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1. Two weeks of arm cycling sprint interval training enhances spinal excitability to the biceps brachii

Author

Evan J. Lockyer, Shahab Alizadeh, Chris T. Compton, Duane C. Button, and Kevin E. Power

Subjects
Physiology, Physiology (medical)
Abstract

Two weeks of arm cycling sprint interval training (SIT) improves subsequent aerobic exercise performance and induces changes within the descending corticospinal pathway. Specifically, spinal excitability is enhanced following training, whereas overall corticospinal excitability does not change. These results suggest that the enhanced spinal excitability may represent a neural adaptation to training. Future work is required to discern the precise neurophysiological mechanisms underlying these observations.

Published
2023
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3. What Does It Mean to Be a Clinical Track Faculty Member in Public Health? A Survey of Clinical Track Faculty Across the United States

Author

Emily J. Youatt, Laura E. Power, Ella August, and Olivia S. Anderson

Subjects
Medical education, medicine.medical_specialty, Schools, Public Health, Public health, media_common.quotation_subject, Public Health, Environmental and Occupational Health, Mentoring, Track (rail transport), Faculty, United States, Promotion (rank), Political science, Surveys and Questionnaires, medicine, Humans, Public Health, media_common
Abstract

ObjectivesThe clinical professor track has expanded and reflects a trend toward hiring non–tenure-track faculty in public health; however, little is known about this track. We documented characteristics of clinical faculty at US schools of public health.MethodsWe surveyed clinical faculty at Council on Education for Public Health–accredited schools of public health in the United States in 2019, identified via each school’s website. We invited faculty (n = 264) who had the word clinical in their title (ie, apparently eligible faculty), had a working email address, and were not authors of this article to provide information about their rank, degree credentials, expectations for teaching, service, research and practice, and promotion criteria at their institution. In addition, we used open-ended responses to explain and contextualize quantitative data.ResultsOf 264 apparently eligible faculty surveyed, 88 (33.3%) responded. We included 81 eligible clinical faculty in our final sample, of whom 46 (56.8%) were assistant professors and 72 (88.9%) had a terminal degree; 57 of 80 (71.3%) had an initial contract of ≤2 years or no contract. Most clinical faculty listed service (96.2%), teaching (95.0%), and student advising/mentoring (86.3%) as duties; fewer clinical faculty reported research (55.0%), practice (33.8%), or clinic (7.5%) duties. Only 37.1% of respondents agreed or strongly agreed that promotion policies for clinical track faculty were clear.ConclusionsIf most clinical faculty are at the lowest academic rank, with short contracts and unclear expectations, it will be difficult for clinical faculty to advance and challenging for schools of public health to benefit from this track. Clear institutional expectations for scope of work and promotion may enhance the contribution of clinical faculty to schools of public health and help define this track.

Published
2023

9. Microcoleus (Cyanobacteria) form watershed‐wide populations without strong gradients in population structure

Author

Jillian F. Banfield, Keith Bouma-Gregson, Mathew R Olm, Alexander Crits-Christoph, and Mary E. Power

Subjects
education.field_of_study, Genetic diversity, Ecology, Population, Metapopulation, Biology, Cyanobacteria, Russia, Nucleotide diversity, Rivers, Habitat, Benthic zone, Genetics, Biological dispersal, Metagenomics, education, Ecosystem, Ecology, Evolution, Behavior and Systematics, Isolation by distance
Abstract

The relative importance of separation by distance and by environment to population genetic diversity can be conveniently tested in river networks, where these two drivers are often independently distributed over space. To evaluate the importance of dispersal and environmental conditions in shaping microbial population structures, we performed genome-resolved metagenomic analyses of benthic Microcoleus-dominated cyanobacterial mats collected in the Eel and Russian River networks (California, USA). The 64 Microcoleus genomes were clustered into three species that shared >96.5% average nucleotide identity (ANI). Most mats were dominated by one strain, but minor alleles within mats were often shared, even over large spatial distances (>300 km). Within the most common Microcoleus species, the ANI between the dominant strains within mats decreased with increasing spatial separation. However, over shorter spatial distances (tens of kilometres), mats from different subwatersheds had lower ANI than mats from the same subwatershed, suggesting that at shorter spatial distances environmental differences between subwatersheds in factors like canopy cover, conductivity, and mean annual temperature decreases ANI. Since mats in smaller creeks had similar levels of nucleotide diversity (π) as mats in larger downstream subwatersheds, within-mat genetic diversity does not appear to depend on the downstream accumulation of upstream-derived strains. The four-gamete test and sequence length bias suggest recombination occurs between almost all strains within each species, even between populations separated by large distances or living in different habitats. Overall, our results show that, despite some isolation by distance and environmental conditions, sufficient gene-flow occurs among cyanobacterial strains to prevent either driver from producing distinctive population structures across the watershed.

Published
2021
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10. PH WINS for All: The Critical Role of Partnerships for Engaging All Local Health Departments in the Public Health Workforce Interests and Needs Survey

Author

Phoebe K. G. Kulik, Jonathon P. Leider, Megan Rogers, Harshada Karnik, Laura E. Power, Kay Schaffer, and Betty Bekemeier

Subjects
Health Policy, Surveys and Questionnaires, Public Health, Environmental and Occupational Health, Workforce, Humans, Public Health, Health Workforce
Abstract

The 2021 "PH WINS for All" pilot sought to address a rural research gap by including small local health departments in the Public Health Workforce Interests and Needs Survey (PH WINS) for the first time. To do so, the de Beaumont Foundation partnered with the Public Health Training Centers in Health and Human Services Regions V and X. This article describes the collaborative efforts that made the PH WINS for All pilot successful, presents respondent demographics by agency size, and discusses the importance of gathering such data to address the unique needs of the workforce in small local health departments.

Published
2022

13. Priority effects in microbiome assembly

Author

Mary E. Power, Britt Koskella, Alexander Crits-Christoph, Reena Debray, Robin A Herbert, and Alexander L. Jaffe

Subjects
Functional ecology, Infectious Diseases, General Immunology and Microbiology, Community composition, business.industry, Scale (chemistry), Environmental resource management, Microbiome, Biology, business, Microbiology, Priority effect
Abstract

Advances in next-generation sequencing have enabled the widespread measurement of microbiome composition across systems and over the course of microbiome assembly. Despite substantial progress in understanding the deterministic drivers of community composition, the role of historical contingency remains poorly understood. The establishment of new species in a community can depend on the order and/or timing of their arrival, a phenomenon known as a priority effect. Here, we review the mechanisms of priority effects and evidence for their importance in microbial communities inhabiting a range of environments, including the mammalian gut, the plant phyllosphere and rhizosphere, soil, freshwaters and oceans. We describe approaches for the direct testing and prediction of priority effects in complex microbial communities and illustrate these with re-analysis of publicly available plant and animal microbiome datasets. Finally, we discuss the shared principles that emerge across study systems, focusing on eco-evolutionary dynamics and the importance of scale. Overall, we argue that predicting when and how current community state impacts the success of newly arriving microbial taxa is crucial for the management of microbiomes to sustain ecological function and host health. We conclude by discussing outstanding conceptual and practical challenges that are faced when measuring priority effects in microbiomes.

