The European respiratory journal : official journal of the European Society for Clinical Respiratory Physiology
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Editorial Comment
The interface: crucial for successful noninvasive ventilation.
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Review Comparative Study
Immunosuppressive therapy after human lung transplantation.
In 2002, equal numbers of lung transplantation (LTx) were performed with or without induction therapy with antilymphocyte antibodies, monoclonal anti-CD3 antibody or anti-interleukin-2-receptor monoclonal antibodies. It remains to be established if induction therapy after LTx is beneficial or deleterious for long-term graft and patient survival. The vast majority of lung transplant recipients receive a triple-drug maintenance regimen including a calcineurin inhibitor, a cell-cycle inhibitor and steroids. ⋯ The superiority of Tac over CsA as a maintenance agent has not been established to date, and the administration of MMF instead of Aza in combination with CsA and steroids did not improve graft or patient survival in a recent international, prospective, randomised, controlled trial. Shift from cyclosporin A to tacrolimus has emerged as the first treatment step of refractory acute rejection followed by high-dose steroids or antilymphocyte agents, total lymphoid irradiation or photopheresis. The treatment of chronic rejection remains deceptive and includes varied strategies such as modification of the maintenance regimen, addition of inhaled immunosuppressants and/or total lymphoid irradiation and photopheresis.
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The aim of this study was to determine what the influence of different designs of face masks and different noninvasive ventilator modes would be upon total dynamic dead space. Using a spontaneous breathing model, total dynamic dead space was measured when using 19 commercially available face masks and a range of ventilators in various ventilation modes. Total dynamic dead space during spontaneous ventilation was increased above physiological dead space from 32% to 42% of tidal volume by using face masks. ⋯ Pressure assist and pressure support ventilation decreased total dynamic dead space to a lesser degree, from 42% to 39% of tidal volume. Face masks with expiratory ports over the nasal bridge resulted in beneficial flow characteristics within the face mask and nasal cavity, so as to decrease total dynamic dead space to less than physiological dead space from 42% to 28.5% of tidal volume. Exhaust ports over the nasal bridge in face masks effect important decreases in dynamic dead space provided positive pressure throughout the expiratory phase is used.