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4. Mechanisms underpinning sympathoexcitation in hypoxia.

Author

Simpson, Lydia L., Stembridge, Mike, Siebenmann, Christoph, Moore, Jonathan P., and Lawley, Justin S.

Subjects
*HUMAN physiology, *BRAIN injuries, *HYPOXEMIA, *HEMODYNAMICS, *EXERCISE
Abstract

Sympathoexcitation is a hallmark of hypoxic exposure, occurring acutely, as well as persisting in acclimatised lowland populations and with generational exposure in highland native populations of the Andean and Tibetan plateaus. The mechanisms mediating altitude sympathoexcitation are multifactorial, involving alterations in both peripheral autonomic reflexes and central neural pathways, and are dependent on the duration of exposure. Initially, hypoxia‐induced sympathoexcitation appears to be an adaptive response, primarily mediated by regulatory reflex mechanisms concerned with preserving systemic and cerebral tissue O2 delivery and maintaining arterial blood pressure. However, as exposure continues, sympathoexcitation is further augmented above that observed with acute exposure, despite acclimatisation processes that restore arterial oxygen content (CaO2${C_{{\mathrm{a}}{{\mathrm{O}}_{\mathrm{2}}}}}$). Under these conditions, sympathoexcitation may become maladaptive, giving rise to reduced vascular reactivity and mildly elevated blood pressure. Importantly, current evidence indicates the peripheral chemoreflex does not play a significant role in the augmentation of sympathoexcitation during altitude acclimatisation, although methodological limitations may underestimate its true contribution. Instead, processes that provide no obvious survival benefit in hypoxia appear to contribute, including elevated pulmonary arterial pressure. Nocturnal periodic breathing is also a potential mechanism contributing to altitude sympathoexcitation, although experimental studies are required. Despite recent advancements within the field, several areas remain unexplored, including the mechanisms responsible for the apparent normalisation of muscle sympathetic nerve activity during intermediate hypoxic exposures, the mechanisms accounting for persistent sympathoexcitation following descent from altitude and consideration of whether there are sex‐based differences in sympathetic regulation at altitude. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Regulation of haemoglobin concentration at high altitude.

Author

Siebenmann, Christoph, Roche, Johanna, Schlittler, Maja, Simpson, Lydia L, and Stembridge, Mike

Subjects
HEMOGLOBINS, HYPOXEMIA, BRAIN injuries, HUMAN physiology, MEDICAL care
Abstract

Lowlanders sojourning for more than 1 day at high altitude (HA) experience a reduction in plasma volume (PV) that increases haemoglobin concentration and thus restores arterial oxygen content. If the sojourn extends over weeks, an expansion of total red cell volume (RCV) occurs and contributes to the haemoconcentration. While the reduction in PV was classically attributed to an increased diuretic fluid loss, recent studies support fluid redistribution, rather than loss, as the underlying mechanism. The fluid redistribution is presumably driven by a disappearance of proteins from the circulation and the resulting reduction in oncotic pressure exerted by the plasma, although the fate of the disappearing proteins remains unclear. The RCV expansion is the result of an accelerated erythropoietic activity secondary to enhanced renal erythropoietin release, but a contribution of other mechanisms cannot be excluded. After return from HA, intravascular volumes return to normal values and the normalisation of RCV might involve selective destruction of newly formed erythrocytes, although this explanation has been strongly challenged by recent studies. In contrast to acclimatised lowlanders, native highlanders originating from the Tibetan and the Ethiopian plateaus present with a normal or only mildly elevated haemoglobin concentration. Genetic adaptations blunting the erythropoietic response to HA exposure have been proposed as an explanation for the absence of more pronounced haemoconcentration in these populations, but new evidence also supports a contribution of a larger than expected PV. The functional significance of the relatively low haemoglobin concentration in Tibetan and Ethiopian highlanders is incompletely understood and warrants further investigation. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Flow-mediated dilation is modified by exercise training status during childhood and adolescence: preliminary evidence of the youth athlete's artery.

Author

Talbot, Jack S., Perkins, Dean R., Dawkins, Tony G., Lord, Rachel N., Oliver, Jon L., Lloyd, Rhodri S., McManus, Ali M., Stembridge, Mike, and Pugh, Christopher J. A.

Subjects
EXERCISE therapy, BRACHIAL artery, ADOLESCENCE, YOUNG adults, CARDIOPULMONARY fitness, ARTERIES
Abstract

Chronic exercise training is associated with an "athlete's artery" phenotype in young adults and an attenuated age-related decline in endothelium-dependent arterial function. Adolescence is associated with an influx of sex-specific hormones that may exert divergent effects on endothelial function, but whether training adaptations interact with biological maturation to produce a "youth athlete's artery" has not been explored. We investigated the influence of exercise-training status on endothelium-dependent arterial function during childhood and adolescence. Brachial artery flow-mediated dilation (FMD) was assessed in n = 102 exercise-trained (males, n = 25; females, n = 29) and untrained (males, n = 23; females, n = 25) youths, characterized as pre (males, n = 25; females, n = 26)- or post (males, n = 23; females, n = 28)-predicted age at peak height velocity (PHV). Baseline brachial artery diameter was larger in post- compared with pre-PHV youths (P ≤ 0.001), males compared with females (P ≤ 0.001), and trained compared with untrained youths (3.26 ± 0.51 vs. 3.11 ± 0.42 mm; P = 0.041). Brachial FMD was similar in pre- and post-PHV youths (P = 0.298), and males and females (P = 0.946). However, exercise-trained youths demonstrated higher FMD when compared with untrained counterparts (5.3 ± 3.3 vs. 3.0 ± 2.6%; P ≤ 0.001). Furthermore, brachial artery diameter (r2 = 0.142; P = 0.007 vs. r2 = 0.004; P = 0.652) and FMD (r2 = 0.138; P = 0.008 vs. r2 = 0.003; P = 0.706) were positively associated with cardiorespiratory fitness in post-, but not pre-PHV youths, respectively. Collectively, our data indicate that exercise training is associated with brachial artery remodeling and enhanced endothelial function during youth. However, arterial remodeling and endothelium-dependent function are only associated with elevated cardiorespiratory fitness during later stages of adolescence. NEW & NOTEWORTHY: We report preliminary evidence of the "youth athlete's artery," characterized by training-related arterial remodeling and elevated endothelium-dependent arterial function in children and adolescents. However, training-related adaptations in brachial artery diameter and flow-mediated dilation (FMD) were associated with cardiorespiratory fitness in adolescents, but not in children. Our findings indicate that endothelium-dependent arterial function is modifiable with chronic exercise training during childhood, but the association between FMD and elevated cardiorespiratory fitness is only apparent during later stages of adolescence. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Hemorheological, cardiorespiratory, and cerebrovascular effects of pentoxifylline following acclimatization to 3,800 m.

Author

Steele, Andrew R., Howe, Connor A., Gibbons, Travis D., Foster, Katharine, Williams, Alexandra M., Caldwell, Hannah G., Brewster, L. Madden, Duffy, Jennifer, Monteleone, Justin A., Subedi, Prajan, Anholm, James D., Stembridge, Mike, Ainslie, Philip N., and Tremblay, Joshua C.