Published
2021
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14. Foraging modes and movements of Oncorhynchus mykiss as flow and invertebrate drift recede in a California stream

Author

Jason R. Neuswanger, Gabriel J. Rossi, Shelley Pneh, Timothy J. Caldwell, and Mary E. Power

Subjects
0106 biological sciences, Habitat, Ecology, 010604 marine biology & hydrobiology, Foraging, Flow (psychology), Environmental science, Rainbow trout, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, Invertebrate
Abstract

Salmonids frequently adapt their feeding and movement strategies to cope with seasonally fluctuating stream environments. Oncorhynchus mykiss tend to drift-forage in higher velocity habitat than other salmonids, yet their presence in streams with seasonally low velocity and drift suggests behavioral flexibility. We combined 3D videogrammetry with measurements of invertebrate drift and stream hydraulics to investigate the drivers of O. mykiss foraging mode and movement during the seasonal recession in a California stream. From May to July (2016), foraging movement rate increased as prey concentration and velocity declined; however, movement decreased in August as pools became low and still. In May, 80% of O. mykiss were drift-foraging, while by July, over 70% used search or benthic-foraging modes. Velocity and riffle crest depth were significant predictors of foraging mode, while drift concentration was a poor univariate predictor. However, top-ranked additive models included both hydraulic variables and drift concentration. A drift-foraging bioenergetic model was a poor predictor of foraging mode. We suggest that infall and benthic prey, as well as risk aversion, may influence late-summer foraging decisions.

Published
2021
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15. Blue Waters, Green Bottoms: Benthic Filamentous Algal Blooms Are an Emerging Threat to Clear Lakes Worldwide

Author

Yvonne Vadeboncoeur, Marianne V Moore, Simon D Stewart, Sudeep Chandra, Karen S Atkins, Jill S Baron, Keith Bouma-Gregson, Soren Brothers, Steven N Francoeur, Laurel Genzoli, Scott N Higgins, Sabine Hilt, Leon R Katona, David Kelly, Isabella A Oleksy, Ted Ozersky, Mary E Power, Derek Roberts, Adrianne P Smits, Oleg Timoshkin, Flavia Tromboni, M Jake Vander Zanden, Ekaterina A Volkova, Sean Waters, Susanna A Wood, and Masumi Yamamuro

Subjects
0106 biological sciences, AcademicSubjects/SCI00010, Ecology, 010604 marine biology & hydrobiology, Lake ecosystem, 010603 evolutionary biology, 01 natural sciences, Algal bloom, Overview Articles, Ecosystem services, Habitat, Benthic zone, Nutrient pollution, parasitic diseases, Littoral zone, Environmental science, AcademicSubjects/SOC02100, General Agricultural and Biological Sciences, Eutrophication
Abstract

Nearshore (littoral) habitats of clear lakes with high water quality are increasingly experiencing unexplained proliferations of filamentous algae that grow on submerged surfaces. These filamentous algal blooms (FABs) are sometimes associated with nutrient pollution in groundwater, but complex changes in climate, nutrient transport, lake hydrodynamics, and food web structure may also facilitate this emerging threat to clear lakes. A coordinated effort among members of the public, managers, and scientists is needed to document the occurrence of FABs, to standardize methods for measuring their severity, to adapt existing data collection networks to include nearshore habitats, and to mitigate and reverse this profound structural change in lake ecosystems. Current models of lake eutrophication do not explain this littoral greening. However, a cohesive response to it is essential for protecting some of the world's most valued lakes and the flora, fauna, and ecosystem services they sustain.

Published
2021
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16. Chronic resistance training: is it time to rethink the time course of neural contributions to strength gain?

Author

Gregory E. P. Pearcey, S Alizedah, Duane C. Button, and Kevin E. Power

Subjects
Nervous system, Physiology, business.industry, medicine.medical_treatment, education, Work (physics), Public Health, Environmental and Occupational Health, Resistance training, 030229 sport sciences, General Medicine, Plasticity, Muscle hypertrophy, Transcranial magnetic stimulation, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Physiology (medical), Time course, Neuroplasticity, Medicine, Orthopedics and Sports Medicine, business, Neuroscience, 030217 neurology & neurosurgery
Abstract

Resistance training enhances muscular force due to a combination of neural plasticity and muscle hypertrophy. It has been well documented that the increase in strength over the first few weeks of resistance training (i.e. acute) has a strong underlying neural component and further enhancement in strength with long-term (i.e. chronic) resistance training is due to muscle hypertrophy. For obvious reasons, collecting long-term data on how chronic-resistance training affects the nervous system not feasible. As a result, the effect of chronic-resistance training on neural plasticity is less understood and has not received systematic exploration. Thus, the aim of this review is to provide rationale for investigating neural plasticity beyond acute-resistance training. We use cross-sectional work to highlight neural plasticity that occurs with chronic-resistance training at sites from the brain to spinal cord. Specifically, intra-cortical circuitry and the spinal motoneuron seem to be key sites for this plasticity. We then urge the need to further investigate the differential effects of acute versus chronic-resistance training on neural plasticity, and the role of this plasticity in increased strength. Such investigations may help in providing a clearer definition of the continuum of acute and chronic-resistance training, how the nervous system is altered during this continuum and the causative role of neural plasticity in changes in strength over the continuum of resistance training.

Published
2021
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17. Taxon-specific photosynthetic responses of attached algal assemblages to experimental translocation between river habitats

Author

Keith Bouma-Gregson, Paula Furey, Yvonne Vadeboncoeur, Casey J. Huckins, and Mary E. Power

Subjects
Cyanobacteria, Ecology, biology, 0207 environmental engineering, Chromosomal translocation, 02 engineering and technology, 010501 environmental sciences, Aquatic Science, biology.organism_classification, Photosynthesis, 01 natural sciences, Taxon, Algae, Habitat, Benthic zone, Cladophora, 020701 environmental engineering, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences
Abstract

Attached algal and cyanobacterial taxa differ in their ability to exploit and tolerate the diversity of flow, irradiance, and temperature regimes typical of a heterogeneous riverscape. Unde...

