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Scientific correspondence discussing methodological aspects and diagnostic accuracy of high-speed video analysis in studies of primary ciliary dyskinesia and its role alongside other diagnostic approaches in respiratory medicine research.
Year: 2019
Subject: Primary ciliary dyskinesia diagnosis and diagnostic test accuracy
Document type: Scientific correspondence / research discussion
Authors: Jane S Lucas; Bruna Rubbo; Claire L Jackson; Robert A Hirst; Claire Hogg; Christopher O’Callaghan; Isabel C Reading; Amelia Shoemark
Institutions: University Hospital Southampton NHS Foundation Trust; University of Southampton Faculty of Medicine; University of Leicester; Royal Brompton Hospital; Imperial College London; UCL Great Ormond Street Institute of Child Health; University of Dundee
Country: United Kingdom
Field: Respiratory medicine; clinical diagnostics
Keywords: primary ciliary dyskinesia; diagnostic tests; high-speed video analysis; microscopy; nasal nitric oxide
Conflict of interest statement: All authors declared no conflicts of interest
Referenced guidelines: European Respiratory Society guidelines for the diagnosis of primary ciliary dyskinesia; American Thoracic Society clinical practice guideline
Related methods discussed: high-speed video analysis (HSVA); nasal nitric oxide measurement; transmission electron microscopy; genetic testing; immunofluorescence testing
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Validation of paediatric health-related quality of life instruments for primary ciliary dyskinesia (QOL-PCD)
Year: 2018
Region / City: Southampton, UK; Chapel Hill, North Carolina, USA; Toronto, Ontario, Canada; Miami, Florida, USA; London, UK
Topic: Paediatric health-related quality of life instruments, Primary ciliary dyskinesia
Document Type: Research article
Author: Laura Behan, Margaret W Leigh, Sharon D Dell, Alexandra L Quittner, Claire Hogg, Jane S Lucas
Target Audience: Researchers, clinicians, healthcare professionals, and institutions involved in rare diseases and respiratory medicine
Period of Validity: N/A
Approval Date: N/A
Date of Changes: N/A
Primary ciliary dyskinesia in the genomics age
Year: 2026
Region / city: Southampton, UK; Chapel Hill, NC, USA; Muenster, Germany; Dundee, UK; London, UK
Topic: Primary ciliary dyskinesia, genetics, clinical research
Document type: Review article
Institution: University Hospital Southampton NHS Foundation Trust; University of Southampton; University of North Carolina School of Medicine; University Hospital Muenster; University of Dundee; Royal Brompton and Harefield NHS Trust
Authors: Jane S Lucas, Stephanie D. Davis, Heymut Omran, Amelia Shoemark
Correspondence: Jane Lucas, [email protected]
Funding: NIHR Southampton Biomedical Research Centre, NHS England, Genetic Disorders of Mucociliary Clearance Consortium, German Research Foundation, Horizon2020, COST Action BEAT-PCD
Key words: primary ciliary dyskinesia, cilia, diagnosis, genetic testing, treatment
Target audience: clinicians, researchers in genetics and pulmonology
Abstract word count: 5617
Ethics / conflicts of interest: disclosed financial and non-financial interests as reported by authors
Clinical relevance: respiratory disease, neonatal care, infertility, rare disease genetics
End date of coverage: current
Validation of paediatric health-related quality of life instruments for primary ciliary dyskinesia (QOL-PCD)
Year: 2018
Region / City: Southampton, UK; Chapel Hill, North Carolina, USA; Toronto, Ontario, Canada; Miami, Florida, USA; London, UK
Topic: Paediatric health-related quality of life instruments, Primary ciliary dyskinesia
Document Type: Research article
Author: Laura Behan, Margaret W Leigh, Sharon D Dell, Alexandra L Quittner, Claire Hogg, Jane S Lucas
Target Audience: Researchers, clinicians, healthcare professionals, and institutions involved in rare diseases and respiratory medicine
Period of Validity: N/A
Approval Date: N/A
Date of Changes: N/A
Primary ciliary dyskinesia in the genomics age
Year: 2026
Region / city: Southampton, UK; Chapel Hill, NC, USA; Muenster, Germany; Dundee, UK; London, UK
Topic: Primary ciliary dyskinesia, genetics, clinical research
Document type: Review article