Subjects
PENTOXIFYLLINE, BLOOD viscosity, CYCLIC adenylic acid, CEREBRAL circulation, ERYTHROCYTES
Abstract

Pentoxifylline is a nonselective phosphodiesterase inhibitor used for the treatment of peripheral artery disease. Pentoxifylline acts through cyclic adenosine monophosphate, thereby enhancing red blood cell deformability, causing vasodilation and decreasing inflammation, and potentially stimulating ventilation. We conducted a double-blind, placebo-controlled, crossover, counter-balanced study to test the hypothesis that pentoxifylline could lower blood viscosity, enhance cerebral blood flow, and decrease pulmonary artery pressure in lowlanders following 11-14 days at 3,800 m. Participants (6 males/10 females; age, 27 ± 4 yr old) received either a placebo or 400 mg of pentoxifylline orally the night before and again 2 h before testing. We assessed arterial blood gases, venous hemorheology (blood viscosity, red blood cell deformability, and aggregation), and inflammation (TNF-α) in room air (end-tidal oxygen partial pressure, ~52 mmHg). Global cerebral blood flow (gCBF), ventilation, and pulmonary artery systolic pressure (PASP) were measured in room air and again after 8-10 min of isocapnic hypoxia (end-tidal oxygen partial pressure, 40 mmHg). Pentoxifylline did not alter arterial blood gases, TNF-α, or hemorheology compared with placebo. Pentoxifylline did not affect gCBF or ventilation during room air or isocapnic hypoxia compared with placebo. However, in females, PASP was reduced with pentoxifylline during room air (placebo, 19 ± 3; pentoxifylline, 16 ± 3 mmHg; P = 0.021) and isocapnic hypoxia (placebo, 22 ± 5; pentoxifylline, 20 ± 4 mmHg; P = 0.029), but not in males. Acute pentoxifylline administration in lowlanders at 3,800 m had no impact on arterial blood gases, hemorheology, inflammation, gCBF, or ventilation. Unexpectedly, however, pentoxifylline reduced PASP in female participants, indicating a potential effect of sex on the pulmonary vascular responses to pentoxifylline. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Report from the Annual Conference of the British Society of Echocardiography, November 2016, Queen Elizabeth II Conference Centre, London

Author

Steeds, Richard P., Cowie, Martin R., Rana, Bushra S., Chambers, John B., Ray, Simon, Srinivasan, Janaki, Schwarz, Konstantin, Neil, Christopher J., Scally, Caroline, Horowitz, John D., Frenneaux, Michael P., Pislaru, Cristina, Dawson, Dana K., Rothwell, Oliver J., George, Keith, Somauroo, John D., Lord, Rachel, Stembridge, Mike, Shave, Rob, Hoffman, Martin, Ashley, Euan A., Haddad, Francois, Eijsvogels, Thijs M. H., Oxborough, David, Hampson, Reinette, Kinsey, Chris D., Gurunathan, Sothinathan, Vamvakidou, Anastasia, Karogiannis, Nikolaos, Senior, Roxy, Ahmadvazir, Shahram, Shah, Benoy N., Zacharias, Konstantinos, Bowen, Dan, Robinson, Shaun, Ihekwaba, Ugochukwu, Parker, Karen, Boyd, James, Densem, Cameron G., Atkinson, Charlotte, Hinton, Jonathan, Gaisie, Edmund B., Rakhit, Dhrubo J., Yue, Arthur M., Roberts, Paul R., Thomas, Dean, Phen, Pat, Sibley, Jonathan, Fergey, Sarah, and Russhard, Paul

Published
2017
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17. Cerebral blood flow and cerebrovascular reactivity are modified by maturational stage and exercise training status during youth.

Author

Talbot, Jack S., Perkins, Dean R., Tallon, Christine M., Dawkins, Tony G., Douglas, Andrew J. M., Beckerleg, Ryan, Crofts, Andrew, Wright, Melissa E., Davies, Saajan, Steventon, Jessica J., Murphy, Kevin, Lord, Rachel N., Pugh, Christopher J. A., Oliver, Jon L., Lloyd, Rhodri S., Ainslie, Philip N., McManus, Ali M., and Stembridge, Mike

Subjects
CEREBRAL circulation, EXERCISE therapy, SOMATOMEDIN C, SEX (Biology), CHILD development
Abstract

New Findings: What is the central question of this study?Gonadal hormones modulate cerebrovascular function while insulin‐like growth factor 1 (IGF‐1) facilitates exercise‐mediated cerebral angiogenesis; puberty is a critical period of neurodevelopment alongside elevated gonadal hormone and IGF‐1 activity: but whether exercise training across puberty enhances cerebrovascular function is unkown.What is the main finding and its importance?Cerebral blood flow is elevated in endurance trained adolescent males when compared to untrained counterparts. However, cerebrovascular reactivity to hypercapnia is faster in trained vs. untrained children, but not adolescents. Exercise‐induced improvements in cerebrovascular function are attainable as early as the first decade of life. Global cerebral blood flow (gCBF) and cerebrovascular reactivity to hypercapnia (CVRCO2${\mathrm{CV}}{{\mathrm{R}}_{{\mathrm{C}}{{\mathrm{O}}_{\mathrm{2}}}}}$) are modulated by gonadal hormone activity, while insulin‐like growth factor 1 facilitates exercise‐mediated cerebral angiogenesis in adults. Whether critical periods of heightened hormonal and neural development during puberty represent an opportunity to further enhance gCBF and CVRCO2${\mathrm{CV}}{{\mathrm{R}}_{{\mathrm{C}}{{\mathrm{O}}_{\mathrm{2}}}}}$ is currently unknown. Therefore, we used duplex ultrasound to assess gCBF and CVRCO2${\mathrm{CV}}{{\mathrm{R}}_{{\mathrm{C}}{{\mathrm{O}}_{\mathrm{2}}}}}$ in n = 128 adolescents characterised as endurance‐exercise trained (males: n = 30, females: n = 36) or untrained (males: n = 29, females: n = 33). Participants were further categorised as pre‐ (males: n = 35, females: n = 33) or post‐ (males: n = 24, females: n = 36) peak height velocity (PHV) to determine pubertal or 'maturity' status. Three‐factor ANOVA was used to identify main and interaction effects of maturity status, biological sex and training status on gCBF and CVRCO2${\mathrm{CV}}{{\mathrm{R}}_{{\mathrm{C}}{{\mathrm{O}}_{\mathrm{2}}}}}$. Data are reported as group means (SD). Pre‐PHV youth demonstrated elevated gCBF and slower CVRCO2${\mathrm{CV}}{{\mathrm{R}}_{{\mathrm{C}}{{\mathrm{O}}_{\mathrm{2}}}}}$ mean response times than post‐PHV counterparts (both: P ≤ 0.001). gCBF was only elevated in post‐PHV trained males when compared to untrained counterparts (634 (43) vs. 578 (46) ml min−1; P = 0.007). However, CVRCO2${\mathrm{CV}}{{\mathrm{R}}_{{\mathrm{C}}{{\mathrm{O}}_{\mathrm{2}}}}}$ mean response time was faster in pre‐ (72 (20) vs. 95 (29) s; P ≤ 0.001), but not post‐PHV (P = 0.721) trained youth when compared to untrained counterparts. Cardiorespiratory fitness was associated with gCBF in post‐PHV youth (r2 = 0.19; P ≤ 0.001) and CVRCO2${\mathrm{CV}}{{\mathrm{R}}_{{\mathrm{C}}{{\mathrm{O}}_{\mathrm{2}}}}}$ mean response time in pre‐PHV youth (r2 = 0.13; P = 0.014). Higher cardiorespiratory fitness during adolescence can elevate gCBF while exercise training during childhood primes the development of cerebrovascular function, highlighting the importance of exercise training during the early stages of life in shaping the cerebrovascular phenotype. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Mueller maneuver attenuates left atrial phasic volumes and myocardial strain in healthy younger adults.

Author

Wright, Stephen P., Dawkins, Tony G., Harper, Megan I., Stembridge, Mike, Shave, Rob, and Eves, Neil D.

