Your search keyword '"Starkey, Michelle L"' showing total 6 results

1. Additional file 1 of The development of lived experience-centered word clouds to support research uncertainty gathering in degenerative cervical myelopathy: results from an engagement process and protocol for their evaluation, via a nested randomized controlled trial

Author

Davies, Benjamin M., Mowforth, Oliver D., Khan, Danyal Z., Yang, Xiaoyu, Stacpoole, Sybil R. L., Hazenbiller, Olesja, Gronlund, Toto, Tetreault, Lindsay, Kalsi-Ryan, Sukhvinder, Starkey, Michelle L., Sadler, Iwan, Sarewitz, Ellen, Houlton, Delphine, Carter, Julia, Howard, Evangeline, Rahimi-Movaghar, Vafa, Guest, James D., Aarabi, Bizhan, Kwon, Brian K., Kurpad, Shekar N., Harrop, James, Wilson, Jefferson R., Grossman, Robert, Smith, Emma K., McNair, Angus G.K., Fehlings, Michael G., and Kotter, Mark R. N.

Abstract

Additional file 1. Supporting Information 1: Covering information provided to indicate the background and requirements. Supporting Information 2: Covering information for the second round of word cloud development. Supporting Information 3: Words suggested by members of Myelopathy Support, before processing by the RECODE-DCM Management Group. Supporting Information 4: Screen shots from the polls in action [A] Diagnosis and [B] Treatment.

Published

2021

2. RE-CODE DCM (REsearch Objectives and Common Data Elements for Degenerative Cervical Myelopathy): A Consensus Process to Improve Research Efficiency in DCM, Through Establishment of a Standardized Dataset for Clinical Research and the Definition of the Research Priorities

Author

Davies, Benjamin M, Khan, Danyal Z, Mowforth, Oliver D, McNair, Angus GK, Gronlund, Toto, Kolias, Angelos G, Tetreault, Lindsay, Starkey, Michelle L, Sadler, Iwan, Sarewitz, Ellen, Houlton, Delphine, Carter, Julia, Kalsi-Ryan, Sukhvinder, Aarabi, Bizhan, Kwon, Brian K, Kurpad, Shekar N, Harrop, James, Wilson, Jefferson R, Grossman, Robert, Curt, Armin, Fehlings, Michael G, Kotter, Mark RN, Davies, Benjamin [0000-0003-0591-5069], Kolias, Angelos [0000-0003-3992-0587], Kotter, Mark [0000-0001-5145-7199], and Apollo - University of Cambridge Repository

Subjects

disc herniation, Core Outcomes in Effectiveness Trials (COMET), cervical, audit, Delphi, James Lind Alliance (JLA), cervical stenosis, spondylosis, myelopathy, research priorities, consensus, common data elements (CDE), outcome, surveillance, dataset, protocol, OPLL

Abstract

Study Design: Mixed-method consensus process. Objectives: Degenerative cervical myelopathy (DCM) is a common and disabling condition that arises when mechanical stress damages the spinal cord as a result of degenerative changes in the surrounding spinal structures. RECODE-DCM (REsearch Objectives and Common Data Elements for Degenerative Cervical Myelopathy) aims to improve efficient use of health care resources within the field of DCM by using a multi-stakeholder partnership to define the DCM research priorities, to develop a minimum dataset for DCM clinical studies, and confirm a definition of DCM. Methods: This requires a multi-stakeholder partnership and multiple parallel consensus development processes. It will be conducted via 4 phases, adhering to the guidance set out by the COMET (Core Outcomes in Effectiveness Trials) and JLA (James Lind Alliance) initiatives. Phase 1 will consist of preliminary work to inform online Delphi processes (Phase 2) and a consensus meeting (Phase 3). Following the findings of the consensus meeting, a synthesis of relevant measurement instruments will be compiled and assessed as per the COSMIN (Consensus-based Standards for the Selection of Health Measurement Instruments) criteria, to allow recommendations to be made on how to measure agreed data points. Phase 4 will monitor and promote the use of eventual recommendations. Conclusions: RECODE-DCM sets out to establish for the first time an index term, minimum dataset, and research priorities together. Our aim is to reduce waste of health care resources in the future by using patient priorities to inform the scope of future DCM research activities. The consistent use of a standard dataset in DCM clinical studies, audit, and clinical surveillance will facilitate pooled analysis of future data and, ultimately, a deeper understanding of DCM.

