Your search keyword '"Bilo J"' showing total 3 results

1. Correction: the ACCELERATE Plus (assessment and communication excellence for safe patient outcomes) Trial Protocol: a stepped-wedge cluster randomised trial, cost-benefit analysis, and process evaluation.

Author

Liu M, Whittam S, Thornton A, Goncharov L, Slade D, McElduff B, Kelly P, Law CK, Walsh S, Pollnow V, Cuffe J, McMahon J, Aggar C, Bilo J, Bowen K, Chow JSF, Duffy K, Everett B, Ferguson C, Frost SA, Gleeson N, Hackett K, Komusanac I, Marshall S, May S, McErlean G, Melbourne G, Murphy J, Newbury J, Newman D, Rihari-Thomas J, Sciuriaga H, Sturgess L, Taylor J, Tuqiri K, McInnes E, and Middleton S

Published

2023

2. The ACCELERATE Plus (assessment and communication excellence for safe patient outcomes) Trial Protocol: a stepped-wedge cluster randomised trial, cost-benefit analysis, and process evaluation.

Author

Liu M, Whittam S, Thornton A, Goncharov L, Slade D, McElduff B, Kelly P, Law CK, Walsh S, Pollnow V, Cuffe J, McMahon J, Aggar C, Bilo J, Bowen K, Chow JSF, Duffy K, Everett B, Ferguson C, Frost SA, Gleeson N, Hackett K, Komusanac I, Marshall S, May S, McErlean G, Melbourne G, Murphy J, Newbury J, Newman D, Rihari-Thomas J, Sciuriaga H, Sturgess L, Taylor J, Tuqiri K, McInnes E, and Middleton S

Abstract

Background: Nurses play an essential role in patient safety. Inadequate nursing physical assessment and communication in handover practices are associated with increased patient deterioration, falls and pressure injuries. Despite internationally implemented rapid response systems, falls and pressure injury reduction strategies, and recommendations to conduct clinical handovers at patients' bedside, adverse events persist. This trial aims to evaluate the effectiveness, implementation, and cost-benefit of an externally facilitated, nurse-led intervention delivered at the ward level for core physical assessment, structured patient-centred bedside handover and improved multidisciplinary communication. We hypothesise the trial will reduce medical emergency team calls, unplanned intensive care unit admissions, falls and pressure injuries., Methods: A stepped-wedge cluster randomised trial will be conducted over 52 weeks. The intervention consists of a nursing core physical assessment, structured patient-centred bedside handover and improved multidisciplinary communication and will be implemented in 24 wards across eight hospitals. The intervention will use theoretically informed implementation strategies for changing clinician behaviour, consisting of: nursing executive site engagement; a train-the-trainer model for cascading facilitation; embedded site leads; nursing unit manager leadership training; nursing and medical ward-level clinical champions; ward nurses' education workshops; intervention tailoring; and reminders. The primary outcome will be a composite measure of medical emergency team calls (rapid response calls and 'Code Blue' calls), unplanned intensive care unit admissions, in-hospital falls and hospital-acquired pressure injuries; these measures individually will also form secondary outcomes. Other secondary outcomes are: i) patient-reported experience measures of receiving safe and patient-centred care, ii) nurses' perceptions of barriers to physical assessment, readiness to change, and staff engagement, and iii) nurses' and medical officers' perceptions of safety culture and interprofessional collaboration. Primary outcome data will be collected for the trial duration, and secondary outcome surveys will be collected prior to each step and at trial conclusion. A cost-benefit analysis and post-trial process evaluation will also be undertaken., Discussion: If effective, this intervention has the potential to improve nursing care, reduce patient harm and improve patient outcomes. The evidence-based implementation strategy has been designed to be embedded within existing hospital workforces; if cost-effective, it will be readily translatable to other hospitals nationally., Trial Registration: Australian New Zealand Clinical Trials Registry ID: ACTRN12622000155796. Date registered: 31/01/2022., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

3. The spatiotemporal development of innervation in spinal ligaments of chickens.

Author

Jiang H, Moreau M, Greidanus N, Bilo J, Russell G, Raso J, and Bagnall K

Subjects

Animals, Chickens, Mechanoreceptors ultrastructure, Nerve Fibers ultrastructure, Ligaments innervation, Scoliosis etiology, Spine innervation

Abstract

The development of the innervation of both central and lateral (intertransverse) spinal ligaments was investigated in chickens between the time of hatching and 13 wk of age. A total of 36 White Leghorn chickens in 4 groups of 9 at ages 0, 2, 7, and 13 wk were used. The spinal ligaments were dissected, serially sectioned and labelled with a monoclonal antibody against neurofilament protein and observed using either conventional fluorescence or confocal microscopy. Only a few nerve elements were found in the ligaments at hatching and these consisted simply of single nerve fibres and small nerve bundles. The number of nerve elements increased rapidly up to 7 wk of age when large nerve bundles and Ruffini corpuscles were also found. The number of nerve elements decreased between 7 and 13 wk birds when the ligaments had begun to ossify and the amount of collagenous ligamentous tissue was significantly reduced. The fluctuation in numbers of neural elements was due to changes in numbers of single nerve fibres and small nerve bundles rather than large nerve bundles and Ruffini corpuscles which remained constant. In contrast to this significant increase in numbers of nerve elements, the innervation density of the ligaments decreased because of the overwhelming increase of the ligament volume due to growth. There were no differences between ligaments on the left and right sides of the body, but there was an unequal distribution of the neural elements within the ligaments; most were found in the cranial third of the intertransverse ligaments. These results show that significant changes in innervation of spinal ligaments occur during development and reflect the possibility that damage to the ligaments during this time could produce significant and permanent damage, especially in relation to the maintenance of an erect spine.

Published

1996