Abstract

The left atrium (LA) is a key, but incompletely understood, modulator of left ventricular (LV) filling. Inspiratory negative intrathoracic pressure swings alter cardiac loading conditions, which may impact LA function. We studied acute effects of static inspiratory efforts on LA chamber function, LA myocardial strain, and LV diastolic filling. We included healthy adults (10 males/9 females, 24 ± 4 yr) and used Mueller maneuvers to reduce intrathoracic pressure to -30 cmH2O for 15 s. Over six repeated trials, we used echocardiography to acquire LA- and LV-focused two-dimensional (2-D) images, and mitral Doppler inflow and annular tissue velocity spectra. Images were analyzed for LA and LV chamber volumes, tissue relaxation velocities, transmitral filling velocities, and speckle tracking-derived LA longitudinal strain. Repeated measures were made at baseline, early Mueller, late Mueller, then early release, and late release. In the late Mueller compared with baseline, LV stroke volume decreased by -10 ± 4 mL (P < 0.05) and then returned to baseline upon release; this occurred with a -11 ± 9 mL (P < 0.05) end-diastolic volume reduction. Early diastolic LV filling was attenuated, reflected by decreased tissue relaxation velocity (-2 ± 2 cm/s, P < 0.05), Ewave filling velocity (-13 ± 14 cm/s, P < 0.05), and LA passive emptying volume (-5 ± 5 mL, P < 0.05), each returning to baseline with release. LA maximal volume decreased (-5 ± 5 mL, P < 0.05) during the Mueller maneuver, but increased relative to baseline following release (+4 ± 5 mL, P < 0.05), whereas LA peak positive longitudinal strain decreased (-6 ± 6%, P < 0.05) and then returned to baseline. Attenuated LA and in turn, LV filling may contribute to acute stroke volume reductions experienced during forceful inspiratory efforts. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Body mass and growth rates in captive chimpanzees (Pan troglodytes) cared for in African wildlife sanctuaries, zoological institutions and research facilities: Body mass in captive chimpanzees

Author

Curry, Bryony, Drane, Aimee L., Atencia, Rebeca, Feltrer, Yedra, Howatson, Glyn, Calvi, Thalita, Palmer, Christopher, Mottie, Sophie, Unwin, Steve, Tremblay, Joshua C., Sleeper, Meg M., Lammy, Michael L., Cooper, Steve, Stembridge, Mike, and Shave, Rob

Subjects
C300, C900, D900
Abstract

Captive chimpanzees (Pan troglodytes) mature earlier in body mass and have a greater growth rate compared to wild individuals. However, relatively little is known about how growth parameters compare between chimpanzees living in different captive environments. To investigate, body mass was measured in 298 African sanctuary chimpanzees, and was acquired from 1030 zoological and 442 research chimpanzees, using data repositories. An ANCOVA, adjusting for age, was performed to assess same-sex body mass differences between adult sanctuary, zoological and research populations. Piecewise linear regression was performed to estimate sex-specific growth rates and the age at maturation, which were compared between sexes and across populations using extra-sum-of-squares F tests. Adult body mass was greater in the zoological and research populations compared to the sanctuary chimpanzees, in both sexes. Male and female sanctuary chimpanzees were estimated to have a slower rate of growth compared with their zoological and research counterparts. Additionally, male sanctuary chimpanzees were estimated to have an older age at maturation for body mass compared with zoological and research males, whereas the age at maturation was similar across female populations. For both the zoological and research populations, the estimated growth rate was greater in males compared to females. Together, these data contribute to current understanding of growth and maturation in this species and suggests marked differences between the growth patterns of chimpanzees living in different captive environments.

Published
2022

23. Hemoglobin and cerebral hypoxic vasodilation in humans: Evidence for nitric oxide-dependent and S -nitrosothiol mediated signal transduction.

Author

Hoiland, Ryan L, MacLeod, David B, Stacey, Benjamin S, Caldwell, Hannah G, Howe, Connor A, Nowak-Flück, Daniela, Carr, Jay MJR, Tymko, Michael M, Coombs, Geoff B, Patrician, Alexander, Tremblay, Joshua C, Van Mierlo, Michelle, Gasho, Chris, Stembridge, Mike, Sekhon, Mypinder S, Bailey, Damian M, and Ainslie, Philip N

Abstract

Cerebral hypoxic vasodilation is poorly understood in humans, which undermines the development of therapeutics to optimize cerebral oxygen delivery. Across four investigations (total n = 195) we investigated the role of nitric oxide (NO) and hemoglobin-based S -nitrosothiol (RSNO) and nitrite ( NO 2 − ) signaling in the regulation of cerebral hypoxic vasodilation. We conducted hemodilution (n = 10) and NO synthase inhibition experiments (n = 11) as well as hemoglobin oxygen desaturation protocols, wherein we measured cerebral blood flow (CBF), intra-arterial blood pressure, and in subsets of participants trans-cerebral release/uptake of RSNO and NO 2 − . Higher CBF during hypoxia was associated with greater trans-cerebral RSNO release but not NO 2 − , while NO synthase inhibition reduced cerebral hypoxic vasodilation. Hemodilution increased the magnitude of cerebral hypoxic vasodilation following acute hemodilution, while in 134 participants tested under normal conditions, hypoxic cerebral vasodilation was inversely correlated to arterial hemoglobin concentration. These studies were replicated in a sample of polycythemic high-altitude native Andeans suffering from excessive erythrocytosis (n = 40), where cerebral hypoxic vasodilation was inversely correlated to hemoglobin concentration, and improved with hemodilution (n = 6). Collectively, our data indicate that cerebral hypoxic vasodilation is partially NO-dependent, associated with trans-cerebral RSNO release, and place hemoglobin-based NO signaling as a central mechanism of cerebral hypoxic vasodilation in humans. [ABSTRACT FROM AUTHOR]

Published
2023
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24. Neurovascular coupling and cerebrovascular hemodynamics are modified by exercise training status at different stages of maturation during youth.

Author

Talbot, Jack S., Perkins, Dean R., Dawkins, Tony G., Douglas, Andrew J. M., Griffiths, Thomas D., Richards, Cory T., Owen, Kerry, Lord, Rachel N., Pugh, Christopher J. A., Oliver, Jon L., Lloyd, Rhodri S., Ainslie, Philip N., McManus, Ali M., and Stembridge, Mike

Subjects
EXERCISE therapy, TRANSCRANIAL Doppler ultrasonography, POSTERIOR cerebral artery, HEMODYNAMICS, VISUAL perception
Abstract

Neurovascular coupling (NVC) is mediated via nitric oxide signaling, which is independently influenced by sex hormones and exercise training. Whether exercise training differentially modifies NVC pre- versus postpuberty, where levels of circulating sex hormones will differ greatly within and between sexes, remains to be determined. Therefore, we investigated the influence of exercise training status on resting intracranial hemodynamics and NVC at different stages of maturation. Posterior and middle cerebral artery velocities (PCAv and MCAv) and pulsatility index (PCAPI and MCAPI) were assessed via transcranial Doppler ultrasound at rest and during visual NVC stimuli. N = 121 exercise-trained (males, n = 32; females, n = 32) and untrained (males, n = 28; females, n = 29) participants were characterized as pre (males, n = 33; females, n = 29)- or post (males, n = 27; females, n = 32)-peak height velocity (PHV). Exercise-trained youth demonstrated higher resting MCAv (P = 0.010). Maturity and training status did not affect the Î"PCAv and Î"MCAv during NVC. However, pre-PHV untrained males (19.4 ± 13.5 vs. 6.8 ± 6.0%; P ≤ 0.001) and females (19.3 ± 10.8 vs. 6.4 ± 7.1%; P ≤ 0.001) had a higher Î"PCAPI during NVC than post-PHV untrained counterparts, whereas the Î"PCAPI was similar in pre- and post-PHV trained youth. Pre-PHV untrained males (19.4 ± 13.5 vs. 7.9 ± 6.0%; P ≤ 0.001) and females (19.3 ± 10.8 vs. 11.1 ± 7.3%; P = 0.016) also had a larger Î"PCAPI than their pre-PHV trained counterparts during NVC, but the Î"PCAPI was similar in trained and untrained post-PHV youth. Collectively, our data indicate that exercise training elevates regional cerebral blood velocities during youth, but training-mediated adaptations in NVC are only attainable during early stages of adolescence. Therefore, childhood provides a unique opportunity for exercise-mediated adaptations in NVC. [ABSTRACT FROM AUTHOR]

Published
2023
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26. Co-production at work: The process of breaking up sitting time

