Polysomnographic titration of non-invasive ventilation in motor neurone disease (3TLA): study protocol for a randomised controlled trial

on behalf of the 3TLA Trial Group; David J. Berlowitz; Dominic Rowe; Mark E. Howard; Amanda Piper; Marnie Graco; Sabine Braat; Bhajan Singh; Tanara Viera Souza; Natasha Lannin; Alistair McLean; Abbey Sawyer; Kate A. Carey; Yasmin Ahamed; Peter Wu; John Wheatley; Ostoja Steve Vucic; Gethin Thomas; Paul Talman; Irene Szollosi; Bec Sheean; Linda Rautela; Chris Michael; Collette Menadue; Chris Kosky; Matthew Kiernan; Anne Holland; Liam Hannan; Kim Dalziel; Deanne Curtin; Caroline Chao; Vinod Aiyappan; Uwe Aickelin

doi:10.1186/s13063-024-08464-4

Polysomnographic titration of non-invasive ventilation in motor neurone disease (3TLA): study protocol for a randomised controlled trial

on behalf of the 3TLA Trial Group, David J. Berlowitz, Dominic Rowe, Mark E. Howard, Amanda Piper, Marnie Graco, Sabine Braat, Bhajan Singh, Tanara Viera Souza, Natasha Lannin, Alistair McLean, Abbey Sawyer, Kate A. Carey, Yasmin Ahamed, Peter Wu, John Wheatley, Ostoja Steve Vucic, Gethin Thomas, Paul Talman, Irene SzollosiBec Sheean, Linda Rautela, Chris Michael, Collette Menadue, Chris Kosky, Matthew Kiernan, Anne Holland, Liam Hannan, Kim Dalziel, Deanne Curtin, Caroline Chao, Vinod Aiyappan, Uwe Aickelin

Research output: Contribution to journal › Article › peer-review

Abstract

Background: Non-invasive ventilation (NIV) uses positive pressure to assist people with respiratory muscle weakness or severe respiratory compromise to breathe. Most people use this treatment during sleep when breathing is most susceptible to instability. The benefits of using NIV in motor neurone disease (MND) are well-established. However, uptake and usage are low (~ 19%) and there is no consensus on how to best implement NIV in MND in Australia. Consequently, clinical practice models are highly variable. Our team has recently provided evidence that specific and individualised NIV titration using a sleep study (polysomnography; PSG) leads to better outcomes in people with MND. However, for this clinical practice model to result in sustained benefits, evidence of effectiveness across multiple sites, as well as culture and practice change, must occur. Methods: A two-arm, assessor-blinded, individual participant randomised controlled trial in MND care centres across Australia will be undertaken. Two-hundred and forty-four participants will be randomised (1:1) to either the intervention group (PSG-assisted commencement of NIV settings; PSG) or a control group (sham PSG). Participants will be asked to use their NIV device for 7 weeks and will then return for follow-up assessments. Respiratory, sleep and patient-reported outcome measures will be collected at baseline and follow-up. The primary aim is to determine if the proportion of participants using NIV for > 4 h/day during the intervention period is higher in the PSG than the control group. A process evaluation, health economic evaluation and 12-month cohort follow-up will be undertaken and reported separately. Discussion: The results of this trial will demonstrate the effects of PSG-assisted titration of NIV on usage of NIV in people with MND. We hypothesise that the PSG intervention will improve synchrony between the user and the machine, which will lead to greater NIV usage compared to the control group. Trial registration: ClinicalTrials.gov NCT05136222. Registered on November 25, 2021.

Original language	English
Article number	10
Number of pages	10
Journal	Trials
Volume	26
Issue number	1
DOIs	https://doi.org/10.1186/s13063-024-08464-4
Publication status	E-pub ahead of print - 6 Jan 2025

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on behalf of the 3TLA Trial Group, Berlowitz, D. J., Rowe, D., Howard, M. E., Piper, A., Graco, M., Braat, S., Singh, B., Souza, T. V., Lannin, N., McLean, A., Sawyer, A., Carey, K. A., Ahamed, Y., Wu, P., Wheatley, J., Vucic, O. S., Thomas, G., Talman, P., ... Aickelin, U. (2025). Polysomnographic titration of non-invasive ventilation in motor neurone disease (3TLA): study protocol for a randomised controlled trial. Trials, 26(1), Article 10. Advance online publication. https://doi.org/10.1186/s13063-024-08464-4