Published
2021
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18. High-resolution Biostratigraphy, Depositional History and Palaeoenvironment Based on Foraminifera and Calcareous Nannoplankton, Northwest Niger Delta

Author

Avong S. Joshua, Enam O. Obiosio, Hamidu Ibrahim, Emmanuel C. Nwaejije, Timothy Israel, Francis J. Amobi, Ubit E. Power, and Love Olowu

Abstract

An integrated Micropalaeontological analysis approach was employed based on ditch cuttings samples northwest of the Niger Delta. Lithofacies description showed the entire sediment successions consisted of alternating shale and sand lithology. A moderate to the rich recovery of about seventy-one foraminifera and forty calcareous nannofossil species were recovered, having the presence of Miocene foraminifera (Orbulina universa, Globigerinoides bulloideus, Globorotalia obesa, Globorotalia mayeri and Globorotalia continuosa) and nannofossil (Sphenolithus moriformis, Catinaster coalithus, Discoaster berggrenii and Discoaster kugleri). Three foraminifera planktonic zones were proposed for this study and were correlated to other worldwide zones; Globerigenoides bulloideus, Globeriginoides obliquus obliquus and Globerigenoides primordius spanning the Neogene (N) 6 to N17 zone. Two calcareous nannoplankton zones were proposed, which are; Helicosphaera intermedia and Sphenolithus moriformis spanning the Neogene Nannofossil (NN) 3 to NN11 zone. Three third-order sea-level rises and falls occurred during the Early to Late Miocene within the Niger Delta, with a corresponding paleo-waterdepth from transitional to outer neritic. The Chiloguembelina-3 Shale (16.0 Ma), Dodo Shale (11.6 Ma) and the Uvigerina-8 Shale (9.2 Ma), were associated with transgression. The 15.5 Ma SB of Depositional Sequence 1(Early Miocene), 10.5 Ma SB of Depositional Sequence 2(Middle Miocene) and 8.5 Ma SB of Depositional Sequence 3(Late Miocene) due to progradation. The paleosalintiy based on shell type morphology assemblages suggests a transition from the brackish marginal marine environment to open neritic conditions. The study interval is said to have penetrated sediments of the parallic Early to Late Miocene Agbada formation.

Published
2022
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19. Public Health Workforce Development During and Beyond the COVID-19 Pandemic: Findings From a Qualitative Training Needs Assessment

Author

Danielle J. Zemmel, Phoebe K. G. Kulik, Jonathon P. Leider, and Laura E. Power

Subjects
Health Policy, Public Health, Environmental and Occupational Health, COVID-19, Humans, Health Workforce, Public Health, Pandemics, Needs Assessment
Abstract

The Region V Public Health Training Center (RVPHTC) serves the public health workforce in Illinois, Indiana, Michigan, Minnesota, Ohio, and Wisconsin. An important tool in priority-setting workforce development is the training needs assessment (TNA), which is vital to identifying and addressing the capacity-building needs of the public health workforce.In 2021, we conducted semistructured qualitative interviews with key partners in the local, state, and tribal health workforce.Findings reflect the results of 23 interviews administered from March to May 2021. Questions solicited in-depth input related to key training gaps identified in our 2020 quantitative TNA; the impact of COVID-19 on the public health workforce; general needs, including preferred training modalities; needs by audience type; and the current capacity for public health agencies to support student development.Key training needs of the public health workforce identified by the 2021 TNA include the strategic skills domains of (1) resource management; (2) change management; (3) justice, equity, diversity, and inclusion; and (4) effective communication. The first 3 domains were also noted as having the greatest training need in our 2020 quantitative TNA of local health department leadership.The COVID-19 pandemic highlighted the need for training in effective communication in new ways and the continued need for training support in the skill domains prioritized in the 2020 assessment. Findings demonstrate the need for capacity building around crosscutting skills and the intersection of strategic skill domains if the field is to be prepared for future threats to public health.

Published
2022

20. Multiparametric cytotoxicity assessment: the effect of gold nanoparticle ligand functionalization on SKOV3 ovarian carcinoma cell death

Author

Rachel M. McDougall, Hannah F. Cahill, Madeline E. Power, Tyson J. MacCormack, M-Vicki Meli, and Jillian L. Rourke

Subjects
Ovarian Neoplasms, Cell Death, Biomedical Engineering, Humans, Metal Nanoparticles, Female, Gold, Toxicology, Ligands, Polyethylene Glycols
Abstract

Gold nanoparticles (AuNP) are promising anti-cancer agents because of their modifiable properties and high biocompatibility. This study used multiple parallel analyses to investigate the cytotoxic properties of 5 nm AuNP conjugated to four different ligands with distinct surface chemistry: polyethylene glycol (PEG), trimethylammonium bromide (TMAB), 4-dimethylaminopyridine (DMAP), and carboxyl (COOH). We used a range of biochemical and high-content microscopy methods to evaluate the metabolic function, oxidative stress, cell health, cell viability, and cell morphology in SKOV3 ovarian cancer cells. Each AuNP displayed a distinct cytotoxicity profile. All AuNP species assessed exhibited signs of dose-dependent cytotoxicity when morphology, clonogenic survival, lysosomal uptake, or cell number were measured as the marker of toxicity. All particles except for AuNP-COOH increased SKOV3 apoptosis. In contrast, AuNP-TMAB was the only particle that did not alter the metabolic function or induce significant signs of oxidative stress. These results demonstrate that AuNP surface chemistry impacts the magnitude and mechanism of SKOV3 cell death. Together, these findings reinforce the important role for multiparametric cytotoxicity characterization when considering the utility of novel particles and surface chemistries.

Published
2022

21. Introduction of Rezum system technology to Ireland for treatment of lower urinary tract symptoms secondary to benign prostatic hyperplasia: a pilot study on early outcomes and procedure cost analysis

Author

Daniel McNicholas, Jody Khan, James C. Forde, Usman M Haroon, Niall F. Davis, and Richard E. Power

Subjects
medicine.medical_specialty, business.industry, medicine.medical_treatment, Urology, General Medicine, Perioperative, 030204 cardiovascular system & hematology, Hyperplasia, medicine.disease, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Quality of life, Prostate, Lower urinary tract symptoms, medicine, Cost analysis, International Prostate Symptom Score, 030212 general & internal medicine, business, Transurethral resection of the prostate
Abstract

Rezum technology uses heat from radiofrequency-generated water vapour to ablate prostate tissue. We evaluate the introduction of this thermal therapy to an Irish teaching hospital for the treatment of lower urinary tract symptoms related to benign prostatic hyperplasia. A pilot study of men with moderate to severe lower urinary tract symptoms who underwent Rezum treatment to the prostate was performed. Perioperative efficacy was evaluated using international prostate symptom score (IPSS), quality of life score (IPSS-QOL), uroflowmetry and post-void residual (PVR) volumes. Costs were evaluated and compared against matched patients undergoing the standard of care, transurethral resection of the prostate (TURP). Ten patients with a mean age of 70 ± 9 years who met the inclusion criteria underwent Rezum treatment. Mean PSA was 4.73 ± 4 ng/mL and mean prostate volume 72 ± 30 cc. Rezum therapy significantly improved both IPSS by 74% from mean baseline score of 20.8 ± 4 to 5.3 ± 1.49 (p

Published
2021
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22. Interhemispheric inhibition to the biceps brachii during arm cycling

Author

Evan J. Lockyer, Ryan J. Benson, Kevin E. Power, and Chris T. Compton

Subjects
Adult, Male, medicine.medical_specialty, Physiology, Endocrinology, Diabetes and Metabolism, Biceps, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Physiology (medical), Humans, Medicine, Muscle, Skeletal, Nutrition and Dietetics, Electromyography, business.industry, Motor Cortex, Central pattern generator, 030229 sport sciences, General Medicine, Transcranial Magnetic Stimulation, medicine.anatomical_structure, Arm, Silent period, business, Cycling, 030217 neurology & neurosurgery, Motor cortex
Abstract

This is the first demonstration of interhemispheric inhibition (IHI) during a locomotor output, arm cycling. IHI was quantified by assessing the depth of the ipsilateral silent period (iSP) evoked via transcranial magnetic stimulation of the motor cortex. There was a significant reduction in electromyography (EMG) amplitude of the iSP during cycling compared with the control EMG (16.8% ± 17.1%; p < 0.001). Depth and area for measuring the iSP during arm cycling are discussed. Novelty: This is the first study to demonstrate activation of the cortical circuit, interhemispheric inhibition, during a locomotor output.