Published

2019

3. RE-CODE DCM (REsearch Objectives and Common Data Elements for Degenerative Cervical Myelopathy): A Consensus Process to Improve Research Efficiency in DCM, Through Establishment of a Standardized Dataset for Clinical Research and the Definition of the Research Priorities

Author

Davies, Benjamin M, Khan, Danyal Z, Mowforth, Oliver D, McNair, Angus GK, Gronlund, Toto, Kolias, Angelos G, Tetreault, Lindsay, Starkey, Michelle L, Sadler, Iwan, Sarewitz, Ellen, Houlton, Delphine, Carter, Julia, Kalsi-Ryan, Sukhvinder, Aarabi, Bizhan, Kwon, Brian K, Kurpad, Shekar N, Harrop, James, Wilson, Jefferson R, Grossman, Robert, Curt, Armin, Fehlings, Michael G, and Kotter, Mark RN

Subjects

disc herniation, Core Outcomes in Effectiveness Trials (COMET), cervical, audit, Delphi, 3. Good health, James Lind Alliance (JLA), cervical stenosis, spondylosis, myelopathy, research priorities, consensus, common data elements (CDE), outcome, surveillance, dataset, cardiovascular diseases, protocol, OPLL

Abstract

Study Design: Mixed-method consensus process. Objectives: Degenerative cervical myelopathy (DCM) is a common and disabling condition that arises when mechanical stress damages the spinal cord as a result of degenerative changes in the surrounding spinal structures. RECODE-DCM (REsearch Objectives and Common Data Elements for Degenerative Cervical Myelopathy) aims to improve efficient use of health care resources within the field of DCM by using a multi-stakeholder partnership to define the DCM research priorities, to develop a minimum dataset for DCM clinical studies, and confirm a definition of DCM. Methods: This requires a multi-stakeholder partnership and multiple parallel consensus development processes. It will be conducted via 4 phases, adhering to the guidance set out by the COMET (Core Outcomes in Effectiveness Trials) and JLA (James Lind Alliance) initiatives. Phase 1 will consist of preliminary work to inform online Delphi processes (Phase 2) and a consensus meeting (Phase 3). Following the findings of the consensus meeting, a synthesis of relevant measurement instruments will be compiled and assessed as per the COSMIN (Consensus-based Standards for the Selection of Health Measurement Instruments) criteria, to allow recommendations to be made on how to measure agreed data points. Phase 4 will monitor and promote the use of eventual recommendations. Conclusions: RECODE-DCM sets out to establish for the first time an index term, minimum dataset, and research priorities together. Our aim is to reduce waste of health care resources in the future by using patient priorities to inform the scope of future DCM research activities. The consistent use of a standard dataset in DCM clinical studies, audit, and clinical surveillance will facilitate pooled analysis of future data and, ultimately, a deeper understanding of DCM.

4. Rewiring of the corticospinal tract in the adult rat after unilateral stroke and anti-Nogo-A therapy

Author

Lindau, Nicolas T., Bänninger, Balthasar J., Gullo, Miriam, Good, Nicolas A., Bachmann, Lukas C., Starkey, Michelle L., and Schwab, Martin E.