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title = "Polysomnographic titration of non-invasive ventilation in motor neurone disease (3TLA): study protocol for a randomised controlled trial",

abstract = "Background: Non-invasive ventilation (NIV) uses positive pressure to assist people with respiratory muscle weakness or severe respiratory compromise to breathe. Most people use this treatment during sleep when breathing is most susceptible to instability. The benefits of using NIV in motor neurone disease (MND) are well-established. However, uptake and usage are low (~ 19%) and there is no consensus on how to best implement NIV in MND in Australia. Consequently, clinical practice models are highly variable. Our team has recently provided evidence that specific and individualised NIV titration using a sleep study (polysomnography; PSG) leads to better outcomes in people with MND. However, for this clinical practice model to result in sustained benefits, evidence of effectiveness across multiple sites, as well as culture and practice change, must occur. Methods: A two-arm, assessor-blinded, individual participant randomised controlled trial in MND care centres across Australia will be undertaken. Two-hundred and forty-four participants will be randomised (1:1) to either the intervention group (PSG-assisted commencement of NIV settings; PSG) or a control group (sham PSG). Participants will be asked to use their NIV device for 7 weeks and will then return for follow-up assessments. Respiratory, sleep and patient-reported outcome measures will be collected at baseline and follow-up. The primary aim is to determine if the proportion of participants using NIV for > 4 h/day during the intervention period is higher in the PSG than the control group. A process evaluation, health economic evaluation and 12-month cohort follow-up will be undertaken and reported separately. Discussion: The results of this trial will demonstrate the effects of PSG-assisted titration of NIV on usage of NIV in people with MND. We hypothesise that the PSG intervention will improve synchrony between the user and the machine, which will lead to greater NIV usage compared to the control group. Trial registration: ClinicalTrials.gov NCT05136222. Registered on November 25, 2021.",

keywords = "Amyotrophic lateral sclerosis, Chronic respiratory failure, Motor neurone disease, Non-invasive ventilation, Polysomnography, Sleep study",

author = "{on behalf of the 3TLA Trial Group} and Berlowitz, {David J.} and Dominic Rowe and Howard, {Mark E.} and Amanda Piper and Marnie Graco and Sabine Braat and Bhajan Singh and Souza, {Tanara Viera} and Natasha Lannin and Alistair McLean and Abbey Sawyer and Carey, {Kate A.} and Yasmin Ahamed and Peter Wu and John Wheatley and Vucic, {Ostoja Steve} and Gethin Thomas and Paul Talman and Irene Szollosi and Bec Sheean and Linda Rautela and Chris Michael and Collette Menadue and Chris Kosky and Matthew Kiernan and Anne Holland and Liam Hannan and Kim Dalziel and Deanne Curtin and Caroline Chao and Vinod Aiyappan and Uwe Aickelin",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = jan,

day = "6",

doi = "10.1186/s13063-024-08464-4",

language = "English",

volume = "26",

journal = "Trials",

issn = "1745-6215",

publisher = "BMC Proceedings",

number = "1",

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on behalf of the 3TLA Trial Group, Berlowitz, DJ, Rowe, D, Howard, ME, Piper, A, Graco, M, Braat, S, Singh, B, Souza, TV, Lannin, N, McLean, A, Sawyer, A, Carey, KA, Ahamed, Y, Wu, P, Wheatley, J, Vucic, OS, Thomas, G, Talman, P, Szollosi, I, Sheean, B, Rautela, L, Michael, C, Menadue, C, Kosky, C, Kiernan, M, Holland, A, Hannan, L, Dalziel, K, Curtin, D, Chao, C, Aiyappan, V & Aickelin, U 2025, 'Polysomnographic titration of non-invasive ventilation in motor neurone disease (3TLA): study protocol for a randomised controlled trial', Trials, vol. 26, no. 1, 10. https://doi.org/10.1186/s13063-024-08464-4

TY - JOUR

T1 - Polysomnographic titration of non-invasive ventilation in motor neurone disease (3TLA)

T2 - study protocol for a randomised controlled trial

AU - on behalf of the 3TLA Trial Group

AU - Berlowitz, David J.

AU - Rowe, Dominic

AU - Howard, Mark E.

AU - Piper, Amanda

AU - Graco, Marnie

AU - Braat, Sabine

AU - Singh, Bhajan

AU - Souza, Tanara Viera

AU - Lannin, Natasha

AU - McLean, Alistair

AU - Sawyer, Abbey

AU - Carey, Kate A.

