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A quick relaxation exercise for people with chronic obstructive pulmonary disease: explorative randomized controlled trial

Multidisciplinary Respiratory Medicine volume 13, Article number: 13 (2018) Cite this article

Abstract

Background

People with Chronic Obstructive Pulmonary Disease (COPD) suffer from dyspnoea, which may be increased by anxiety. Previous studies suggest that relaxation techniques may have positive effects in pulmonary rehabilitation. The main aim of this study is to explore the clinical impact of a quick, one-session, relaxation training for people with COPD.

Methods

In this perspective, 38 participants with COPD were recruited and randomly assigned to listen to a relaxing audio or to watch a neutral stimulus, during their routine exams. Participants were assessed for psychological and physiological variables, analysed through non-parametric tests.

Results

Those who joined the relaxation training showed more positive outcomes about respiratory and cardiac assessments, as well as for state anxiety and positive affections, in comparison with the baseline and the control group.

Conclusions

Study results suggest that relaxation has a potential to produce improvements in respiratory and cardiac functions, together with a positive emotional effect and a reduction of anxiety.

Trial registration

ClinicalTrials.gov ID: NCT02698904. Record Registration: February 2016.

Background

Chronic Obstructive Pulmonary Disease (COPD) is a complex, debilitating, and preventable lung condition, characterized by "persistent and progressive airflow limitation due to chronic inflammatory response in the airways and the lung to noxious particles or gases" with different degrees of impairment [1]. There is a progressive pulmonary function impairment that leads to a lower exercise tolerance and, in severe conditions, to the need for oxygen and possibly mechanical ventilation [2]. Other main symptoms of COPD include chronic cough, dyspnea, overproduction of sputum, wheezing, chest tightness, asthenia, weight loss, and anorexia [1]. All these symptoms have a negative impact on the quality of life [3, 4]. The prevalence of the diseases is increasing as there is an increasing exposure to risk factors [5,6,7]. In fact, it is estimated that COPD may become the third cause of death in the world by 2020 [8]. In this respect, in patients with advanced COPD and severe chronic hypoxemia refractory to maximal treatment with bronchodilator and anti-inflammatory drugs, smoking cessation and long-term oxygen therapy are the only two interventions that have unequivocally shown to reduce COPD mortality [1].

Pulmonary rehabilitation is very important at any stage of the disease, improving the ability to tolerate fatigue and dyspnea, with a beneficial effect on daily activities [9,10,11,12]. People with COPD are at risk of severe distress [13]. Depression and anxiety often appear together in these patients [14], even if the actual presence of psychological issues tends to be underestimated by the physicians [15]. Therefore, these aspects often remain untreated [14, 16, 17], with negative effects on the quality of life [18, 19].

Relaxation techniques are psychophysiological procedures that promote somatic and cognitive distension, relieving from tensions. These techniques are widely used in rehabilitation and are very effective against anxiety and distress [20, 21]. Both the physiological and the psychological effects of relaxation have a positive effect on people affected by pulmonary diseases [22], improving the oxygen saturation [23, 24] and promoting a reduction of anxiety and depression in people with COPD [25,26,27]. The cost-effectiveness of adding this technique to a rehabilitation program, however, is not clear [27, 28]. So far [29], relaxation training for people with COPD has often been tested in the mainframe of more general interventions (e.g., Cognitive Behavioral Therapy - CBT). We believe that a quick relaxation training, provided by an audio-guide right after their hospital exams, will promote positive emotions, reduce state anxiety and improve respiratory conditions. In this perspective, our aim is to investigate the feasibility of the relaxation technique’s application for people with COPD, exploring its preliminary efficacy and effectiveness in a short time of implementation. To date, no study has looked at verifying the experience of a brief relaxation exercise impact breathing and psychological parameters in people with COPD in the context of a clinical visit.

Methods

Study aims

The main aim of this study is to explore the effectiveness, feasibility and acceptability of a quick, one-session, relaxation training for people with Chronic Obstructive Pulmonary Disease (COPD) in a short time of implementation.