Author

Griffiths, Thomas, Crone, Diane, Stembridge, Mike, and Lord, Rachel

Abstract

Background: Prolonged sitting has harmful effects on cardiovascular disease biomarkers, independent of physical activity (PA). Current workplace PA interventions to overcome this have poor uptake and adherence. Co-production attempts to improve the translation of evidence to practice through engaging the participants within the intervention design, improving context sensitivity and acceptability of the intervention. Purpose: Co-produce a contextually sensitive PA workplace intervention focused on breaking up sitting time. Methods: Initial ���needs analysis��� was conducted to gather a scope on current PA and sitting engagement as well as attitudes on PA to break up sitting time in office-based workers (n=157). A development group (n=11) were presented with the findings and a feasible intervention was co-produced through consultations in focus groups and reflective practices, before being piloted. The development group met following the pilot, to feedback and refine the intervention. Results: 1.8% reported engaging in occupational PA, and 68.7% reported sitting for 6+ hours during their working day. An intervention encompassing breaking up sitting time hourly with five-minute walking breaks was co-produced, resulting in the frequency of breaks from being sedentary increasing from 2 to 11 in week two. Conclusions: ���Needs analysis��� highlighted cultural and pragmatic issues regarding the impact on ���work flow��� and frequency of the PA breaks. A co-production approach enabled the opportunity for a unique research and stakeholder guided compromise. Subsequent work is required before conclusions on feasibility and effectiveness can be made. Funding: First author is a KESS 2 funded PhD student., The Health & Fitness Journal of Canada, Vol. 14 No. 3 (2021): Proceedings from the 8th International Society for Physical Activity and Health Congress

Published
2022
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30. Adrenergic control of skeletal muscle blood flow during chronic hypoxia in healthy males.

Author

Simpson, Lydia L., Hansen, Alexander B., Moralez, Gilbert, Amin, Sachin B., Hofstaetter, Florian, Gasho, Christopher, Stembridge, Mike, Dawkins, Tony G., Tymko, Michael M., Ainslie, Philip N., Lawley, Justin S., and Hearon Jr., Christopher M.

Subjects
BLOOD flow, SKELETAL muscle, ADRENERGIC receptors, DOPPLER ultrasonography, HYPOXEMIA
Abstract

Sympathetic transduction is reduced following chronic high-altitude (HA) exposure; however, vascular α-adrenergic signaling, the primary mechanism mediating sympathetic vasoconstriction at sea level (SL), has not been examined at HA. In nine male lowlanders, we measured forearm blood flow (Doppler ultrasound) and calculated changes in vascular conductance (ΔFVC) during 1) incremental intrα-arterial infusion of phenylephrine to assess α1-adrenergic receptor responsiveness and 2) combined intrα-arterial infusion of β-adrenergic and α-adrenergic antagonists propranolol and phentolamine (α-β-blockade) to assess adrenergic vascular restraint at rest and during exercise-induced sympathoexcitation (cycling; 60% peak power). Experiments were performed near SL (344 m) and after 3 wk at HA (4,383 m). HA abolished the vasoconstrictor response to low-dose phenylephrine (DFVC: SL: -34 ± 15%, vs. HA; þ3 ± 18%; P < 0.0001) and markedly attenuated the response to medium (DFVC: SL: -45 ± 18% vs. HA: -28 ± 11%; P = 0.009) and high (DFVC: SL: -47 ± 20%, vs. HA: -35 ± 20%; P = 0.041) doses. Blockade of β-adrenergic receptors alone had no effect on resting FVC (P = 0.500) and combined α-β-blockade induced a similar vasodilatory response at SL and HA (P = 0.580). Forearm vasoconstriction during cycling was not different at SL and HA (P = 0.999). Interestingly, cycling-induced forearm vasoconstriction was attenuated by α-β-blockade at SL (DFVC: Control: -27 ± 128 vs. α-β-blockade: þ19 ± 23%; P = 0.0004), but unaffected at HA (DFVC: Control: -20 ± 22 vs. α-β-blockade: -23 ± 11%; P = 0.999). Our results indicate that in healthy males, altitude acclimatization attenuates a1-adrenergic receptor responsiveness; however, resting α-adrenergic restraint remains intact, due to concurrent resting sympathoexcitation. Furthermore, forearm vasoconstrictor responses to cycling are preserved, although the contribution of adrenergic receptors is diminished, indicating a reliance on alternative vasoconstrictor mechanisms. [ABSTRACT FROM AUTHOR]

Published
2023
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33. The influence of training status and parasympathetic blockade on the cardiac rate, rhythm, and functional response to autonomic stress.

Author

Berthelsen, Lindsey F., Douglas, Andrew J.M., Dawkins, Tony G., Curry, Bryony A., Philips, Daniel, Zaidi, Abbas, Yousef, Zaheer, Stembridge, Mike, and Steinback, Craig D.

Subjects
AUTONOMIC nervous system physiology, PARASYMPATHETIC nervous system physiology, PHYSIOLOGICAL stress, ECHOCARDIOGRAPHY, ENDURANCE sports training, EXERCISE physiology, APNEA, PHYSICAL training & conditioning, GLYCOPYRROLATE, RISK assessment, HEART beat, ARRHYTHMIA, EXERCISE therapy, DISEASE risk factors
Abstract

Apnea (breath-holding) elicits co-activation of sympathetic and parasympathetic nervous systems, affecting cardiac control. In situations of autonomic co-activation (e.g., cold water immersion), cardiac arrhythmias are observed during apnea. Chronic endurance training reduces resting heart rate in part via elevation in parasympathetic tone, and has been identified as a risk factor for development of arrhythmias. However, few studies have investigated autonomic control of the heart in trained athletes during stress. Therefore, we determined whether heightened vagal tone resulting from endurance training promotes a higher incidence of arrhythmia during apnea. We assessed the heart rate, rhythm (ECG lead II), and cardiac inotropic (speckle-tracking echocardiography) response to apnea in 10 endurance trained and 7 untrained participants. Participants performed an apnea at rest and following sympathetic activation using post-exercise circulatory occlusion (PECO). All apneas were performed prior to control (CON) and following vagal block using glycopyrrolate (GLY). Trained participants had lower heart rates at rest (p = 0.03) and during apneas (p = 0.009) under CON. At rest, 3 trained participants exhibited instances of junctional rhythm and 4 trained participants developed ectopy during CON apneas, whereas 3 untrained participants developed ectopic beats only with concurrent sympathetic activation (PECO). Following GLY, no arrhythmias were noted in either group. Vagal block also revealed increased cardiac chronotropy (heart rate) and inotropy (strain rate) during apnea, demonstrating a greater sympathetic influence in the absence of parasympathetic drive. Our results highlight that endurance athletes may be more susceptible to ectopy via elevated vagal tone, whereas untrained participants may only develop ectopy through autonomic conflict. [ABSTRACT FROM AUTHOR]

Published
2023
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34. Body mass and growth rates in captive chimpanzees (Pan troglodytes) cared for in African wildlife sanctuaries, zoological institutions, and research facilities.

Author

Curry, Bryony A., Drane, Aimee L., Atencia, Rebeca, Feltrer, Yedra, Howatson, Glyn, Calvi, Thalita, Palmer, Christopher, Moittie, Sophie, Unwin, Steve, Tremblay, Joshua C., Sleeper, Meg M., Lammey, Michael L., Cooper, Steve, Stembridge, Mike, and Shave, Rob

Abstract

Captive chimpanzees (Pan troglodytes) mature earlier in body mass and have a greater growth rate compared to wild individuals. However, relatively little is known about how growth parameters compare between chimpanzees living in different captive environments. To investigate, body mass was measured in 298 African sanctuary chimpanzees and was acquired from 1030 zoological and 442 research chimpanzees, using data repositories. An analysis of covariance, adjusting for age, was performed to assess same‐sex body mass differences between adult sanctuary, zoological, and research populations. Piecewise linear regression was performed to estimate sex‐specific growth rates and the age at maturation, which were compared between sexes and across populations using extra‐sum‐of‐squares F tests. Adult body mass was greater in the zoological and resarch populations compared to the sanctuary chimpanzees, in both sexes. Male and female sanctuary chimpanzees were estimated to have a slower rate of growth compared with their zoological and research counterparts. Additionally, male sanctuary chimpanzees were estimated to have an older age at maturation for body mass compared with zoological and research males, whereas the age at maturation was similar across female populations. For both the zoological and research populations, the estimated growth rate was greater in males compared to females. Together, these data contribute to current understanding of growth and maturation in this species and suggest marked differences between the growth patterns of chimpanzees living in different captive environments. Highlights: African sanctuary chimpanzees are lighter compared with their zoological and research counterparts. Additionally, sanctuary chimpanzees have a slower growth rate compared to zoological and research populations, and male sanctuary chimpanzees have an older age at maturation.Male sanctuary chimpanzees have a slower growth rate and an older age at maturation compared to zoological and research males. [ABSTRACT FROM AUTHOR]

Published
2023
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35. Cerebral O2 and CO2 transport in isovolumic haemodilution: Compensation of cerebral delivery of O2 and maintenance of cerebrovascular reactivity to CO2.

