Effect of posture on vital capacity

Appel, M.L.; Childs, Anne‐Marie; Healey, Emma L.; Markowitz, Samuel N.; Wong, Sylvie Lo Fo; Mead, J.

doi:10.1152/jappl.1986.61.5.1882

Cited by 22 publications

(9 citation statements)

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“…Our study supports this suggestion. Haas et al 13 and Appel et al 14 reported that altering the orientation of accessory muscles of respiration (as seen in FSP) has marked effects on the operating length and function of the diaphragm. Although we could not evaluate the effect of FSP on the operating length of the diaphragm, it is reasonable to assume that some alteration may occur.…”

Section: Discussionmentioning

confidence: 99%

Effect of forward shoulder posture on pulmonary capacities of females

et al. 2007

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Section: Discussionmentioning

confidence: 99%

Effect of forward shoulder posture on pulmonary capacities of females

et al. 2007

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“…TLC and RV are relatively insensitive to subjects′ orientation in gravity, because gravitational forces are small in relation to the larger forces of muscles and elastic recoil that operate at the volume extremes. TLC and RV are also remarkably insensitive to body posture and use of the limbs [7].…”

Section: Discussionmentioning

confidence: 99%

Human lung volumes and the mechanisms that set them

Leith¹,

Brown²

1999

Eur Respir J

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Definitions of human lung volumes and the mechanisms that set them are reviewed in the context of pulmonary function testing, with attention to the distinction between functional residual capacity (FRC) and the static relaxation volume of the respiratory system, and to the circumstances in which FRC and residual volume are set by dynamic rather than by static mechanisms. Related terms, conventions, and issues are addressed, including some common semantic and conceptual difficulties, with attention to "gas trapping", "hyperinflation", and "restriction". Eur Respir J 1999; 13: 468±472. This article reviews definitions of human lung volumes and the mechanisms that set them, in the context of pulmonary function testing. It uses and reconciles existing conventions and terminology [1, 2] and notes some common semantic and conceptual difficulties."Lung volume" generally means the volume of gas or of gas-containing spaces in the lung, or one or more of the "lung volume compartments" which they comprise. Gas in the lung is considered to be at body temperature, saturated with water vapour, and (for many purposes) at ambient pressure.To start, three primary lung volumes, set independently by different mechanisms will be considered: total lung capacity (TLC), residual volume (RV), and functional residual capacity (FRC). Total lung capacityTLC in cooperating humans is the greatest lung volume achieved by maximum voluntary inspiration. It is set by a static balance between inspiratory muscle forces and elastic recoil forces arising in the respiratory system. At TLC, these two sets of forces are equal and opposite in sign. Thus, TLC can be thought of as lying at the intersection of the static volume±pressure curves of the relaxed respiratory system and the maximally active inspiratory muscles ( fig. 1) [3]. It is the lung, rather than the chest wall,

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“…Body position can influence respiratory function 1 , 2 ) . Changes in body position can alter the length of a respiratory muscle, namely the diaphragm, thereby influencing its ability to generate tension 3 ) .…”

Section: Introductionmentioning

confidence: 99%

Effect of sitting posture on respiratory function while using a smartphone

et al. 2016

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[Purpose] The purpose of this study was to investigate respiratory function in different sitting postures while using a smartphone. [Subjects and Methods] Fifty healthy volunteers were recruited. Participants were divided into 2 groups, a control group of participants who spent time as they liked for 1 hour, and a smartphone group of participants who spent time using a smartphone in a sitting position for 1 hour. To investigate changes in respiratory function, we measured forced vital capacity, forced expiratory volume in 1 second, ratio of forced expiratory volume in 1 second to forced vital capacity, and peak expiratory flow. [Results] There was a statistically significant difference in forced vital capacity and forced expiratory volume in 1 second between the control group and smartphone group. [Conclusion] The clinical implication of our findings is that the posture assumed while using a smartphone leads to reduced respiratory function.

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Effect of posture on vital capacity

Cited by 22 publications

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Effect of forward shoulder posture on pulmonary capacities of females

Effect of forward shoulder posture on pulmonary capacities of females

Human lung volumes and the mechanisms that set them

Effect of sitting posture on respiratory function while using a smartphone

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