Design and setting of the study

We conducted an explorative, two-arms, single-blind Randomized Controlled Trial (RCT) to test the short-term effects of a one-session relaxation training based on mindful natural breathing on people with COPD. Thirty-eight subjects with COPD were recruited from the Respiratory Rehabilitation Unit of the Don Gnocchi Hospital, in Milan. The study was approved by the Don Gnocchi Foundation Ethical Committee. ClinicalTrials.gov ID: NCT02698904.

Participants

Inclusion criteria were defined as follow: diagnosis of COPD confirmed by a specialized physician; age above or equal to 18 years; inpatients or outpatients; basal FEV1/FVC < 70% of reference values, using the standards established by Global Initiative for Chronic Obstructive Lung Disease (GOLD) [1]. Subjects were excluded in case of pregnancy, psychiatric disturbances, oncological diseases and comorbid states that determine an immunosuppressive condition.

Subjects who met the inclusions criteria were randomly allocated to two groups. A simple randomization and an allocation ratio 1:1 were adopted (Fig. 1).

Fig. 1
figure 1

Flow Chart of the procedure

Full size image

Informed consent was obtained. At baseline assessment, as well as at the end of the intervention (soon after), patients were assessed both about their psychological state (psychometric questionnaires) and their pulmonary function and physiological conditions (spirometry, saturation level and heart rate). While assessed, participants were blinded to their assignment.

Intervention

Subjects in the experimental group (EG) listened to a relaxing audio track of the duration of 11 min. The content of the audio track was a relaxation exercise based on the mindful natural breathing [30]. Instructions included becoming aware of the sensations of breathing, accepting them as they are at the present moment and non-judgmental awareness of mind wandering. Subjects laid down on a rigid but not hard bed, with a pillow, to facilitate muscle release, listening to the audio track with a pair of headphones. Instructions included focusing on the breathing mechanism, by purposefully paying attention to the breath, placing the left hand on the chest and the right on abdomen, improving the perception of torso movements. These exercises aim to increase the awareness of the respiratory process, leading to a relaxation response [31]. Relaxing music was played on the background. Subjects were advised to close their eyes.

Participants in the control group (CG), instead, watched a documentary movie that included neutral contents and the same duration of the relaxation audio, in a relaxing setting similar to the other group.

Instruments

Physiological assessment

We assessed COPD severity with the lung function test, detecting Forced Vital Capacity (FVC), Forced Expiratory Volume in the First Second (FEV1), Tiffeneau-Pinelli Index (FEV1/FVC) with spirometer PONY FX (COSMED Srl, Rome, Italy). We also used the module Rocc Pony FX, which allows the measurement of airway resistance (kPa/l/s) using the technique of interrupter resistance (Rint). Furthermore, we detected the heart rate and oxygen saturation using pulse oximeter, Pulsox 300i (Konica Minolta, Inc.). The criteria used to determine if the spirometry tests were performed to an acceptable degree followed the Thoracic Society/European Respiratory Society Statement [32].

State trait anxiety inventory - Y1 and Y2 forms (STAI- Y1 Y2)

The State-Trait Anxiety Inventory (STAI) is a self-report assessment device which includes separate measures of state and trait anxiety [33].

Positive and negative affective schedule (PANAS) (state version)

The state version of Positive and Negative Affective Schedule (PANAS) was completed before and after treatment. It consists of 20 items, 10 for the scale of positive affect (PA) and 10 for the scale of negative affect (NA). The subject should evaluate his feelings with a five-point Likert scale. The original version was developed and validated by Watson, Clark and Tellegen in 1988 and it possesses excellent psychometric properties [34].

Visual analogue scales (VAS)

Patients scored their emotional state on a Visual Analogue Scale (VAS), before and after the treatment. In particular, each subject was asked to rate on a range of 0–7 the intensity of its liveliness, sadness, anger, surprise, anxiety, repugnance, fury and serenity at the moment of the administration.

Short flow state scale (short FSS-2)

A short form of Flow State Scale, called Short FSS-2, was completed after treatment to assess the possible state of flow experience [35].

Statistical analysis

Data analysis was conducted with the statistical software Statistical Package for Social Science (SPSS). Given the relatively small sample and the expectation of a non-normal distribution, we opted for the use of non-parametric tests. Differences between the two groups were analyzed with the Mann-Whitney U test, while within analyses were conducted with the Wilcoxon test. The significance level was set to 0,05.