Published
2021
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25. Thank You to Our 2021 Reviewers

Author

Lisa M. Beal, Don Chambers, Marjorie A. M. Friedrichs, Chellappan Gnanaseelan, Nathalie F. Goodkin, Robert D. Hetland, Ryan P. Mulligan, Takeyoshi Nagai, Joanne (Joe) O’Callaghan, Laurence (Laurie) Padman, Nadia Pinardi, Hannah E. Power, Arvind Singh, Lars Umlauf, Anna Wåhlin, Fanghua Xu, and Lei Zhou

Subjects
Geophysics, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Oceanography
Published
2022
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26. Reduced isometric knee extensor force following anodal transcranial direct current stimulation of the ipsilateral motor cortex

Author

Ryan B. Savoury, Armin Kibele, Kevin E. Power, Nehara Herat, Shahab Alizadeh, and David G. Behm

Subjects
Multidisciplinary
Abstract

Background The goal of this study was to determine if 10-min of anodal transcranial direct current stimulation (a-tDCS) to the motor cortex (M1) is capable of modulating quadriceps isometric maximal voluntary contraction (MVC) force or fatigue endurance contralateral or ipsilateral to the stimulation site. Methods In a randomized, cross-over design, 16 (8 females) individuals underwent two sessions of a-tDCS and two sham tDCS (s-tDCS) sessions targeting the left M1 (all participants were right limb dominant), with testing of either the left (ipsilateral) or right (contralateral) quadriceps. Knee extensor (KE) MVC force was recorded prior to and following the a-tDCS and s-tDCS protocols. Additionally, a repetitive MVC fatiguing protocol (12 MVCs with work-rest ratio of 5:10-s) was completed following each tDCS protocol. Results There was a significant interaction effect for stimulation condition x leg tested x time [F(1,60) = 7.156, p = 0.010, ηp2 = 0.11], which revealed a significant absolute KE MVC force reduction in the contralateral leg following s-tDCS (p < 0.001, d = 1.2) and in the ipsilateral leg following a-tDCS (p < 0.001, d = 1.09). A significant interaction effect for condition x leg tested [F(1,56) = 8.12, p = 0.006, ηp2 = 0.13], showed a significantly lower ipsilateral quadriceps (to tDCS) relative MVC force with a-tDCS, versus s-tDCS [t(15) = -3.07, p = 0.016, d = -0.77]. There was no significant difference between the relative contralateral quadriceps (to tDCS) MVC force for a-tDCS and s-tDCS. Although there was an overall significant [F(1,56) = 8.36, p < 0.001] 12.1% force decrease between the first and twelfth MVC repetitions, there were no significant main or interaction effects for fatigue index force. Conclusion a-tDCS may be ineffective at increasing maximal force or endurance and instead may be detrimental to quadriceps force production.

Published
2022

27. What can a Headless Chicken Teach us About Walking?

Author

Evan J. Lockyer, Gregory E. Pearcey, and Kevin E. Power

Abstract

Unlike when you do your math homework, you do not usually have to think about walking—it just happens naturally. We master the ability to walk as children, but the control of walking is complex. To walk, many muscles must act together to produce smooth, coordinated movement of the arms and legs. We sometimes think about where we want to step, but sometimes we do not. We may also choose how fast and which direction we want to go, but we do not actually think about the individual movement of each limb—walking seems so simple and does not require much thought. Although our brains help supervise the control of walking, other parts of the nervous system are what make walking automatic. In fact, the basic pattern of walking is produced and adjusted by networks of cells within the spinal cord, known as central pattern generators.

Published
2022
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29. Interhemispheric inhibition is different during arm cycling than a position- and intensity-matched tonic contraction

Author

Chris T, Compton, Evan J, Lockyer, Ryan J, Benson, and Kevin E, Power

Subjects
Electromyography, Arm, Motor Cortex, Pyramidal Tracts, Humans, Evoked Potentials, Motor, Muscle, Skeletal, Transcranial Magnetic Stimulation, Muscle Contraction
Abstract

Task-dependent changes in inhibition may explain why supraspinal excitability is higher during arm cycling than an intensity- and position-matched tonic contraction. The present study investigated whether interhemispheric inhibition (IHI) associated with biceps brachii activity was different during arm cycling, a locomotor output, compared to a tonic contraction. IHI was quantified using an ipsilateral silent period (iSP) evoked via transcranial magnetic stimulation (TMS) of the ipsilateral motor cortex. TMS was delivered at 120% resting motor threshold during the mid-elbow flexion phase of arm cycling (6 o'clock position, made relative to a clock face) and during a position- and intensity-matched tonic contraction. In total, 36 participants took part in the study. However, only 14 participants demonstrated IHI during arm cycling and 10 participants during tonic contraction. Of these participants, eight displayed clear iSPs during arm cycling and tonic contraction. The iSP duration was longer during arm cycling than tonic contraction (p 0.05), while iSP EMG amplitude and area were not different between tasks (p 05 for both comparisons). The main finding from this study is that IHI appears to be stronger during arm cycling than an intensity- and position-matched tonic contraction. This does not support previous findings of higher supraspinal excitability during arm cycling.

Published
2022

31. Spinal and corticospinal excitability in response to reductions in skin and core temperatures via whole-body cooling

Author

Kevin E. Power, Morteza Talebian nia, Katinka Stecina, Gordon G. Giesbrecht, Evan J. Lockyer, Phillip F. Gardiner, and Daryl M.G. Hurrie

Subjects
Adult, Male, Physiology, Endocrinology, Diabetes and Metabolism, Gross motor skill, Pyramidal Tracts, Core temperature, Body Temperature, Esophagus, Physiology (medical), Elbow, Humans, Rewarming, Muscle, Skeletal, Cold stress, Nutrition and Dietetics, Chemistry, Electromyography, General Medicine, Evoked Potentials, Motor, Transcranial Magnetic Stimulation, Electric Stimulation, Spine, Peripheral, Cryotherapy, Female, Whole body, Skin Temperature, Neuroscience
Abstract

Cold stress impairs fine and gross motor movements. Although peripheral effects of muscle cooling on performance are well understood, less is known about central mechanisms. This study characterized corticospinal and spinal excitability during surface cooling, reducing skin (Tsk) and esophageal (Tes) temperatures. Ten subjects (3 females) wore a liquid-perfused suit and were cooled (9 °C perfusate, 90 min) and rewarmed (41 °C perfusate, 30 min). Transcranial magnetic stimulation (eliciting motor evoked potentials [MEPs]), as well as transmastoid (eliciting cervicomedullary evoked potentials [CMEPs]) and brachial plexus (eliciting maximal compound motor action potentials [Mmax]) electrical stimulation, were applied at baseline, every 20 min during cooling, and following rewarming. Sixty minutes of cooling reduced Tsk by 9.6 °C (P < 0.001), but Tes remained unchanged (P = 0.92). Tes then decreased by ∼0.6 °C in the next 30 min of cooling (P < 0.001). Eight subjects shivered. During rewarming, shivering was abolished, and Tsk returned to baseline, while Tes did not increase. During cooling and rewarming, Mmax, MEP, and MEP/Mmax remained unchanged from baseline. However, CMEP and CMEP/Mmax increased during cooling by ∼85% and 79% (P < 0.001), respectively, and remained elevated post-rewarming. The results suggest that spinal excitability is facilitated by reduced Tsk during cooling and reduced Tes during warming, while corticospinal excitability remains unchanged. ClinicalTrials.gov ID: NCT04253730. Novelty: This is the first study to characterize corticospinal and spinal excitability during whole-body cooling and rewarming in humans. Whole body cooling did not affect corticospinal excitability. Spinal excitability was facilitated during reductions in both skin and core temperatures.

