DISTRIBUTION OF INHALED NITRIC-OXIDE DURING SEQUENTIAL AND CONTINUOUSADMINISTRATION INTO THE INSPIRATORY LIMB OF THE VENTILATOR

Objectives: The concentrations of nitric oxide (NO) in the ventilatory circuits and the patient's airways were compared between sequential ( SQA) and continuous (CTA) administration during inspiratory limb deliv ery. Design: Prospective controlled study. Setting: 14-bed Surgical In tensive Care Unit of a teaching University hospital. Patients and part icipants: Eleven patients with acute lung injury on mechanical ventila tion and two healthy volunteers. Interventions: A prototype NO deliver y device (Opti-NO) and Cesar ventilator were set up in order to delive r 1, 3 and 6 parts per million (ppm) of NO into the bellows of a lung model in SQA and CTA. Using identical ventilatory and Opti-NO settings , NO was administered to the patients with acute lung injury. Measurem ents and results: NO concentrations measured from the inspiratory limb [INSP-NOMeas] and the trachea [TRACH-N-Meas] using fast response chem iluminescence were compared between the lung model and the patients us ing controlled mechanical ventilation with a constant inspiratory flow . INSP-NOMeas were stable during SQA and fluctuated widely during CTA (fluctuation at 6 ppm = 61 % in the lung model and 58 +/- 3 % in patie nts). Inpatients, [TRACH-NOMeas] fluctuated widely during both modes ( fluctuation at 6 ppm = 55 +/- 3 % during SQA and 54 +/- 5 % during CTA ). The NO now requirement was significantly lower during SQA than duri ng CTA (74 +/- 0.5 vs 158 +/- 2.2 ml.min(-1) to attain 6 ppm, p = 0.00 01). INSP-NOMeas were close to the Values predicted using a classical formula only during SQA (bias = -0.1 ppm, precision = +/- 1 ppm dur in g SQA; bias = 2.93 ppm and precision = +/- 3.54 ppm during CTA). Durin g SQA, INSP-NOMeas varied widely in healthy volunteers on pressure sup port ventilation. Conclusions: CTA did not provide homogenous mixing o f NO with the tidal volume and resulted in fluctuating INSP-NOMeas. In contrast, SQA delivered stable and predictable NO concentrations duri ng controlled mechanical ventilation with a constant inspiratory flow and was economical compared to CTA. However, SQA did not provide stabl e and predictable NO concentrations during pressure support ventilatio n.