Author

Carr, Jay MJR, Ainslie, Philip N, MacLeod, David B, Tremblay, Joshua C, Nowak-Flück, Daniela, Howe, Connor A, Stembridge, Mike, Patrician, Alexander, Coombs, Geoff B, Stacey, Benjamin S, Bailey, Damian M, Green, Daniel J, and Hoiland, Ryan L

Abstract

This study investigated the influence of acute reductions in arterial O2 content (CaO2) via isovolumic haemodilution on global cerebral blood flow (gCBF) and cerebrovascular CO2 reactivity (CVR) in 11 healthy males (age; 28 ± 7 years: body mass index; 23 ± 2 kg/m2). Radial artery and internal jugular vein catheters provided measurement of blood pressure and gases, quantification of cerebral metabolism, cerebral CO2 washout, and trans-cerebral nitrite exchange (ozone based chemiluminescence). Prior to and following haemodilution, the partial pressure of arterial CO2 (PaCO2) was elevated with dynamic end-tidal forcing while gCBF was measured with duplex ultrasound. CVR was determined as the slope of the gCBF response and PaCO2. Replacement of ∼20% of blood volume with an equal volume of 5% human serum albumin (Alburex® 5%) reduced haemoglobin (13.8 ± 0.8 vs. 11.3 ± 0.6 g/dL; P < 0.001) and CaO2 (18.9 ± 1.0 vs 15.0 ± 0.8 mL/dL P < 0.001), elevated gCBF (+18 ± 11%; P = 0.002), preserved cerebral oxygen delivery (P = 0.49), and elevated CO2 washout (+11%; P = 0.01). The net cerebral uptake of nitrite (11.6 ± 14.0 nmol/min; P = 0.027) at baseline was abolished following haemodilution (−3.6 ± 17.9 nmol/min; P = 0.54), perhaps underpinning the conservation of CVR (61.7 ± 19.0 vs. 69.0 ± 19.2 mL/min/mmHg; P = 0.23). These findings demonstrate that the cerebrovascular responses to acute anaemia in healthy humans are sufficient to support the maintenance of CVR. [ABSTRACT FROM AUTHOR]

Published
2023
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41. A change of heart: Mechanisms of cardiac adaptation to acute and chronic hypoxia.

Author

Williams, Alexandra M., Levine, Benjamin D., and Stembridge, Mike

Subjects
BLOOD volume, HYPOXEMIA, CARDIAC output, HEART beat, VASOCONSTRICTION
Abstract

Over the last 100 years, high‐altitude researchers have amassed a comprehensive understanding of the global cardiac responses to acute, prolonged and lifelong hypoxia. When lowlanders are exposed to hypoxia, the drop in arterial oxygen content demands an increase in cardiac output, which is facilitated by an elevated heart rate at the same time as ventricular volumes are maintained. As exposure is prolonged, haemoconcentration restores arterial oxygen content, whereas left ventricular filling and stroke volume are lowered as a result of a combination of reduced blood volume and hypoxic pulmonary vasoconstriction. Populations native to high‐altitude, such as the Sherpa in Asia, exhibit unique lifelong or generational adaptations to hypoxia. For example, they have smaller left ventricular volumes compared to lowlanders despite having larger total blood volume. More recent investigations have begun to explore the mechanisms underlying such adaptive responses by combining novel imaging techniques with interventions that manipulate cardiac preload, afterload, and/or contractility. This work has revealed the contributions and interactions of (i) plasma volume constriction; (ii) sympathoexcitation; and (iii) hypoxic pulmonary vasoconstriction with respect to altering cardiac loading, or otherwise preserving or enhancing biventricular systolic and diastolic function even amongst high altitude natives with excessive erythrocytosis. Despite these advances, various areas of investigation remain understudied, including potential sex‐related differences in response to high altitude. Collectively, the available evidence supports the conclusion that the human heart successfully adapts to hypoxia over the short‐ and long‐term, without signs of myocardial dysfunction in healthy humans, except in very rare cases of maladaptation. [ABSTRACT FROM AUTHOR]

Published
2022
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42. Dynamic onset response of the internal carotid artery to hypercapnia is blunted in children compared with adults.

Author

Tallon, Christine M., Talbot, Jack S., Smith, Kurt J., Lewis, Nia, Nowak‐Flück, Daniela, Stembridge, Mike, Ainslie, Philip, and McManus, Ali M.

Subjects
INTERNAL carotid artery, BLUNT trauma, HYPERCAPNIA, BLOOD flow, PARTIAL pressure
Abstract

Intracranial blood velocity reactivity to a steady‐state hypercapnic stimulus has been shown to be similar in children and adults, but the onset response to hypercapnia is slower in the child. Given the vasodilatory effect of hypercapnia on the cerebrovasculature, assessment of vessel diameter, and blood flow are vital to fully elucidate whether the temporal hypercapnic response differs in children versus adults. Assessment of internal carotid artery (ICA) vessel diameter (ICAd), blood velocity (ICAv), volumetric blood flow (QICA), and shear rate (ICASR) in response to a 4 min hypercapnic challenge was completed in children (n = 14, 8 girls; 9.8 ± 0.7 years) and adults (n = 17, 7 females; 24.7 ± 1.8 years). The dynamic onset responses of partial pressure of end‐tidal CO2 (PETCO2), QICA, ICAv, and ICASR to hypercapnia were modeled, and mean response time (MRT) was computed. Following 4 min of hypercapnia, ICA reactivity and ICAd were comparable between the groups. Despite a similar MRT in PETCO2 in children and adults, children had slower QICA (children 108 ± 60 s vs. adults 66 ± 37 s; p = 0.023), ICAv (children 120 ± 52 s vs. adults 52 ± 31 s; p = 0.001), and ICASR (children 90 ± 27 s vs. adults 47 ± 36 s; p = 0.001) MRTs compared with adults. This is the first study to show slower hypercapnic hyperemic kinetic responses of the ICA in children. The mechanisms determining these differences and the need to consider the duration of hypercapnic exposure when assessing CVR in children should be considered in future studies. [ABSTRACT FROM AUTHOR]

Published
2022
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43. The coronary vascular response to the metaboreflex at low altitude and during acute and prolonged high altitude in males.

Author

White, Austin J., Boulet, Lindsey M., Shafer, Brooke M., Vermeulen, Tyler D., Atwater, Taylor L., Stembridge, Mike, Ainslie, Philip N., Wilson, Richard J. A., Day, Trevor A., and Foster, Glen E.

