The effect of balance training and conventional pulmonary rehabilitation in patients with moderate chronic obstructive pulmonary disease

Suresh Babu Reddy A*1, Nataraj Madagondapalli Srinivasan2, Anil Kumar T3, Vinod babu4, Gopala Krishna Alaparthi5, Kalyana Chakravarthy Bairapareddy5 1Department of Physiotherapy, ESIC PGIMSR, Rajajinagar, Bangalore, Karnataka, India 2Department of Anesthesia, ESI, PGIMSR, Rajajinagar, Bangalore, Karnataka, India 3Department of Medicine, ESIC PGIMSR, Rajajinagar, Bangalore, Karnataka, India 4Department of Physiotherapy, Goutham college of physiotherapy and rehabilitation centre, Mahalaxmi layout, Bangalore, Karnataka, India 5Department of Physiotherapy, College of Health Sciences, University of Sharjah, United Arab Emirates


INTRODUCTION
Chronic Obstructive Pulmonary Disease (COPD) is characterized by physical and functional limitations due to systemic changes, secondary to the disease itself and the prolonged use of medications (Celli et al., 2004;Viegi et al., 2007). In India Chronic obstructive pulmonary disease (COPD) constitute nearly 25-30 % of cases data according to chest clinics (Mannino, 2002). Patients with COPD suffer from multiple non-respiratory effects, such as peripheral muscle dysfunction, chronic in lammation, depression, anxiety, and malnutrition (Turato et al., 2001;Rabe et al., 2007). Peripheral muscle dysfunction in patients with COPD is due to chronic inactivity, nutritional imbalance, prolonged usage of certain drugs, hypoxemia, chronic in lammation and electrolyte disturbances (Wust and Degens, 2007;Maltais et al., 2000;Agustí et al., 2003). Lower limb muscles atrophy, weakness, fatigability, and metabolic inef iciency is commonly seen in COPD and these unfavorable muscle characteristics, dysfunction of lower limb muscles and dyspnea are responsible for the limitation of exercise capacity in COPD (Beauchamp et al., 2009;Alexander, 1994;Butcher et al., 2004).
Balance and mobility are the important elements of activities of daily living and studies have shown that reduced muscle strength and hypoxia impairs balance. Recent studies have shown that there is reduced static and dynamic balance in patients with COPD (Oliveira et al., 2013;?). Several studies have found that COPD patients have reduced functional balance compared to normal healthy individuals in the same age group (Bhosle et al., 2012). It is important to include balance assessment and training in the management of COPD patients. There is a lack of research on the effects of health-related quality of life (HRQOL) balance training in patients with COPD.
Health-related quality of life includes physical, mental, emotional, and social function domains of health. Any improvement in exercise capacity and physical function may in luence and lead to signi icant improvement in HRQOL (Mahler, 2000;Hu and Meek, 2005). The pulmonary rehabilitation exercise part is regarded as the corner stone of rehabilitation, including upper limb, lower limb, and respiratory muscle conditioning, but balance training is not taken into account in the traditional pulmonary rehabilitation guidelines. Latest indings have found that in subjects with COPD, balance and coordination have declined compared to healthier subjects (Reddy et al., 2020). Pulmonary rehabilitation strategies include patient assessment, exercise training, nutritional intervention, education and psychosocial support (Jacome et al., 2016). The evidence suggests that balance defects in patients with COPD may be associated with an increased risk of falls, decreased exercised capacity, and poor HRQoL. Well-established fall risk factors in patients with COPD is known to be lower limb muscle fatigue and impairments in everyday life activities, whereas other intrinsic risk factors, such as gait and balance dif iculties, malnutrition, depression and medicines, were potential risk factors (Rabe et al., 2007).
However there is a lack of literature on the bene icial effects of introducing to the traditional pulmonary rehabilitation program a balance training aspect. The objective of our research was to evaluate the impact on the health-related quality of life, balance, and risk of falls in patients with moderate COPD of incorporating a balance training program to a traditional pulmonary rehabilitation programme.

MATERIALS AND METHODS
Ethical Clearance was obtained from Biomedical Research on Human Subjects, 2000, ICMR, New Delhi. Written informed consent was obtained from all the patients included in our study. We included 133 COPD patients who were randomly allocated to the intervention group (conventional pulmonary rehabilitation program with balance training) or the control group (conventional pulmonary rehabilitation program alone.) Medically stable patients with moderate severity COPD (GOLD criteria) were referred for physiotherapy and pulmonary rehabilitation by the consulting pulmonologist. The sample size was calculated based on indings from our pilot study results (Reddy et al., 2020). Patients were randomly assigned to one of the 2 groups by the process of block randomization, with a block size of 4 patients in each group.
The initial screening of the patients included a history of falls and self-reported decline in balance or increased risk of falls in the last ive years or recent near fall. After initial screening, patients with acute exacerbation, history of bronchial asthma (de ined as a ≥ 25% change in FEV1 post-bronchodilator), history of any neuromuscular conditions like stroke, Parkinsonism and multiple sclerosis, a history of any vestibular condition, presence of any musculoskeletal condition that limited mobility such as severe arthritis, low back pain, amputation and history of hearing and cognitive impairment were excluded from our study.

