Sympathetic Nerve Activity Predictors in Patients With Chronic Obstructive Pulmonary Disease

Recruiting

• Conditions: Catecholamine; Overproduction; Sympathetic Nervous System Diseases; COPD
• Interventions: Diagnostic Test: Assessments of the sympathetic nerve activity axis; Diagnostic Test: OSA severity; Diagnostic Test: Determination of PH and right HF severity; Diagnostic Test: Comprehensive lung function and inspiratory muscle function testing.; Diagnostic Test: Assessment of systemic inflammation

• Registration Number: NCT04849806
• Lead Sponsor: RWTH Aachen University

Brief Summary

The project will be pursued in our respiratory, autonomic nervous system physiology laboratory (Respiratory, autonomic nervous system physiology laboratory, Department of Pneumology and Intensive Care Medicine, RWTH Aachen University Hospital; Head of Department: Professor Michael Dreher).

Overactivity of the sympathetic nerve activity (SNA) axis with "centrally" increased heart rate and peripheral vasoconstriction is a known phenomenon in patients with systolic heart failure (HF) and has recently been described in patients with primary lung disease as seen in chronic obstructive pulmonary disease (COPD).

However, systematic analyses on this clinically relevant topic are currently lacking.

Thus, using a comprehensive, multimodal approach and state-of-the-art technology, this research project is designed to determine the extent and nature of increased SNA in COPD (AIM 1) and evaluate the underlying mechanisms (AIM 2).

The project will address the following hypotheses:

1. In COPD, concomitant obstructive sleep apnea is independently associated with increased SNA.

2. Precapillary pulmonary hypertension (PH), inspiratory muscle dysfunction and systemic inflammation describe a COPD phenotype characterised by increased SNA with a different subtype.

Detailed Description

The project will be pursued in our respiratory, autonomic nervous system physiology laboratory (Respiratory, autonomic nervous system physiology laboratory, Department of Pneumology and Intensive Care Medicine, RWTH Aachen University Hospital; Head of Department: Professor Michael Dreher).

Overactivity of the sympathetic nerve activity (SNA) axis is a known phenomenon in patients with systolic heart failure (HF) and has recently been described in patients with primary lung disease as seen in chronic obstructive pulmonary disease (COPD).

Thus, insights into the nature of and factors involved in increased SNA in COPD are urgently needed.

Potentially obstructive sleep apnea (OSA) with not only repetitive obstructions but also additional hypoxia and poor sleep quality additively increase SNA in COPD. In addition, inspiratory muscle dysfunction (if adequately measured by magnetic diaphragm stimulation studies and comprehensive diaphragm ultrasound) with related hypercapnia, pulmonary hypertension (PH) and systemic inflammation all likely also impact on SNA in COPD.

However, systematic analyses on this clinically relevant topic are currently lacking.

Thus, using a comprehensive, multimodal approach and state-of-the-art technology, this research project is designed to determine the extent and nature of increased SNA in COPD (AIM 1) and evaluate the underlying mechanisms (AIM 2). The project will address the following hypotheses:

1. In COPD, concomitant OSA with poor sleep is independently associated with increased SNA,.

2. PH, inspiratory muscle dysfunction and systemic inflammation describe a COPD phenotype characterised by increased SNA, manifesting differently.

To test these hypotheses COPD patients without an established cardiovascular disease will be enrolled and the extent, nature and mechanism of SNA increase compared with healthy controls matched in a 3:1 ratio for age, sex and body mass index (BMI).

Invasive assessment of muscle SNA to the point of single unit recordings with analysis of single postganglionic sympathetic firing, and hence SNA drive to the peripheral vasculature, is the gold standard for quantification of SNA in humans but is only available in a few centres worldwide because it is costly, time consuming and requires a high level of training.

A small substudy will investigate the short term acute treatment effects of non-invasive ventilation and oxygen supplementation on SNA in patients with COPD.

Study Timeline

• Study First Submitted: 2021-04-15
• Study First Submitted QC: 2021-04-15
• Study First Posted: 2021-04-19
• Study Start: 2022-05-10
• Status Verified: 2023-11
• Last Update Submitted: 2023-11-21
• Last Update Posted: 2023-11-22
• Primary Completion: 2024-04
• Study Completion: 2024-08

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 80

Inclusion Criteria

• Age ≥ 18
• Ability and willingness to give informed consent to participate in the study

Exclusion Criteria

• Atrial fibrillation
• Active pacing of the heart by a cardiac pacemaker (i.e. no intrinsic heart rate)
• Clinically pre-established cardiovascular disease (e.g. arterial hypertension or systolic heart failure)
• In-patient stay in the hospital within the last 4 weeks prior to the study examination date

