Your search keyword '"Pollock RD"' showing total 39 results

1. A Comparison of Outcomes With and Without a Tourniquet in Total Knee Arthroplasty: A Systematic Review and Meta-analysis of Randomized Controlled Trials.

Author

Alcelik I, Pollock RD, Sukeik M, Bettany-Saltikov J, Armstrong PM, and Fismer P

Published

2012

2. Acetylation-Dependent Compaction of the Histone H4 Tail Ensemble.

Author

Dewing SM, Phan TM, Kraft EJ, Mittal J, and Showalter SA

Subjects

Acetylation, Lysine chemistry, Lysine metabolism, Protein Processing, Post-Translational, Molecular Dynamics Simulation, Histones chemistry, Histones metabolism

Abstract

Acetylation of the histone H4 tail (H4Kac) has been established as a significant regulator of chromatin architecture and accessibility; however, the molecular mechanisms that underlie these observations remain elusive. Here, we characterize the ensemble features of the histone H4 tail and determine how they change following acetylation on specific sets of lysine residues. Our comprehensive account is enabled by a robust combination of experimental and computational biophysical methods that converge on molecular details including conformer size, intramolecular contacts, and secondary structure propensity. We find that acetylation significantly alters the chemical environment of basic patch residues (16-20) and leads to tail compaction that is partially mediated by transient intramolecular contacts established between the basic patch and N-terminal amino acids. Beyond acetylation, we identify that the protonation state of H18, which is affected by the acetylation state, is a critical regulator of ensemble characteristics, highlighting the potential for interplay between the sequence context and post-translational modifications to define the ensemble features of intrinsically disordered regions. This study elucidates molecular details that could link H4Kac with the regulation of chromatin architecture, illuminating a small piece of the complex network of molecular mechanisms underlying the histone code hypothesis.

Published

2024

3. Sex differences in cervical disc height and neck muscle activation during manipulation of external load from helmets.

Author

Yin NH, Giulio ID, Hodkinson PD, Formenti F, and Pollock RD

Subjects

Humans, Female, Male, Adult, Middle Aged, Cervical Vertebrae, Young Adult, Sex Characteristics, Neck Pain physiopathology, Biomechanical Phenomena physiology, Electromyography, Head Protective Devices, Neck Muscles physiology, Muscle Fatigue physiology

Abstract

Neck pain associated with helmet-wear is an occupational health problem often observed in helicopter pilots and aircrew. Whether aircrew helmet wearing is associated with physiological and biomechanical differences between sexes is currently unknown. This study investigated neuromuscular activation patterns during different helmet-wearing conditions. The helmet load was manipulated through a novel Helmet Balancing System (HBS) in healthy, non-pilot male and female participants (n = 10 each, age 19-45 years) in two phases. Phase A assessed the acute effects of helmet-wear on neck muscles activation during head movements. Phase B examined changes in muscle activity and cervical disc height after wearing a helmet for 45 min. In Phase A, muscle activity was similar between sexes in many movements, but it was higher in female participants when wearing a helmet than in males. The HBS reduced muscle activity in both sexes. In Phase B, female participants exhibited a greater level of muscular fatigue, and male participants' cervical disc height was significantly decreased [5.7 (1.4) vs. 4.4 (1.5) mm, P < 0.001] after continuous wearing. Both sexes showed no significant change in muscle fatigue and disc height [male: 5.0 (1.3) vs. 5.2 (1.4) mm, P = 0.604] after applying HBS. These findings demonstrate sex-specific physiological and biomechanical responses to wearing a helmet. They may indicate different postural and motor control strategies, associated with different neck pain aetiologies in male and female aircrew, the knowledge of which is important to reduce or prevent musculoskeletal injuries associated with helmet wearing., (© 2024 The Author(s). Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published

2024

4. Near-optimal deep neural network approximation for Korobov functions with respect to L p and H 1 norms.

Author

Yang Y and Lu Y

Abstract

This paper derives the optimal rate of approximation for Korobov functions with deep neural networks in the high dimensional hypercube with respect to L p -norms and H 1 -norm. Our approximation bounds are non-asymptotic in both the width and depth of the networks. The obtained approximation rates demonstrate a remarkable super-convergence feature, improving the existing convergence rates of neural networks that are continuous function approximators. Finally, using a VC-dimension argument, we show that the established rates are near-optimal., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

5. Lessons for Flying Astronauts with Disabilities Drawn from Experience in Aviation.

Author

Miller-Smith MJ, Tucker N, Anderton R, Caplin N, Harridge SDR, Hodkinson P, Narici MV, Pollock RD, Possnig C, Rittweger J, Smith TG, and Di Giulio I

Subjects

Humans, Aviation, Astronauts psychology, Space Flight, Disabled Persons, Aerospace Medicine

Abstract

INTRODUCTION: Accessible spaceflight may seem a distant concept. As part of a diverse European Space Agency funded Topical Team, we are working on the physiological feasibility of space missions being undertaken by people with physical disabilities. Here, the first activity of this team is presented in the form of key lessons learned from aviation to inform new work on space missions. DISCUSSION: The first lesson is agreeing on realistic expectations about impairments, their severity, and the possibility of flying independently. This is important in terms of astronaut recruitment and societal expectations. The second lesson relates to training and adjustments for people with disabilities. Flexibility is important while maintaining safety for everyone involved. The third lesson is about managing unconscious bias from the different stakeholders. We conclude by arguing that engagement with people from different backgrounds is essential for the success of the first space mission with people with physical disabilities. Miller-Smith MJ, Tucker N, Anderton R, Caplin N, Harridge SDR, Hodkinson P, Narici MV, Pollock RD, Possnig C, Rittweger J, Smith TG, Di Giulio I. Lessons for flying astronauts with disabilities drawn from experience in aviation . Aerosp Med Hum Perform. 2024; 95(9):716-719.

Published

2024

6. Muscle fibre size and myonuclear positioning in trained and aged humans.

Author

Battey E, Levy Y, Pollock RD, Pugh JN, Close GL, Kalakoutis M, Lazarus NR, Harridge SDR, Ochala J, and Stroud MJ

Subjects

Humans, Aged, Cell Nucleus, Quadriceps Muscle, Exercise Therapy, Muscle, Skeletal, Muscle Fibers, Skeletal physiology, Aging

Abstract

Changes in myonuclear architecture and positioning are associated with exercise adaptations and ageing. However, data on the positioning and number of myonuclei following exercise are inconsistent. Additionally, whether myonuclear domains (MNDs; i.e., the theoretical volume of cytoplasm within which a myonucleus is responsible for transcribing DNA) and myonuclear positioning are altered with age remains unclear. The aim of this investigation was to investigate relationships between age and activity status and myonuclear domains and positioning. Vastus lateralis muscle biopsies from younger endurance-trained (YT) and older endurance-trained (OT) individuals were compared with age-matched untrained counterparts (YU and OU; OU samples were acquired during surgical operation). Serial, optical z-slices were acquired throughout isolated muscle fibres and analysed to give three-dimensional coordinates for myonuclei and muscle fibre dimensions. The mean cross-sectional area (CSA) of muscle fibres from OU individuals was 33%-53% smaller compared with the other groups. The number of nuclei relative to fibre CSA was 90% greater in OU compared with YU muscle fibres. Additionally, scaling of MND volume with fibre size was altered in older untrained individuals. The myonuclear arrangement, in contrast, was similar across groups. Fibre CSA and most myonuclear parameters were significantly associated with age in untrained individuals, but not in trained individuals. These data indicate that regular endurance exercise throughout the lifespan might better preserve the size of muscle fibres in older age and maintain the relationship between fibre size and MND volumes. Inactivity, however, might result in reduced muscle fibre size and altered myonuclear parameters., (© 2024 The Authors. Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published

2024

7. Initial Investigation of a Grating Stimulus as a Visual Endpoint for Human Centrifuge Research.

Author

Britton J, Connolly DM, Hawarden DE, Stevenson AT, Harridge SDR, Green NDC, and Pollock RD

Subjects

Humans, Reproducibility of Results, Centrifugation, Fatigue, Acceleration, Aerospace Medicine

Abstract

INTRODUCTION: G tolerance has been widely assessed using Peripheral Light Loss (PLL), but this approach has several limitations and may lack sensitivity. The aim of this study was to investigate the use of a foveal visual endpoint for centrifuge research (Grating Loss; GL) and assess its repeatability, reliability, and usability with PLL as a reference. METHODS: A total of 11 subjects undertook centrifuge assessment. Gradual onset sessions (GOR; 0.1 G · s -1 ) measured both endpoints simultaneously and were performed twice, consisting of six determinations with anti-G suits activated (GOR-On) and six without (GOR-Off). Four determinations of each endpoint were also taken during rapid onset runs (ROR; 3 G · s -1 ). Usability was scored subjectively. RESULTS: The GL endpoint was reached 0.3-0.5 G z lower than PLL with each endpoint correlating strongly in GOR-Off (r = 0.93), GOR-On (r = 0.95), and ROR (r = 0.86). The GL had excellent test-retest repeatability (intraclass correlation coefficient: GOR-Off/On = 0.99, ROR = 0.92) and low within-subject variability. Between-subject variance equaled PLL in all conditions. Subjective usability endpoint ratings were equal for all conditions. DISCUSSION: For the 11 individuals tested, the GL was a reliable, repeatable, and usable endpoint, with similar performance to PLL. GL may prove useful as a supplementary endpoint for human centrifuge research as a secondary data point or to reduce fatigue in repeated measurements. The foveal GL stimulus was lost before PLL, contrary to popular models of visual changes under +G z . Britton J, Connolly DM, Hawarden DE, Stevenson AT, Harridge SDR, Green NDC, Pollock RD. Initial investigation of a grating stimulus as a visual endpoint for human centrifuge research . Aerosp Med Hum Perform. 2023; 94(12):894-901.