Published
2021

32. Clinical-Track Faculty: Making Them Count in Public Health Education

Author

Laura E. Power, Ella August, Olivia S. Anderson, and Emily J. Youatt

Subjects
Medical education, Research, Track (disk drive), Public Health, Environmental and Occupational Health, Public health education, Faculty, Community-Institutional Relations, United States, Professional Role, Opinions, Ideas, & Practice, Political science, Education, Public Health Professional, Humans, Curriculum
Published
2021
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33. Priorities for Wind-Waves Research

Author

Alessandro Toffoli, Eric Schulz, Dirk P. Rijnsdorp, Greg Williams, Craig Steinberg, Diana J. M. Greenslade, Frank Colberg, James Taylor, Mark Hemer, Grant Millar, Ian L. Turner, Ron Hoeke, Guilherme Vieira da Silva, Amin Chabchoub, Craig Earl-Spurr, Neal Moodie, Said Mazaheri, Paul Branson, Andrew Pomeroy, Qingxiang Liu, Andrew Burton, Jason McConochie, Michael A. Kinsela, Ryan J. Lowe, Nick Cartwright, Moritz Wandres, Ruth Reef, Michael L. Banner, Stephanie Contardo, Greg Stuart, Joao Morim, Daniel Taylor, Alexander V. Babanin, Greg Hibbert, Darrell Strauss, Gundula Winter, Stefan Zieger, Tim Moltmann, David Provis, Jake Shayer, Jim Gunson, Colin Whittaker, David Farr, Roger Proctor, Graham Symonds, Martin Rutherford, Daniel Ierodiaconou, Mitchell D. Harley, Jiangtao Xu, Nicole L. Jones, Darshani Thotagamuwage, Charitha Pattiaratchi, Karina Tarbath, Alireza Valizadeh, David J. Hanslow, Francois Dufois, David J. Williams, João Albuquerque, Jeff E. Hansen, Hayden Marcollo, Ian R. Young, Aihong Zhong, Jana Orszaghova, Yasha Hetzel, Steve Buchan, Jonathan van Hazel, Saima Aijaz, Russel P. Morison, Hannah E. Power, John A. T. Bye, Stewart C. R. Allen, Ian Goodwin, Oleg Makarynskyy, and Kristen D. Splinter

Subjects
Atmospheric Science, Government, business.industry, media_common.quotation_subject, Stakeholder, Public relations, Service provider, Private sector, Tier 1 network, Ranking, Voting, Political science, Tier 2 network, business, media_common
Abstract

The Australian Forum for Operational Oceanography (FOO), started in 2015, established a working group to focus on wind-waves. One of the aims of this working group was to identify the key priorities of wind-waves research. This undertaking has been driven by Australian needs, but Australia is just one part of the larger international waves community; results of this process are also relevant to other marine-focused nations. The process to identify research priorities engaged both researchers and stakeholders in a democratic, collaborative, and iterative process. The main steps were 1) soliciting possible research questions via an online survey, 2) reviewing and editing the questions at a face-to-face workshop, and 3) ranking the research questions. A total of 360 survey invitations were emailed to possible participants, with 69 respondents. Half of these were from research organizations, and the remainder from private industry, service providers, or government. The survey gathered a list of ideas that were consolidated to 155 suggestions, which were further reviewed by participants at a wind-waves research symposium and then ranked via a voting process. A second round of online voting was then undertaken that specifically targeted the industry and stakeholder community. The top five priorities were identified, and are referred to here as “tier 1” priorities. A further 10 priorities were identified, and are referred to here as “tier 2,” providing a total of 15 top-ranked priorities.

Published
2020
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34. Isolated Eosinophilic Pleural Effusion

Author

Yimin Chen, Tejal N. Gandhi, Sandro Cinti, Laura E. Power, and Tao Huang

Subjects
Microbiology (medical), Pathology, medicine.medical_specialty, Infectious Diseases, business.industry, Pleural effusion, Eosinophilic, Medicine, business, medicine.disease
Published
2020
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35. Warm Ischemia Time at Vascular Anastomosis is an Independent Predictor for Delayed Graft Function in Kidney Transplant Recipients

Author

Niall F. Davis, James C. Forde, Patrick O'Kelly, Ponnusamy Mohan, Anna L. Walsh, Atakelet A Ferede, Richard E. Power, Dilly Llittle, and Gordon K. Smyth

Subjects
Adult, Male, medicine.medical_specialty, Time Factors, Databases, Factual, medicine.medical_treatment, Ischemia, Delayed Graft Function, Anastomosis, Risk Assessment, chemistry.chemical_compound, Renal Dialysis, Risk Factors, Living Donors, Humans, Medicine, Warm Ischemia, Dosing, Dialysis, Transplantation, Creatinine, Warm Ischemia Time, business.industry, Anastomosis, Surgical, Body Weight, Immunosuppression, Perioperative, Middle Aged, medicine.disease, Kidney Transplantation, Surgery, Treatment Outcome, surgical procedures, operative, chemistry, Kidney Failure, Chronic, Female, business, Ireland, Vascular Surgical Procedures
Abstract

Objectives Delayed graft function after kidney transplant can affect patient and graft survival, resulting in prolonged hospital stay and need for dialysis. Ischemia times during organ procurement and reanastomosis at transplant are key factors in delayed graft function. Materials and methods We analyzed all living- and deceased-donor renal transplants in Ireland over a 33-month period, with effect of warm ischemia time during anastomosis on delayed graft function being the primary outcome. We performed statistical regression analyses to account for confounding variables. Patients had identical surgical technique and immunosuppression protocols. Results Of 481 transplants during the study period, 20 patients were excluded because of paired-kidney exchange, nephron dosing transplant, or simul-taneous pancreas-kidney transplant. In the donor pool, 70% were donors after brainstem death, 3.6% were donors after cardiac death, and 26% were living donors. All living donors were direct altruistic donors and underwent stringent assessment via the ethics committee and multidisciplinary team meeting. Of living donors, 8% were not related. These were true altruistic donors who were acquaintances of the recipients and volunteered themselves for assessment. They were assessed in accordance with the declaration of Istanbul and received no compensation of any kind for donation. Of total patients, 18% had delayed graft function, defined as need for dialysis within 7 days of transplant. Warm ischemia time during anastomosis significantly affected risk of delayed graft function but not graft survival or function at 3 months. This factor did not correlate with hospital stay duration. Time on dialysis and recipient weight significantly correlated with risk of delayed graft function. Conclusions Our findings support a role for minimizing warm ischemia time during anastomosis to reduce delayed graft function and need for dialysis in the perioperative period. However, a longer time does not appear to affect creatinine levels and therefore graft function at 3 months.