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Arm && Interventions

Group	Intervention	Description
COPD patients (n=60)	Determination of PH and right HF severity	The following parameters will be determined in 60 consecutive patients with COPD without established cardiovascular disease (i.e. without an indication for beta blocker therapy or other pharmacological treatments attacking on the neurohormonal pathways like angiotensin-converting enzyme inhibitors or mineralocorticoid receptor antagonists). 1. OSA severity. 2. Determination of PH and right HF severity (defined as tricuspid annular plane systolic excursion ≤14 mm) and pulmonary arterial pressure (PAsys) using transthoracic echocardiography; 3. Comprehensive lung function and inspiratory muscle function testing ;Assessment of daytime hypoxia (PaO2 \<55 mmHg) and hypercapnia (PaCO2 \>45 mmHg) using capillary blood gas analysis; 4. Assessment of systemic inflammation
COPD patients (n=60)	Assessments of the sympathetic nerve activity axis	The following parameters will be determined in 60 consecutive patients with COPD without established cardiovascular disease (i.e. without an indication for beta blocker therapy or other pharmacological treatments attacking on the neurohormonal pathways like angiotensin-converting enzyme inhibitors or mineralocorticoid receptor antagonists). 1. OSA severity. 2. Determination of PH and right HF severity (defined as tricuspid annular plane systolic excursion ≤14 mm) and pulmonary arterial pressure (PAsys) using transthoracic echocardiography; 3. Comprehensive lung function and inspiratory muscle function testing ;Assessment of daytime hypoxia (PaO2 \<55 mmHg) and hypercapnia (PaCO2 \>45 mmHg) using capillary blood gas analysis; 4. Assessment of systemic inflammation
Controls (n=20)	OSA severity	(and in a group of healthy controls \[3:1\] matched for age, sex and BMI).
COPD patients (n=60)	OSA severity	The following parameters will be determined in 60 consecutive patients with COPD without established cardiovascular disease (i.e. without an indication for beta blocker therapy or other pharmacological treatments attacking on the neurohormonal pathways like angiotensin-converting enzyme inhibitors or mineralocorticoid receptor antagonists). 1. OSA severity. 2. Determination of PH and right HF severity (defined as tricuspid annular plane systolic excursion ≤14 mm) and pulmonary arterial pressure (PAsys) using transthoracic echocardiography; 3. Comprehensive lung function and inspiratory muscle function testing ;Assessment of daytime hypoxia (PaO2 \<55 mmHg) and hypercapnia (PaCO2 \>45 mmHg) using capillary blood gas analysis; 4. Assessment of systemic inflammation
COPD patients (n=60)	Comprehensive lung function and inspiratory muscle function testing.	The following parameters will be determined in 60 consecutive patients with COPD without established cardiovascular disease (i.e. without an indication for beta blocker therapy or other pharmacological treatments attacking on the neurohormonal pathways like angiotensin-converting enzyme inhibitors or mineralocorticoid receptor antagonists). 1. OSA severity. 2. Determination of PH and right HF severity (defined as tricuspid annular plane systolic excursion ≤14 mm) and pulmonary arterial pressure (PAsys) using transthoracic echocardiography; 3. Comprehensive lung function and inspiratory muscle function testing ;Assessment of daytime hypoxia (PaO2 \<55 mmHg) and hypercapnia (PaCO2 \>45 mmHg) using capillary blood gas analysis; 4. Assessment of systemic inflammation
Controls (n=20)	Assessments of the sympathetic nerve activity axis	(and in a group of healthy controls \[3:1\] matched for age, sex and BMI).
Controls (n=20)	Assessment of systemic inflammation	(and in a group of healthy controls \[3:1\] matched for age, sex and BMI).
Controls (n=20)	Determination of PH and right HF severity	(and in a group of healthy controls \[3:1\] matched for age, sex and BMI).
COPD patients (n=60)	Assessment of systemic inflammation	The following parameters will be determined in 60 consecutive patients with COPD without established cardiovascular disease (i.e. without an indication for beta blocker therapy or other pharmacological treatments attacking on the neurohormonal pathways like angiotensin-converting enzyme inhibitors or mineralocorticoid receptor antagonists). 1. OSA severity. 2. Determination of PH and right HF severity (defined as tricuspid annular plane systolic excursion ≤14 mm) and pulmonary arterial pressure (PAsys) using transthoracic echocardiography; 3. Comprehensive lung function and inspiratory muscle function testing ;Assessment of daytime hypoxia (PaO2 \<55 mmHg) and hypercapnia (PaCO2 \>45 mmHg) using capillary blood gas analysis; 4. Assessment of systemic inflammation
Controls (n=20)	Comprehensive lung function and inspiratory muscle function testing.	(and in a group of healthy controls \[3:1\] matched for age, sex and BMI).

Primary Outcome Measures

Name	Time	Method
Assessments of the sympathetic nerve activity axis (Non invasive)	2 years	sympathovagal balance (SVB), HRV and dBPV will be analysed using a 3-lead electrocardiogram (sampling rate 1000Hz) and a continuous non-invasive arterial blood pressure signal (CNAP® technology, sampling rate 100Hz). HRV (ms2 based on continuously recorded variability in RR intervals) and (diastolic) BPV (expressed as mmHg2 based on continuously recorded variability in diastolic BP) will be computed by time domain analysis and by frequency domain analysis and presented as the high frequency component (HF; 0.15-0.4 Hz), low frequency component (LF; 0.04-0.15 Hz), their relative ratio (LF/HF), and the very low frequency component (VLF; 0.0-0.04 Hz) for both HRV and dBPV .
Assessments of the sympathetic nerve activity axis (Invasive)	2 years	Muscle SNA will be recorded via a tungsten microelectrode carefully placed in the peroneal nerve Plasma catecholamines will be assessed Muscle SNA will be recorded via a tungsten microelectrode carefully placed in the peroneal nerve Plasma catecholamines will be assessed Muscle SNA will be recorded via a tungsten microelectrode carefully placed in the peroneal nerve. Plasma catecholamines will be assessed

Secondary Outcome Measures

Name	Time	Method
OSA severity	2 years	See above
Comprehensive lung function and inspiratory muscle function testing as previously described by our group	2 years	See above
Assessment of systemic inflammation	2 years	See above
Determination of PH and right HF severity	2 years	See above

Trial Locations

Locations (1)

RWTH Aachen University; 🇩🇪 Aachen, Germany