Subjects
REFLEXES, CORONARY circulation, ALTITUDES, DOPPLER echocardiography, ISOMETRIC exercise
Abstract

Myocardial oxygen delivery is primarily regulated through changes in vascular tone to match increased metabolic demands. In males, activation of the muscle metaboreflex during acute isocapnic hypoxia results in paradoxical coronary vasoconstriction. Whether coronary blood velocity is reduced by metaboreflex activation following travel and/or adaptation to high altitude is unknown. This study determined if the response of the coronary vasculature to muscle metaboreflex activation at low altitude differs from acute (1/2 days) and prolonged (8/9 days) high altitude. Healthy males (n = 16) were recruited and performed isometric handgrip exercise (30% max) followed by postexercise circulatory occlusion (PECO) to isolate the muscle metaboreflex at low altitude and following acute and prolonged high altitude (3,800 m). Mean left anterior descending coronary artery blood velocity (LADvmean, transthoracic Doppler echocardiography), heart rate, mean arterial pressure (MAP), ventilation, and respired gases were assessed during baseline and PECO at all time points. Coronary vascular conductance index (CVCi) was calculated as LADVmean/MAP. The change in LADvmean (acute altitude: -1.7 ± 3.9 cm/s, low altitude: 2.6 ± 3.4 cm/s, P = 0.01) and CVCi (acute altitude: -0.05 ± 0.04 cm/s/mmHg, low altitude: -0.01 ± 0.03 cm/s/mmHg, P = 0.005) induced by PECO differed significantly between acute high altitude and low altitude. The change in LADVmean and CVCi induced by PECO following prolonged high altitude was not different from low altitude. Our results suggest that coronary vasoconstriction with metaboreflex activation in males is greatest following acute ascent to high-altitude and restored to low-altitude levels following 8-9 days of acclimatization. NEW & NOTEWORTHY Coronary blood flow is regulated by both local metabolic signaling pathways and adrenergic activity in healthy humans. The integrated effects of these systems on coronary vascular physiology are not well understood. Using Doppler echocardiography, this study demonstrates that adrenergic stimulation caused by metaboreflex activation leads to greater reductions in coronary vascular conductance following acute high-altitude but not after prolonged high-altitude exposure. [ABSTRACT FROM AUTHOR]

Published
2022
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44. The influence of maturation on exercise‐induced cardiac remodelling and haematological adaptation.

Author

Perkins, Dean R., Talbot, Jack S., Lord, Rachel N., Dawkins, Tony G., Baggish, Aaron L., Zaidi, Abbas, Uzun, Orhan, Mackintosh, Kelly A., McNarry, Melitta A., Cooper, Stephen‐Mark, Lloyd, Rhodri S., Oliver, Jon L., Shave, Rob E., and Stembridge, Mike

Subjects
AEROBIC capacity, LEAN body mass, BLOOD volume, EXERCISE therapy, CARBON monoxide
Abstract

Cardiovascular and haematological adaptations to endurance training facilitate greater maximal oxygen consumption (V̇O2max${\dot{V}_{{{\rm{O}}_{\rm{2}}}{\rm{max}}}}$), and such adaptations may be augmented following puberty. Therefore, we compared left ventricular (LV) morphology (echocardiography), blood volume, haemoglobin (Hb) mass (CO rebreathing) and V̇O2max${\dot{V}_{{{\rm{O}}_{\rm{2}}}{\rm{max}}}}$ in endurance‐trained and untrained boys (n = 42, age = 9.0–17.1 years, V̇O2max${\dot{V}_{{{\rm{O}}_{\rm{2}}}{\rm{max}}}}$ = 61.6 ± 7.2 ml/kg/min, and n = 31, age = 8.0–17.7 years, V̇O2max${\dot{V}_{{{\rm{O}}_{\rm{2}}}{\rm{max}}}}$ = 46.5 ± 6.1 ml/kg/min, respectively) and girls (n = 45, age = 8.2–17.0 years, V̇O2max${\dot{V}_{{{\rm{O}}_{\rm{2}}}{\rm{max}}}}$ = 51.4 ± 5.7 ml/kg/min, and n = 36, age = 8.0–17.6 years, V̇O2max${\dot{V}_{{{\rm{O}}_{\rm{2}}}{\rm{max}}}}$ = 39.8 ± 5.7 ml/kg/min, respectively). Pubertal stage was estimated via maturity offset, with participants classified as pre‐ or post‐peak height velocity (PHV). Pre‐PHV, only a larger LV end‐diastolic volume/lean body mass (EDV/LBM) for trained boys (+0.28 ml/kg LBM, P = 0.007) and a higher Hb mass/LBM for trained girls (+1.65 g/kg LBM, P = 0.007) were evident compared to untrained controls. Post‐PHV, LV mass/LBM (boys: +0.50 g/kg LBM, P = 0.0003; girls: +0.35 g/kg LBM, P = 0.003), EDV/LBM (boys: +0.35 ml/kg LBM, P < 0.0001; girls: +0.31 ml/kg LBM, P = 0.0004), blood volume/LBM (boys: +12.47 ml/kg LBM, P = 0.004; girls: +13.48 ml/kg LBM, P = 0.0002.) and Hb mass/LBM (boys: +1.29 g/kg LBM, P = 0.015; girls: +1.47 g/kg LBM, P = 0.002) were all greater in trained versus untrained groups. Pre‐PHV, EDV (R2adj = 0.224, P = 0.001) in boys, and Hb mass and interventricular septal thickness (R2adj = 0.317, P = 0.002) in girls partially accounted for the variance in V̇O2max${\dot{V}_{{{\rm{O}}_{\rm{2}}}{\rm{max}}}}$. Post‐PHV, stronger predictive models were evident via the inclusion of LV wall thickness and EDV in boys (R2adj = 0.608, P < 0.0001), and posterior wall thickness and Hb mass in girls (R2adj = 0.490, P < 0.0001). In conclusion, cardiovascular adaptation to exercise training is more pronounced post‐PHV, with evidence for a greater role of central components for oxygen delivery. Key points: It has long been hypothesised that cardiovascular adaptation to endurance training is augmented following puberty.We investigated whether differences in cardiac and haematological variables exist, and to what extent, between endurance‐trained versus untrained, pre‐ and post‐peak height velocity (PHV) children, and how these central factors relate to maximal oxygen consumption.Using echocardiography to quantify left ventricular (LV) morphology and carbon monoxide rebreathing to determine blood volume and haemoglobin mass, we identified that training‐related differences in LV morphology are evident in pre‐PHV children, with haematological differences also observed between pre‐PHV girls. However, the breadth and magnitude of cardiovascular remodelling was more pronounced post‐PHV.Cardiac and haematological measures provide significant predictive models for maximal oxygen consumption (V̇O2max${\dot{V}_{{{\rm{O}}_{\rm{2}}}{\rm{max}}}}$) in children that are much stronger post‐PHV, suggesting that other important determinants within the oxygen transport chain could account for the majority of variance in V̇O2max${\dot{V}_{{{\rm{O}}_{\rm{2}}}{\rm{max}}}}$ before puberty. [ABSTRACT FROM AUTHOR]

Published
2022
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45. Evidence of region‐specific right ventricular functional adaptation in endurance‐trained men in response to an acute volume infusion.

Author

Dawkins, Tony G., Curry, Bryony A., Drane, Aimee L., Lord, Rachel N., Richards, Cory T., Lodge, Freya M., Yousef, Zaheer, Pugh, Christopher J. A., Shave, Robert E., and Stembridge, Mike

Subjects
ENDURANCE athletes, BLOOD volume, STRAIN rate, HEMODYNAMICS, VENTRICULAR remodeling, ECHOCARDIOGRAPHY
Abstract