Published

2023

8. Revisiting specific force loss in human permeabilized single skeletal muscle fibers obtained from older individuals.

Author

Kalakoutis M, Pollock RD, Lazarus NR, Atkinson RA, George M, Berber O, Woledge RC, Ochala J, and Harridge SDR

Subjects

Young Adult, Humans, Aged, Myosin Heavy Chains, Aging, Quadriceps Muscle, Muscle, Skeletal physiology, Muscle Fibers, Skeletal, Muscle Contraction physiology

Abstract

Specific force (SF) has been shown to be reduced in some but not all studies of human aging using chemically skinned single muscle fibers. This may be due, in part, not only to the health status/physical activity levels of different older cohorts, but also from methodological differences in studying skinned fibers. The aim of the present study was to compare SF in fibers from older hip fracture patients (HFP), healthy master cyclists (MC), and healthy nontrained young adults (YA) using two different activating solutions. Quadriceps muscle samples and 316 fibers were obtained from HFPs (74.6 ± 4 years, n = 5), MCs (74.8 ± 1, n = 5), and YA (25.5 ± 2, n = 6). Fibers were activated (pCa 4.5, 15°C) in solutions containing either 60 mM N-tris(hydroxymethyl)methyl-2-aminoethanesulfonic acid pH buffer (TES) or 20 mM imidazole. SF was determined by normalizing force to fiber cross-sectional area (CSA) assuming either an elliptical or circular shape and to fiber myosin heavy chain content. Activation in TES resulted in significantly higher MHC-I SF in all groups and YA MHC-IIA fibers, irrespective of normalization method. Although there were no differences in SF between the participant groups, the ratio of SF between the TES and imidazole solutions was lower in HFPs compared with YAs (MHC-I P < 0.05; MHC-IIA P = 0.055). Activating solution composition, as opposed to donor characteristics, had a more notable effect on single fiber SF. However, this two-solution approach revealed an age-related difference in sensitivity in HFPs, which was not shown in MCs. This suggests further novel approaches may be required to probe age/activity-related differences in muscle contractile quality. NEW & NOTEWORTHY Whether specific force (SF) decreases with advancing age in human single skeletal muscle fibers is uncertain. Equivocal published findings may be due to the different physical activity levels of the elderly cohorts studied and/or different chemical solutions used to measure force. We compared single fiber SF between young adults, elderly cyclists, and hip fracture patients (HFP) using two solutions. The solution used significantly affected force and revealed a difference in sensitivity of HFP muscle fibers.

Published

2023

9. Cardiorespiratory Responses to Voluntary Hyperventilation During Normobaric Hypoxia.

Author

Haddon A, Kanhai J, Nako O, Smith TG, Hodkinson PD, and Pollock RD

Subjects

Humans, Hypoxia, Oximetry, Altitude, Carbon Dioxide, Hyperventilation

Abstract

BACKGROUND: Unexplained physiological events (PE), possibly related to hypoxia and hyperventilation, are a concern for some air forces. Physiological monitoring could aid research into PEs, with measurement of arterial oxygen saturation (S p o₂) often suggested despite potential limitations in its use. Given similar physiological responses to hypoxia and hyperventilation, the present study characterized the cardiovascular and respiratory responses to each. METHODS: Ten healthy subjects were exposed to 55 mins of normobaric hypoxia simulating altitudes of 0, 8000, and 12,000 ft (0, 2438, and 3658 m) while breathing normally and voluntarily hyperventilating (doubling minute ventilation). Respiratory gas analysis and spirometry measured end-tidal gases (P ET o₂ and P ET co₂) and minute ventilation. S p o₂ was assessed using finger pulse oximetry. Mean arterial, systolic, and diastolic blood pressure were measured noninvasively. Cognitive impairment was assessed using the Stroop test. RESULTS: Voluntary hyperventilation resulted in a doubling of minute ventilation and lowered P ET co₂, while altitude had no effect on these. P ET o₂ and S p o₂ declined with increasing altitude. However, despite a significant drop in P ET o₂ of 15.2 mmHg from 8000 to 12,000 ft, S p o₂ was similar when hyperventilating (94.7 ± 2.3% vs. 93.4 ± 4.3%, respectively). The only cardiovascular response was an increase in heart rate while hyperventilating. Altitude had no effect on cognitive impairment, but hyperventilation did. DISCUSSION: For many cardiovascular and respiratory variables, there is minimal difference in responses to hypoxia and hyperventilation, making these challenging to differentiate. S p o₂ is not a reliable marker of environmental hypoxia in the presence of hyperventilation and should not be used as such without additional monitoring of minute ventilation and end-tidal gases. Haddon A, Kanhai J, Nako O, Smith TG, Hodkinson PD, Pollock RD. Cardiorespiratory responses to voluntary hyperventilation during normobaric hypoxia . Aerosp Med Hum Perform. 2023; 94(2):59-65.

Published

2023

10. Myonuclear alterations associated with exercise are independent of age in humans.

Author

Battey E, Ross JA, Hoang A, Wilson DGS, Han Y, Levy Y, Pollock RD, Kalakoutis M, Pugh JN, Close GL, Ellison-Hughes GM, Lazarus NR, Iskratsch T, Harridge SDR, Ochala J, and Stroud MJ

Abstract

Age-related decline in skeletal muscle structure and function can be mitigated by regular exercise. However, the precise mechanisms that govern this are not fully understood. The nucleus plays an active role in translating forces into biochemical signals (mechanotransduction), with the nuclear lamina protein lamin A regulating nuclear shape, nuclear mechanics and ultimately gene expression. Defective lamin A expression causes muscle pathologies and premature ageing syndromes, but the roles of nuclear structure and function in physiological ageing and in exercise adaptations remain obscure. Here, we isolated single muscle fibres and carried out detailed morphological and functional analyses on myonuclei from young and older exercise-trained individuals. Strikingly, myonuclei from trained individuals were more spherical, less deformable, and contained a thicker nuclear lamina than those from untrained individuals. Complementary to this, exercise resulted in increased levels of lamin A and increased myonuclear stiffness in mice. We conclude that exercise is associated with myonuclear remodelling, independently of age, which may contribute to the preservative effects of exercise on muscle function throughout the lifespan. KEY POINTS: The nucleus plays an active role in translating forces into biochemical signals. Myonuclear aberrations in a group of muscular dystrophies called laminopathies suggest that the shape and mechanical properties of myonuclei are important for maintaining muscle function. Here, striking differences are presented in myonuclear shape and mechanics associated with exercise, in both young and old humans. Myonuclei from trained individuals were more spherical, less deformable and contained a thicker nuclear lamina than untrained individuals. It is concluded that exercise is associated with age-independent myonuclear remodelling, which may help to maintain muscle function throughout the lifespan., (© 2023 The Authors. The Journal of Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published

2023

11. Measuring Arterial Oxygen Saturation Using Wearable Devices Under Varying Conditions.

Author

Hearn EL, Byford J, Wolfe C, Agyei C, Hodkinson PD, Pollock RD, and Smith TG

Subjects

Humans, Oximetry, Oxygen, Hypoxia diagnosis, Oxygen Saturation, Wearable Electronic Devices

Abstract

INTRODUCTION: Recently developed wearable monitoring devices can provide arterial oxygen saturation (S p o₂) measurements, offering potential for use in aerospace operations. Pilots and passengers are already using these technologies, but their performance has not yet been established under conditions experienced in the flight environment such as environmental hypoxia and concurrent body motion. METHODS: An initial evaluation was conducted in 10 healthy subjects who were studied in a normobaric chamber during normoxia and at a simulated altitude of 15,000 ft (4572 m; 11.8% oxygen). S p o₂ was measured simultaneously using a standard pulse oximeter and four wearable devices: Apple Watch Series 6; Garmin Fēnix 6 watch; Cosinuss o Two in-ear sensor; and Oxitone 1000M wrist-worn pulse oximeter. Measurements were made while stationary at rest, during very slight body motion (induced by very low intensity cycling at 30 W on an ergometer), and during moderate body motion (induced by moderate intensity cycling at 150 W). RESULTS: Missed readings, defined as failure to record an S p o₂ value within 1 min, occurred commonly with all wearables. Even with only very slight body motion, most devices missed most readings (range of 12-82% missed readings) and the rate was higher with greater body motion (range 18-92%). One device tended to under-report S p o₂, while the other devices tended to over-report S p o₂. Performance decreased across the devices when oxygenation was reduced. DISCUSSION: In this preliminary evaluation, the wearable devices studied did not perform to the same standard as a traditional pulse oximeter. These limitations may restrict their utility in flight and require further investigation. Hearn EL, Byford J, Wolfe C, Agyei C, Hodkinson PD, Pollock RD, Smith TG. Measuring arterial oxygen saturation using wearable devices under varying conditions . Aerosp Med Hum Perform. 2023; 94(1):42-47.

