COPD

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(Redirected from Lung disease)

Note: COPD may also refer to RAO in horses.

**Chronic obstructive pulmonary disease**
*Classifications and external resources*
ICD-10	J 40. - J 44., J 47.
ICD-9	490 - 496
OMIM	606963
DiseasesDB	2672
MedlinePlus	000091
eMedicine	med/373 emerg/99
MeSH	C08.381.495.389

Chronic obstructive pulmonary disease (COPD) is an umbrella term for a group of respiratory tract diseases that are characterized by airflow obstruction or limitation. The most common cause is tobacco smoking, but COPD can also be caused by exposure to other airway irritants like coal dust or solvents. In some cases there are no known causes (idiopathic COPD) or the disease may arise due to congenital defects.

Conditions included in this umbrella term are:

1 Other names
2 Working definition
3 Causes
4 Progression
5 Acute exacerbations
6 Diagnosis
7 Management
8 References
9 External links
10 Scientific Journals

[edit] Other names

COPD is also known as CORD, COAD, COLD which respectively stand for chronic obstructive respiratory, airways, or lung disease. COPD has been referred to as CAL which stands for chronic airway limitation.

[edit] Working definition

COPD is a chronic, progressive disorder related to tobacco abuse and characterized by airway obstruction (FEV1 <80% predicted and FEV1 / FVC ratio <70%).

The Global Initiative for Chronic Obstructive Lung Disease (GOLD) defines COPD as "a disease state characterized by airflow limitation that is not fully reversible. The airflow limitation is usually progressive and associated with abnormal inflammatory response of the lungs to noxious particles or gases."

[edit] Causes

The main risk factor in the development of COPD is smoking. Approximately 15% of all chronic smokers will develop the disease. In susceptible people, this causes chronic inflammation of the bronchi and eventual airway obstruction. Other etiologies include alpha 1-antitrypsin deficiency (augmented by smoking), byssinosis, and idiopathic disease.

COPD can also be caused by prolonged exposure to certain dusty environments. For example, many people develop COPD after working in the coal mining industry and being exposed to high levels of respirable coal dust.

[edit] Progression

COPD is a progressive disease. Obstructive changes in spirometry and decreases in diffusion capacity are typically seen before symptoms occur. Early signs and symptoms are shortness of breath on exertion, recurrent respiratory infections or a morning cough. As the disease continues, the symptoms are seen with increased frequency and severity. In the late stages, the patient often experiences severe cough, constant wheezing, and shortness of breath with minimal exertion or rest. At this late stage, progression to respiratory failure and death is common. Progression is typically caused by the patient's continued exposure to tobacco smoke. Although medications often decrease symptoms, it is not believed that they prevent the progression if the patient continues to smoke.

Early data has suggested that the drug tiotropium may slow the progression of the disease. A multicenter randomized controlled trial is currently underway to determine whether this is in fact true.

The Global Initiative for Chronic Obstructive Lung Disease [1] has characterized the stages of COPD as follows:

0: At risk (normal spirometry, chronic symptoms such as cough or sputum expectoration)
I: Mild(FEV₁/FVC < 70%; FEV₁ > 80% predicted, with or without chronic symptoms (cough, sputum)
II: Moderate (FEV₁/FVC < 70%; 50% < FEV₁ < 80% predicted, with or without chronic symptoms such as cough, sputum, dyspnea)
III: Severe (FEV₁/FVC < 70%; 30% < FEV₁ < 50% predicted, with or without chronic symptoms such as cough, sputum, dyspnea)
IV: Very severe (FEV₁/FVC < 70%; FEV₁ < 30% predicted or FEV₁ < 50% predicted plus chronic [respiratory failure])

In severe and very severe COPD, not only FEV1 and the FEV1/FVC ratio decrease but also FVC.

[edit] Acute exacerbations

COPD is also characterized by exacerbations which typically present with a rapid progression of the chronic symptoms. Classically, an exacerbation is notable by increased shortness of breath, wheezing, and sputum production. Hypoxia is common as well. Exacerbations are most commonly brought on by infectious agents. Bronchodilators, antibiotics, and oral or intravenous steroids are used to treat these episodes. Exacerbations can lead to respiratory failure; if this occurs, a patient is treated with noninvasive positive pressure ventilation or standard mechanical ventilation until the lung function improves.

[edit] Diagnosis

The diagnosis of COPD is usually suggested by symptoms; it is a clinical diagnosis and no one test is definitive. A comprehensive history from the patient, physical examination, and confirmation of airflow obstruction using spirometry are all vital in establishing the diagnosis.

The FEV₁/FVC ratio is decreased with COPD, meaning a person can not force out as much air as predicted from their lungs in one second. (Normally someone can expire about 80% of their vital capacity in one second; however, this is typically reduced in COPD). With this condition there may be air-trapping as documented by an increased residual volume (the amount of air left in the lungs after a full breath out), or hyperinflation as documented by an increased total lung capacity (the amount of air in the lungs after a full inhalation).