New Findings: What is the central question of this study?Endurance athletes demonstrate altered regional right ventricular (RV) wall mechanics, characterized by lower basal deformation, in comparison to non‐athletic control subjects at rest. We hypothesized that regional adaptations at the RV base reflect an enhanced functional reserve capacity in response to haemodynamic volume loading.What is the main finding and its importance?Free wall RV longitudinal strain is elevated in response to acute volume loading in both endurance athletes and control subjects. However, the RV basal segment longitudinal strain response to acute volume infusion is greater in endurance athletes. Our findings suggest that training‐induced cardiac remodelling might involve region‐specific adaptation in the RV functional response to volume manipulation. Eccentric remodelling of the right ventricle (RV) in response to increased blood volume and repetitive haemodynamic load during endurance exercise is well established. Structural remodelling is accompanied by decreased deformation at the base of the RV free wall, which might reflect an enhanced functional reserve capacity in response to haemodynamic perturbation. Therefore, in this study we examined the impact of acute blood volume expansion on RV wall mechanics in 16 young endurance‐trained men (aged 24 ± 3 years) and 13 non‐athletic male control subjects (aged 27 ± 5 years). Conventional echocardiographic parameters and the longitudinal strain and strain rate were quantified at the basal and apical levels of the RV free wall. Measurements were obtained at rest and after 7 ml/kg i.v. Gelofusine infusion, with and without a passive leg raise. After infusion, blood volume increased by 12 ± 4 and 14 ± 5% in endurance‐trained individuals versus control subjects, respectively (P = 0.264). Both endurance‐trained individuals (8 ± 10%) and control subjects (7 ± 9%) experienced an increase in free wall strain from baseline, which was also similar following leg raise (7 ± 10 and 6 ± 10%, respectively; P = 0.464). However, infusion evoked a greater increase in basal longitudinal strain in endurance‐trained versus control subjects (16 ± 14 vs. 6 ± 11%; P = 0.048), which persisted after leg raise (16 ± 18 vs. 3 ± 11%; P = 0.032). Apical longitudinal strain and RV free wall strain rates were not different between groups and remained unchanged after infusion across all segments. Endurance training results in a greater contribution of longitudinal myocardial deformation at the base of the RV in response to a haemodynamic volume challenge, which might reflect a greater region‐specific functional reserve capacity. [ABSTRACT FROM AUTHOR]

Published
2022
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46. The influence of hemoconcentration on hypoxic pulmonary vasoconstriction in acute, prolonged, and lifelong hypoxemia.

Author

Stembridge, Mike, Hoiland, Ryan L., Williams, Alexandra M., Howe, Connor A., Donnelly, Joseph, Dawkins, Tony G., Drane, Aimee, Tymko, Michael M., Gasho, Christopher, Anholm, James, Simpson, Lydia L., Moore, Jonathan P., Bailey, Damian M., MacLeod, David B., and Ainslie, Philip N.

Subjects
*VASOCONSTRICTION, *HEMATOCRIT, *FRICTION, *VASCULAR resistance, *CARDIAC output
Abstract

Hemoconcentration can influence hypoxic pulmonary vasoconstriction (HPV) via increased frictional force and vasoactive signaling from erythrocytes, but whether the balance of these mechanism is modified by the duration of hypoxia remains to be determined. We performed three sequential studies: 1) at sea level, in normoxia and isocapnic hypoxia with and without isovolumic hemodilution (n = 10, aged 29 ± 7 yr); 2) at altitude (6 ± 2 days acclimatization at 5,050 m), before and during hypervolumic hemodilution (n = 11, aged 27 ± 5 yr) with room air and additional hypoxia [fraction of inspired oxygen (FIO2 )= 0.15]; and 3) at altitude (4,340 m) in Andean high-altitude natives with excessive erythrocytosis (EE; n = 6, aged 39 ± 17 yr), before and during isovolumic hemodilution with room air and hyperoxia (end-tidal PO2 = 100 mmHg). At sea level, hemodilution mildly increased pulmonary artery systolic pressure (PASP; +1.6 ± 1.5 mmHg, P = 0.01) and pulmonary vascular resistance (PVR; þ0.7 ± 0.8 wu, P = 0.04). In contrast, after acclimation to 5,050 m, hemodilution did not significantly alter PASP (22.7 ± 5.2 vs. 24.5 ± 5.2 mmHg, P = 0.14) or PVR (2.2 ± 0.9 vs. 2.3 ± 1.2 wu, P = 0.77), although both remained sensitive to additional acute hypoxia. In Andeans with EE at 4,340 m, hemodilution lowered PVR in room air (2.9 ± 0.9 vs. 2.3 ± 0.8 wu, P = 0.03), but PASP remained unchanged (31.3 ± 6.7 vs. 30.9 ± 6.9 mmHg, P = 0.80) due to an increase in cardiac output. Collectively, our series of studies reveal that HPV is modified by the duration of exposure and the prevailing hematocrit level. In application, these findings emphasize the importance of accounting for hematocrit and duration of exposure when interpreting the pulmonary vascular responses to hypoxemia. [ABSTRACT FROM AUTHOR]

Published
2021
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47. THE INFLUENCE OF ANESTHESIA WITH AND WITHOUT MEDETOMIDINE ON CARDIAC STRUCTURE AND FUNCTION IN SANCTUARY CAPTIVE CHIMPANZEES (PAN TROGLODYTES).

Author

Drane, Aimee L., Calvi, Thalita, Feltrer, Yedra, Curry, Bryony A., Tremblay, Joshua C., Milnes, Ellie L., Stöhr, Eric J, Howatson, Glyn, Oxborough, David, Stembridge, Mike, and Shave, Rob

Abstract

Dependent on timing of assessment, anesthetic agents and specifically medetomidine negatively affect cardiac function in great apes. The aim of this study was to determine the influence of tiletamine–zolazepam (TZ) with and without medetomidine on cardiac structure and function in healthy chimpanzees (Pan troglodytes) during a period of relative blood pressure stability. Twenty-four chimpanzees living in an African wildlife sanctuary undergoing routine health assessments were stratified by age, sex, and body mass and randomized to be anesthetized using either TZ (6 mg/kg; n = 13; seven males and six females) or a combination of TZ (2 mg/kg) and medetomidine (TZM; 0.02 mg/kg; n = 11; five males and six females). During health checks, regular heart rate and blood pressure readings were taken and a standardized echocardiogram was performed 20–30 min after induction. Data were compared between the two anesthetic groups using independent-samples t or Mann–Whitney U tests. Although heart rate (mean ± SD; TZ: 76 ± 10 bpm; TZM: 65 ± 14 bpm, P = 0.027), cardiac output (TZ: 3.0 ± 0.7 L/min; TZM: 2.4 ± 0.7 L/min, P = 0.032), and mitral A-wave velocities (TZ: 0.51 ± 0.16 cm/s; TZM: 0.36 ± 0.10 cm/s, P = 0.013) were lower in the TZM group, there were no statistically significant differences in cardiac structure or the remaining functional variables between groups. Furthermore, there were no statistical differences in systolic (TZ 114.6 ± 14.9 mmHg; TZM: 123.0 ± 28.1 mmHg; P = 0.289) or diastolic blood pressure (TZ: 81.8 ± 22.3 mmHg, TZM: 83.8 ± 20.1 mmHg; P = 0.827) between the groups during the echocardiogram. This study has shown that during a period of relative blood pressure stability, during the first 20–30 min after induction there are few differences in measures of cardiac structure and function between protocols using TZ with or without medetomidine in healthy chimpanzees. [ABSTRACT FROM AUTHOR]

Published
2021
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48. Global REACH 2018: volume regulation in high-altitude Andeans with and without chronic mountain sickness.

Author

Steele, Andrew R., Tymko, Michael M., Meah, Victoria L., Simpson, Lydia L., Gasho, Christopher, Dawkins, Tony G., Williams, Alexandra M., Villafuerte, Francisco C., Vizcardo-Galindo, Gustavo A., Figueroa-Mujíca, Romulo J., Ainslie, Philip N., Stembridge, Mike, Moore, Jonathan P., and Steinback, Craig D.