Published

2023

12. Physiological Effects of Centrifuge-Simulated Suborbital Spaceflight.

Author

Smith TG, Pollock RD, Britton JK, Green NDC, Hodkinson PD, Mitchell SJ, and Stevenson AT

Subjects

Humans, Centrifugation, Hemodynamics, Blood Pressure, Acceleration, Aerospace Medicine, Space Flight

Abstract

BACKGROUND: High-G acceleration experienced during launch and re-entry of suborbital spaceflights may present challenges for older or medically susceptible participants. A detailed understanding of the associated physiological responses would support the development of an evidence-based medical approach to commercial suborbital spaceflight. METHODS: There were 24 healthy subjects recruited into 'younger' (18-44 yr), 'intermediate' (45-64 yr) and 'older' (65-80 yr) age groups. Cardiovascular and respiratory variables were measured continuously during dynamic combinations of +G x (chest-to-back) and +G z (head-to-foot) acceleration that simulated suborbital G profiles for spaceplane and rocket/capsule platforms. Measurements were conducted breathing air and breathing 15% oxygen to simulate a cabin pressure altitude of 8000 ft. RESULTS: Suborbital G profiles generated highly dynamic changes in heart rate, blood pressure, and cardiac output. G-induced hypoxemia was observed, with minimum arterial oxygen saturation < 80% in a quarter of subjects. Increased age was associated with greater hypoxemia and reduced cardiac output responses but did not have detrimental cardiovascular effects. ECG changes included recurrent G-induced trigeminy in one individual. Respiratory and visual symptoms were common, with 88% of subjects reporting greyout and 29% reporting blackout. There was one episode of G-induced loss of consciousness (G-LOC). DISCUSSION: Suborbital acceleration profiles are generally well tolerated but are not physiologically inconsequential. Marked hemodynamic effects and transient respiratory compromise could interact with predisposing factors to precipitate adverse cardiopulmonary effects in a minority of participants. Medically susceptible individuals may benefit from expanded preflight centrifuge familiarization that includes targeted physiological evaluation in the form of a 'G challenge test'. Smith TG, Pollock RD, Britton JK, Green NDC, Hodkinson PD, Mitchell SJ, Stevenson AT. Physiological effects of centrifuge-simulated suborbital spaceflight . Aerosp Med Hum Perform. 2022; 93(12):830-839.

Published

2022

13. Oh G: The x, y and z of human physiological responses to acceleration.

Author

Pollock RD, Hodkinson PD, and Smith TG

Subjects

Acceleration, Adaptation, Physiological, Humans, Space Flight, Weightlessness adverse effects

Abstract

New Findings: What is the topic of this review? This review focuses on the main physiological challenges associated with exposure to acceleration in the Gx, Gy and Gz directions and to microgravity. What advances does it highlight? Our current understanding of the physiology of these environments and latest strategies to protect against them are discussed in light of the limited knowledge we have in some of these areas., Abstract: The desire to go higher, faster and further has taken us to environments where the accelerations placed on our bodies far exceed or are much lower than that attributable to Earth's gravity. While on the ground, racing drivers of the fastest cars are exposed to high degrees of lateral acceleration (Gy) during cornering. In the air, while within the confines of the lower reaches of Earth's atmosphere, fast jet pilots are routinely exposed to high levels of acceleration in the head-foot direction (Gz). During launch and re-entry of suborbital and orbital spacecraft, astronauts and spaceflight participants are exposed to high levels of chest-back acceleration (Gx), whereas once in space the effects of gravity are all but removed (termed microgravity, μG). Each of these environments has profound effects on the homeostatic mechanisms within the body and can have a serious impact, not only for those with underlying pathology but also for healthy individuals. This review provides an overview of the main challenges associated with these environments and our current understanding of the physiological and pathophysiological adaptations to them. Where relevant, protection strategies are discussed, with the implications of our future exposure to these environments also being considered., (© 2021 The Authors. Experimental Physiology © 2021 The Physiological Society.)

Published

2021

14. Letter to the Editor re: Microgravity Cardiopulmonary Resuscitation: Updates from Terrestrial Literature: Response.

Author

Sriharan S, Kay G, Lee JCY, Pollock RD, and Russomano T

Subjects

Heart, Humans, Cardiopulmonary Resuscitation, Weightlessness adverse effects

Published

2021

15. Indirect Measurements of Acceleration Atelectasis and the Role of Inspired Oxygen Concentrations.

Author

Pollock RD, Gates SD, Radcliffe JJ, and Stevenson AT

Subjects

Acceleration, Humans, Hypoxia, Oximetry, Oxygen, Pulmonary Atelectasis

Abstract

BACKGROUND: A growing number of symptom reports suggestive of acceleration atelectasis in fast jet aircrew have raised the question as to whether traditional guidelines on inspired gas composition remain valid. The aim of this study was to assess the effects of inspired O₂ concentration on the development of acceleration atelectasis when wearing modern anti-G garments. METHODS: There were 14 nonaircrew subjects who completed 5 centrifuge exposures to +5 G z lasting 90 s. During exposures subjects breathed a gas mixture containing 21, 35, 45, 60, or 75% O₂. To assess the extent of atelectasis post-G z , forced inspiratory vital capacity (FIVC), regional FIVC (EIT FIVC ), shunt, respiratory resistance, reactance, and compliance and peripheral O₂ saturation during a hypoxic exposure were measured. RESULTS: Compared with baseline, FIVC was not statistically significantly altered. EIT FIVC was 14.4% lower after the 75% O₂ exposure only with a greater symptom reporting with higher F I O₂ in some individuals. A significantly greater shunt (3>6%) followed the 60 and 75% O₂ exposures. O₂ concentration during G z had no effect on respiratory resistance, reactance, compliance, or hypoxemia. DISCUSSION: There is evidence of mild acceleration atelectasis present when breathing 60% O₂, particularly in susceptible individuals, with 75% O₂ causing more obvious physiological compromise. An inspired oxygen concentration of <60% will prevent the majority of individuals from developing acceleration atelectasis. Pollock RD, Gates SD, Radcliffe JJ, Stevenson AT. Indirect measurements of acceleration atelectasis and the role of inspired oxygen concentrations . Aerosp Med Hum Perform. 2021; 92(10):780785 .

Published

2021

16. Dynamic lung behavior under high G acceleration monitored with electrical impedance tomography.

Author

Menden T, Alcaín GB, Stevenson AT, Pollock RD, Tank H, Hodkinson P, Jolley C, Smith TG, Leonhardt S, and Walter M

Subjects

Acceleration, Electric Impedance, Humans, Tomography, X-Ray Computed, Lung diagnostic imaging, Tomography

Abstract

Objective . During launch and atmospheric re-entry in suborbital space flights, astronauts are exposed to high G-acceleration. These acceleration levels influence gas exchange inside the lung and can potentially lead to hypoxaemia. The distribution of air inside the lung can be monitored by electrical impedance tomography. This imaging technique might reveal how high gravitational forces affect the dynamic behavior of ventilation and impair gas exchange resulting in hypoxaemia. Approach . We performed a trial in a long-arm centrifuge with ten participants lying supine while being exposed to +2, +4 and +6 G x (chest-to-back acceleration) to study the magnitude of accelerations experienced during suborbital spaceflight. Main results . First, the tomographic images revealed that the dorsal region of the lung emptied faster than the ventral region. Second, the ventilated area shifted from dorsal to ventral. Consequently, alveolar pressure in the dorsal area reached the pressure of the upper airways before the ventral area emptied completely. Finally, the upper airways collapsed and the end-expiratory volume increased. This resulted in ventral gas trapping with restricted gas exchange. Significance . At +4 G x , changes in ventilation distribution varied considerably between subjects, potentially due to variation in individual physical conditions. However, at +6 G x all participants were affected similarly and the influence of high gravitational conditions was pronounced., (© 2021 Institute of Physics and Engineering in Medicine.)