Reversibility testing is a technique used to evaluate the bronchoconstriction component of COPD. It is done by lung function testing before and after administration of a bronchodilator drug such as a beta-agonist.

The inflammatory component of the disease can be modified with the use of steroid drugs (usually administered by inhalation in order to avoid any systemic effect) but several weeks of treatment must be given before the effect can be evaluated.

[edit] Management

COPD is not curable. Medicines are often used to control symptoms or to reverse acute exacerbations. COPD in all forms typically progresses if the patient continues to smoke. Therefore, smoking cessation is one of the most important factors in slowing down the progression of COPD.

The use of bronchodilators, nebulizers and corticosteroids has been shown to be effective. Patients with chronic disease and significant lung function impairment (FEV₁ < 50% predicted) may also benefit from the regular use of inhaled steroids. Oxygen therapy is the only current medical intervention that is proven to prolong the lives of patients with this disease process. Oxygen is only indicated in patients with severe hypoxia documented by a physician. An Arterial blood gas (ABG) is the documenting test of hypoxia. A PO2 (O_{2_{partial pressure) < 60 mmHg on room air indicates hypoxia. Oxygen should be administered with caution to patients with COPD due to a risk of carbon dioxide retention.}}

Surgical management includes single or double lung transplant, and lung volume reduction surgery (LVRS), which is currently being evaluated in a large, national trial in the UK.

Many patients with COPD should be considered for a pulmonary rehabilitation program, which have been shown to improve peak work rate, peak oxygen uptake, muscular endurance and functional capacity and quality of life [1]. Programs of duration longer than 8 weeks have been shown to be the most effective, although the frequency of sessions also influences effectiveness. For these reasons, it is recommended that pulmonary rehabilitation becomes part of the patient's lifestyle, with home programs often prescribed.

A pulmonary rehabilitation program will typically include upper and lower limb endurance training, upper and lower limb strength training, flexibility exercises, balance exercises, functional exercises and breathing exercises. Of particular importance are the inspiratory muscles, which can become weak due to excessive use and prolonged timed in a lengthened state [2].

Higher training intensities elicit greater physiological responses and better outcomes for COPD patients, but not all are capable of achieving this [3]. Intensities of between 60% and 80% of peak work rate are desirable. Interval training is one method commonly used to increase the intensity while keeping the demands of the respiratory system within the patient's capabilities [1]. Strength training intensity is often prescribed at approximately the 8-10 repetition maximum of the patient, while the endurance training consists of 1-3 sets of approximately 15 repetitions of several exercises for the upper and lower limbs, along with 30 minutes combined aerobic performance.

Flexibility exercises are particularly important for the thoracic spine, as this allows expansion of the lungs during inhalation. Common exercises include trunk rotation and lateral flexion. The pectorals are also targeted for flexibility exercise to counter the restrictions caused by the hunched posture of many patients with COPD.

A prolonged warm-up and cool-down is utilised to limit adverse effects such as exercise induced asthma.

Air travel: Commercial cabin pressures are equivalent to an altitude of 2750 m. At this level there is a fall of about 3% in the blood oxygen saturation. This has no effect on healthy travellers but in patients with moderate COPD, oxygen is necessary. Intended travellers with moderate or severe COPD should get medical advice and contact the airline.

The American Thoracic Society Consensus is an excellent reference.

[edit] References

Citations

1. Troosters, T., Casaburi, R., Gosselink, R., & Decramer, M. (2005). "Pulmonary rehabilitation in chronic obstructive pulmonary disease.". American Journal of Respiratory Critical Care Medicine 172: 19-38.

2. Casaburi, R., & Porszasz, J. (2006). "Reduction of hyperinflation by pharmacologic and other interventions.". Proceedings of the American Thoracic Society 3: 185-189.

3. Gosselink, R., Troosters, T., & Decramer, M. (1997). "Exercise training in COPD patients: The basic questions.". European Respiratory Journal 10: 2884-2891.

General references

Pauwels R, Buist A, Calverley P, Jenkins C, Hurd S (2001). "Global strategy for the diagnosis, management, and prevention of chronic obstructive pulmonary disease. NHLBI/WHO Global Initiative for Chronic Obstructive Lung Disease (GOLD) Workshop summary.". Am J Respir Crit Care Med 163 (5): 1256-76. PMID 11316667.

Pierson D (2006). "Clinical practice guidelines for chronic obstructive pulmonary disease: a review and comparison of current resources.". Respir Care 51 (3): 277-88. PMID 16533418.
"Global burden of COPD: systematic review and meta-analysis.". Eur Respir J. PMID 16611654.