Stephanie Brotherston scite author profile

Stephanie Brotherston

5Publications

18Citation Statements Received

66Citation Statements Given

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Affiliations

Great Ormond Street Hospital for Children NHS Foundation Trust, Great Ormond Street Hospital

Publications

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“You're on mute!” Does pediatric CF home spirometry require physiologist supervision?

Fettes

Riley

Brotherston

et al. 2021

Pediatric Pulmonology

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Introduction:The coronavirus disease 2019 (COVID-19) pandemic has accelerated the move towards home spirometry monitoring, including in children.The aim of this study is to determine whether the remote supervision of spirometry by a physiologist improves the technical quality and failure rate of the maneuvers.Method: Children with cystic fibrosis who had been provided with NuvoAir home spirometers were randomly allocated to either supervised or unsupervised home spirometry following a detailed training session. Home spirometry was performed every 2 weeks for 12 weeks. Tests were assigned a quality factor (QF) using our laboratory grading system as per American Thoracic Society/European Respiratory Society standards, with tests marked from A to D, or Fail. In our laboratory, we aim for QF A in all spirometry tests, but report results of QF B or C with a cautionary note. QF A was, therefore, the primary outcome, and QF A-C, the secondary outcome.Results: Sixty-one patients were enrolled; 166 measurements were obtained in the supervised group, and 153 in the unsupervised group. Significantly more measurements achieved QF A in the supervised compared to unsupervised group (89% vs. 74%; p = <0.001), while proportions reaching Grade A-C were similar (99% vs. 95%; p = 0.1). All significant declines in spirometry results had a clinical rather than technical reason. Family/patient feedback for both arms was very positive. Conclusion:These results suggest that home spirometry in children should ideally be remotely supervised by a physiologist, but acceptable results can be obtained if resources do not allow this, provided that training is delivered and results monitored according to our protocol.

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Modified hypoxic challenge testing in children needing nocturnal ventilation: An observational study

Riley

Brotherston

Kelly

et al. 2022

Pediatric Pulmonology

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Background: Guidelines for air passengers with respiratory disease focus on primary lung pathology. Little evidence exists to guide professionals advising children needing ventilatory support because of neuromuscular or central hypoventilation conditions; these children might risk hypoxia and hypercapnia if unable to mount an adequate hyperventilation response.Objective: This study assessed the response to low ambient oxygen using a modified hypoxic challenge test. In addition to measuring pulse oximetry and response to supplementary oxygen, we also measured transcutaneous carbon dioxide and response to ventilatory support. Methods: Twenty children on nocturnal ventilatory support aged 1.6−18 years were recruited in a pragmatic sample from outpatient clinics; 10 with neuromuscular weakness and 10 with central hypoventilation. Participants underwent a two-stage, modified hypoxic challenge test; a conventional stage, where oxygen alone was titrated according to SpO 2, and a new stage, where participants used their routine ventilatory support with oxygen titrated if needed. Participants were interviewed to understand their experiences of testing and of air travel.Results: Thirteen participants needed supplemental oxygen during the conventional stage, but only two did when using ventilatory support. Transcutaneous carbon dioxide remained within normal range for all participants, on or off ventilatory support. Whilst some participants found testing challenging, participants generally reported both testing and air travel to be valuable. Conclusions:Evaluating response to patients' usual ventilation through "fitness-tofly" assessment aids decision making when considering whether children who receive nocturnal ventilation can travel by air, since for some using a ventilator reduces or avoids the need for supplemental oxygen.

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550 Modified hypoxic challenge testing in children on nocturnal ventilation

Samuels

Riley

Kelly

et al. 2022

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79 Does a reduced forced vital capacity compare with abnormal sleep study results?

Griffiths

Kiran

Martins

et al. 2020

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115 Family experiences of flying and testing: ‘fitness to fly’

Pike

Kelly

Brotherston

et al. 2020

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to-face. The DNA rate was 11.2%. In the three post-pandemic months this year, 101 clinics with 1171 patients were booked, 60.5% of these being telephonic, and total DNA was significantly reduced to 5.9% (p<0.05). Additionally, there was a 38% increase in the numbers of patients assessed in the clinic. Conclusions The shift from having only face-to-face clinics to virtual clinics has led to increase in the number of clinics allowing more patients to be assessed, with improved DNA rates during and after the pandemic. Given the nature of the specialty, a large proportion of children will continue to need on-site assessment, but the service challenges imposed by the pandemic has created opportunities for smarter and higher volume working using technological means within a busy outpatient service.

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