Published

2021

17. Pulmonary Effects of Sustained Periods of High-G Acceleration Relevant to Suborbital Spaceflight.

Author

Pollock RD, Jolley CJ, Abid N, Couper JH, Estrada-Petrocelli L, Hodkinson PD, Leonhardt S, Magor-Elliott S, Menden T, Rafferty G, Richmond G, Robbins PA, Ritchie GAD, Segal MJ, Stevenson AT, Tank HD, and Smith TG

Subjects

Acceleration, Centrifugation, Gravitation, Humans, Aerospace Medicine, Space Flight

Abstract

Abstract BACKGROUND: Members of the public will soon be taking commercial suborbital spaceflights with significant G x (chest-to-back) acceleration potentially reaching up to 6 G x . Pulmonary physiology is gravity-dependent and is likely to be affected, which may have clinical implications for medically susceptible individuals. METHODS: During 2-min centrifuge exposures ranging up to 6 G x , 11 healthy subjects were studied using advanced respiratory techniques. These sustained exposures were intended to allow characterization of the underlying pulmonary response and did not replicate actual suborbital G profiles. Regional distribution of ventilation in the lungs was determined using electrical impedance tomography. Neural respiratory drive (from diaphragm electromyography) and work of breathing (from transdiaphragmatic pressures) were obtained via nasoesophageal catheters. Arterial blood gases were measured in a subset of subjects. Measurements were conducted while breathing air and breathing 15 oxygen to simulate anticipated cabin pressurization conditions. RESULTS: Acceleration caused hypoxemia that worsened with increasing magnitude and duration of G x . Minimum arterial oxygen saturation at 6 G x was 86 1 breathing air and 79 1 breathing 15 oxygen. With increasing G x the alveolar-arterial (A-a) oxygen gradient widened progressively and the relative distribution of ventilation reversed from posterior to anterior lung regions with substantial gas-trapping anteriorly. Severe breathlessness accompanied large progressive increases in work of breathing and neural respiratory drive. DISCUSSION: Sustained high-G acceleration at magnitudes relevant to suborbital flight profoundly affects respiratory physiology. These effects may become clinically important in the most medically susceptible passengers, in whom the potential role of centrifuge-based preflight evaluation requires further investigation. Pollock RD, Jolley CJ, Abid N, Couper JH, Estrada-Petrocelli L, Hodkinson PD, Leonhardt S, Mago-Elliott S, Menden T, Rafferty G, Richmond G, Robbins PA, Ritchie GAD, Segal MJ, Stevenson AT, Tank HD, Smith TG. Pulmonary effects of sustained periods of high-G acceleration relevant to suborbital spaceflight . Aerosp Med Hum Perform. 2021; 92(7):633641.

Published

2021

18. Cardiopulmonary Resuscitation in Hypogravity Simulation.

Author

Sriharan S, Kay G, Lee JCY, Pollock RD, and Russomano T

Subjects

Adult, Female, Humans, Male, Simulation Training, Cardiopulmonary Resuscitation methods, Extraterrestrial Environment, Hypogravity

Abstract

BACKGROUND: Limited research exists into extraterrestrial CPR, despite the drive for interplanetary travel. This study investigated whether the terrestrial CPR method can provide quality external chest compressions (ECCs) in line with the 2015 UK resuscitation guidelines during ground-based hypogravity simulation. It also explored whether gender, weight, and fatigue influence CPR quality. METHODS: There were 21 subjects who performed continuous ECCs for 5 min during ground-based hypogravity simulations of Mars (0.38 G) and the Moon (0.16 G), with Earths gravity (1 G) as the control. Subjects were unloaded using a body suspension device (BSD). ECC depth and rate, heart rate (HR), ventilation (V E ), oxygen uptake (Vo₂), and Borg scores were measured. RESULTS: ECC depth was lower in 0.38 G (42.9 9 mm) and 0.16 G (40.8 9 mm) compared to 1 G and did not meet current resuscitation guidelines. ECC rate was adequate in all gravity conditions. There were no differences in ECC depth and rate when comparing gender or weight. ECC depth trend showed a decrease by min 5 in 0.38 G and by min 2 in 0.16 G. Increases in HR, V E , and Vo₂ were observed from CPR min 1 to min 5. DISCUSSION: The terrestrial method of CPR provides a consistent ECC rate but does not provide adequate ECC depths in simulated hypogravities. The results suggest that a mixed-gender space crew of varying bodyweights may not influence ECC quality. Extraterrestrial-specific CPR guidelines are warranted. With a move to increasing ECC rate, permitting lower ECC depths and substituting rescuers after 1 min in lunar gravity and 4 min in Martian gravity is recommended. Sriharan S, Kay G, Lee JCY, Pollock RD, Russomano T. Cardiopulmonary resuscitation in hypogravity simulation. Aerosp Med Hum Perform. 2021; 92(2):106112.

Published

2021

19. SIMON: Open-Source Knowledge Discovery Platform.

Author

Tomic A, Tomic I, Waldron L, Geistlinger L, Kuhn M, Spreng RL, Dahora LC, Seaton KE, Tomaras G, Hill J, Duggal NA, Pollock RD, Lazarus NR, Harridge SDR, Lord JM, Khatri P, Pollard AJ, and Davis MM

Abstract

Data analysis and knowledge discovery has become more and more important in biology and medicine with the increasing complexity of biological datasets, but the necessarily sophisticated programming skills and in-depth understanding of algorithms needed pose barriers to most biologists and clinicians to perform such research. We have developed a modular open-source software, SIMON, to facilitate the application of 180+ state-of-the-art machine-learning algorithms to high-dimensional biomedical data. With an easy-to-use graphical user interface, standardized pipelines, and automated approach for machine learning and other statistical analysis methods, SIMON helps to identify optimal algorithms and provides a resource that empowers non-technical and technical researchers to identify crucial patterns in biomedical data., Competing Interests: The authors declare no competing interests., (© 2020 The Authors.)

Published

2021

20. Indices of acceleration atelectasis and the effect of hypergravity duration on its development.

Author

Pollock RD, Gates SD, Storey JA, Radcliffe JJ, and Stevenson AT

Subjects

Acceleration, Adult, Female, Humans, Male, Oxygen metabolism, Respiration, Young Adult, Hypergravity, Lung physiopathology, Pulmonary Atelectasis physiopathology, Vital Capacity physiology

Abstract

New Findings: What is the central question of the study? The aim was to determine the effects of duration of acceleration in the cranial-caudal direction (+Gz) on acceleration atelectasis and identify measurement techniques that can be used to assess it. What is the main finding and its importance? Non-invasive measurement of acceleration atelectasis using electrical impedance tomography and estimates of pulmonary shunt provide more detailed assessment of acceleration atelectasis than traditional forced vital capacity measures. Using these techniques, it was found that as little as 30 s of exposure to +Gz acceleration can cause acceleration atelectasis. The results of the present study will allow a more accurate and detailed assessment of acceleration atelectasis in the future., Abstract: Recently, there have been reports of acceleration atelectasis during fast jet flight despite the use of systems designed to minimize this. Before further investigation of this, indices suitable for use in applied settings and identification of acceleration durations that elicit it are required. Fifteen non-aircrew subjects underwented five centrifuge exposures lasting 15, 30, 60 and 2 × 90 s with a plateau of +5 Gz (acceleration in the cranial-caudal direction) while breathing 94% O 2 during all but one control exposure (21% O 2 ). Lung volumes and gas exchange limitation were assessed after each exposure. Regional lung impedance and compliance were measured after Gz exposure using electrical impedance tomography and the forced oscillatory technique, respectively. The presence of acceleration atelectasis was confirmed by reductions of 10-17% in vital and inspiratory capacity after 60 and 90 s Gz exposures (P < 0.05) and resulted in reduced regional lung impedance and a gas exchange limitation of 8.1 and 12.5%, respectively (P < 0.05). There was also a small but significant decrease in regional lung impedance after 30 s exposures. Functional residual capacity and lung compliance were unchanged in atelectatic lungs (P > 0.05). In the majority of individuals, >60 s of Gz exposure while breathing 94% O 2 causes acceleration atelectasis. Electrical impedance tomography and the measurement of gas exchange limitation provide useful indicators of acceleration atelectasis. Acceleration atelectasis exerts its effects primarily through basal lung closure and reflex inspiratory limitation, both of which can be reversed by performing three maximal inspiratory breathing manoeuvres., (© 2020 The Authors. Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published

2021

21. High Levels of Physical Activity in Later Life Are Associated With Enhanced Markers of Mitochondrial Metabolism.

Author

Joanisse S, Ashcroft S, Wilkinson DJ, Pollock RD, O'Brien KA, Phillips BE, Smith K, Lazarus NR, Harridge SDR, Atherton PJ, and Philp A

