice or from warm-active, 4-, or 8-h torpid dunnarts) were applieddropwise onto the subphase of a Wilhelmy-Langmuir balance at 20°Cand stabilized for 20 min. After 4 h of torpor, the adsorption rateincreased, and equilibrium surface tension (ST_eq), minimal surface tension(ST_min), and the %areacompression required to achieveST_min decreased, compared with thewarm-active group. After 8 h of torpor,ST_min decreased [from 5.2 ± 0.3 to 4.1 ± 0.3 (SE) mN/m]; %area compressionrequired to achieve ST_min decreased (from 43.4 ± 1.0 to 27.4 ± 0.8); the rate ofadsorption decreased; and ST_eqincreased (from 26.3 ± 0.5 to 38.6 ± 1.3 mN/m). ST-areaisotherms of warm-active dunnarts and mice at 20°C had a shoulderon compression and a plateau on expansion. These disappeared on theisotherms of torpid dunnarts. Samples of whole lavage (from warm-activeand 8-h torpor groups) containing 100 µg phospholipid/ml were studiedby using a captive-bubble surfactometer at 37°C. After 8 h oftorpor, ST_min increased (from 6.4 ± 0.3 to 9.1 ± 0.3 mN/m) and %area compressiondecreased in the 2nd (from 88.6 ± 1.7 to 82.1 ± 2.0) and 3rd(from 89.1 ± 0.8 to 84.9 ± 1.8) compression-expansion cycles, compared with warm-active dunnarts. ST-area isotherms ofwarm-active dunnarts at 37°C did not have a shoulder oncompression. This shoulder appeared on the isotherms of torpiddunnarts. In conclusion, there is a strong correlation between in vitrochanges in surface activity and in vivo changes in lipid composition of PS during torpor, although static lung compliance remained unchanged (see Langman et al. cited above). Surfactant from torpid animals ismore active at 20°C and less active at 37°C than that ofwarm-active animals, which may represent a respiratory adaptation tolow body temperatures of torpid dunnarts.

     

Decreased contraction economy in mouse EDL muscle injured by eccentric contractions

Warren III, Gordon L., Jay H. Williams, Christopher W. Ward,Hideki Matoba, Christopher P. Ingalls, Karl M. Hermann, and R. B. Armstrong. Decreased contraction economy in mouse EDL muscleinjured by eccentric contractions. J. Appl.Physiol. 81(6): 2555-2564, 1996.The objective ofthis study was to find out whether basal and/or active energymetabolism are altered in isolated mouse extensor digitorum longusmuscle injured by eccentric (Ecc) contractions. Measurements of basalO₂ consumption and isometric tetanus O₂ recovery cost were madeat 25°C on muscles that had done either 10 Ecc, 10 isometric (Iso),or no contractions (No). In parallel experiments, rates of lactate andpyruvate production were measured to estimate the anaerobiccontribution. Basal O₂ consumptionwas unaffected by the type of protocol performed(P = 0.07). However, the tetanusO₂ cost per force-time integral was elevated by 30-36% for the Ecc protocol muscles over that forthe Iso and No protocol muscles. When including the increased lactateproduction by the Ecc protocol muscles, the total energetic cost perforce-time integral was 53% higher than that for the Iso protocolmuscles [2.35 ± 0.17 vs. 1.54 ± 0.18 µmolO₂/(N ^· m ^· s)].The decreased economy was attributed to two factors. First, in skinnedfibers isolated from the injured muscles, the ratio of maximalactomyosin adenosinetriphosphatase activity to force production was upby 37.5%, suggesting uncoupling of ATP hydrolysis from forceproduction. Second, increased reliance on anaerobic metabolism alongwith the fluorescent microscopic study of mitochondrial membranepotential and histochemical study of ATP synthase suggested anuncoupling of oxidative phosphorylation in the injured muscles.

     

Isoproterenol attenuates high vascular pressure-induced permeability increases in isolated rat lungs

Parker, James C., and Claire L. Ivey.Isoproterenol attenuates high vascular pressure-inducedpermeability increases in isolated rat lungs. J. Appl.Physiol. 83(6): 1962-1967, 1997.To separate thecontributions of cellular and basement membrane components of thealveolar capillary barrier to the increased microvascular permeabilityinduced by high pulmonary venous pressures (Ppv), we subjected isolatedrat lungs to increases in Ppv, which increased capillary filtrationcoefficient(K_fc) withoutsignificant hemorrhage (31 cmH₂O)and with obvious extravasation of red blood cells (43 cmH₂O). Isoproterenol (20 µM)was infused in one group (Iso) to identify a reversible cellularcomponent of injury, and residual blood volumes were measured to assessextravasation of red blood cells through ruptured basement membranes.In untreated lungs (High Ppv group),K_fc increased 6.2 ± 1.3 and 38.3 ± 15.2 times baseline during the 31 and 43 cmH₂O Ppv states. In Iso lungs, K_fc was 36.2%(P < 0.05) and 64.3% of that in theHigh Ppv group at these Ppv states. Residual blood volumes calculatedfrom tissue hemoglobin contents were significantly increased by53-66% in the high Ppv groups, compared with low vascularpressure controls, but there was no significant difference between HighPpv and Iso groups. Thus isoproterenol significantly attenuatedvascular pressure-induced K_fc increases atmoderate Ppv, possibly because of an endothelial effect, but it did notaffect red cell extravasation at higher vascular pressures.