Institution: University Hospital Southampton NHS Foundation Trust; University of Southampton; University of North Carolina School of Medicine; University Hospital Muenster; University of Dundee; Royal Brompton and Harefield NHS Trust
Authors: Jane S Lucas, Stephanie D. Davis, Heymut Omran, Amelia Shoemark
Correspondence: Jane Lucas, [email protected]
Funding: NIHR Southampton Biomedical Research Centre, NHS England, Genetic Disorders of Mucociliary Clearance Consortium, German Research Foundation, Horizon2020, COST Action BEAT-PCD
Key words: primary ciliary dyskinesia, cilia, diagnosis, genetic testing, treatment
Target audience: clinicians, researchers in genetics and pulmonology
Abstract word count: 5617
Ethics / conflicts of interest: disclosed financial and non-financial interests as reported by authors
Clinical relevance: respiratory disease, neonatal care, infertility, rare disease genetics
End date of coverage: current
General construction and functional requirements of a high-speed transfer device
Note: Year
Theme: Electrical engineering, control systems
Document Type: Technical specifications
Target Audience: Engineers, technical specialists
Hybrid Quantum-Assisted Levitation Integrated with Ambient Magnetic Recycling: A Sustainable Approach for Next-Generation High-Speed Transportation
Year: 2026
Region / City: Global
Topic: High-Speed Transportation, Quantum Levitation, Magnetic Recycling
Document Type: Research Paper
Organization: Not specified
Author: Not specified
Target Audience: Researchers, Engineers, Transportation Industry Professionals
Period of Validity: Ongoing
Approval Date: Not specified
Date of Changes: Not specified
Contextual Description: A research paper proposing a novel Hybrid Quantum-Assisted Levitation system integrated with Ambient Magnetic Recycling for sustainable high-speed transportation, focusing on reducing energy consumption and improving scalability.
IPTV service deployment scenarios in high-speed broadband era
Year: 2017
Region / City: Macau, China
Topic: IPTV, broadband, linear TV, broadcast, UHDTV
Document Type: ITU-T Technical Paper
Organization: International Telecommunication Union (ITU-T)
Author: Hideki YAMAMOTO
Target Audience: Service operators, telecom professionals
Effective Period: Ongoing
Approval Date: 27 October 2017
Change Log Date: 27 October 2017
Coexistence between High-Speed Railway Train-to-Trackside Radiocommunication Systems and Active and Passive Services in the 92–109.5 GHz Frequency Bands
Year: 2018
Date: 17 November 2018
Organization: International Telecommunication Union Radiocommunication Sector (ITU-R)
Working Group: Radiocommunication Study Groups, Working Party 5A
Document Number: Document 5A/TEMP/352, Annex 21 to Document 5A/976-E
Document Type: Working document toward a preliminary draft new ITU-R report
Subject: Railway radiocommunication systems between train and trackside (RSTT)
Topic: Spectrum sharing and compatibility analysis
Frequency Bands: 92–94 GHz; 94.1–100 GHz; 102–109.5 GHz
Related Services: Mobile service; Earth exploration-satellite service (active and passive); Radio astronomy service
Technical Focus: Interference protection and coexistence between railway radiocommunication systems and incumbent radio services
Acronyms: RSTT (Railway radiocommunication system between train and trackside); RAU (Radio access unit)
Referenced Standards: ITU-R Recommendations P.452, P.1411, RA.769, RS.1166, RS.1861, RS.2017, RS.2105; ITU-R Reports F.2239 and M.2418
Application Context: High-speed railway communication links between on-board equipment and trackside infrastructure operating near 100 GHz
An Assessment of Computational Fluid Dynamics Predictions of the Hydrodynamics of High-Speed Planing Craft in Calm Water and Waves
Year: 2024
Region / City: Nantes, France
Topic: Computational Fluid Dynamics, Hydrodynamics, High-Speed Planing Craft
Document Type: Conference Paper
Organization / Institution: Naval Surface Warfare Center, Naval Hydrodynamics Department, Leidos Corporation, University of Iowa, United States Naval Academy
Authors: T. C. Fu, K. A. Brucker, S. M. Mousaviraad, C. M. Ikeda, E. J. Lee, T. T. O’Shea, Z. Wang, F. Stern, C. Q. Judge
Target Audience: Researchers, Engineers, Hydrodynamics Experts
Period of Application: 2024
Approval Date: 2024
Date of Changes: Not specified
Topics: ciliary dyskinesia high-speed