Results

Sample characteristics

The study sample (see Table 1) was composed by 38 participants (23 males and 15 females), with a mean age of 72.66 years old. The mean length of illness was 2.03 years. All subjects had moderately severe chronic airflow limitations with an average FEV1 of 54.26% of the reference value and an average FVC of 72.11%.

Table 1 Comparison of socio-demographic characteristics and baseline parameters of patients in overall sample, study and control groups (p < 0.05)a
Full size table

Differences between groups before and after treatment

After the treatment, we found significant differences (Table 2) in favor of the EG in comparison with the CG concerning heart rate (U = 95, z = − 2504, p = 0.006). There were also significant differences between groups about both emotional states, assessed by VAS (U = 108, z = − 2129, p = 0.016), and anxiety state, detected by STAI-Y1 (U = 104.5, z = 2223, p = 0.013).

Table 2 Comparison of psychological characteristics, pulmonary functions and other clinical data between groups at the end of the study (p < 0.05)a
Full size table

Analysis of the variables within groups before and after treatment

Comparing pre-post intervention (Table 3), the detection of respiratory resistance allowed to detect notable differences only within the experimental group (z = − 1851 p = 0.032). Similarly, the heart rate had an important decrease in the EG (z = − 3576, p = 0.000) and not in the CG (z = − 1776, p = 0.038).

Table 3 Comparison of psychological characteristics, pulmonary functions and other clinical data at baseline and after treatments of patients both in study group and control group (p < 0.05)a
Full size table

Regarding the psychological states, there was a significant change about the positive affects only within the experimental group (z = − 2581, p = 0.005); while there was a significance change about the negative affections in both groups (experimental group: z = − 3127, p = 0.001; control group: z = − 3186, p = 0.000).

Discussion

We conducted a Randomized Control Trial to evaluate the impact of a relaxation technique on psychological and physiological well-being of people with COPD. The findings of this study suggest that a brief relaxation technique, based on mindful natural breathing, can be a helpful tool to improve psychological well-being and symptoms management of people with COPD. In particular, this mindful natural breathing improved the blood oxygenation load and FVC, as well as breathing resistance. That means, that respiratory levels improved after an 11-min guided relaxation training. This result supports the hypothesis that relaxation techniques can promote better blood oxygenation, in line with previous studies [23, 36]. It is also reported a significant decrease in heart rate: this other data corroborates the results of previous works on relaxation techniques that have found a decrease in heart beats per minute [37].

The relaxation audio had a positive emotional effect, increasing positive affects and reducing negative affections, confirming the hypothesis and previously obtained results [37, 38]. Furthermore, anxiety was significantly reduced after the intervention, both in comparison with the baseline assessment and with the control group. This confirms the idea that relaxation is one of the main treatments for anxiety [39, 40].

Study results could be useful in the clinical practice and highly reproducible. The intervention was held in a single session and with the use of an audio-recorded relaxing track. Furthermore, this type of quick relaxation exercise could be useful during daytime activities of people with COPD, especially when they are alone or when anxiety emerges as a possible attack of dyspnea. Relaxation techniques can, in fact, be practiced at any time, even on their own. Furthermore, relaxation techniques can be incorporated into other interventions, helping to reduce anxiety and depression. Therefore, the inclusion of relaxation training in the clinical routine of pulmonary services with COPD could be easily accomplished and could provide positive effects. In fact, even if our study was limited by a single session of the intervention, it was able to alleviate anxiety and improve well-being, with a highly scalable approach. Nevertheless, it is also limited by its relatively small sample size. Furthermore, generalization of the results from this study is restricted by the participants’ characteristics, who represented a narrow range of education levels, with basically no subjects with a graduate degree. The study was conducted in single-blind mode, therefore the researcher was aware of the group of the subject. Even if self-report and physiological assessments may be less influenced than other instruments, we recognize that limitation. Furthermore, it is possible to note that the main differences between groups are limited to the anxiety state and the dyspnea perceived as well as the heart rate, confirming that they are intrinsically related: indeed, sympathetic arousal is a physiological manifestation of anxiety. This result could also suggest the importance to improve the patient’s education in practicing the technique in order to obtain more significant short-term effects. Finally, the study was conducted in the hospital, during regular exams, and therefore it is not generalizable outside this setting.