Procedure
Pre-Test: All patients involved in the study were tested for balance, tolerance for exercise, quality of life associated with itness, and risk of falls. The Berg Balance Scale (BBS) is a responsive and accurate scale for elderly people to assess the risk of falls. BBS is a 14-item scale with each item scored from 0-4 with a maximum score of 56. Good balance performance is indicated by higher BBS scores (Jacome et al., 2016).
The Timed Up and Go Test (TUG) was used to determine the participants' dynamic balance. The patients were asked to get up from a chair, walk for 3 meters and then turn around to return to the starting position. The fall risk was assessed during the test in the presence of a therapist .
Static balance was assessed by the Single leg stance test (SLST), where the patient's ability to stand on one leg without any assistance was recorded in seconds (Crisan et al., 2015). Patients had to demonstrate their con idence in executing 16 speci ic activities without losing their balance or any sense of uncertainty during Speci ic Balance Con idence Scale activities (ABC scale) (Beauchamp et al., 2009). SGRQ questionnaire was used to assess the HRQoL (Jones, 2008) which was administered on all the patients before and after the intervention in both the groups.

Balance Training for the Intervention Group
Balance training was included for patients in the intervention group, in addition to the conventional pulmonary rehabilitation programme which was given within the same session. Sixty-six of 68 patients completed both the above treatments as per the prescribed treatment protocol by the therapist. One patient was unable to carry out the exercises due to lower limb injury. Another patient was hospitalized due to fever with arthralgia and was not able to continue the exercises.

Balance Training
The training consisted of 15-20-minute session at a frequency of 3 times per week and for a duration of 8 weeks. The exercise listed below were included 1. Weight shifting: The patient was told to stand up straight with feet apart, change weight to one side and lift the opposite foot from the loor; maintain the position for 30 seconds and repeat on the other side.
2. Stand up and sit down without using hand support 3. Walking in straight line with progression to tandem walking.
4. Single leg standing: Stand with feet hip-width apart.

5.
Maintaining equal weight distribution and upright trunk postural alignment while standing on a wobble board.
6. Arm movements were included as a progression in the above exercises All exercises were performed for 10-15 repetitions, increasing to 15-20 repetition's and then arm movements were added. On non-treatment days, patients continued these exercises at home having been given the exercises protocol in a printed format in English and local languages. Adherence to the exercises was assessed through regular telephone calls. Patients were also advised to carry out their routine daily activities.

Conventional Pulmonary Rehabilitation
The conventional pulmonary rehabilitation program was given for both groups for 60 minutes with adequate rest periods in each session, at a frequency of 3 days a week, for a duration of 8 weeks as per the guidelines given by the American College of Chest Physicians (ACCP). Borg's rating of perceived exertion scale was used to monitor the endurance and strength training exercises. The supervised endurance exercise training was given in the form of walking 3 times in a week. A Borg score of 5-6 for dyspnea or fatigue was set as a target for the exercise. The progression in the walking was made by increasing the distance based on RPE. Upper extremity strength testing involved biceps, triceps, and deltoid exercises; lower extremity training included quadriceps, hamstrings, hip lexors, hip extensors, and free weight hip abductors. The resistance applied was based on the patient's ability to complete 10-15 repetitions. The exercises were progressed by increasing resistance and number of sets. Patients received 5-10 minutes of breathing exercises including diaphragmatic, pursed lip and segmental breathing exercises. The program also included relaxation techniques, education for selfmanagement and psychological support.

Data Analysis
The data obtained was coded and entered in Windows IBM SPSS Statistics, Version 25.0.0. Armonk, NY: IBM Corp and the normality evaluation was performed. Descriptive statistical analysis was conducted and shown as mean ± SD. Signi icance was assessed at 5 % level of signi icance with p-value was set at 0.05. In order to compare the variables for within group results, a Paired t-test and Wilcoxon signed rank test were used. Using Independent's and Mann Whitney U tests, similarities were examined between group comparisons. Table 1 shows that there was no signi icant difference in mean age between the intervention and control group. The Table 2 describes the means of variables measured for balance evaluation using Berg Balance Scale, Timed Up and Go Test, Single limb Stance time, and Activities Balance Con idence Score, Elderly Falls Screening Test, and the variable measured for COPD condition improvements measurements such as Six minute's walk test, and   Eight weeks of balance training with pulmonary rehabilitation shows there is a signi icant improvement of health related quality of life, balance, falls and exercise tolerance in patients with moderate COPD patients thus, the study shows that the addition of balance training in pulmonary rehabilitation may help to achieve greater bene its by reducing the risk of falls in moderate COPD patients.