Published
2020
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36. Tsunami Modelling with Static and Dynamic Tides in Drowned River Valleys with Morphological Constrictions

Author

Hannah E. Power and Kaya M. Wilson

Subjects
geography, Tidal range, geography.geographical_feature_category, Tsunami wave, Estuary, Tsunami propagation, 010502 geochemistry & geophysics, 01 natural sciences, Tide level, Geophysics, Oceanography, Geochemistry and Petrology, Harbour, Erosion, computer, Geology, 0105 earth and related environmental sciences, computer.programming_language
Abstract

Tsunami modelling is widely used to estimate the potential impacts of tsunamis. Models require a tide input, which can be either static, representing a specific tide level, such as Highest Astronomic Tide or dynamic, which represents a moving tide level. Although commonly used, static tide inputs do not account for tsunami–tide interactions, which are known to be non-linear and more significant in estuaries when compared to the open coast. To demonstrate the differences between tsunami models using static or dynamic tide inputs, a series of models were carried out for two New South Wales estuaries, Sydney harbour and port hacking. Model boundary conditions phased a MW 9.0 Puysegur source tsunami with multiple tide scenarios. Fourteen distinct scenarios with dynamic tides were created by phasing the largest tsunami wave peak at regular intervals across the tidal range. For comparison, static tide models were run using equivalent tide levels. The situations where static tide models provide results comparable or more conservative than dynamic tide models are for the first 1–2 h after tsunami arrival, at high tides, and when compared to dynamic falling tides at the same tide level. Differences are most apparent upriver of geomorphological constrictions. The effects of geomorphological constrictions were further examined using idealised model setups with a constriction variable. Results show that constrictions affect downriver maximum water levels, tsunami wave heights, upriver water accumulation and inundation maxima and distributions. These results have implications for estuaries vulnerable to erosion at constriction sites during a tsunami event.

Published
2020
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37. The sedimentology and tsunamigenic potential of the Byron submarine landslide off New South Wales, Australia

Author

Samantha Clarke, Kendall C. Mollison, Thomas Hubble, Emily M. Lane, A.T. Baxter, and Hannah E. Power

Subjects
Paleontology, 010504 meteorology & atmospheric sciences, Geology, Ocean Engineering, Sedimentology, 010502 geochemistry & geophysics, 01 natural sciences, 0105 earth and related environmental sciences, Water Science and Technology, Submarine landslide
Published
2020
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38. Evaluation of Australian Tsunami Warning Thresholds Using Inundation Modelling

Author

Burak Uslu, Diana J. M. Greenslade, Stewart C. R. Allen, Hannah E. Power, Kaya M. Wilson, and Claire L. Kain

Subjects
Geophysics, Geochemistry and Petrology, Tsunami hazard, business.industry, Coastal zone, Environmental resource management, Environmental science, 010502 geochemistry & geophysics, business, 01 natural sciences, Historical record, 0105 earth and related environmental sciences
Abstract

Tsunami warnings issued by the Joint Australian Tsunami Warning Centre (JATWC) are derived from a database (T2) consisting of more than two thousand pre-computed tsunami scenarios. Following any potentially tsunamigenic earthquake, warnings are issued for individual coastal zones with three different levels of threat: Land Threat, Marine Threat or No Threat. The decision is based on the 95th percentile (P95) of the maximum wave amplitudes (over time) of the relevant T2 scenario within each coastal zone. Threshold values for P95 have previously been derived through analysis of observed impacts for recent events. Given that historical records are available for only a short time period and no observations exist for which a Land Threat would have been issued for Australia, it has been difficult to determine the appropriate threshold for a Land Threat. Several recent tsunami hazard assessment studies have used inundation models nested within T2 scenarios. These modelling results are used to evaluate the threshold values for JATWC tsunami warnings and provide guidance on a possible further warning tier—Major Land Threat. The optimal Land Threat threshold for P95 is found to be 48.5 cm, however, it is not recommended that any changes are made from the existing operational threshold of 55 cm. The optimal threshold for P95 a Major Land Threat is found to be 150.5 cm.

Published
2019
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39. 3D seismic-derived bathymetry: a quantitative comparison with multibeam data

Author

Hannah E. Power and Samantha Clarke

Subjects
Slope angle, Canyon, Data density, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, High resolution, Environmental Science (miscellaneous), 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, Oceanography, 01 natural sciences, Earth and Planetary Sciences (miscellaneous), Range (statistics), Bathymetry, Geology, 0105 earth and related environmental sciences, Remote sensing
Abstract

This study compares bathymetry extracted from 3D seismic data at two Australian study sites of differing morphological complexities to two sources of collocated multibeam data: 50-m and 5-m multibeam digital bathymetric models (DBMs). Seafloor horizons are extracted from the 3D seismic data and converted to depth using sound velocity profiles collected during seismic acquisition. The resulting seismic-derived DBMs are independent of the multibeam DBMs and are shown to be highly comparable. For the morphologically simple site, the seismic-derived DBM was within ± 2% of the multibeam DBMs and, at 2σ, 95% of differences are in the range − 1.22 to 0.10% (− 1.02 to 0.48%) for the 50-m (5-m) multibeam DBM. For the morphologically complex site, > 80% (> 99%) of seismic-derived depths were within ± 2% (± 5%) of multibeam DBMs. At 2σ, 94% of differences are in the range − 3.48 to 1.69% (− 2.73% to 2.44%) for the 50-m (5-m) multibeam DBM. Increasing morphological complexity and slope angle were the most important factors affecting DBM comparisons, with seismic-derived depths typically underestimated in canyon thalwegs. Despite these differences, the higher data density, multichannel stacking and migration of the 3D seismic data resulted in seismic-derived DBMs with high resolution and improved feature relief and clarity when compared to multibeam DBMs for the conditions in this study (depths of 120–1900 m), particularly for morphological features such as individual rills and gullies. This method has the potential to expand the spatial coverage of high-resolution DBMs, for example, in Australia, by over 150,000 km2.

