Synchronization of radiograph film exposure with the inspiratory pause. Effect on the appearance of bedside chest radiographs in mechanically ventilated patients.

The appearance of portable chest radiographs (CXRs) may be affected by changes in ventilation, particularly when patients are mechanically ventilated. Synchronization of the CXR with the ventilatory cycle should limit the influence of respiratory variation on the appearance of the CXR. This study evaluates the effect of synchronizing the CXR film exposure with ventilation on the appearance of the radiograph. Twenty-five patients who remained intubated postoperatively, were mechanically ventilated, and required a CXR were enrolled in this triple-blind, randomized prospective study. Each patient received one radiograph using conventional techniques and another using the interface. The sequence of the two films was randomized, and the two films were taken on the same patient within a few minutes of each other. Hence, each patient served as his own control and the position of the patient, source-film distance, intensity (Kvp), and duration of the exposure (mAs) were identical for the two films. Five board-certified radiologists were then asked to compare paired films for clarity of lines and tubes, definition of the pulmonary vasculature, visibility of the mediastinum, definition of the diaphragm, and degree of lung inflation. Radiologists were also asked to choose which films they preferred. A majority of board certified radiologists preferred CXRs taken with the interface in 21 of 25 patients (p < 0.0001). Furthermore, four of the five criteria evaluated were improved (p < 0.05) on synchronized CXRs. Synchronization of the bedside CXR with the end of inspiration ensures that they are always obtained at maximal inflation, which improves the appearance of a majority of radiographs by at least one of five criteria.

[1]  R. Weisel,et al.  Diagnostic value of the portable chest x-ray technic in pulmonary edema. , 1978, American journal of surgery.

[2]  Laser alignment system for high-quality portable radiography. , 1992, Radiographics : a review publication of the Radiological Society of North America, Inc.

[3]  K. Doi,et al.  The effect of x-ray beam alignment on the performance of antiscatter grids. , 1996, Medical physics.

[4]  P. Marik,et al.  The impact of routine chest radiography on ICU management decisions: an observational study. , 1997, American journal of critical care : an official publication, American Association of Critical-Care Nurses.

[5]  M. Pistolesi,et al.  Imaging strategies in the detection and evaluation of ARDS. , 1993, Schweizerische medizinische Wochenschrift.

[6]  C. Henschke,et al.  Accuracy and efficacy of chest radiography in the intensive care unit. , 1996, Radiologic clinics of North America.

[7]  E. Milne A physiological approach to reading critical care unit films , 1986, Journal of thoracic imaging.

[8]  D. Livingston,et al.  The utility of routine daily chest radiography in the surgical intensive care unit. , 1993, The Journal of trauma.

[9]  R. George,et al.  Value of routine daily chest x‐rays in the medica intensive care unit , 1985, Critical care medicine.

[10]  G. Bernard,et al.  Radiographic issues in adult respiratory distress syndrome. , 1993, New horizons.

[11]  Jesse B. Hall,et al.  Efficacy of daily routine chest radiographs in intubated, mechanically ventilated patients , 1991, Critical care medicine.

[12]  Design, implementation and bench evaluation of a system for automatic synchronization of chest X-ray radiography with peak lung inflation , 1998, Proceedings of the 20th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. Vol.20 Biomedical Engineering Towards the Year 2000 and Beyond (Cat. No.98CH36286).

[13]  D F Guthaner,et al.  Evaluation of the portable chest roentgenogram for quantitating extravascular lung water in critically ill adults. , 1985, Chest.

[14]  D. Aufrichtig,et al.  Assessment of cardiac size on portable chest films. , 1988, Journal of thoracic imaging.

[15]  J. Zimmerman,et al.  Effect of mechanical ventilation and positive end-expiratory pressure (PEEP) on chest radiograph. , 1979, AJR. American journal of roentgenology.

[16]  R H Choplin,et al.  Chest X-ray changes in air space disease are associated with parameters of mechanical ventilation in ICU patients. , 1996, American journal of respiratory and critical care medicine.

[17]  P. Pelosi,et al.  Regional effects and mechanism of positive end-expiratory pressure in early adult respiratory distress syndrome. , 1993, JAMA.

[18]  P. Kerley,et al.  A Text‐book of X‐ray Diagnosis , 1951 .

[19]  M. Lefcoe,et al.  Clinical studies of measuring extravascular lung water by the thermal dye technique in critically ill patients. , 1983, Chest.

[20]  M. Weil,et al.  Utility of portable chest X-ray. , 1987, Chest.

[21]  A. Rahmouni,et al.  Can portable chest x-ray examination accurately diagnose lung consolidation after major abdominal surgery? A comparison with computed tomography scan. , 1992, Chest.

[22]  H. Hricak,et al.  Magnetic resonance imaging with respiratory gating: techniques and advantages. , 1984, AJR. American journal of roentgenology.

[23]  T. McLoud,et al.  PEEP: radiographic features and associated complications. , 1977, AJR. American journal of roentgenology.

[24]  D. Blackhurst,et al.  Lowering hospital charges in the trauma intensive care unit while maintaining quality of care by increasing resident and attending physician awareness. , 1995, The Journal of trauma.