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Initiation of Long-term Non-invasive Ventilation in COPD (RECONSIDER)

Primary Purpose

Chronic Obstructive Pulmonary Disease

Status
Completed
Phase
Not Applicable
Locations
Netherlands
Study Type
Interventional
Intervention
Transcutaneous measurements of PCO2
Telemonitoring
EMG
Home initiation of NIV
Inhospital initiation of NIV
Sponsored by
University Medical Center Groningen
About
Eligibility
Locations
Arms
Outcomes
Full info

About this trial

This is an interventional treatment trial for Chronic Obstructive Pulmonary Disease focused on measuring Chronic Obstructive Pulmonary Disease, Non-invasive ventilation, Home initiation

Eligibility Criteria

18 Years - undefined (Adult, Older Adult)All SexesDoes not accept healthy volunteers

This study will be set up in COPD patients with CHRF who were referred to our centre to start chronic NIV.

Inclusion criteria:

  • Indication to initiate chronic NIV in COPD patients (GOLD stage III or IV: FEV1/ forced vital capacity (FVC)< 70% and FEV1< 50% predicted; PaCO2 > 6.0 kPa in stable condition, which means no COPD exacerbation for 4 weeks and a pH > 7.35)
  • Age > 18 years
  • Existence of a sufficient social support network making initiation of HMV at home possible and safe.

Exclusion Criteria:

  • Instable severe cardiac comorbidities (left ventricular ejection fraction below 45%, instable angina pectoris complaints)
  • Patients admitted to a nursing home

Sites / Locations

  • University Medical Center Groningen

Arms of the Study

Arm 1

Arm 2

Arm Type

Experimental

Active Comparator

Arm Label

Home initiation

Inhospital initiation

Arm Description

Home initiation of long-term NIV will be compared with standard in-hospital initiation. NIV at home will be titrated by a specialised nurse of our home mechanical ventilation centre (HMV) on transcutaneously measured gas exchange and respiratory electromyography and will be adjusted with the use of telemedicine.

Inhospital initiation of NIV is standard care and in the study will be set as the control arm.

Outcomes

Primary Outcome Measures

Change in daytime PaCO2
An arterial function will be performed during spontaneous breathing without oxygen after 6 months.

Secondary Outcome Measures

Change in FEV1
Change in FEV1, assessed by spirometry, according to the ERS guidelines.
Change in health-related quality of life (HRQoL)
HRQoL will be assessed by the Severe Respiratory Insufficiency (SRI) questionnaire. The SRI is a well-known and validated HRQoL questionnaire especially designed for patients with CHRF on HMV.
Incremental cost-utility ratio
In the economic evaluation, the primary aim will be to estimate the direct medical costs of the initiation at home compared to the current national guideline of initiating ventilatory support in the hospital. Cost-effectiveness will be investigated by estimating the healthcare costs of home initiation and usual care and the HRQoL gains of the two options. For the purpose of estimating HRQoL gains both the SRI and the EuroQol (EQ-5D) will be assessed, at baseline and after six months follow up. The incremental cost-utility ratio (ICUR) will be calculated
Number of participants with treatment-related adverse events
Treatment related adverse events are aerophagia, mask-related problems (skin irritation) or excessive mask leaks.
Compliance
Compliance with the home ventilator will be read from ventilator counter readings. The mean number of hours use per day is registered.
Change in exercise tolerance
Exercise tolerance will be assessed with the 6-minute walking test, performed according to the European Respiratory Society/American Thoracic Society guidelines, along a 30 m indoor course, with standardised encouragements given by the investigator. Oxygen will be prescribed in the regular amount advised to the patient during exercise. Oxygen saturation, heart rate, and Borg dyspnoea scores will be assessed prior to the test and at the end of the test for safety reasons. The outcome will be the number of meters walked.
Change in hyperinflation
Hyperinflation will be assessed by measuring total lung capacity (TLC) and residual volume (RV), and assessing the RV%TLC ratio, according to the ERS guidelines
Change in diffusion capacity
Diffusion capacity will be assessed by measuring carbon monoxide transfer factor, according to the ERS guidelines
Change in PaCO2
An arterial function will be performed during spontaneous breathing without oxygen after 3 months.