Subjects

Acyl-CoA Dehydrogenases genetics, Acyl-CoA Dehydrogenases metabolism, Aged, Biomarkers metabolism, Biopsy, Citrate (si)-Synthase genetics, Citrate (si)-Synthase metabolism, Electron Transport Chain Complex Proteins genetics, Electron Transport Chain Complex Proteins metabolism, GTP Phosphohydrolases genetics, GTP Phosphohydrolases metabolism, Humans, Male, Middle Aged, Mitochondrial Membrane Transport Proteins genetics, Mitochondrial Membrane Transport Proteins metabolism, Mitochondrial Proteins genetics, Mitochondrial Proteins metabolism, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha genetics, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha metabolism, Quadriceps Muscle pathology, RNA, Messenger metabolism, Sirtuin 3 genetics, Sirtuin 3 metabolism, Young Adult, Exercise, Gene Expression, Mitochondria, Muscle metabolism, Quadriceps Muscle metabolism

Abstract

The age-associated reduction in muscle mass is well characterized; however, less is known regarding the mechanisms responsible for the decline in oxidative capacity also observed with advancing age. The purpose of the current study was therefore to compare mitochondrial gene expression and protein content between young and old recreationally active, and older highly active individuals. Muscle biopsies were obtained from the vastus lateralis of young males (YG: 22 ± 3 years) and older (OG: 67 ± 2 years) males not previously engaged in formal exercise and older male master cyclists (OT: 65 ± 5 years) who had undertaken cycling exercise for 32 ± 17 years. Comparison of gene expression between YG, OG, and OT groups revealed greater expression of mitochondrial-related genes, namely, electron transport chain (ETC) complexes II, III, and IV (p < .05) in OT compared with YG and OG. Gene expression of mitofusion (MFN)-1/2, mitochondrial fusion genes, was greater in OT compared with OG (p < .05). Similarly, protein content of ETC complexes I, II, and IV was significantly greater in OT compared with both YG and OG (p < .001). Protein content of peroxisome proliferator-activated receptor gamma, coactivator 1 α (PGC-1α), was greater in OT compared with YG and OG (p < .001). Our results suggest that the aging process per se is not associated with a decline in gene expression and protein content of ETC complexes. Mitochondrial-related gene expression and protein content are substantially greater in OT, suggesting that exercise-mediated increases in mitochondrial content can be maintained into later life., (© The Author(s) 2020. Published by Oxford University Press on behalf of The Gerontological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

22. Broadband NIRS Cerebral Evaluation of the Hemodynamic and Oxidative State of Cytochrome-c-Oxidase Responses to +Gz Acceleration in Healthy Volunteers.

Author

Lange F, Bale G, Kaynezhad P, Pollock RD, Stevenson A, and Tachtsidis I

Subjects

Adult, Brain enzymology, Brain metabolism, Healthy Volunteers, Humans, Male, Oxidative Stress, Oximetry instrumentation, Oxygen metabolism, Acceleration, Electron Transport Complex IV metabolism, Hemodynamics, Spectroscopy, Near-Infrared

Abstract

We used a miniature broadband NIRS system to monitor concentration changes in brain oxygenation (oxy- and deoxy- haemoglobin [HbO 2 ], [HHb]) and oxidised cytochrome-c-oxidase ([oxCCO]) during a high +Gz acceleration, induced by a human centrifuge, on two healthy experienced volunteers (2 male, 34 and 37 years). We performed a sequence of several +Gz exposures that were terminated at the onset of visual symptoms (loss of peripheral vision). Systemic parameters were recorded (i.e. heart rate, blood pressure and arterial saturation), and brain tissue blood volume changes ([HbT] = [HbO 2 ] + [HHb]) and oxygen delivery ([HbDiff] = [HbO 2 ] - [HHb]) were calculated. Volunteer 1 demonstrated a decrease in [HbT] of -3.49 ± 0.02 μMol and [HbDiff] of -3.23 ± 0.44 μMol, and an increase of [oxCCO] of 0.42 ± 0.01μMol. Volunteer 2 demonstrated a decrease in [HbDiff] of -4.37 ± 0.23 μMol, and no significant change in [HbT] (0.53 ± 0.06 μMol) and [oxCCO] (0.09 ± 0.06 μMol). The variability of the brain metabolic response was related to the level of ischaemia, suggesting that suppression of metabolism was due to lack of glucose substrate delivery rather than oxygen availability.

Published

2020

23. Hemodynamic Responses and G Protection Afforded by Three Different Anti-G Systems.

Author

Pollock RD, Firth RV, Storey JA, Phillips KE, Connolly DM, Green NDC, and Stevenson AT

Subjects

Acceleration adverse effects, Adult, Centrifugation adverse effects, Humans, Male, United Kingdom, Young Adult, Aerospace Medicine instrumentation, Gravity Suits, Hemodynamics physiology, Hypergravity adverse effects, Military Personnel

Abstract

BACKGROUND: UK Royal Air Force fast jet aircrew use three different anti-G systems, however, little objective comparison of the G protection they provide exists. The G-protection afforded by each system and associated hemodynamic responses were investigated. METHODS: Ten subjects performed centrifuge acceleration exposures using Mk-10 (S1) and Mk-4 (S2) five-bladder anti-G trousers (AGT) and full coverage AGT plus pressure breathing for G-protection (PBG; S3). Measurements of relaxed G tolerance (RGT), eye-level blood pressure (BP eye ), lower body blood volume (LBV), stroke volume (SV) and total peripheral resistance (TPR) were made during gradual onset runs (GOR) and rapid onset runs (ROR). The subjective effort required to maintain clear vision at +7 and +8 G z provided an indication of the protection provided by the system. RESULTS: All systems moderated decreases in SV and BP eye and increases in LBV under increased +G z . S3 provided the greatest mean RGT during GOR (+6.2 G z ) and ROR (+6 G z ), reduced the effort required to maintain clear vision at up to +8 G z , prevented venous pooling and afforded the greatest rise in TPR. The majority of indices revealed no difference between S1 and S2 although RGT during the ROR was greater with S2 (+0.25 G z ). DISCUSSION: S3 effectively prevented pooling of blood in the lower limbs under +G z , despite the use of PBG, and offers an advantage over five-bladder AGT. Given the similarities of S1 and S2, it was unsurprising that the majority of indices measured were similar. The objective measurement of hemodynamic parameters provides useful information for comparing the G-protection provided by anti-G systems. Pollock RD, Firth RV, Storey JA, Phillips KE, Connolly DM, Green NDC, Stevenson AT. Hemodynamic responses and G protection afforded by three different anti-G systems. Aerosp Med Hum Perform. 2019; 90(11):925-933.

Published

2019

24. Aircrew Conditioning Programme Impact on +Gz Tolerance.

Author

Slungaard E, Pollock RD, Stevenson AT, Green NDC, Newham DJ, and Harridge SDR

Subjects

Adult, Centrifugation, Humans, Male, Military Personnel, United Kingdom, Warfare, Young Adult, Acceleration adverse effects, Aerospace Medicine methods, Hypergravity adverse effects, Physical Conditioning, Human methods

Abstract

INTRODUCTION: Physical conditioning may improve aircrew performance during exposure to high +G z acceleration, although few studies have directly assessed this. The present study investigated the effects of a 12-wk Aircrew Conditioning Programme (ACP) on markers of G tolerance. The ACP comprises aerobic and muscle strengthening exercise performed twice weekly and targets improved fitness and reduced injury risk. METHODS: There were 36 UK Royal Air Force and Royal Navy aircrew who volunteered; 17 performed the ACP (Ex) and 19 acted as a control group (Con). Centrifuge testing was performed before and after the intervention. Relaxed G tolerance (RGT) and straining G tolerance (SGT), which had the addition of muscle tensing, were assessed. G endurance was also determined via repeated simulated air combat maneuvers (SACMs). During these centrifuge runs a number of physiological variables were recorded. RESULTS: During the G profile to determine RGT, neither RGT, HR, nor blood pressure responses were affected by the ACP. During SGT profiles, a lower HR at a given +G z (+5.5 G z ) level following the ACP was observed (Ex: pre 146.0 ± 4.4, post 136.9 ± 5.6 bpm; Con: pre 148.0 ± 3.2, post 153.1 ± 3.3 bpm). BP was maintained and there was a tendency toward an improved SGT. The ACP increased the proportion of individuals completing the number of SACM profiles, although no meaningful differences were found between groups in other variables. CONCLUSION: Overall the ACP has no negative effect on RGT, reduced the physiological strain associated with a given level of +G z (during SGT), and tended to improve the ability to tolerate repeated G z exposure. Slungaard E, Pollock RD, Stevenson AT, Green NDC, Newham DJ, Harridge SDR. Aircrew conditioning programme impact on +Gz tolerance . Aerosp Med Hum Perform. 2019; 90(9):764-773.

Published

2019

25. Lower Body Acceleration and Muscular Responses to Rotational and Vertical Whole-Body Vibration at Different Frequencies and Amplitudes.

