156 research outputs found
A new device for monitoring respiratory rate in spontaneously breathing patients submitted to i.v.anaesthesia
Acute effects of inhaled nitric oxide in adult respiratory distress syndrome.
This study evaluated the dose-response effect of inhaled nitric oxide (NO) on gas exchange, haemodynamics, and respiratory mechanics in patients with adult respiratory distress syndrome (ARDS). Of 19 consecutive ARDS patients on mechanical ventilation, eight (42\%) responded to a test of 10 parts per million (ppm) NO inhalation with a 25\% increase in arterial oxygen tension (Pa,O2,) over the baseline value. The eight NO-responders were extensively studied during administration of seven inhaled NO doses: 0.5, 1, 5, 10, 20, 50 and 100 ppm. Pulmonary pressure and pulmonary vascular resistance exhibited a dose-dependent decrease at NO doses of 0.5-5 ppm, with a plateau at higher doses. At all doses, inhaled NO improved O2 exchange via a reduction in venous admixture. On average, the increase in Pa,O2, was maximal at 5 ppm NO. Some patients, however, exhibited maximal improvement in Pa,O2 at 100 ppm NO. In all patients, the increase in arterial O2 content was maximal at 5 ppm NO. The lack of further increase in arterial O2 content above 5 ppm partly depended on an NO-induced increase in methaemoglobin. Respiratory mechanics were not affected by NO inhalation. In conclusion, NO doses < or =5 ppm are effective for optimal treatment both of hypoxaemia and of pulmonary hypertension in adult respiratory distress syndrome. Although NO doses as high as 100 ppm may further increase arterial oxygen tension, this effect may not lead to an improvement in arterial O2 content, due to the NO-induced increase in methaemoglobin. It is important to consider the effect of NO not only on arterial oxygen tension, but also on arterial O2 content for correct management of inhaled nitric oxide therapy
Noninvasive evaluation of instantaneous total mechanical activity of the respiratory muscles during pressure support ventilation
OBJECTIVE:
The measurement of esophageal pressure (Pes) is the conventional method for the evaluation of the forces applied to the respiratory system by the respiratory muscles. As an alternative to Pes measurement, we propose the calculation of the instantaneous net pressure applied by the respiratory muscles [Pmusc(t)].
DESIGN:
Prospective, randomized study.
SETTING:
A general ICU of a university hospital.
PATIENTS:
Eight intubated patients submitted to pressure support ventilation for acute respiratory failure.
INTERVENTIONS:
Four different levels of pressure support were used to unload progressively the respiratory muscles. Pmusc(t) was calculated at all levels of pressure support and compared with Pes corrected for chest wall load as a reference. Pmusc(t) was further used to calculate inspiratory work of breathing, which in turn was compared with data obtained with the conventional method.
MEASUREMENTS AND RESULTS:
Airway pressure, airflow, and Pes were measured. Both for amplitude and for timing, Pmusc(t) showed good agreement with reference measurements. Work of breathing as calculated from Pmusc(t) agreed well with the measurement obtained with the conventional method (mean difference, 0.057 +/- 0.157 J).
CONCLUSIONS:
Noninvasive evaluation of Pmusc(t) allows extended monitoring of mechanical ventilation, which is particularly interesting for pressure preset ventilation modes
A relationship between PO 1 and inspiratory work of breathing during pressure ventilation (PSV)
[Nitric oxide inhalation test in patients with ARDS: preliminary assessment of the effect on arterial oxygenation]
OBJECTIVE:
Inhaled NO can improve arterial oxygenation in ARDS. We evaluated the incidence and the magnitude of this effect during a short test of NO inhalation. This was performed in 24 consecutive mechanically ventilated patients with ARDS in order to assess the interest of NO for the therapy of hypoxemia in each case.
DESIGN:
Retro-spective study.
SETTING:
ICU in a University Hospital.
PATIENTS:
24 hypoxemic patients with ARDS (lung injury score, LIS, 2.9 +/- 0.52), treated with conventional mechanical ventilation.
INTERVENTIONS:
Tests were performed using a mean inhalatory NO dose of 14 +/- 6 ppm. A pair of PaO2 data was obtained for each patient from two blood gas analysis, performed one just before and one 15 min after the start of NO inhalation.
RESULTS:
The mean baseline PaO2 was 76 +/- 21 mmHg and significantly increased with NO inhalation to 97 +/- 34 mmHg (p = 0.0001). Considering the individual response to NO, patients were arbitrarily classified as responders when the increase of PaO2 from baseline was > or = 10%. Sixteen patients were identified as responders, showing a mean increase of PaO2 from baseline by 40 +/- 26%, while the remaining 8 patients resulted non responders (mean change 1 +/- 5.7%). In no case a clinically significant decrease of PaO2 was observed during NO inhalation. The response to NO did not correlate with the LIS (r = 0.019) and with baseline PaO2 (r = 0.31).
CONCLUSIONS:
Inhaled NO doses of 14 +/- 6 ppm increased on the average the PaO2 in a group of ARDS patients, the individual response being however variable. A deterioration of arterial oxygenation was never observed. Even if the criteria for predicting the response to NO still remain to be defined, a short test seems to reliably provide a first estimate of the magnitude of the response
- …