Published
2019
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41. Short-interval intracortical inhibition of the biceps brachii in chronic-resistance versus non-resistance-trained individuals

Author

Shawn Wiseman, Duane C. Button, Evan J. Lockyer, Kevin E. Power, and Behzad Lahouti

Subjects
medicine.medical_specialty, business.industry, General Neuroscience, medicine.medical_treatment, 05 social sciences, Elbow, Resistance training, Isometric exercise, Short interval, Biceps, 050105 experimental psychology, Compound muscle action potential, body regions, Transcranial magnetic stimulation, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Physical medicine and rehabilitation, medicine, Intracortical inhibition, 0501 psychology and cognitive sciences, business, human activities, 030217 neurology & neurosurgery
Abstract

The purpose of this study was to investigate the effects of chronic resistance training on corticospinal excitability and short intracortical inhibition of the biceps brachii. Eight chronic resistance-trained (RT) and eight non-RT participants completed one experimental session including a total of 30 brief (7 s) elbow flexors isometric contractions at various force outputs [15, 25 and 40% of maximum voluntary contraction (MVC)]. Before the contractions, MVC, maximal compound muscle action potential (Mmax) during 5% MVC and active motor threshold (AMT) at the three various force outputs were recorded. MVC force of the chronic-RT group was 24% higher than the non-RT group (p ≤ 0.001; ω2 = 0.72). The chronic-RT group had lower AMTs at targeted forces of 15 and 25% MVC (p = 0.022 and p = 0.012, respectively) compared to the non-RT group. During 25 and 40% of MVC, the non-RT group exhibited decreased SICI in comparison to the chronic-RT group (p = 0.008; ω2 = 0.35 and p = 0.03; ω2 = 0.21, respectively). However, SICI did not differ between groups at 15% MVC (p = 0.62). In conclusion, chronic resistance training significantly reduces SICI. This suggests the presence of an adaptive process of inhibitory and facilitatory network activation, which may cancel out the SICI, allowing for increased corticomotor drive to the exercised muscle following a long period of resistance training.

Published
2019
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42. Progressive improvement in short‐, medium‐ and long‐term graft survival in kidney transplantation patients in Ireland – a retrospective study

Author

Dilly M. Little, Mark D. Denton, Yvonne Williams, Declan G. de Freitas, Ponnusamy Mohan, Khairin Khalib, Patrick O'Kelly, Christian Unterrainer, Caner Süsal, Colm Magee, Donal J. Sexton, Peter J. Conlon, William D. Plant, Gordon Smith, Anthony Dorman, Marie Keogan, Conall M. O'Seaghdha, Brendan Doyle, James C. Forde, and Richard E. Power

Subjects
Adult, Male, medicine.medical_specialty, Graft failure, Outcomes, 030230 surgery, Kidney transplant, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Long-term, medicine, Humans, Kidney transplantation, Retrospective Studies, Deceased donor kidney, Transplantation, business.industry, Graft Survival, Retrospective cohort study, Middle Aged, medicine.disease, Kidney Transplantation, Post transplant, Surgery, surgical procedures, operative, Female, 030211 gastroenterology & hepatology, Graft survival, business, Ireland
Abstract

It is often quoted that while short-term graft survival in kidney transplantation has improved in recent years, it has not translated into a commensurate improvement in long-term graft survival. We considered whether this was true of the entire experience of the national kidney transplant program in Ireland. A retrospective analysis of the National Kidney Transplant Service (NKTS) database was undertaken to investigate patient and graft survival for all adult first deceased donor kidney transplant recipients in Ireland, 1971-2015. Three thousand two hundred and sixty recipients were included in this study. Kaplan-Meier methods were used to estimate survival at each time period post transplant for the various eras of transplantation. Uncensored graft survival has improved over the course of the program in Ireland at various time points despite risk factors for graft failure progressively increasing over successive eras. For example the graft survival at 15 years post transplant has increased from 10% in 1971-1975 to 45% by 1996-2000. Ireland has experienced a progressive improvement in long-term graft survival following kidney transplantation. Whether these trends are attributable to biological or nonbiological factors is unclear but likely involves a combination of both.

Published
2019
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43. Short-interval intracortical inhibition to the biceps brachii is present during arm cycling but is not different than a position- and intensity-matched tonic contraction

Author

Duane C. Button, Kevin E. Power, Evan J. Lockyer, Alyssa-Joy Spence, and Lynsey R Alcock

Subjects
Adult, Male, medicine.medical_specialty, Motor Activity, Biceps, 050105 experimental psychology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Humans, Medicine, 0501 psychology and cognitive sciences, Muscle, Skeletal, Cerebral Cortex, Electromyography, business.industry, General Neuroscience, Interstimulus interval, 05 social sciences, Significant difference, Neural Inhibition, Evoked Potentials, Motor, Transcranial Magnetic Stimulation, Short interval, Intensity (physics), TONIC CONTRACTION, Arm, Cardiology, Intracortical inhibition, Female, business, Cycling, 030217 neurology & neurosurgery, Muscle Contraction
Abstract

We have previously shown that supraspinal excitability is higher during arm cycling than a position- and intensity-matched tonic contraction. The present study sought to determine if short-interval intracortical inhibition (SICI) was present during arm cycling and if so, if the amount of SICI was different from an intensity-matched tonic contraction. SICI was assessed using conditioning stimuli (CS) of 70 and 90% of active motor threshold (AMT) and a test stimulus (TS) of 120% AMT at an interstimulus interval (ISI) of 2.5 ms. SICI was elicited in all participants; on average (i.e., cycling and tonic contraction grouped) test MEP amplitudes were reduced by 64.2% (p

Published
2019
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44. A novel machine learning algorithm for tracking remotely sensed waves in the surf zone

Author

Hannah E. Power, Daniel L. Harris, and Caio Eadi Stringari

Subjects
Environmental Engineering, 010504 meteorology & atmospheric sciences, 010505 oceanography, business.industry, Infragravity wave, Inversion methods, Breaking wave, Beat (acoustics), Ocean Engineering, Image processing, Dissipation, Surf zone, Machine learning, computer.software_genre, 01 natural sciences, Waves and shallow water, Artificial intelligence, business, Algorithm, computer, Geology, 0105 earth and related environmental sciences
Abstract

This paper describes a novel image processing technique that detects wave breaking and tracks waves in the surf zone using machine learning procedures. Using time-space images (timestacks), the algorithm detects white pixel intensity peaks generated by breaking waves, confirms these peaks as true wave breaking events by learning from the data's true colour representation, clusters individual waves, and obtains optimal wave paths. The method was developed and tested using data from four sandy Australian beaches under different incident wave and light conditions. Results are a representation of the position of the wave front through time, i.e., space-time data, which when shown overlaid on the original timestack shows the high degree of accuracy of the method developed here. The utility of the method is demonstrated in two ways: 1) through a comparison between the instantaneous wave speed calculated from the wave paths with the theoretical shallow water wave speed, and 2) by obtaining optical intensities that could be translated into wave roller lengths. The algorithm developed here has the potential to improve understanding numerous nearshore process such as bore propagation and capture in the surf zone, surf zone energy dissipation, surf beat and infragravity waves, and as a direct speed input for depth inversion methods.