Author

Zaidell LN, Pollock RD, James DC, Bowtell JL, Newham DJ, Sumners DP, and Mileva KN

Abstract

Aim: The aim of this study was to characterize acceleration transmission and neuromuscular responses to rotational vibration (RV) and vertical vibration (VV) at different frequencies and amplitudes., Methods: Twelve healthy males completed 2 experimental trials (RV vs VV) during which vibration was delivered during either squatting (30°; RV vs VV) or standing (RV only) with 20, 25, and 30 Hz, at 1.5 and 3.0 mm peak-to-peak amplitude. Vibration-induced accelerations were assessed with triaxial accelerometers mounted on the platform and bony landmarks at ankle, knee, and lumbar spine., Results: At all frequency/amplitude combinations, accelerations at the ankle were greater during RV (all P < .03) with the greatest difference observed at 30 Hz, 1.5 mm. Transmission of RV was also influenced by body posture (standing vs squatting, P < .03). Irrespective of vibration type, vibration transmission to all skeletal sites was generally greater at higher amplitudes but not at higher frequencies, especially above the ankle joint. Acceleration at the lumbar spine increased with greater vibration amplitude but not frequency and was highest with RV during standing., Conclusions/implications: The transmission of vibration during whole-body vibration (WBV) is dependent on intensity and direction of vibration as well as body posture. For targeted mechanical loading at the lumbar spine, RV of higher amplitude and lower frequency vibration while standing is recommended. These results will assist with the prescription of WBV to achieve desired levels of mechanical loading at specific sites in the human body., Competing Interests: Declaration of Conflicting Interests: The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2019

26. Cardiorespiratory fitness not sedentary time or physical activity is associated with cardiometabolic risk in active older adults.

Author

Pollock RD, Duggal NA, Lazarus NR, Lord JM, and Harridge SDR

Subjects

Actigraphy, Aged, Athletes, Biomarkers blood, Blood Glucose, Blood Pressure, Body Composition, Cholesterol, HDL blood, Female, Humans, Insulin blood, Male, Middle Aged, Risk Factors, Sedentary Behavior, Triglycerides blood, Cardiorespiratory Fitness, Cardiovascular Diseases epidemiology, Exercise, Metabolic Syndrome epidemiology

Abstract

Sedentary time (ST) and moderate-to-vigorous physical activity (MVPA) are associated with cardiometabolic health. Cardiorespiratory fitness (CRF) is also implicated but often overlooked in health recommendations. This study assessed the relationships between ST, MVPA, CRF, and cardiometabolic health in highly active older individuals. 125 healthy amateur cyclists aged 55 to 79 years had their ST and MVPA levels assessed by actigraphy over a 7-day period. CRF was assessed using a maximal effort cycle ergometry test to determine VO 2max with results normalized to both body mass and fat-free mass measured by DXA. Markers of cardiometabolic risk (blood glucose, triglycerides, cholesterol, HDL, LDL, Insulin, HOMA IR, blood pressure, and body fat) were assessed and used to determine cumulative cardiometabolic risk. Multiple linear regression was used to assess ST, MVPA, and CRF associations with cardiometabolic health with the relationship between activity levels and CRF determined. CRF was associated with training volume (P = .003), but not ST or MVPA. A high CRF was associated with lower cumulative cardiometabolic risk, body fat percentage, triglyceride, and HDL levels (P < .05 in all cases). MVPA was negatively associated with body fat percentage, while ST was not associated with any marker of cardiometabolic risk when adjusting for activity levels. An association between CRF and cardiometabolic risk even in a group of older individuals with high fitness levels highlights the importance that CRF may have in maintaining health., (© 2018 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2018

27. Major features of immunesenescence, including reduced thymic output, are ameliorated by high levels of physical activity in adulthood.

Author

Duggal NA, Pollock RD, Lazarus NR, Harridge S, and Lord JM

Subjects

Female, Humans, Male, Exercise physiology, Thymus Gland immunology

Abstract

It is widely accepted that aging is accompanied by remodelling of the immune system including thymic atrophy and increased frequency of senescent T cells, leading to immune compromise. However, physical activity, which influences immunity but declines dramatically with age, is not considered in this literature. We assessed immune profiles in 125 adults (55-79 years) who had maintained a high level of physical activity (cycling) for much of their adult lives, 75 age-matched older adults and 55 young adults not involved in regular exercise. The frequency of naïve T cells and recent thymic emigrants (RTE) were both higher in cyclists compared with inactive elders, and RTE frequency in cyclists was no different to young adults. Compared with their less active counterparts, the cyclists had significantly higher serum levels of the thymoprotective cytokine IL-7 and lower IL-6, which promotes thymic atrophy. Cyclists also showed additional evidence of reduced immunesenescence, namely lower Th17 polarization and higher B regulatory cell frequency than inactive elders. Physical activity did not protect against all aspects of immunesenescence: CD28 -ve CD57 +ve senescent CD8 T-cell frequency did not differ between cyclists and inactive elders. We conclude that many features of immunesenescence may be driven by reduced physical activity with age., (© 2018 The Authors. Aging Cell published by the Anatomical Society and John Wiley & Sons Ltd.)

Published

2018

28. Properties of the vastus lateralis muscle in relation to age and physiological function in master cyclists aged 55-79 years.

Author

Pollock RD, O'Brien KA, Daniels LJ, Nielsen KB, Rowlerson A, Duggal NA, Lazarus NR, Lord JM, Philp A, and Harridge SDR

Subjects

Age Factors, Aged, Aged, 80 and over, Exercise psychology, Female, Humans, Male, Middle Aged, Exercise physiology, Muscle, Skeletal physiopathology

Abstract

In this study, results are reported from the analyses of vastus lateralis muscle biopsy samples obtained from a subset (n = 90) of 125 previously phenotyped, highly active male and female cyclists aged 55-79 years in regard to age. We then subsequently attempted to uncover associations between the findings in muscle and in vivo physiological functions. Muscle fibre type and composition (ATPase histochemistry), size (morphometry), capillary density (immunohistochemistry) and mitochondrial protein content (Western blot) in relation to age were determined in the biopsy specimens. Aside from an age-related change in capillary density in males (r = -.299; p = .02), no other parameter measured in the muscle samples showed an association with age. However, in males type I fibres and capillarity (p < .05) were significantly associated with training volume, maximal oxygen uptake, oxygen uptake kinetics and ventilatory threshold. In females, the only association observed was between capillarity and training volume (p < .05). In males, both type II fibre proportion and area (p < .05) were associated with peak power during sprint cycling and with maximal rate of torque development during a maximal voluntary isometric contraction. Mitochondrial protein content was not associated with any cardiorespiratory parameter in either males or females (p > .05). We conclude in this highly active cohort, selected to mitigate most of the effects of inactivity, that there is little evidence of age-related changes in the properties of VL muscle across the age range studied. By contrast, some of these muscle characteristics were correlated with in vivo physiological indices., (© 2018 The Authors. Aging Cell published by the Anatomical Society and John Wiley & Sons Ltd.)

Published

2018

29. Human physiological and metabolic responses to an attempted winter crossing of Antarctica: the effects of prolonged hypobaric hypoxia.

Author

O'Brien KA, Pollock RD, Stroud M, Lambert RJ, Kumar A, Atkinson RA, Green DA, Anton-Solanas A, Edwards LM, and Harridge SDR

Subjects

Adiposity, Adult, Altitude Sickness metabolism, Antarctic Regions, Blood Glucose metabolism, Exercise, Extreme Environments, Fatty Acids blood, Humans, Male, Middle Aged, Oxygen Consumption, Pulmonary Gas Exchange, Acclimatization, Altitude Sickness physiopathology, Cold Temperature, Expeditions

Abstract

An insufficient supply of oxygen to the tissues (hypoxia), as is experienced upon high-altitude exposure, elicits physiological acclimatization mechanisms alongside metabolic remodeling. Details of the integrative adaptive processes in response to chronic hypobaric hypoxic exposure remain to be sufficiently investigated. In this small applied field study, subjects (n = 5, male, age 28-54 years) undertook a 40 week Antarctica expedition in the winter months, which included 24 weeks residing above 2500 m. Measurements taken pre- and postexpedition revealed alterations to glucose and fatty acid resonances within the serum metabolic profile, a 7.8 (±3.6)% increase in respiratory exchange ratio measured during incremental exercise (area under curve, P > 0.01, mean ± SD) and a 2.1(±0.8) % decrease in fat tissue (P < 0.05) postexpedition. This was accompanied by an 11.6 (±1.9) % increase (P > 0.001) in VO 2 max corrected to % lean mass postexpedition. In addition, spine bone mineral density and lung function measures were identified as novel parameters of interest. This study provides, an in-depth characterization of the responses to chronic hypobaric hypoxic exposure in one of the most hostile environments on Earth., (© 2018 The Authors. Physiological Reports published by Wiley Periodicals, Inc. on behalf of The Physiological Society and the American Physiological Society.)

