Exercise as it relates to Disease/Cystic Fibrosis and Exercise

Cystic Fibroses

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Cystic fibrosis (CF) is an autosomal recessive disorder characterized by repeated and destructive lower respiratory infections, resulting in the gradual destruction of the lung tissue.[1]

The cause of CF is due to mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene on chromosome 7.[2] The CFTR gene regulates chloride and sodium transport in the epithelial surfaces of the airway, pancreatic and biliary ducts, the gastrointestinal tract, sweat ducts and the vas deferens. Pathogenic mutations either remove or reduce the function of the CFTR gene.[3] This results in the production of sticky mucus build up and blockages that affect mainly the lungs, pancreas and sweat glands.

CF is an inherited condition that affects 1 in 2500 male or female Australian babies. All Australian babies are screened at birth for CF. Blood tests are carried out for the genetic testing of the CFTR gene and sweat tests are carried out to measure the amount of salt in the sweat. There is currently no cure for CF, there are over 1500 CFTR gene mutations but not all are associated with CF.

Explanation

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CF patients have a reduced lung capacity, tidal volume, peak aerobic capacity and poor pulmonary function due to the thick and sticky mucus build up in the lungs. The mucus clogs the small air passages and encourages bacteria to grow resulting in repeated infections and blockages causing irreversible lung damage.

CF also affects nutrition as the ducts from the pancreas to the intestine can become blocked preventing enzymes reaching the intestine for digestion. This results in physical weakness, poor growth, delayed puberty and weight loss even though someone with CF may have a healthy appetite. The sweat glands also secrete sweat that is high in salt, when the body losses too much salt it causes dehydration, low blood pressure, tiredness and an increased heart rate.

Average Male Average Female Non Severe CF Severe CF
VO2 Max (mL/Kg/min) 35-45 30-38 14 -24.6 13 -17.6

[4]

Treatment

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CF can severely affect quality of life and reduce the ability to participate in day-to-day activities. Daily physiotherapy air clearance techniques such as chest percussion or positive expiration pressure therapy are used to clear secretions out of the lungs.

Antibiotics are taken to treat and control persistent infections. Bronchodilators are used to make it easier to breathe by relaxing the muscles in the lungs and widening the airways. Steroids are also used to reduce inflammation in the airways and improve lung function.

Pancreatic enzyme replacement capsules and nutrient supplements are consumed along with a high energy and salt diet. Exercise is a key factor in treatment for CF, it helps to loosen secretions, increase lung capacity, improve airway clearance, increase energy, bone density, strength, endurance and life expectancy.

Recommendations for exercise

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20–30 minutes of aerobic exercise (swimming, cycling, walking, jogging) 3-5 times a week.[5][6][7] Aim to keep the heart rate between 140-160 beats/minute. To encourage children to adhere to exercise programs use fun activities and games that meet the above heart rate and duration. Anaerobic exercise and strength training have been shown to have benefits for Cystic Fibrosis sufferers, especially when combined with aerobic activity. 30–45 minutes of anaerobic activity lasting for 20–30 seconds 2 times a week has been proven to increase anaerobic and aerobic performance.[8]

Exercise limitations

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Whilst some studies have looked at the possibility of regular physical activity replacing conventional Cystic Fibrosis treatment, none have safely proven that.[9] It should be considered complimentary to the treatment already being received. Participants first beginning an exercise regime should do a pre-exercise screening to check their suitability for exercise and any associated risks. It is not recommended that patients in acute stages of the disease participate in exercise.
When exercising it's important to monitor hydration status and the environmental conditions. Due to issues with sweating, exercising in hot and humid conditions may cause problems with temperature regulation and dehydration.

Research

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1. Schneiderman-Walker et al (2000)[5]
The aim of the study was to see whether regular home based aerobic exercise is a realistic treatment option for patients with cystic fibrosis. They used a 3 year randomized controlled trial comparing a control group and a treatment group, where the treatment group were instructed to do 20mins of their favourite activity three times a week, targeting 70-80% of their maximum heart rate. The results showed that the rate of decline of pulmonary function was slowed in those who participated in regular aerobic exercise. They concluded that it is a feasible option to include regular aerobic exercise in conventional treatment of cystic fibrosis.
2. Klijn et al (2004)[8]
This study investigated the results of anaerobic training in children with cystic fibrosis. The treatment group undertook a twelve week regime of 30-45min sessions two times a week, which consisted of anaerobic bursts of 20-30secs. In the follow up tests they found improvements in the participant’s anaerobic and aerobic performance, body composition, pulmonary function, peripheral muscle force and reported quality of life. Whilst the study reported aerobic benefits from anaerobic training, the effects aren’t sustainable. It was concluded that anaerobic training could be included in therapeutic programs of mild to moderate sufferers of cystic fibrosis.

Further reading/information resources

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Australian Cystic Fibrosis Website http://www.cysticfibrosis.org.au

References

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  1. Melanie Childers, George Eckel, Alan Himmel, Jim Caldwell, 2007 A new model of cystic fibrosis pathology: Lack of transport of glutathione and its thiocyanate conjugates, Medical Hypotheses, Volume 68, Issue 1, Pages 101–112
  2. Beryl J Rosenstein, MD, Pamela L Zeitlin, MD 24 January 1998, Cystic Fibroses, The Lancet Volume 351, Issue 9098, Pages 277–282
  3. Barlow-Stewart K, Emery J, Metcalfe S. 2007. Cystic fibrosis. In: Genetics in Family Medicine: the Australian Handbook for General Practitioners.
  4. Marie T Williams1, David W Parsons2 , Ross A Frick1, Elizabeth R Ellis3, A James Martin2, Sally E Giles2 and E Ruth Grant1 2007 Acute respiratory infection in patients with cystic fibrosis with mild pulmonary impairment: Comparison of two physiotherapy regimens, Australian Journal of Physiotherapy Vol. 47
  5. a b Schneiderman-Walker J, Pollock S, Corey M, Wilkes D, Canny G, Pedder L, Reisman J, 2000,'A randomized controlled trial of a 3-year home exercise program in cystic fibrosis',J Pediatr, Issue 136, 304-10.
  6. Mosby Inc., 2000,'Home-based exercise programs in cystic fibrosis: are they worth it?', J Pediatr, Issue 136, 279-80.
  7. Orenstein D, Franklin B, Doershuk C, Hellerstein H, Germann K, Horowitz J, Stern R, 1981,'Exercise conditioning and cardiopulmonary fitness in cystic fibrosis', CHEST, Issue 80, 392-398.
  8. a b Klijn P, Oudshoorn A, van der Ent C, van der Net J, Kimpen J, Helders P, 2004,'Effects of anaerobic training in children with cystic fibrosis',CHEST, Issue 125, 1299-1305.
  9. Zach M, Oberwaldner B, Hausler F, 1982,'Cystic fibrosis: physical exercise versus chest physiotherapy', Archives of Disease in Childhood, Issue 57, 587-589.
  1. LC Tsui, 1995, The cystic fibrosis transmembrane conductance regulator gene Am J Respir Crit Care Med, 151, pp. S47–S53.
  2. Beryl J. Rosenstein, MD, Garry R. Cutting, MD, 1998 The diagnosis of Cystic Fibrosis: A consensus statement, The Journal of pediatrics.