Published
2019
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46. Priority effects in microbiome assembly

Author

Reena, Debray, Robin A, Herbert, Alexander L, Jaffe, Alexander, Crits-Christoph, Mary E, Power, and Britt, Koskella

Subjects
Gastrointestinal Tract, Bacteria, Microbiota, RNA, Ribosomal, 16S, Rhizosphere
Abstract

Advances in next-generation sequencing have enabled the widespread measurement of microbiome composition across systems and over the course of microbiome assembly. Despite substantial progress in understanding the deterministic drivers of community composition, the role of historical contingency remains poorly understood. The establishment of new species in a community can depend on the order and/or timing of their arrival, a phenomenon known as a priority effect. Here, we review the mechanisms of priority effects and evidence for their importance in microbial communities inhabiting a range of environments, including the mammalian gut, the plant phyllosphere and rhizosphere, soil, freshwaters and oceans. We describe approaches for the direct testing and prediction of priority effects in complex microbial communities and illustrate these with re-analysis of publicly available plant and animal microbiome datasets. Finally, we discuss the shared principles that emerge across study systems, focusing on eco-evolutionary dynamics and the importance of scale. Overall, we argue that predicting when and how current community state impacts the success of newly arriving microbial taxa is crucial for the management of microbiomes to sustain ecological function and host health. We conclude by discussing outstanding conceptual and practical challenges that are faced when measuring priority effects in microbiomes.

Published
2021

47. Endurance-exercise training adaptations in spinal motoneurones: potential functional relevance to locomotor output and assessment in humans

Author

Kevin E, Power, Evan J, Lockyer, Alberto, Botter, Taian, Vieira, and Duane C, Button

Subjects
Motor Neurons, Endurance Training, Acclimatization, Action Potentials, Animals, Humans, Spine
Abstract

It is clear from non-human animal work that spinal motoneurones undergo endurance training (chronic) and locomotor (acute) related changes in their electrical properties and thus their ability to fire action potentials in response to synaptic input. The functional implications of these changes, however, are speculative. In humans, data suggests that similar chronic and acute changes in motoneurone excitability may occur, though the work is limited due to technical constraints. To examine the potential influence of chronic changes in human motoneurone excitability on the acute changes that occur during locomotor output, we must develop more sophisticated recording techniques or adapt our current methods. In this review, we briefly discuss chronic and acute changes in motoneurone excitability arising from non-human and human work. We then discuss the potential interaction effects of chronic and acute changes in motoneurone excitability and the potential impact on locomotor output. Finally, we discuss the use of high-density surface electromyogram recordings to examine human motor unit firing patterns and thus, indirectly, motoneurone excitability. The assessment of single motor units from high-density recording is mainly limited to tonic motor outputs and minimally dynamic motor output such as postural sway. Adapting this technology for use during locomotor outputs would allow us to gain a better understanding of the potential functional implications of endurance training-induced changes in human motoneurone excitability on motor output.

Published
2021

48. Moving forward: methodological considerations for assessing corticospinal excitability during rhythmic motor output in humans

Author

Chris T. Compton, Davis A. Forman, Evan J. Lockyer, Kevin E. Power, Gregory E. P. Pearcey, and Duane C. Button

Subjects
Periodicity, Physiology, medicine.medical_treatment, Movement, Central nervous system, Pyramidal Tracts, 03 medical and health sciences, 0302 clinical medicine, Rhythm, Isometric Contraction, Neural control, Medicine, Humans, Muscle, Skeletal, business.industry, Electromyography, General Neuroscience, 030229 sport sciences, Spinal cord, Evoked Potentials, Motor, Transcranial Magnetic Stimulation, Transcranial magnetic stimulation, medicine.anatomical_structure, business, Neuroscience, Expansive, 030217 neurology & neurosurgery, Motor cortex
Abstract

The use of transcranial magnetic stimulation to assess the excitability of the central nervous system to further understand the neural control of human movement is expansive. The majority of the work performed to-date has assessed corticospinal excitability either at rest or during relatively simple isometric contractions. The results from this work are not easily extrapolated to rhythmic, dynamic motor outputs, given that corticospinal excitability is task-, phase-, intensity-, direction-, and muscle-dependent (Power KE, Lockyer EJ, Forman DA, Button DC. Appl Physiol Nutr Metab 43: 1176–1185, 2018). Assessing corticospinal excitability during rhythmic motor output, however, involves technical challenges that are to be overcome, or at the minimum considered, when attempting to design experiments and interpret the physiological relevance of the results. The purpose of this narrative review is to highlight the research examining corticospinal excitability during a rhythmic motor output and, importantly, to provide recommendations regarding the many factors that must be considered when designing and interpreting findings from studies that involve limb movement. To do so, the majority of work described herein refers to work performed using arm cycling (arm pedaling or arm cranking) as a model of a rhythmic motor output used to examine the neural control of human locomotion.

Published
2021

49. Synthetic threads through the web of life

Author

Mary E. Power

Subjects
Gene Editing, Multidisciplinary, Evolutionary change, scale linkages, Interaction strength, NAS Colloquium on Life 2.0: The Promise and Challenge of a CRISPR Path to a Sustainable Planet, Biological, Models, Biological, interaction strength, World Wide Web, Synthetic biology, Genome editing, Models, CRISPR, ecological impacts, Genetics, Synthetic Biology, Generic health relevance, CRISPR-Cas Systems, gene drives, Know-how, Ecosystem, Software, Field science
Abstract

CRISPR-Cas gene editing tools have brought us to an era of synthetic biology that will change the world. Excitement over the breakthroughs these tools have enabled in biology and medicine is balanced, justifiably, by concern over how their applications might go wrong in open environments. We do not know how genomic processes (including regulatory and epigenetic processes), evolutionary change, ecosystem interactions, and other higher order processes will affect traits, fitness, and impacts of edited organisms in nature. However, anticipating the spread, change, and impacts of edited traits or organisms in heterogeneous, changing environments is particularly important with “gene drives on the horizon.” To anticipate how “synthetic threads” will affect the web of life on Earth, scientists must confront complex system interactions across many levels of biological organization. Currently, we lack plans, infrastructure, and funding for field science and scientists to track new synthetic organisms, with or without gene drives, as they move through open environments.

Published
2021
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50. Chronic resistance training: is it time to rethink the time course of neural contributions to strength gain?

Author

G E P, Pearcey, S, Alizedah, K E, Power, and D C, Button

Subjects
Time Factors, Humans, Resistance Training, Muscle Strength, Muscle, Skeletal, Adaptation, Physiological
Abstract

Resistance training enhances muscular force due to a combination of neural plasticity and muscle hypertrophy. It has been well documented that the increase in strength over the first few weeks of resistance training (i.e. acute) has a strong underlying neural component and further enhancement in strength with long-term (i.e. chronic) resistance training is due to muscle hypertrophy. For obvious reasons, collecting long-term data on how chronic-resistance training affects the nervous system not feasible. As a result, the effect of chronic-resistance training on neural plasticity is less understood and has not received systematic exploration. Thus, the aim of this review is to provide rationale for investigating neural plasticity beyond acute-resistance training. We use cross-sectional work to highlight neural plasticity that occurs with chronic-resistance training at sites from the brain to spinal cord. Specifically, intra-cortical circuitry and the spinal motoneuron seem to be key sites for this plasticity. We then urge the need to further investigate the differential effects of acute versus chronic-resistance training on neural plasticity, and the role of this plasticity in increased strength. Such investigations may help in providing a clearer definition of the continuum of acute and chronic-resistance training, how the nervous system is altered during this continuum and the causative role of neural plasticity in changes in strength over the continuum of resistance training.

Published
2021

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