Published

2018

30. Shortening Scarf osteotomy for correction of severe hallux valgus. Does shortening affect the outcome?

Author

Karpe P, Killen MC, Pollock RD, and Limaye R

Subjects

Aged, Female, Follow-Up Studies, Hallux Valgus diagnostic imaging, Humans, Male, Metatarsal Bones diagnostic imaging, Middle Aged, Patient Satisfaction, Hallux Valgus surgery, Metatarsal Bones surgery, Osteotomy methods

Abstract

Background: Translation and shortening of Scarf osteotomy allows correction of severe hallux valgus deformity. Shortening may result in transfer metatarsalgia., Aim: To evaluate outcome of patients undergoing shortening Scarf osteotomy for severe hallux valgus deformities., Materials and Methods: Fifteen patients (20feet, mean age 58 years) underwent shortening Scarf osteotomy for severe hallux valgus deformities. Outcomes were pre and postoperative AOFAS scores, IM and HV angles, patient satisfaction., Results: Mean follow-up was 25 months (range 22-30). The IM angle improved from a median of 18.60 (range 13.4-26.20) preoperatively to 9.70 (range 8.0-13.70) postoperatively (8.9; 95% CI=7.6-10.3; p<0.001). The HV angle improved from a mean of 43.2 (range 27.4-68.2) preoperatively to 13.6 (range 3.0-37.4) postoperatively (29.6; 95% CI=26.1-33.2; p<0.001). The median AOFAS score improved from 29.2 (range 14-60) preoperatively to 82.2 (range 55-100) postoperatively (53.0; 95% CI=48.0-58.5; p<0.001). All patients rated their satisfaction as either satisfied or very satisfied. None had symptoms of transfer metatarsalgia at final follow-up. All osteotomies united., Conclusions: Shortening Scarf osteotomy is a viable option for treating severe hallux valgus deformities with no transfer metatarsalgia., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

31. Reply from Ross D. Pollock, Norman R. Lazarus, Janet M. Lord and Stephen D. R. Harridge.

Author

Pollock RD, Lazarus NR, Lord JM, and Harridge SD

Subjects

Female, Humans, Male, Aging physiology, Motor Activity

Published

2015

32. An investigation into the relationship between age and physiological function in highly active older adults.

Author

Pollock RD, Carter S, Velloso CP, Duggal NA, Lord JM, Lazarus NR, and Harridge SD

Subjects

Aged, Female, Hemodynamics, Humans, Male, Middle Aged, Muscle Strength, Oxygen Consumption, Aging physiology, Motor Activity

Abstract

Key Points: The relationship between age and physiological function remains poorly defined and there are no physiological markers that can be used to reliably predict the age of an individual. This could be due to a variety of confounding genetic and lifestyle factors, and in particular to ill-defined and low levels of physical activity. This study assessed the relationship between age and a diverse range of physiological functions in a cohort of highly active older individuals (cyclists) aged 55-79 years in whom the effects of lifestyle factors would be ameliorated. Significant associations between age and function were observed for many functions. V̇O2max was most closely associated with age, but even here the variance in age for any given level was high, precluding the clear identification of the age of any individual. The data suggest that the relationship between human ageing and physiological function is highly individualistic and modified by inactivity., Abstract: Despite extensive research, the relationship between age and physiological function remains poorly characterised and there are currently no reliable markers of human ageing. This is probably due to a number of confounding factors, particularly in studies of a cross-sectional nature. These include inter-subject genetic variation, as well as inter-generational differences in nutrition, healthcare and insufficient levels of physical activity as well as other environmental factors. We have studied a cohort of highly and homogeneously active older male (n = 84) and female (n = 41) cyclists aged 55-79 years who it is proposed represent a model for the study of human ageing free from the majority of confounding factors, especially inactivity. The aim of the study was to identify physiological markers of ageing by assessing the relationship between function and age across a wide range of indices. Each participant underwent a detailed physiological profiling which included measures of cardiovascular, respiratory, neuromuscular, metabolic, endocrine and cognitive functions, bone strength, and health and well-being. Significant associations between age and function were observed for many functions. The maximal rate of oxygen consumption (V̇O2max) showed the closest association with age (r = -0.443 to -0.664; P < 0.001), but even here the variance in age for any given level was high, precluding the clear identification of the age of any individual. The results of this cross-sectional study suggest that even when many confounding variables are removed the relationship between function and healthy ageing is complex and likely to be highly individualistic and that physical activity levels must be taken into account in ageing studies., (© 2014 The Authors. The Journal of Physiology © 2014 The Physiological Society.)

Published

2015

33. Respiratory muscle strength and training in stroke and neurology: a systematic review.

Author

Pollock RD, Rafferty GF, Moxham J, and Kalra L

Subjects

Aged, Central Nervous System Diseases physiopathology, Central Nervous System Diseases rehabilitation, Exhalation physiology, Female, Humans, Inhalation physiology, Male, Middle Aged, Stroke Rehabilitation, Treatment Outcome, Breathing Exercises, Pressure, Respiratory Muscles physiopathology, Stroke physiopathology

Abstract

We undertook two systematic reviews to determine the levels of respiratory muscle weakness and effects of respiratory muscle training in stroke patients. Two systematic reviews were conducted in June 2011 using a number of electronic databases. Review 1 compared respiratory muscle strength in stroke and healthy controls. Review 2 was expanded to include randomized controlled trials assessing the effects of respiratory muscle training on stroke and other neurological conditions. The primary outcomes of interest were maximum inspiratory and expiratory mouth pressure (maximum inspiratory pressure and maximum expiratory pressure, respectively). Meta-analysis of four studies revealed that the maximum inspiratory pressure and maximum expiratory pressure were significantly lower (P < 0·00001) in stroke patients compared with healthy individuals (weighted mean difference -41·39 and -54·62 cmH(2) O, respectively). Nine randomized controlled trials indicate a significantly (P = 0·0009) greater effect of respiratory muscle training on maximum inspiratory pressure in neurological patients compared with control subjects (weighted mean difference 6·94 cmH(2) O) while no effect on maximum expiratory pressure. Respiratory muscle strength appears to be impaired after stroke, possibly contributing to increased incidence of chest infection. Respiratory muscle training can improve inspiratory but not expiratory muscle strength in neurological conditions, although the paucity of studies in the area and considerable variability between them is a limiting factor. Respiratory muscle training may improve respiratory muscle function in neurological conditions, but its clinical benefit remains unknown., (© 2012 The Authors. International Journal of Stroke © 2012 World Stroke Organization.)

Published

2013

34. Whole-body vibration in addition to strength and balance exercise for falls-related functional mobility of frail older adults: a single-blind randomized controlled trial.

Author

Pollock RD, Martin FC, and Newham DJ

Subjects

Aged, Aged, 80 and over, Analysis of Variance, Combined Modality Therapy, Female, Follow-Up Studies, Geriatric Assessment methods, Humans, Male, Muscle Strength physiology, Proprioception physiology, Recovery of Function, Reference Values, Single-Blind Method, Treatment Outcome, United Kingdom, Accidental Falls prevention & control, Exercise physiology, Frail Elderly, Postural Balance physiology, Resistance Training methods, Vibration therapeutic use

Abstract

Objectives: To investigate the effects of whole-body vibration in addition to an exercise programme on functional mobility and related outcomes for frail older fallers., Design: Single-blind randomized parallel group trial., Setting: UK; National Health Service assessment and rehabilitation facility for older people., Participants: Frail older fallers: 38 (80 ± 8.6 years) performed the exercise with whole-body vibration (vibration group), and 39 (82 ± 8.1 years) without (exercise group)., Intervention: Sixty minutes supervised exercise class three times weekly for eight weeks ± whole-body vibration (up to 5 × 1 minute, 15-30 Hz and 2-8 mm peak-to-peak)., Measurements: Timed Up and Go, 6-m walk, static balance, fear of falling (FES-I) and self-reported health status (SF-12 version 2) were assessed at baseline, four weeks (mobility measures only), eight weeks and six months., Results: Timed Up and Go and 6-m walk improved in both groups at eight weeks (P < 0.01), but significantly more in the vibration group (timed up and go: 38 vs. 20%, P < 0.05); 6-m walk: (36 vs. 18.1%, P < 0.05, respectively). Balance, fear of falling and physical component of the self-reported health status improved similarly in both groups (P < 0.05). At follow-up, no significant differences from baseline remained for any measure. The mean total time experienced was 37% of maximal target., Conclusion: The addition of whole-body vibration to strength and balance exercise resulted in greater improvements in functional mobility than exercise alone, despite achieving lower than anticipated exposure. Gains from neither intervention were sustained at six months.