Full Information

First Posted
January 6, 2016
Last Updated
December 13, 2018
Sponsor
University Medical Center Groningen
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1. Study Identification

Unique Protocol Identification Number
NCT02652559
Brief Title
Initiation of Long-term Non-invasive Ventilation in COPD
Acronym
RECONSIDER
Official Title
Treatment of Chronic Respiratory Failure in COPD Patients With Non-invasive Ventilation: Starting at Home and Selecting the Right Patient
Study Type
Interventional

2. Study Status

Record Verification Date
December 2018
Overall Recruitment Status
Completed
Study Start Date
June 2016 (Actual)
Primary Completion Date
July 25, 2018 (Actual)
Study Completion Date
July 25, 2018 (Actual)

3. Sponsor/Collaborators

Responsible Party, by Official Title
Principal Investigator
Name of the Sponsor
University Medical Center Groningen

4. Oversight

Data Monitoring Committee
Yes

5. Study Description

Brief Summary
Rationale: Application of long-term non-invasive ventilation (NIV) in stable chronic obstructive pulmonary disease (COPD) patients with chronic hypercapnic respiratory failure (CHRF) has recently been shown to improve survival and quality of life when applied with sufficiently high inspiratory pressures and adequate backup breathing frequencies (so called high-intensity NIV). However, for a broader implementation of this therapy in a potentially large group of patients, important issues have to be solved. First, the initiation of high-intensity NIV, currently performed in the hospital, is often time-consuming, expensive and inconvenient for patients. Secondly, although clinicians recognise that not all patients benefit, it is not known which factors predict a positive response. Objectives: To investigate whether home initiation of chronic NIV in stable COPD patients with CHRF is non-inferior to inpatient initiation. To investigate predictors of a favourable response to chronic NIV in COPD patients with CHRF. Study design: The study is 1:1 two-arm parallel group randomised controlled trial comparing the usual inpatient NIV initiation to home initiation. Study population: Seventy-two COPD patients with a NIV indication (COPD GOLD stage III or IV; partial arterial carbon dioxide pressure (PaCO2) > 6.0 kPa in stable condition, i.e. no COPD exacerbation for 4 weeks and a pH > 7.35), a sufficient social network at home, without severe cardiac comorbidities, will be included. Intervention: Home initiation of NIV will be compared with standard in-hospital initiation. NIV at home will be titrated by a specialised nurse of our home mechanical ventilation centre (HMV) on transcutaneously measured gas exchange and respiratory electromyography and will be adjusted with the use of telemedicine. Main study parameters/endpoints: To investigate non-inferiority of home initiation, the change in arterial carbon dioxide pressure after 3 months treatment will be the primary outcome. Secondary outcomes are safety, change in lung function, health-related quality of life (HRQoL) and costs. To investigate predictors of a favourable response, patient demographics, and baseline data on lung function as well as measures of respiratory muscle activity, arterial blood gases, comorbidities, inflammatory blood markers and anxiety and depressions scores will be collected of all patients.
Detailed Description
COPD is a chronic disease with high mortality and morbidity worldwide. Patients with end-stage COPD frequently develop CHRF associated with end-of-life. In that stage of disease, treatment options are limited. Long-term nocturnal NIV has been applied in patients with chronic alveolar hypoventilation for decades. While there is no doubt that applying chronic nocturnal NIV improves outcomes in patients with restrictive and neuromuscular diseases, the evidence in COPD patients has long been controversial. At the HMV centre Groningen, the majority of patients treated with NIV therefore still concerns patients with neuromuscular diseases. Initial trials investigating chronic NIV in COPD showed no relevant benefits, neither in terms of improvement in gas exchange nor in improvements in patient-centred outcomes as HRQoL.However, most of these trials used low inspiratory pressures so that improvement of alveolar hypoventilation was not or only partially achieved. Consequently, little improvement in clinical outcomes could be expected. More than 10 years ago, the concept of high-intensity NIV in COPD was introduced. By applying higher inspiratory pressures