Subjects

Stroke, Plasticity, Somatotopic reorganization, education, Midline crossing fibres, Anti-Nogo-A, health care economics and organizations, humanities, 3. Good health

Abstract

Brain: A Journal of Neurology, 137 (3), ISSN:0006-8950, ISSN:1460-2156

5. High-Impact, Self-Motivated Training Within an Enriched Environment With Single Animal Tracking Dose-Dependently Promotes Motor Skill Acquisition and Functional Recovery

Author

Frank Buschmann, Martin E. Schwab, Hansjörg Kasper, Miriam Gullo, Michelle L. Starkey, Christiane Bleul, Björn Zörner, Alice C. Mosberger, Stefan Giger, University of Zurich, and Starkey, Michelle L

Subjects

medicine.medical_specialty, medicine.medical_treatment, Central nervous system, education, 610 Medicine & health, Motor Activity, Task (project management), Dreyfus model of skill acquisition, Physical medicine and rehabilitation, medicine, Animals, Rats, Long-Evans, Spinal cord injury, Spinal Cord Injuries, Environmental enrichment, Rehabilitation, Behavior, Animal, Training (meteorology), Recovery of Function, General Medicine, medicine.disease, Rats, Disease Models, Animal, 2742 Rehabilitation, 2728 Neurology (clinical), medicine.anatomical_structure, Motor Skills, 2808 Neurology, Female, 10046 Balgrist University Hospital, Swiss Spinal Cord Injury Center, Animal studies, Psychology

Abstract

Functional recovery following central nervous system injuries is strongly influenced by rehabilitative training. In the clinical setting, the intensity of training and the level of motivation for a particular task are known to play important roles. With increasing neuroscience studies investigating the effects of training and rehabilitation, it is important to understand how the amount and type of training of individuals influences outcome. However, little is known about the influence of spontaneous “self-training” during daily life as it is often uncontrolled, not recorded, and mostly disregarded. Here, we investigated the effects of the intensity of self-training on motor skill acquisition in normal, intact rats and on the recovery of functional motor behavior following spinal cord injury in adult rats. We used a custom-designed small animal tracking system, “RatTrack,” to continuously record the activity of multiple rats, simultaneously in a complex Natural Habitat–enriched environment. Naïve, adult rats performed high-intensity, self-motivated motor training, which resulted in them out-performing rats that were conventionally housed and trained on skilled movement tasks, for example, skilled prehension (grasping) and ladder walking. Following spinal cord injury the amount of self-training was correlated with improved functional recovery. These data suggest that high-impact, self-motivated training leads to superior skill acquisition and functional recovery than conventional training paradigms. These findings have important implications for the design of animal studies investigating rehabilitation and for the planning of human rehabilitation programs.

Published

2014

6. How Plastic Is the Brain after a Stroke?

Author

Martin E. Schwab, Michelle L. Starkey, University of Zurich, and Starkey, Michelle L

Subjects

medicine.medical_specialty, Population ageing, business.industry, General Neuroscience, Psychological intervention, 2800 General Neuroscience, 610 Medicine & health, medicine.disease, Affect (psychology), Lesion, Physical medicine and rehabilitation, Clinical research, Quality of life (healthcare), 2728 Neurology (clinical), Health care, medicine, 10046 Balgrist University Hospital, Swiss Spinal Cord Injury Center, Neurology (clinical), medicine.symptom, business, Stroke, Neuroscience

Abstract

Stroke is a common problem, and with an aging population, it is likely to become more so. Outcomes from stroke are wide ranging from death to complete recovery, but the majority result in severe motor impairments that affect quality of life and become a burden on health care systems, family, and friends. Therapeutically, removal of thromboses can greatly improve outcomes, but for many stroke sufferers, the only currently available therapy is rehabilitative training in which spared brain areas and fiber tracts are strengthened and trained to take over new functions. Experimental data in animals show that this is in part based on changes in the connectivity of the brain and spinal cord and on the growth of new nerve fiber branches, a process called structural plasticity. So, just how plastic is the brain after a stroke? In this review, we explore the factors that affect plasticity after strokes, such as age and the overall size and location of the lesion. We discuss the peri-infarct area as extensive research has shown that processes occurring there are likely to be involved mechanistically in plastic changes in cortical circuitry. Finally, we review promising interventions being tested preclinically and discuss those that have been translated into clinical research.

Published

2014