Optoelectronic plethysmography

Optoelectronic plethysmography (OEP) is a method to evaluate ventilation through an external measurement of the chest wall surface motion.

Optoelectronic plethysmography
Purposemeasure ventilation through an external measurement of the chest wall

A number of small reflective markers are placed on the thoraco-abdominal surface by hypoallergenic adhesive tape. A system for human motion analysis measures the three-dimensional coordinates of these markers and the enclosed volume is computed by connecting the points to form triangles.

From OEP it is thus possible to obtain volume variations of the entire chest wall and its different compartments. The chest wall can be modeled as being composed of three different compartments: pulmonary rib cage (RCp), abdominal rib cage (RCa), and the abdomen (AB). This model is the most appropriate for the study of chest wall kinematics in the majority of conditions, including exercise. It takes into consideration the fact that the lung- and diaphragm-apposed parts of the rib cage (RCp and RCa, respectively) are exposed to substantially different pressures on their inner surface during inspiration, that the diaphragm acts directly only on RCa, and that non-diaphragmatic inspiratory muscles act largely on RCp. Abdominal volume change is defined as the volume swept by the abdominal wall.

Optoelectronic plethysmography can be used following different measurement protocols, specifically developed for different applications and different experimental and clinical situations. In the arrangement designed for the analysis in sitting and standing positions, 89 markers are arranged on the thoraco-abdominal surface.[1]Optoelectronic plethysmography can be used also in supine and prone positions.[2]OEP was used to study chest wall kinematics in healthy subjects during exercise,[3] patients with Chronic Obstructive Pulmonary Disease,[4] patients with neuromuscular disorders [5] and in Intensive Care Unit.[6]

The validation of the method was obtained by comparing the lung volume changes obtained by Volumetric and Flow measuring Spirometers and chest wall total volumes by optoelectronic plethysmography during different maneuvers.

History

This method has been developed at the Bioengineering Department of the Politecnico di Milano university by Andrea Aliverti and collaborators.

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References

  1. Cala SJ, Kenyon CM, Ferrigno G, Carnevali P, Aliverti A, Pedotti A, Macklem PT, Rochester DF (1996). "Chest wall and lung volume estimation by optical reflectance motion analysis". J Appl Physiol. 81 (6): 2680–9. doi:10.1152/jappl.1996.81.6.2680. PMID 9018522.
  2. Aliverti A, Dellacà R, Pelosi P, Chiumello D, Gattinoni L, Pedotti A (2001). "Compartmental analysis of breathing in the supine and prone positions by optoelectronic plethysmography". Ann Biomed Eng. 29 (1): 60–70. doi:10.1114/1.1332084. PMID 11219508.
  3. Aliverti A, Cala SJ, Duranti R, Ferrigno G, Kenyon CM, Pedotti A, Scano G, Sliwinski P, Macklem PT, Yan S (1997). "Human respiratory muscle actions and control during exercise". J Appl Physiol. 83 (4): 1256–69. doi:10.1152/jappl.1997.83.4.1256. PMID 9338435.
  4. Aliverti A, Stevenson N, Dellacà RL, Lo Mauro A, Pedotti A, Calverley PM (2004). "Regional chest wall volumes during exercise in chronic obstructive pulmonary disease". Thorax. 59 (3): 210–6. doi:10.1136/thorax.2003.011494. PMC 1746979. PMID 14985554.
  5. Lo Mauro A, D'Angelo MG, Romei M, Motta F, Colombo D, Comi GP, Pedotti A, Marchi E, Turconi AC, Bresolin N, Aliverti A (2010). "Abdominal volume contribution to tidal volume as an early indicator of respiratory impairment in Duchenne muscular dystrophy". Eur Respir J. 35 (5): 1118–25. doi:10.1183/09031936.00037209. PMID 19840972.
  6. Aliverti A, Dellacá R, Pelosi P, Chiumello D, Pedotti A, Gattinoni L (2000). "Optoelectronic plethysmography in intensive care patients". Am J Respir Crit Care Med. 161 (5): 1546–52. doi:10.1164/ajrccm.161.5.9903024. PMID 10806152.
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