and breathing frequencies aimed at a more controlled form of ventilation and improvement in gas exchange, clinically relevant improvements in HRQoL and lung function were observed, without undue loss of patient comfort. Recently, a German group conclusively showed that high-intensity NIV improves survival in severe COPD patients with CHRF. These positive results with high-intensity NIV have changed our view towards the use of chronic NIV in stable COPD. Nowadays, the investigators believe that the evidence for long-term nocturnal NIV is convincing and justifies the application of this therapy in patients with severe stable COPD patients with CHRF. Nevertheless, for a broader implementation of this treatment in a potentially large group of severe COPD patients, important issues have to be solved. First, the current inpatient NIV initiation process has to be reconsidered, which despite tight titration based on arterial blood gases, does not always lead to good patient compliance, is inconvenient for patients and is expensive. While it might be thought that high-intensity NIV necessitates inpatient titration to gain adequate reversal of hypoventilation, different in hospital set ups of NIV initiation (on a general ward, medium care unit or on an intensive care unit), with different ways of titration (guided by transcutaneous carbon dioxide (PtCO2) or arterial blood gases (PaCO2)), have not resulted in different outcomes or a different compliance at the long-term. Also, these inpatient options are expensive as initiation of NIV in COPD routinely requires 5-14 days. Recently, our group of the HMV centre Groningen has shown that, in patients with neuromuscular and restrictive thoracic diseases, initiation of NIV can safely be performed at home. Initiation of NIV at home was preferred by the patients, was equally effective and saved costs compared to inpatient initiation. Importantly, COPD patients have been excluded in this randomised controlled trial (RCT), as at the start of that study chronic NIV in COPD was not considered a regular standard treatment option in the Netherlands. Furthermore, initiation of NIV in COPD patients at that time was thought to be probably too difficult to be performed at home, because high-intensity NIV is needed in this patient group to improve outcomes. However, challenges with the initiation of high-intensity NIV require attention, but do not necessarily have to be solved in-hospital. On the one hand, patients with COPD need higher inspiratory pressures and higher backup breathing frequencies as it is more difficult to correct alveolar hypoventilation in lung parenchyma diseases compared to diseases in which the lungs are not primarily affected, such as in neuromuscular disease. On the other hand, the investigators believe that careful high-intensity NIV initiation and titration should not only focus on maximal improvement in PaCO2 but also on patient comfort. The consequence of high-intensity might be that COPD patients need even more time and attention from caregivers to get used to the high pressures and high backup frequencies before our target can be reached, i.e. improvement in gas exchange and respiratory muscle unloading, before the conditions also for a good long-term compliance can be satisfied. Finding the individual high-intensity setting leading to sufficient improvement in objective physiological parameters is challenging in this group of patients. This process therefore probably requires more frequent and more intensive monitoring. At home, the investigators will optimise monitoring of the patients with the use of frequent non-invasive monitoring of gas exchange with transcutaneous measurements (SenTec DM®, Software V-STATS 4.0; SenTec AG; Therwil, Switzerland). Secondly, analysis of data read from the ventilator software (Respironics Trilogy 202®, Philips, the Netherlands) will be used to provide information about compliance and the actual provided ventilation. Finally, the investigators will aid measurements of respiratory muscle activity by means of surface electromyography (EMG) as a relatively new tool which can aid in optimising NIV initiation. Surface EMG is a new tool that might help to optimise NIV initiation. It has been shown that especially high-intensity NIV is able to unload the respiratory muscles (Duiverman, work in progress).This might importantly add to the achievement of clinical relevant benefits. Until now, no studies have used non-invasive measurements of respiratory muscle unloading to optimise initiation