A study to evaluate the effectiveness of Diaphragmatic Breathing  and Pursed Lip Breathing Exercise in patients with stable chronic obstructive pulmonary disease 

A study to evaluate the effectiveness of Diaphragmatic Breathing and Pursed Lip  Breathing Exercise in patients with stable chronic Obstructive pulmonary Disease : Dr.Thatithoti Sudhakar., M.P.T.,; ¹ RPR College of Physiotherapy, Ongole, Andhra  Pradesh, India; Dr.Kurapati Madhava Reddy, Ph.D., D.Sc., Professor & Principal, Sri  Lakshmi Institute of Medical Sciences College of Physiotherapy, Kavali, Andhra  Pradesh, India.² 

Background: Chronic obstructive pulmonary disease (COPD) has been defined as a  disease characterized by air flow limitation that is not fully reversible. The airflow  limitation is usually both progressive and associated with an abnormal inflammatory  response of the lungs to noxious particles or gases.¹ 

The chronic airflow limitation characteristic of chronic obstructive pulmonary disease  is caused by a mixture of small airway disease and parenchymal destruction, the  relative contribution of which varies from person to person. Chronic inflammation  causes remodeling and narrowing of the small airways. Destruction of the lung  parenchyma, also by inflammatory process, leads to the loss of alveolar attachments  to the small airways and decreases lung elastic recoil, in turn these changes diminish  the ability of the airways to remain open during expiration. Air flow limitation is  measured by spirometry, as this is most widely available, reproducible test of lung  function.² 

Chronic obstructive pulmonary disease is a global health concern and is a major cause  of chronic morbidity and mortality worldwide. Many people suffer from this disease for  years and die prematurely from it or its complications. The global burden of Chronic  obstructive pulmonary disease is projected to be the fifth leading cause of death and  Global initiative for chronic obstructive pulmonary disease (GOLD) estimates and  suggests that the Chronic obstructive pulmonary disease will rise from the sixth to third  most common cause of the death world wide by 2020. The burden of chronic  obstructive pulmonary disease in Asia is currently greater than that in developed  Western countries.³ Certain occupational exposures like dusts and chemicals and  indoor and outdoor air pollutions are also associated with increased risk of chronic  obstructive pulmonary disease.  

Global initiative for chronic obstructive pulmonary disease (GOLD) aims to improve  prevention and management of Chronic obstructive pulmonary disease through a  concerted world-wide effort of people involved in all facets of healthcare and health  care policy, and to encourage an expanded level of research interest in this highly  prevalent disease.⁴ 

This conceptual frame work also emphasizes that chronic obstructive pulmonary  disease is usually progressive if exposure to the noxious agent is continued. The  staging is based on airflow limitation as measured by spirometry which is essential for  diagnosis and provides a useful description of severity of pathological changes in  chronic obstructive pulmonary disease. The overall approach to managing stable 

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chronic obstructive pulmonary disease should be characterized by a stepwise increase  in treatment, depending on the severity of the disease. The classification of severity of  stable chronic obstructive pulmonary disease incorporates an individualized  assessment of disease severity and therapeutic response in to the management  strategy.⁵ 

The goal of pulmonary rehabilitation program is to reduce symptoms, improve activity  and daily function, and restore the highest level of independent function in patient with  respiratory disease. Diaphragmatic breathing is an exercise to better use and to  strengthen the diaphragm, the major and most efficient muscle of breathing. Regular  practice of diaphragmatic breathing can help restore function of diaphragm and return  to a more efficient breathing pattern. Practicing a deeper diaphragmatic style of  breathing can help ease of work of breathing and expect more stale air.⁶ 

Pursed lip breathing is performed as expiratory blowing against pursed lips, is a  pulmonary rehabilitation strategy instinctively or voluntarily employed in patients with  chronic obstructive pulmonary disease to relieve or control dyspnea. Six-minute Walk test is simple, easy reproducible and requires no apparatus. It is a self-paced exercise  that patients could perform this test alone. It can be carried out at same time of the  day at any time.  

Reduction of maximum expiratory rate, slow forced emptying of lung and  breathlessness are common problems seen in chronic obstructive pulmonary disease.  In severe cases of chronic obstructive pulmonary disease, the use of accessory  muscles was increased. Diaphragmatic breathing exercise and Pursed Lip Breathing  are effective to relieve the symptoms. In other studies, functional performance of the  chronic obstructive pulmonary disease patients is not evaluated. Hence the study was  undertaken to evaluate the effectiveness of Diaphragmatic Breathing and Pursed Lip  Breathing Exercise in patients with stable chronic obstructive pulmonary disease along  with the flow rates and rate of perceived exertion. 

Aims & Objectives: The aim and objective of the study is to evaluate the effectiveness  of Diaphragmatic Breathing and Pursed Lip Breathing Exercise in patients with stable  chronic obstructive pulmonary disease. 