RESULTS AND DISCUSSION
The improvement in health related quality of life,  Exercise based pulmonary rehabilitation induces biochemical and structural changes in the muscles so that the exercise tolerance is improved (Casaburi et al., 1996). In a study conducted by Stav et al , an increase in exercise endurance time was observed with pulmonary rehabilitation over a period of 6 months (Stav et al., 2009). After the pulmonary rehabilitation program, the dyspnea severity, the maximum heart rate achieved in 6MWT signi icantly improved. After the recovery program, a major impact of individualized exercise on dyspnea peak and high heart rate was seen in 6MWT. Firstly, this can be explained by better physical conditions and a very strong response to exercise, which supports a reduced sensation of dyspnea (Palange et al., 1995). Secondly, certain physiological improvements, such as enhanced cardiac tolerance, decreased produc-  (Antonucci et al., 2003). In older adults, the relationship between muscle fatigue and postural dysfunction is well known (Puente-Maestu et al., 2000). The minor balance changes found in this analysis are likely to have been attributed to the strength training aspect of PR, albeit low-intensity.
It is well known that the postural stability is in luenced by muscle weakness in elderly individuals (Orr, 2010). An improvement observed in our study is most likely to have occurred because of strength training component of Pulmonary Rehabilitation. M.A. Spruit et al found that the effect of resistance training is not superior to endurance training on skeletal muscles in COPD patients (Spruit et al., 2013).The addition of balance training to conventional Pulmonary Rehabilitation in the present study improved the balance and also HRQoL In COPD Patients. Wajdi Mkacher et al., examined the effect of pulmonary rehabilitation program on  Beauchamp et al. (2013); Horlings et al. (2008). It is likely that the minimal improvement observed in balance in this study is due to the low intensity strength training compo-nent of PR. The higher intensity strength training in combination with targeted balance training is likely to have optimal effects on fall risk and balance (Hess and Woollacott, 2005).
The improvements in the outcome variables are dificult to understand in the absence of the minimum clinically meaningful difference (MCID) values reported. However, minimal detectable change (MDC) scores were reported for static and dynamic balance assessment among community-dwelling older adults with balance impairment in previous studies (Mkacher et al., 2015). The MCID for commonly used balance assessment scales in patients with COPD undergoing pulmonary rehabilitation were reported in a study conducted by Beauchamp M K et al., (2016). The MCID ranges for various balance assessment scales were published in the previous studies (Marques et al., 2015;de Castro et al., 2016).
The improvements observed our study were below the MCID minimal range published in the previous studies, indicating that the improvement was not clinically signi icant between groups (Beauchamp et al., 2016). So, the addition of balance training did not have clinical signi icance. This could be due to the short duration of the training program used in our study. A longer duration program in future studies is recommended to achieve clinically significant results for balance and HRQoL. Mkacher W et al., (2015) examined the effect of long duration balance training as part of Pulmonary Rehabilitation program in COPD patients. They concluded that adding balance training to pulmonary rehabilitation program has a signi icant effect on balance in COPD patients (Hess and Woollacott, 2005). Marques A et al., (2015) found signi icant improvement in functional balance after adding balance training in PR in patients with COPD (Mkacher et al., 2015).
The greater percentage of improvement is found the experimental group compared with control group; this could be because of adding balance training along with pulmonary rehabilitation. Most of the earlier studies have found the effect of pulmonary rehabilitation over a period of 3 to 6 months, whereas the 8 weeks duration of training in the present study had positive effect on outcomes. Even four weeks of intensive PR program produced signi icant health bene its through improved exercise capacity and HRQoL in a study conducted by Skumlien et al., (2007) (Skumlien and Skogedal, 2007). The eight weeks of balance training with pulmonary rehabilitation given in experimental group found there is a signi icant effect on improvement of health-related quality of life, balance, falls and exercise tolerance in moderate COPD subjects, in the present study.

CONCLUSIONS
The study concludes that Pulmonary Rehabilitation with or without balance training for subjects with moderate COPD found statistically and clinically signi icant effect on improving balance, exercise capacity, Elderly Falls Screening Test score, and Health related quality of life. However, the greater per-centage of improvement in balance, elderly falls screening test, exercise capacity and health related quality of life found in experimental group who received Pulmonary Rehabilitation with balance training than control group who received only Pulmonary Rehabilitation without balance training. The improvement in COPD symptoms in both the groups found that there is no statistically signi icant difference in St. George respiratory questionnaire components-Symptoms between the groups with small effect size.