Future works may consider a larger and more representative sample, with assessments from multiple settings. Nonetheless, further studies are needed to investigate better the efficacy and effectiveness of a relaxation technique based on mindful natural breathing, taking advantages of more than one session, because a long-term practice could boost beyond the benefits.

Motivation and concentration are essential in the practice of relaxation. These two elements require a certain level of patients’ engagement, that can be stimulated by health practitioners. Our findings indicate that relaxation techniques could pay an important role in intervention strategies, contributing to an improvement of the QoL and the well-being of people with COPD. The possible impact of this use of relaxation training on health costs may deserve a future investigation.

Conclusions

The findings of our study show that a relaxation technique based on mindful natural breathing might have a potential to improve the COPD patients’ overall well-being. In particular, mindful natural breathing induces significant improvements in respiratory and cardiac functions, together with a positive emotional effect and a reduction of anxiety. Although the present study is a short-term one and its conclusions must be confirmed by further studies, it was required before a long-term investigation, in order to examine the endurance and the utility of the treatment to the patients.

Abbreviations

CBT:

Cognitive Behavioral Therapy

CG:

control group

COPD:

Chronic Obstructive Pulmonary Disease

EG:

experimental group

FEV1 :

Forced Expiratory Volume in the First Second

FEV1/FVC:

Tiffeneau-Pinelli Index

FVC:

Forced Vital Capacity

GOLD:

Global Initiative for Chronic Obstructive Lung Disease

NA:

negative affect

PA:

positive affect

PANAS:

Positive and Negative Affective Schedule

RCT:

Randomized Control Trial

Short FSS-2:

Short Flow State Scale

SPSS:

Statistical Package for Social Science

STAI:

State-Trait Anxiety Inventory

VAS:

Visual Analogue Scales

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Acknowledgements

The abstract of this paper was presented at the International Conference on Studies in Humanities and Social Science (SHSS-2015), ERPUB 2015, Paris (France) as a conference talk with interim findings. The poster’s abstract was published in “Poster Abstracts” in International Conference on Studies in Humanities and Social Sciences (SHSS-2015) (pp. 317-425). Plaisent Michel; Zheng Lili.

Ethics approvals and consent to participate

The study was approved by the Comitato Etico Centrale IRCCS Regione Lombardia, at IRCCS Santa Maria Nascente, Fondazione Don Carlo Gnocchi, Milan (Italy) (Ethical Committee) on 15th October 2013.

Funding

No funding was provided for this study.

Availability of data and materials

The datasets used and/or analysed during the current study are available from the corresponding author on reasonable request.

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Authors and Affiliations

  1. Department of Psychology, Università Cattolica del Sacro Cuore, Largo A. Gemelli, 1, Milan, Italy

    Eleonora Volpato & Francesco Pagnini

  2. IRCCS Santa Maria Nascente, Fondazione Don Carlo Gnocchi, Milan, Italy

    Eleonora Volpato & Paolo Banfi

  3. Unità di Riabilitazione Respiratoria, ASL 4 Chiavarese, Ospedale di Sestri Levante, Sestri Levante, Italy

    Antonello Nicolini

  4. Department of Psychology, Harvard University, Cambridge, MA, USA

    Francesco Pagnini

Authors
  1. Eleonora Volpato
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Contributions

EV developed and carried out the study. PB and AN aided in interpreting the results and revised the manuscript. FP supervised the entire research. All the authors contributed to and approved the final manuscript.

Corresponding author

Correspondence to Eleonora Volpato.

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Each participant was informed about the study details and procedure and receive both a leaflet about the study and an institutional Consent Form. There were also the contacts of the investigators to ask for more information if they wished. Participants who consented to take part to the study, had the opportunity to ask for further information and to discuss and consent for participation in a face to face meeting with the investigator.

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The authors declare that they have no competing interests.

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Volpato, E., Banfi, P., Nicolini, A. et al. A quick relaxation exercise for people with chronic obstructive pulmonary disease: explorative randomized controlled trial. Multidiscip Respir Med 13, 13 (2018). https://doi.org/10.1186/s40248-018-0124-9

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Multidisciplinary Respiratory Medicine

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