AU - Ahamed, Yasmin

AU - Wu, Peter

AU - Wheatley, John

AU - Vucic, Ostoja Steve

AU - Thomas, Gethin

AU - Talman, Paul

AU - Szollosi, Irene

AU - Sheean, Bec

AU - Rautela, Linda

AU - Michael, Chris

AU - Menadue, Collette

AU - Kosky, Chris

AU - Kiernan, Matthew

AU - Holland, Anne

AU - Hannan, Liam

AU - Dalziel, Kim

AU - Curtin, Deanne

AU - Chao, Caroline

AU - Aiyappan, Vinod

AU - Aickelin, Uwe

PY - 2025/1/6

Y1 - 2025/1/6

N2 - Background: Non-invasive ventilation (NIV) uses positive pressure to assist people with respiratory muscle weakness or severe respiratory compromise to breathe. Most people use this treatment during sleep when breathing is most susceptible to instability. The benefits of using NIV in motor neurone disease (MND) are well-established. However, uptake and usage are low (~ 19%) and there is no consensus on how to best implement NIV in MND in Australia. Consequently, clinical practice models are highly variable. Our team has recently provided evidence that specific and individualised NIV titration using a sleep study (polysomnography; PSG) leads to better outcomes in people with MND. However, for this clinical practice model to result in sustained benefits, evidence of effectiveness across multiple sites, as well as culture and practice change, must occur. Methods: A two-arm, assessor-blinded, individual participant randomised controlled trial in MND care centres across Australia will be undertaken. Two-hundred and forty-four participants will be randomised (1:1) to either the intervention group (PSG-assisted commencement of NIV settings; PSG) or a control group (sham PSG). Participants will be asked to use their NIV device for 7 weeks and will then return for follow-up assessments. Respiratory, sleep and patient-reported outcome measures will be collected at baseline and follow-up. The primary aim is to determine if the proportion of participants using NIV for > 4 h/day during the intervention period is higher in the PSG than the control group. A process evaluation, health economic evaluation and 12-month cohort follow-up will be undertaken and reported separately. Discussion: The results of this trial will demonstrate the effects of PSG-assisted titration of NIV on usage of NIV in people with MND. We hypothesise that the PSG intervention will improve synchrony between the user and the machine, which will lead to greater NIV usage compared to the control group. Trial registration: ClinicalTrials.gov NCT05136222. Registered on November 25, 2021.

AB - Background: Non-invasive ventilation (NIV) uses positive pressure to assist people with respiratory muscle weakness or severe respiratory compromise to breathe. Most people use this treatment during sleep when breathing is most susceptible to instability. The benefits of using NIV in motor neurone disease (MND) are well-established. However, uptake and usage are low (~ 19%) and there is no consensus on how to best implement NIV in MND in Australia. Consequently, clinical practice models are highly variable. Our team has recently provided evidence that specific and individualised NIV titration using a sleep study (polysomnography; PSG) leads to better outcomes in people with MND. However, for this clinical practice model to result in sustained benefits, evidence of effectiveness across multiple sites, as well as culture and practice change, must occur. Methods: A two-arm, assessor-blinded, individual participant randomised controlled trial in MND care centres across Australia will be undertaken. Two-hundred and forty-four participants will be randomised (1:1) to either the intervention group (PSG-assisted commencement of NIV settings; PSG) or a control group (sham PSG). Participants will be asked to use their NIV device for 7 weeks and will then return for follow-up assessments. Respiratory, sleep and patient-reported outcome measures will be collected at baseline and follow-up. The primary aim is to determine if the proportion of participants using NIV for > 4 h/day during the intervention period is higher in the PSG than the control group. A process evaluation, health economic evaluation and 12-month cohort follow-up will be undertaken and reported separately. Discussion: The results of this trial will demonstrate the effects of PSG-assisted titration of NIV on usage of NIV in people with MND. We hypothesise that the PSG intervention will improve synchrony between the user and the machine, which will lead to greater NIV usage compared to the control group. Trial registration: ClinicalTrials.gov NCT05136222. Registered on November 25, 2021.

KW - Amyotrophic lateral sclerosis

KW - Chronic respiratory failure

KW - Motor neurone disease

KW - Non-invasive ventilation

KW - Polysomnography

KW - Sleep study

UR - http://www.scopus.com/inward/record.url?scp=85214511728&partnerID=8YFLogxK

U2 - 10.1186/s13063-024-08464-4

DO - 10.1186/s13063-024-08464-4

M3 - Article

C2 - 39762986

AN - SCOPUS:85214511728

SN - 1745-6215

VL - 26

JO - Trials

JF - Trials

IS - 1

M1 - 10

ER -

Polysomnographic titration of non-invasive ventilation in motor neurone disease (3TLA): study protocol for a randomised controlled trial

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