Abstract

The high-altitude maladaptation syndrome known as chronic mountain sickness (CMS) is characterized by polycythemia and is associated with proteinuria despite unaltered glomerular filtration rate. However, it remains unclear if indigenous highlanders with CMS have altered volume regulatory hormones. We assessed NH2-terminal pro-B-type natriuretic peptide (NT pro-BNP), plasma aldosterone concentration, plasma renin activity, kidney function (urinary microalbumin, glomerular filtration rate), blood volume, and estimated pulmonary artery systolic pressure (ePASP) in Andean males without (n = 14; age = 39 ± 11 yr) and with (n = 10; age = 40 ± 12 yr) CMS at 4,330 m (Cerro de Pasco, Peru). Plasma renin activity (non-CMS: 15.8 ± 7.9 ng/mL vs. CMS: 8.7 ± 5.4 ng/mL; P = 0.025) and plasma aldosterone concentration (non-CMS: 77.5 ± 35.5 pg/mL vs. CMS: 54.2 ± 28.9 pg/mL; P = 0.018) were lower in highlanders with CMS compared with non-CMS, whereas NT pro-BNP was not different between groups (non-CMS: 1394.9 ± 214.3 pg/mL vs. CMS: 1451.1 ± 327.8 pg/mL; P = 0.15). Highlanders had similar total blood volume (non-CMS: 90 ± 15 mL·kg-1 vs. CMS: 103 ± 18 mL·kg-1; P = 0.071), but Andeans with CMS had greater total red blood cell volume (non-CMS: 46 ± 10 mL·kg-1 vs. CMS: 66 ± 14 mL·kg-1; P < 0.01) and smaller plasma volume (non-CMS: 43 ± 7 mL·kg-1 vs. CMS: 35 ± 5 mL·kg-1; P = 0.03) compared with non-CMS. There were no differences in ePASP between groups (non-CMS: 32 ± 9 mmHg vs. CMS: 31 ± 8 mmHg; P = 0.6). A negative correlation was found between plasma renin activity and glomerular filtration rate in both groups (group: r = -0.66; P < 0.01; non-CMS: r = -0.60; P = 0.022; CMS: r = -0.63; P = 0.049). A smaller plasma volume in Andeans with CMS may indicate an additional CMS maladaptation to high altitude, causing potentially greater polycythemia and clinical symptoms. [ABSTRACT FROM AUTHOR]

Published
2021
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49. Global REACH 2018: the adaptive phenotype to life with chronic mountain sickness and polycythaemia.

Author

Hansen, Alexander B., Moralez, Gilbert, Amin, Sachin B., Simspon, Lydia L., Hofstaetter, Florian, Anholm, James D, Gasho, Christopher, Stembridge, Mike, Dawkins, Tony G., Tymko, Michael M., Ainslie, Philip N., Villafuerte, Francisco, Romero, Steven A., Hearon, Christopher M., and Lawley, Justin S.

Subjects
AEROBIC capacity, MOUNTAIN sickness, VASCULAR resistance, HEMORHEOLOGY, BLOOD viscosity
Abstract

Key points: Humans suffering from polycythaemia undergo multiple circulatory adaptations including changes in blood rheology and structural and functional vascular adaptations to maintain normal blood pressure and vascular shear stresses, despite high blood viscosity.During exercise, several circulatory adaptations are observed, especially involving adrenergic and non‐adrenergic mechanisms within non‐active and active skeletal muscle to maintain exercise capacity, which is not observed in animal models.Despite profound circulatory stress, i.e. polycythaemia, several adaptations can occur to maintain exercise capacity, therefore making early identification of the disease difficult without overt symptomology.Pharmacological treatment of the background heightened sympathetic activity may impair the adaptive sympathetic response needed to match local oxygen delivery to active skeletal muscle oxygen demand and therefore inadvertently impair exercise capacity. Excessive haematocrit and blood viscosity can increase blood pressure, cardiac work and reduce aerobic capacity. However, past clinical investigations have demonstrated that certain human high‐altitude populations suffering from excessive erythrocytosis, Andeans with chronic mountain sickness, appear to have phenotypically adapted to life with polycythaemia, as their exercise capacity is comparable to healthy Andeans and even with sea‐level inhabitants residing at high altitude. By studying this unique population, which has adapted through natural selection, this study aimed to describe how humans can adapt to life with polycythaemia. Experimental studies included Andeans with (n = 19) and without (n = 17) chronic mountain sickness, documenting exercise capacity and characterizing the transport of oxygen through blood rheology, including haemoglobin mass, blood and plasma volume and blood viscosity, cardiac output, blood pressure and changes in total and local vascular resistances through pharmacological dissection of α‐adrenergic signalling pathways within non‐active and active skeletal muscle. At rest, Andeans with chronic mountain sickness had a substantial plasma volume contraction, which alongside a higher red blood cell volume, caused an increase in blood viscosity yet similar total blood volume. Moreover, both morphological and functional alterations in the periphery normalized vascular shear stress and blood pressure despite high sympathetic nerve activity. During exercise, blood pressure, cardiac work and global oxygen delivery increased similar to healthy Andeans but were sustained by modifications in both non‐active and active skeletal muscle vascular function. These findings highlight widespread physiological adaptations that can occur in response to polycythaemia, which allow the maintenance of exercise capacity. Key points: Humans suffering from polycythaemia undergo multiple circulatory adaptations including changes in blood rheology and structural and functional vascular adaptations to maintain normal blood pressure and vascular shear stresses, despite high blood viscosity.During exercise, several circulatory adaptations are observed, especially involving adrenergic and non‐adrenergic mechanisms within non‐active and active skeletal muscle to maintain exercise capacity, which is not observed in animal models.Despite profound circulatory stress, i.e. polycythaemia, several adaptations can occur to maintain exercise capacity, therefore making early identification of the disease difficult without overt symptomology.Pharmacological treatment of the background heightened sympathetic activity may impair the adaptive sympathetic response needed to match local oxygen delivery to active skeletal muscle oxygen demand and therefore inadvertently impair exercise capacity. [ABSTRACT FROM AUTHOR]

Published
2021
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50. The influence of increased venous return on right ventricular dyssynchrony during acute and sustained hypoxaemia.

Author

Ewalts, Michiel, Dawkins, Tony, Boulet, Lindsey M, Thijssen, Dick, and Stembridge, Mike

Subjects
REPATRIATION, SYSTOLIC blood pressure, ALTITUDES, PULMONARY artery, ECONOMIES of scale
Abstract

New Findings: What is the central question of this study?Right ventricular dyssynchrony is a marker of function that is elevated in healthy individuals exposed to acute hypoxia, but does it remain elevated during sustained exposure to high altitude hypoxia, and can it be normalised by augmenting venous return?What is the main finding and its importance?For the first time it is demonstrated that (i) increasing venous return in acute hypoxia restores the synchrony of right ventricular contraction and (ii) dyssynchrony is evident after acclimatisation to high altitude, and remains sensitive to changes in venous return. Therefore, the interpretation of right ventricular dyssynchrony requires consideration the prevailing haemodynamic state. Regional heterogeneity in timing of right ventricular (RV) contraction (RV dyssynchrony; RVD) occurs when pulmonary artery systolic pressure (PASP) is increased during acute hypoxia. Interestingly, RVD is not observed during exercise, a stimulus that increases both PASP and venous return. Therefore, we hypothesised that RVD in healthy humans is sensitive to changes in venous return, and examined whether (i) increasing venous return in acute hypoxia lowers RVD and (ii) if RVD is further exaggerated in sustained hypoxia, given increased PASP is accompanied by decreased ventricular filling at high altitude. RVD, PASP and right ventricular end‐diastolic area (RVEDA) were assessed using transthoracic two‐dimensional and speckle‐tracking echocardiography during acute normobaric hypoxia (FiO2 = 0.12) and sustained exposure (5–10 days) to hypobaric hypoxia (3800 m). Venous return was augmented with lower body positive pressure at sea level (LBPP; +10 mmHg) and saline infusion at high altitude. PASP was increased in acute hypoxia (20 ± 6 vs. 28 ± 7, P < 0.001) concomitant to an increase in RVD (18 ± 7 vs. 38 ± 10, P < 0.001); however, the addition of LBPP during hypoxia decreased RVD (38 ± 0 vs. 26 ± 10, P < 0.001). Sustained hypoxia increased PASP (20 ± 4 vs. 26 ± 5, P = 0.008) and decreased RVEDA (24 ± 4 vs. 21 ± 2, P = 0.042), with RVD augmented (14 ± 5 vs. 31 ± 12, P = 0.001). Saline infusion increased RVEDA (21 ± 2 vs. 23 ± 3, P = 0.008) and reduced RVD (31 ± 12 vs. 20 ± 9, P = 0.001). In summary, an increase in PASP secondary to acute and sustained exposure to hypoxia augments RVD, which can be at least partly reduced via increased venous return. [ABSTRACT FROM AUTHOR]

Published
2021
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