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Aspiration of dead space allows normocapnic ventilation at low tidal volumes in man (1999)

De Robertis, E. ; Servillo, G. ; Jonson, B. ; [et al.]

Springer

Intensive care medicine 25 (1999), S. 674-679

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ISSN: 1432-1238

Keywords: Key words Mechanical ventilation ; Dead space ; Airway pressure ; Barotrauma ; Tracheal gas insufflation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective: Aspiration of dead space (ASPIDS) improves carbon dioxide (CO2) elimination by replacing dead space air rich in CO2 with fresh gas during expiration. The hypothesis was that ASPIDS allows normocapnia to be maintained at low tidal volumes (VT). Design: Prospective study. Setting: Adult intensive care unit in a university hospital. Patients: Seven patients ventilated for neurological reasons were studied. All patients were clinically and haemodynamically stable and monitored according to clinical needs. Interventions: ASPIDS implies that, during expiration, gas is aspirated through a catheter inserted in the tracheal tube. Simultaneously, a compensatory flow of fresh gas is injected into the inspiratory line. ASPIDS was achieved with a computer/ventilator system controlling two solenoid valves for aspiration and injection. Results: At the basal respiratory rate of 12.6 breaths min–1, with ASPIDS VT decreased from 602 to 456 ml, as did the airway pressures to a corresponding degree. PaCO2 and PaO2 remained stable. At a frequency of 20 breaths min–1, with ASPIDS VT was further reduced to 305 ml with preserved normocapnia. ASPIDS did not interfere with the positive end-expiratory pressure (PEEP) level. No intrinsic PEEP developed. All patients remained stable. No haemodynamic or other side effects of ASPIDS were noticed. Conclusion: The results of this study suggest that ASPIDS may be a useful and safe modality of mechanical ventilation that limits alveolar pressure and minute ventilation requirements while keeping PaCO2 constant.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001340050929

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Effects of NO inhalation on pulmonary leukocyte sequestration and blood volume in porcine endotoxaemia (2000)

Dahm, P. L. ; Blomquist, S. ; De Robertis, E. ; [et al.]

Springer

Intensive care medicine 26 (2000), S. 336-343

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ISSN: 1432-1238

Keywords: Key words Nitric oxide ; Leukocyte sequestration ; Sepsis ; Endotoxin ; Shock ; Lung ; Oxygenation ; Pulmonary vasoconstriction ; Blood volume ; Circulation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Objective: Sequestration and migration of activated neutrophils plays a major role in the pulmonary injury typical of septic shock and the adult respiratory distress syndrome. Inhaled NO may counteract alveolar-capillary damage attributed to activated neutrophils. The present study describes a method to directly demonstrate the effects of NO inhalation on endotoxin-induced sequestration of 99 mTc-labelled leukocytes [As(t)] in the lungs of pigs.¶Design: Prospective controlled study.¶Setting: Laboratory for experimental surgery at a university medical centre.¶Subjects: Anaesthetised and ventilated pigs.¶Interventions: To induce inflammatory shock 26 animals received a continuous endotoxin infusion. Thirteen animals inhaled NO from the start of the experiments, while 13 served as controls. In 13 animals from both groups, leukocytes were labelled in vitro and reinjected, while in the 13 others erythrocytes were labelled in vivo to provide corrections for changes in blood volume.¶Measurements and results: The pulmonary distribution of 99 mTc-labelled leukocytes or erythrocytes was studied dynamically for 180 min. After correction for changes in pulmonary and heart blood volume (PBV, HBV), leukocyte sequestration curves were generated. Endotoxin induced pulmonary vasoconstriction, reduced PBV, impaired oxygenation, and caused a maximum increase in As(t) of 30 % in the lungs. NO inhalation attenuated pulmonary vasoconstriction and the reduction in PBV. The maximum increase in As(t) was reduced to 15 % of baseline.¶Conclusions: Inhaled NO exerts its main vascular effects in the pulmonary microvasculature, the primary site of physiological neutrophil margination and pathological adhesion of activated leukocytes. Early use of NO inhalation may offer protection against the development of more lasting pulmonary failure in septic shock by reducing leukocyte sequestration in the lungs.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001340051159

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