of NIV. In the last decade, I have developed and validated a surface EMG technique for use in COPD patients, measuring respiratory muscle activity as a surrogate of respiratory neural drive and thus muscle loading. As this method is non-invasive, it can easily be applied at home. Furthermore, surface EMG can be used to asses patient-ventilator asynchrony (PVA). Especially with higher inspiratory pressures and/or high breathing frequencies PVA may arise.PVA is important as it leads to increased work of breathing, decreased patient comfort and less effective ventilation. During the traditional in-hospital NIV initiation, one might suggest that an indication of respiratory muscle (un)loading and patient-ventilator synchrony is received through observation of the patient. However, observation by the respiratory nurses is mostly of limited time and detects only events leading to a huge excess of respiratory muscle loading, such as during severe PVA. During home initiation, direct observation is far less easy and less frequent. In concordance with a recent study showing that parasternal EMG can be used to assess PVA in a mixed group of patients initiated on home NIV, the investigators have shown in a recent pilot project that also our surface EMG is feasible to measure respiratory muscle unloading and detect PVA, of note, during different settings, also high-intensity NIV (submitted work). As the use of surface EMG for optimising NIV initiation is relatively new, the investigators will extend the monitoring of patients in both groups including surface EMG as a surrogate marker of respiratory muscle unloading and to detect PVA during NIV. For the second issue, the necessity for acclimatisation time and caregiver attention, very elegant solutions are available to provide this at home too. A longer initiation period can better be met at home, in a trusted environment for the patient, saving the disadvantages and costs of a prolonged hospital stay. With modern technologies the necessary caregiver attention can also be provided at home. Monitoring data can be sent to caregivers on daily basis by telemonitoring. This proven technology enables caregivers to make on daily basis, on distance, decisions regarding the NIV initiation process, which will be discussed with the patient by frequent telephone calls. This so called telemedicine has already been shown to be a valuable and promising tool to monitor and to adjust treatment of patients already established on chronic NIV at home. In our home NIV initiation pilot project in neuromuscular patients, the investigators were the first to show in a RCT that this technology was very feasible to use for NIV initiation at home. The second important issue to be solved regards better patient selection. By collecting the baseline and follow-up data of the COPD patients initiated on NIV, the investigators aim to find predictors of a favourable response to NIV. It is known, from clinical practice and from studies, that not all patients respond favourably. Until now, data have shown that patients with CHRF benefit. Furthermore, benefits at least in terms of improvement in gas exchange, seem to be more prominent in patients with severe stable hypercapnia. In contrast, our group has shown that patients that remain hypercapnic after an exacerbation do not uniformly benefit. An individual COPD phenotype benefiting most from this demanding therapy has not been identified. The aim of the present study is to investigate whether home initiation of chronic NIV in stable COPD patients with CHRF is non-inferior to inpatient initiation in terms of improvement in PaCO2 after 6 months. Secondary outcomes are change in lung function (forced expiratory volume in 1 second (FEV1), lung volumes (total lung capacity (TLC), residual volume (RV) and RV%TLC), and diffusion capacity (DLCO (%predicted)), change in HRQoL, and costs including cost-effectiveness analyses. The secondary objective of the study is to collect patient demographics (age, weight, height, social status, HRQoL, anxiety and depression scores, data on comorbidities and medication use), respiratory function (lung function as well as measures of respiratory muscle activity, arterial blood gases), and inflammatory blood markers, in order to analyse how differences in baseline parameters are related to changes in HRQoL.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Chronic Obstructive Pulmonary Disease
Keywords
Chronic Obstructive Pulmonary Disease, Non-invasive ventilation, Home initiation