     

Changes in leg vein filling and emptying characteristics and leg volumes during long-term head-down bed rest

Louisy, Francis, Philippe Schroiff, and Antonio Güell.Changes in leg vein filling and emptying characteristics and legvolumes during long-term head-down bed rest. J. Appl.Physiol. 82(6): 1726-1733, 1997.Leg venoushemodynamics [venous distensibility index (VDI), arterial flowindex (AFI), half-emptying time(T_1/2)], and leg volumes(LV) were assessed by mercury strain-gauge plethysmography with venousocclusion and volometry, respectively, in seven men before, during, andafter 42 days of 6° head-down bed rest. Results showed a highincrease in VDI up to day 26 of bedrest (+50% vs. control at day 26,P < 0.05), which tended to subsidethereafter (+20% increase vs. control value at day41, P < 0.05). VDIchanges were associated with parallel changes inT_1/2 (+54% vs. control atday 26 of bed rest,P < 0.05, and +25% vs.control at day 41, P < 0.05) and with a decrease in AFI(49% at day 41 vs. control, P < 0.05). LV continuously decreasedthroughout bed rest (13% vs. control at day41, P < 0.05) but was correlated with VDI only during the first month ofbed rest. These results show that during long-term 6° head-down bedrest alterations of leg venous compliance are associated withimpairment of venous emptying capacities and arterial flow. Changes inskeletal muscle mass and fluid shifts may account for venous changesduring the first month of bed rest but, subsequently, otherphysiological factors, to be determined, may also be involved in legvenous hemodynamic alterations.

     

Instantaneous force-velocity-length relationship in diaphragmatic sarcomere

Coirault, Catherine, Denis Chemla, Jean-Claude Pourny,Francine Lambert, and Yves Lecarpentier. Instantaneousforce-velocity-length relationship in diaphragmatic sarcomere.J. Appl. Physiol. 82(2): 404-412, 1997.The simultaneous analysis of muscle force, length, velocity, andtime has been shown to precisely characterize the mechanicalperformance of isolated striated muscle. We tested the hypothesis thatthe three-dimensional force-velocity-length relationship reflectsmechanical properties of sarcomeres. In hamster diaphragm strips,instantaneous sarcomere length (SL) and muscle length were simultaneously measured during afterloaded twitches. SL was measured by means of laser diffraction. Wealso studied the influence of initialSL, abrupt changes in total load, and2 × 10⁷ M dantrolene.Baseline resting SL at the apex of thelength-active tension curve was 2.2 ± 0.1 µm, whereasSL at peak shortening was 1.6 ± 0.1 µm in the preloaded twitch and 2.1 ± 0.1 µm in the "isometric" twitch. Over the whole load continuum and at anygiven level of isotonic load, there was a unique relationship between instantaneous sarcomere velocity and instantaneousSL. Part of this relationship was timeindependent and initial SL independent and was markedly downshifted after dantrolene. When five different muscle regions were considered, there were no significant variations ofSL and sarcomere kinetics along themuscle. These results indicate that the time- and initiallength-independent part of the instantaneous force-velocity-lengthrelationship previously described in muscle strips reflects intrinsicsarcomere mechanical properties.

     

Interstitial fluid, plasma protein, colloid, and leukocyte uptake into initial lymphatics

Ikomi, Fumitaka, James Hunt, Gayda Hanna, and Geert W. Schmid-Schönbein. Interstitial fluid, plasma protein,colloid, and leukocyte uptake into initial lymphatics.J. Appl. Physiol. 81(5):2060-2067, 1996.Lymphatics serve to remove from the interstitium a range of materials, including plasma proteins, colloid materials, andcells. Lymph flow rates can be enhanced by periodic tissue compressionor venous pressure elevation, but little is known to what degreeenhancement of lymph flow affects material transport. The objective wasto examine the uptake of plasma proteins, a colloidal perflubronemulsion (LA-11063, mean particle diameter = 0.34 µm), and leukocytesinto lymphatics. Prenodal collecting lymphatics in the lower hindlimbof rabbits were cannulated with and without foot massage and afterelevation of venous pressure (40 mmHg). The average lymph flow rateswere elevated ~22-fold by the skin massage but only about threefoldby venous pressure elevation. Lymph-to-plasma protein concentrationratio remained unchanged by the massage but decreased significantlyafter venous pressure elevation. Lymph colloid concentration andleukocyte counts were elevated on average 47 and 8.5 times,respectively, by foot massage, but both decreased after venous pressureelevation. These results suggest that skin movement by massage andelevation of the venous pressure lead to opposite lymph transportkinetics of protein, colloids, and cells. Massage is more effective to enhance material transport out of the interstitium into the initial lymphatics.