1.
[Evaluation of pulmonary function in the elderly. Intergroupe Pneumo GĂ©riatrie SPLF-SFGG].
Boita, F, Couderc, LJ, Crestani, B, de Wazieres, B, Devillier, P, Ferron, C, Franco, A, Guenard, H, Hayot, M, Housset, B, et al
Revue des maladies respiratoires. 2006;(6):619-28
Abstract
Aging is associated with a progressive decrease in lung function. As a consequence of aging, individual's reserve is diminished, but this decrease is heterogeneous between individual subjects. Many factors are involved in the overall decline in lung function. The prevalence of asthma in the elderly is estimated between 6 and 10%. Mortality due to COPD is increasing, especially among older subjects. Older subjects are at an increased risk of developing chronic diseases such as Parkinson's disease, which can have consequences for lung function. Under-nutrition is also common in the elderly and can produce sarcopenia and skeletal muscle dysfunction. The presentation of respiratory disorders may differ in the elderly, especially because of a lack of perception of symptoms such as dyspnea. The impact of bronchodilatators or corticosteroids on respiratory function has not been studied in the elderly. Drugs usually used for the treatment of hypertension or arrhythmias, which are often observed with aging, can have pulmonary toxicity. There is no difference between functional evaluation in younger and older subjects but it is more difficult to find predicted values for older patients. Performing pulmonary function tests in older patients is often difficult because of a higher prevalence of cognitive impairment and/or poor coordination. When assessing pulmonary function in the elderly, the choice of tests will be depend on the circumstances, with the use of voluntary manoeuvres dependent on the condition of the patient.
2.
Human skeletal muscle energy metabolism: when a physiological model promotes the search for new technologies.
Binzoni, T
European journal of applied physiology. 2003;(3-4):260-9
Abstract
The idea that muscle function and, in fact, the function of all living tissues may be described by physical laws appeared in the second half of the 19th century. During this period, Helmoltz (Uber die Erhaltung der Kraft, 1847) showed that the principle of energy conservation may be applied to living systems. In the field of exercise physiology, this idea has been subsequently developed by Rodolfo Margaria's (1901-1983) School and the mathematical formalization of the theory has succeeded in the bioenergetic model. During the last 20 years methodical and critical study of the bioenergetic model has been carried out by Paolo Cerretelli, one of the most important heirs of Rodolfo Margaria's School. Original results and technological developments have been generated by his activity and many young scientists have been educated in this approach. The present paper wants to present the modern history of the bioenergetic model and is dedicated to Paolo Cerretelli on the occasion of his seventieth birthday.
3.
Standards for assessment of lung function and respiratory health in minority populations: some challenges linger into the new millennium.
Young, RC, Ford, JG
Journal of health care for the poor and underserved. 2001;(2):152-61
Abstract
Results of pulmonary function tests (as an indicator of respiratory health) are from 11 to 13 percent lower in African Americans and other racial ethnic populations than in Caucasians when controlled for gender, age, and height. Environmental factors influencing these indices are circadian variation, altitude, air pollutants, technology, state of nutrition, smoking history, and other indicators of lifestyle. A combination of subtle, genetically determined anthropometric variants may also be operative, the extent of which is controversial. Population-based, population-specific standards are required to avoid erroneous diagnosis of cardiorespiratory disease, erroneous assessment of operative risk, unfair hiring practices when lung function tests are used for preemployment evaluation in dusty occupations, and unfair labeling when workers apply for disability compensation. Tailoring of statistical prediction standards from simple linear to more complex polynomial regression models will increase the accuracy of population prediction standards for pulmonary function variables into the 21st century.