Method: The chief objective of this study was to compare the effectiveness of  Diaphragmatic Breathing and Pursed Lip Breathing Exercise in patients with stable  chronic obstructive pulmonary disease. The study subjects were divided in two groups Group A and Group B comprising of 15 patients each. Group A received diaphragmatic  breathing exercise and Group B received the pursed lip breathing exercise. Both  groups were trained twice daily for 15 minutes for 6 days per week for 6 weeks. Pre 

and Post test was done by using 6 Minute Walk Test (6MWT) and spirometry for  measurement of FEV1 and FVC. Data was analyzed using a paired ‘t’ test to find out  within group difference of dependent variable and a univariate analysis of variance to  find out between group differences. All data was analyzed using SPSS version 12.0  with significance level kept at 0.05. 

Results: Results also showed that subjects in Group A who received diaphragmatic  breathing exercise showed significant improvement in 6 MWT than Group B who  underwent pursed lip breathing exercise. Subjects in Group B who received pursed lip 

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breathing exercise showed significant improvement in FEV1 and FVC compared with  Group A who received diaphragmatic breathing exercise. But there was no significant  improvement in FEV1 and FVC in diaphragmatic breathing exercise group from pretest to post test. In both groups there was significant improvement in 6MWT from pretest to post test. 

A t-test was done to analyze the within group difference of six-minute walk test which shows that there was a significant improvement for six minute walk test in Group A from pre  to post T value (14, 0.05) = -10.088,  P<0.000. Group B also showed a significant improvement from pre to post for six-minute walk test. T value (14, 0.05) = -6.859, P<0.000. Univariate analysis of variance was done to analyze the between group difference of six-minute walk test and showed a significant difference  between groups, F value (1, 27,  0.05) = 45.645, P<0.000. 

A t-test was done to analyze the within group difference of FEV1 and  there was no significant difference for FEV1 in group A from pre to post.  T value (14,0.05) = -0.866, P<0.401. But Group B showed a significant  difference from pre to post for FEV 1, ‘t’ value (14,0.05) = 6.144,  P<0.000. Univariate analysis of  variance was done to analyze  the between group difference of  FEV1 and showed a significant  difference between groups, F value (1, 27, 0.05) = 29.25, P<0.000.A t-test was done to analyze the  

within group difference of FVC and  

there was no significant difference  

for FVC in group A from pre to post.  

T value (14,0.05) = -1.684, P<0.114.  

But Group B showed a significant  

difference from pre to post for FVC, 

‘t’ value (14,0.05) = – 

4.971, P<0.000. Univariate analysis  

of variance was done to analyze the  

between group difference of FVC  

and showed a significant difference between groups, F value (1, 27, 0.05) = 24.681,  P<0.000

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Group B showed a significant difference from pre to post for FEV 1,T value (14, 0.05) = 6.144,P<0.000 and it was supported by Bianchi R et al⁷⁵ who assessed the volumes  of chest wall compartments using a nopto electronic plethysmograph and concluded  that by decreasing respiratory frequency and lengthening expiratory time, pursed lip  breathing decreases end expiratory volume of chest wall, and also decrease in end  expiratory volume of abdomen and modulates the breathlessness.  

Thoman R⁷ proposed that those segments of lungs with greatest fall or  greater increase in flow resistance will receive disproportionately less of the tidal  volume. Therefore, the abnormal and uneven distribution of gases in emphysema will  be accentuated with increased respiratory rate. So, the slowing of respiration alone  would be expected to enhance the ventilation of those subdivisions of the lung which  normally are under ventilated and found that tidal volume increases while respiratory  rate decreases and CO2 elimination improves without significant change in forced  residual capacity and volume of slow space by pulsed lip breathing. They found that  indeed there was an increase in ventilatory rates of those most slowly ventilated lung  components, when respiratory rate slowed down with pursed lip breathing. 

Mueller et al⁸ as well as other investigators found that although pursed lip breathing  was more effective in the sense that less air exchange was required to absorb a given  amount of oxygen, there was no increase in oxygen uptake This suggests that PLB  does not significantly alter the work of breathing. It is known that hyperactivity of the  inspiratory muscles is a cause for the sensation of dyspnea. Their assumption that  decreases in dyspnea sensation which is often thought to be related to pursed  lip breathing might be caused by reduced activity of respiratory muscle is still a matter  of debate. Through encouraging the use of diaphragm, the principal and efficient  muscle of inspiration, the oxygen cost of breathing can be decreased. Decreasing the  use of accessory muscles also decreases the work of breathing. The bio feed can be  used to discourage accessory muscle firing during the ventilatory cycles. Because use  of the diaphragm as in diaphragmatic breathing was found to increase rather than  decrease the level of dyspnea at present routine use of diaphragmatic breathing in  pulmonary rehabilitation is not recommended. 

Killian⁹ and coworkers showed that exercise capacity in chronic obstructive pulmonary  disease patient is mainly limited by subjective symptoms such as muscle fatigue and  dyspnea without the patient reaching their physiological limitations. Now as this is well  known that a “vicious cycle” of exertional dyspnea, exercise and activity limitation,  psychosocial illness are the major causes of poor health related quality of life in chronic  obstructive pulmonary disease. patients there are increasing evidence that physical  reconditioning which is most essential component of pulmonary rehabilitation can  improve the exercise capacity and health related quality of lives and also found in their  study that breathing retraining increases exercise performance in subjects with severe  chronic obstructive pulmonary disease.  