Published

2012

35. Effects of whole body vibration on motor unit recruitment and threshold.

Author

Pollock RD, Woledge RC, Martin FC, and Newham DJ

Subjects

Adult, Electromyography methods, H-Reflex physiology, Humans, Motor Cortex physiology, Synapses physiology, Vibration, Action Potentials physiology, Muscle Contraction physiology, Muscle, Skeletal physiology, Recruitment, Neurophysiological physiology

Abstract

Whole body vibration (WBV) has been suggested to elicit reflex muscle contractions but this has never been verified. We recorded from 32 single motor units (MU) in the vastus lateralis of 7 healthy subjects (34 ± 15.4 yr) during five 1-min bouts of WBV (30 Hz, 3 mm peak to peak), and the vibration waveform was also recorded. Recruitment thresholds were recorded from 38 MUs before and after WBV. The phase angle distribution of all MUs during WBV was nonuniform (P < 0.001) and displayed a prominent peak phase angle of firing. There was a strong linear relationship (r = -0.68, P < 0.001) between the change in recruitment threshold after WBV and average recruitment threshold; the lowest threshold MUs increased recruitment threshold (P = 0.008) while reductions were observed in the higher threshold units (P = 0.031). We investigated one possible cause of changed thresholds. Presynaptic inhibition in the soleus was measured in 8 healthy subjects (29 ± 4.6 yr). A total of 30 H-reflexes (stimulation intensity 30% Mmax) were recorded before and after WBV: 15 conditioned by prior stimulation (60 ms) of the antagonist and 15 unconditioned. There were no significant changes in the relationship between the conditioned and unconditioned responses. The consistent phase angle at which each MU fired during WBV indicates the presence of reflex muscle activity similar to the tonic vibration reflex. The varying response in high- and low-threshold MUs may be due to the different contributions of the mono- and polysynaptic pathways but not presynaptic inhibition.

Published

2012

36. The effects of whole body vibration on balance, joint position sense and cutaneous sensation.

Author

Pollock RD, Provan S, Martin FC, and Newham DJ

Subjects

Adult, Cross-Over Studies, Female, Humans, Leg physiology, Male, Muscle Contraction physiology, Muscle Strength physiology, Proprioception physiology, Young Adult, Ankle Joint physiology, Knee Joint physiology, Muscle, Skeletal physiology, Postural Balance physiology, Posture physiology, Sensation physiology, Vibration

Abstract

Whole body vibration (WBV) may enhance muscular strength and power but little is known about its influence on sensory-motor function. Vibration of a single muscle or tendon affects the afferent system in a manner that depends on amplitude and frequency. WBV stimulates many muscle groups simultaneously and the frequencies and amplitudes used are different from many of the studies on single musculotendinous units. We investigated the effects of WBV at two amplitudes on balance, joint position sense (JPS) and cutaneous sensation in young healthy subjects. Eighteen adults (24.3 ± 1.5 years, 15 females) were assessed before WBV (five 1 min bouts, 30 Hz) then immediately, 15 and 30 min afterwards. Two amplitudes (4 and 8 mm peak to peak) were investigated on different occasions. Standing balance was assessed with feet together and eyes closed, and standing on one leg with eyes open and closed. JPS at the knee and ankle was assessed by repositioning tasks while cutaneous sensation was recorded from six sites in the lower limb using pressure aesthesiometry. Neither amplitude affected JPS (P > 0.05). There were minimal effects on balance only in the vertical plane and only 30 min after WBV (P < 0.05). Low amplitude vibration only reduced sensation at the foot and ankle immediately after WBV (P < 0.008). High amplitude vibration impaired sensation at the foot, ankle and posterior shank for the entire test period (P < 0.008). In young healthy individuals WBV did not affect JPS or static balance, but reduced cutaneous sensation. These data may have implications for older and clinical populations with compromised postural control.

Published

2011

37. Muscle activity and acceleration during whole body vibration: effect of frequency and amplitude.

Author

Pollock RD, Woledge RC, Mills KR, Martin FC, and Newham DJ

Subjects

Acceleration, Adult, Humans, Leg, Muscle Contraction, Electromyography, Muscle, Skeletal physiology, Vibration

Abstract

Background: Whole body vibration may improve muscle and bone strength, power and balance although contradictory findings have been reported. Prolonged exposure may result in adverse effects. We investigated the effects of high (5.5 mm) and low (2.5mm) amplitude whole body vibration at various frequencies (5-30 Hz) on muscle activity and acceleration throughout the body., Methods: Surface electromyographic activity was recorded from 6 leg muscles in 12 healthy adults (aged 31.3 (SD 12.4) years). The average rectified acceleration of the toe, ankle, knee, hip and head was recorded from 15 healthy adults (36 (SD 12.1) years) using 3D motion analysis., Findings: Whole body vibration increased muscle activity 5-50% of maximal voluntary contraction with the greatest increase in the lower leg. Activity was greater with high amplitude at all frequencies, however this was not always significant (P<0.05-0.001). Activation tended to increase linearly with frequency in all muscles except gluteus maximus and biceps femoris. Accelerations throughout the body ranged from approximately 0.2 to 9 g and decreased with distance from the platform. Acceleration at the head was always < 0.33 g. The greatest acceleration of the knee and hip occurred at approximately 15 Hz and thereafter decreased with increasing frequency., Interpretation: Above the knee at frequencies > 15 Hz acceleration decreased with distance from the platform. This was associated with increased muscle activity, presumably due to postural control and muscle tuning mechanisms. The minimal acceleration at the head reduces the likelihood of adverse reactions. The levels of activation are unlikely to cause hypertrophy in young healthy individuals but may be sufficient in weak and frail people., (2010 Elsevier Ltd. All rights reserved.)

Published

2010

38. Incidence, etiology, classification, and management of neuralgia after posterior lumbar interbody fusion surgery in 226 patients.

Author

Krishna M, Pollock RD, and Bhatia C

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Child, Female, Humans, Incidence, Internal Fixators adverse effects, Lumbar Vertebrae, Male, Middle Aged, Tomography, X-Ray Computed, Neuralgia classification, Neuralgia epidemiology, Neuralgia etiology, Postoperative Complications, Spinal Fusion adverse effects

Abstract

Background Context: Neurological symptoms are a well-recognized complication after posterior lumbar interbody fusion (PLIF) surgery. Concerns about this potential problem may deter surgeons from performing the procedure., Purpose: To determine the incidence, etiology, prevention, and management of neuralgia after PLIF surgery., Study Design/setting: This study is a retrospective review of patients who underwent PLIF surgery at a university hospital in the north east of England., Patient Sample: Two hundred sixty patients who met the inclusion criteria of degenerative disc disease, spondylolisthesis, disc herniation, and postlaminectomy/postdiscectomy syndrome underwent PLIF surgery., Outcome Measures: The outcome measure of neuralgia was assessed postoperatively by a subjective description of leg pain. Patients were considered to have post PLIF neuralgia if they complained of severe radiculopathy, which was not present before surgery., Methods: During the study period April 1996 to April 2002, all patients who met the inclusion criteria underwent the PLIF procedure. Outcome was assessed postoperatively. In all but the first 20 cases, interbody cages were used. A subtotal superior facetectomy was performed on the first 103 patients. The subsequent 123 patients had a total removal of the superior facet. Autogenous bone and pedicle screws and plates were used in all cases., Results: The study group comprised 226 patients (121 women, 105 men; mean age at surgery, 44.1 years; age range, 12-81 years). Duration of symptoms ranged from 5 to 480 months (mean, 90.6 months; median, 60.0). Overall, there were 16 cases of neuralgia in 226 patients (7.1%). In the subtotal facetectomy group, 10 of the 103 patients (9.7%) had neuralgic symptoms. In the total facetectomy group, 6 of the 123 patients (4.9%) had neuralgic symptoms. The difference in incidence was not statistically significant (p=.158)., Conclusions: This study describes our experiences of post-PLIF neuralgia. It outlines strategies for prevention and management of the problem.

Published

2008

39. Knowledge and practice of foot care in people with diabetes.

Author

Pollock RD, Unwin NC, and Connolly V

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Cross-Sectional Studies, Diabetic Foot complications, Diabetic Foot etiology, Humans, Middle Aged, Risk Factors, Surveys and Questionnaires, Diabetic Foot prevention & control, Health Knowledge, Attitudes, Practice, Self Care

Abstract

Aim: To determine knowledge and practice of foot care in people with diabetes., Methods: A questionnaire was completed by patients in Middlesbrough, South Tees, UK. A knowledge score was calculated and current practice determined. Practices that put patients at risk of developing foot ulcers and barriers to good practice were identified. Patients at high risk of ulceration were compared to those at low risk., Results: The mean knowledge score was 6.5 (S.D. 2.1) out of a possible 11. There was a positive correlation between the score and having received advice on foot care (6.9 versus 5.4, P = 0.001). Deficiencies in knowledge included the inability to sense minor injury to the feet (47.3%), proneness to ulceration (52.4%) and effect of smoking on the circulation (44.5%). 24.6% (20.1-29.2) never visited a chiropodist, 18.5% (14.2-22.7) failed to inspect their feet and 83% (79.1-86.9) did not have their feet measured when they last purchased shoes. Practices that put patients at risk included use of direct forms of heat on the feet and walking barefoot. Barriers to practice of foot care were mainly due to co-morbidity. Those with high risk feet showed a higher (6.8) but not significant knowledge score compared to those at low risk (6.5) and their foot care practise was better., Conclusion: The results highlight areas where efforts to improve knowledge and practice may contribute to the prevention of foot ulcers and amputation.

Published

2004