7. Study Design

Primary Purpose
Treatment
Study Phase
Not Applicable
Interventional Study Model
Parallel Assignment
Masking
None (Open Label)
Allocation
Randomized
Enrollment
67 (Actual)

8. Arms, Groups, and Interventions

Arm Title
Home initiation
Arm Type
Experimental
Arm Description
Home initiation of long-term NIV will be compared with standard in-hospital initiation. NIV at home will be titrated by a specialised nurse of our home mechanical ventilation centre (HMV) on transcutaneously measured gas exchange and respiratory electromyography and will be adjusted with the use of telemedicine.
Arm Title
Inhospital initiation
Arm Type
Active Comparator
Arm Description
Inhospital initiation of NIV is standard care and in the study will be set as the control arm.
Intervention Type
Device
Intervention Name(s)
Transcutaneous measurements of PCO2
Intervention Description
PCO2 will be measured transcutaneously with an ear lobe sensor before initiation of NIV, and during the initiation period (SenTec DM®, Software V-STATS 4.0; SenTec AG; Therwil, Switzerland)
Intervention Type
Device
Intervention Name(s)
Telemonitoring
Intervention Description
Telemonitoring will be used to send data from the transcutaneous measurements, data from the EMG measurements and data from the ventilator from home to the hospital.
Intervention Type
Device
Intervention Name(s)
EMG
Intervention Description
Surface EMG of the respiratory muscles will be used to monit patients in both groups as a surrogate marker of respiratory muscle unloading and to detect PVA during NIV
Intervention Type
Other
Intervention Name(s)
Home initiation of NIV
Intervention Description
The primary aim of the study is to compare home and inhospital initiation of NIV
Intervention Type
Other
Intervention Name(s)
Inhospital initiation of NIV
Intervention Description
The primary aim of the study is to compare home and inhospital initiation of NIV
Primary Outcome Measure Information:
Title
Change in daytime PaCO2
Description
An arterial function will be performed during spontaneous breathing without oxygen after 6 months.
Time Frame
Baseline, 6 months
Secondary Outcome Measure Information:
Title
Change in FEV1
Description
Change in FEV1, assessed by spirometry, according to the ERS guidelines.
Time Frame
Baseline, 6 months
Title
Change in health-related quality of life (HRQoL)
Description
HRQoL will be assessed by the Severe Respiratory Insufficiency (SRI) questionnaire. The SRI is a well-known and validated HRQoL questionnaire especially designed for patients with CHRF on HMV.
Time Frame
Baseline, 6 months
Title
Incremental cost-utility ratio
Description
In the economic evaluation, the primary aim will be to estimate the direct medical costs of the initiation at home compared to the current national guideline of initiating ventilatory support in the hospital. Cost-effectiveness will be investigated by estimating the healthcare costs of home initiation and usual care and the HRQoL gains of the two options. For the purpose of estimating HRQoL gains both the SRI and the EuroQol (EQ-5D) will be assessed, at baseline and after six months follow up. The incremental cost-utility ratio (ICUR) will be calculated
Time Frame
Baseline, 6 months
Title
Number of participants with treatment-related adverse events
Description
Treatment related adverse events are aerophagia, mask-related problems (skin irritation) or excessive mask leaks.
Time Frame
Baseline, 3 months and 6 months
Title
Compliance
Description
Compliance with the home ventilator will be read from ventilator counter readings. The mean number of hours use per day is registered.
Time Frame
Baseline, 3 months and 6 months
Title
Change in exercise tolerance
Description
Exercise tolerance will be assessed with the 6-minute walking test, performed according to the European Respiratory Society/American Thoracic Society guidelines, along a 30 m indoor course, with standardised encouragements given by the investigator. Oxygen will be prescribed in the regular amount advised to the patient during exercise. Oxygen saturation, heart rate, and Borg dyspnoea scores will be assessed prior to the test and at the end of the test for safety reasons. The outcome will be the number of meters walked.
Time Frame
Baseline, 6 months
Title
Change in hyperinflation
Description
Hyperinflation will be assessed by measuring total lung capacity (TLC) and residual volume (RV), and assessing the RV%TLC ratio, according to the ERS guidelines
Time Frame
Baseline, 6 months
Title
Change in diffusion capacity
Description
Diffusion capacity will be assessed by measuring carbon monoxide transfer factor, according to the ERS guidelines
Time Frame
Baseline, 6 months
Title
Change in PaCO2
Description
An arterial function will be performed during spontaneous breathing without oxygen after 3 months.
Time Frame
Baseline, 3 months

10. Eligibility

Sex
All
Minimum Age & Unit of Time
18 Years
Accepts Healthy Volunteers
No
Eligibility Criteria
This study will be set up in COPD patients with CHRF who were referred to our centre to start chronic NIV. Inclusion criteria: Indication to initiate chronic NIV in COPD patients (GOLD stage III or IV: FEV1/ forced vital capacity (FVC)< 70% and FEV1< 50% predicted; PaCO2 > 6.0 kPa in stable condition, which means no COPD exacerbation for 4 weeks and a pH > 7.35) Age > 18 years Existence of a sufficient social support network making initiation of HMV at home possible and safe. Exclusion Criteria: Instable severe cardiac comorbidities (left ventricular ejection fraction below 45%, instable angina pectoris complaints) Patients admitted to a nursing home
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Marieke Duiverman, MD PhD
Organizational Affiliation
University Medical Center Groningen
Official's Role
Principal Investigator
Facility Information:
Facility Name
University Medical Center Groningen
City
Groningen
ZIP/Postal Code
9700 RB
Country
Netherlands

12. IPD Sharing Statement

Plan to Share IPD
No
Citations:
PubMed Identifier
31484786
Citation
Duiverman ML, Vonk JM, Bladder G, van Melle JP, Nieuwenhuis J, Hazenberg A, Kerstjens HAM, van Boven JFM, Wijkstra PJ. Home initiation of chronic non-invasive ventilation in COPD patients with chronic hypercapnic respiratory failure: a randomised controlled trial. Thorax. 2020 Mar;75(3):244-252. doi: 10.1136/thoraxjnl-2019-213303. Epub 2019 Sep 4.
Results Reference
derived

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Initiation of Long-term Non-invasive Ventilation in COPD

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