Schans et al¹⁰ observed that positive expiratory pressure breathing which is in range  of mouth pressure reached during expiration with pursed lip in patients with chronic  obstructive pulmonary disease increases the efficiency of ventilation at rest and during  exercise, since same work load is achieved with less ventilation. So, the improvement 

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in exercise tolerance seems to be due to the decrease in the sensation of dyspnea.  That’s why these patients do not feel panic at the time of respiratory distress. Their  self-confidence could be improved, which progressively increases activities of daily  living that mimics exercise of physical reconditioning that can ultimately restore the  patient to the highest level of functional capacity and improved health related quality  of life. However, the effect on quality of life has not been evaluated by other workers.  

Evidence suggests that diaphragmatic breathing does not change regional ventilation  in people with chronic obstructive pulmonary disease. This technique increases total  ventilation but if so, this suggests this may due to the slower, deeper breathing patterns  that may occur during Diaphragmatic Breathing rather than an exaggeration of  abdominal motion. Some authors noted an increase in the work of breathing; this may  be due to increased paradoxical rib motion during Diaphragmatic Breathing. The  relaxed expiration effects of less air tapping, results in reduction of hyperinflation,  which turns into reduced respiratory rate, dyspnea and improved tidal volume and  oxygen saturation in resting condition. A study by Gosse link ¹¹ proved deep breathing  exercise which includes diaphragmatic breathing immediate decrease respiratory rate,  dyspnea and anxiety. Jones et al¹² confirmed that Diaphragmatic Breathing results  lower oxygen cost and respiratory rate.  

The study of Levine et al.²⁴ provides the first evidence that appropriate adaptive  response occurs in the inspiratory inter costal muscles of patients with chronic  obstructive pulmonary disease. Levenson et al¹³ states that abdominal  muscle contraction should be encouraged to lengthen the diaphragm and increase its  force generating capacity. Ambrosino et al.¹⁴ reported improvement in maximal  exercise tolerance in mild chronic obstructive pulmonary disease patients undergoing  deep Diaphragmatic breathing. Campbell¹⁵ and friend postulated that the increased  abdominal motion during Diaphragmatic breathing may shift ventilation towards the  base of the lungs. Brach et al ¹⁶found that Diaphragmatic breathing did not alter  regional ventilation for the group as a whole. Unfortunately; the authors were not able  to explain this finding. The study by Sackner et al¹⁷ demonstrated that half of the  subjects had minimal abdominal displacement during Diaphragmatic breathing.  Another study by Sackner et al¹⁷ showed that Diaphragmatic breathing was associated  with distorted chest wall motion. Diaphragmatic breathing caused increased  paradoxical and asynchronous movements of the rib cage. The amount of asynchrony  was not correlated with disease severity. Gosselink et al.¹⁹ reported increased VO2  and work of breathing in people with severe chronic obstructive pulmonary disease  who performed diaphragmatic breathing with no spontaneous changes in respiratory  frequency. 

Dechman G²⁰ reported that diaphragmatic breathing improves the ventilation,  decreases work of breathing, decreases dyspnea and normalize breathing pattern  in patients with chronic obstructive pulmonary disease. 

Breathing techniques are included in the rehabilitation program of patients with chronic  pulmonary disease (COPD). In patients with chronic obstructive pulmonary disease,  breathing techniques aim to relieve symptoms and ameliorate adverse physiological  effects by increasing strength and endurance of the respiratory muscles, optimizing  the pattern of thoracic abdominal motion; and reducing dynamic hyperinflation of the  rib cage and improving the gas exchange. Evidence exists to support the effectiveness 

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of purse-lip breathing, forward leaning position, active expiration and inspiratory  muscle training but not for diaphragmatic breathing. 

Breslin²¹ reported that, during pursed lip breathing there is a decreased diaphragm  activity during inspiration and was accompanied by increased use of rib cage muscles.  Both abdominal and rib cage accessory muscle activity increased during expiration.  Respiratory rate decreased as did the duty cycle. In addition, Breslin’s²¹ estimate of  the resting diaphragm tension-time index indicates that, as a group, the subjects were  above the diaphragm fatigue threshold described by Bellemare and Grassino²² and  this supports the outcome of Group A. 

O’Donnell²³ and colleagues proposed that people with chronic obstructive pulmonary  disease have “a very fine control of expiratory flow whereby intra thoracic pressure is  continuously adjusted to a level that is just enough to attain maximal flow”.  Furthermore, they proposed that this active control develops with the disease process,  suggesting that imposing retraining techniques is not uniformly helpful in  this population and this supports the outcome of study. 

Conclusion: This study can be concluded by stating that Pursed Lip Breathing is  effective for alleviating the symptoms like dyspnea and airflow limitations; and both  exercises are effective in improving the exercise tolerance in the management of  chronic obstructive pulmonary diseases. This was shown by improvement inFEV1,  FVC and six-minute walk test. 

Keywords: Diaphragmatic breathing exercise, pursed lip breathing, stable chronic  obstructive pulmonary disease, FEV1, FVC and six-minute walk test. 

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