Progress in clinical application of urgent lung transplantation / 器官移植

Lung transplantation is the only effective treatment of end-stage lung diseases. Nevertheless, shortage of donor lungs has become increasingly prominent worldwide. A large quantity of patients died while waiting for lung transplantation. Urgent lung transplantation is a prioritized allocation strategy for donor lung transplantation according to the urgency of diseases, aiming to shorten the waiting time for donor lungs and reduce the fatality of patients on the waiting list for lung transplantation. However, no consensus has been reached worldwide on the definition, criteria and application of the terminology of urgent lung transplantation. In addition, the survival and net benefits of lung transplant recipients based on this allocation system are still controversial. On the basis of previous clinical research on urgent lung transplantation, the definition criteria, risk factors, survival outcomes, limitations and optimization measures were explicitly elucidated in this article, aiming to provide theoretical reference for comprehensive evaluation of the feasibility of urgent lung transplantation and further optimizing the allocation system of donor lungs.

Clinical Observation of Nasal Continuous Positive Airway Pressure Ventilation in the Treatment of Neonatal Respiratory Failure / 现代医院

Objective To explore the clinical efficacy of nasal continuous positive airway pressure ventilation and conventional mechanical ventilation in the treatment of neonatal respiratory failure (NICU).Methods 68 cases of neonatal respiratory failure in our hospital from June, 2014 to June, 2016 in neonatal intensive care unit, according to the random number table method were divided into two groups: The observation group involved 34 patients with nasal continuous positive airway pressure, the control group 34 patients with conventional mechanical ventilation treatment.The changes of arterial blood gas analysis, clinical effect and complication were compared between the two groups.Results The PCO2 of the two groups was significantly decreased (P0.05).However, pH value was significantly increased, and the observation group was smaller than the control group (P<0.05).The total effective rate was 94.12% in the observation group and 67.65% in the control group (P<0.05).The time of ventilation and incidence of comorbidities in the observation group was significantly shorter than that in the control group (P<0.05).Conclusion Nasal continuous positive airway pressure ventilation for treatment of neonatal respiratory failure can more significantly improve the efficacy than conventional mechanical ventilation, shorten the time on the machine and reduce the relevant complications.So it is worth promoting.

Effections of different ways of mechanical ventilation with pulmonary surfactant on respiratory mechanics of patients with neonatal acute respiratory distress syndrome / 实用医学杂志

Objective To investigate the respiratory mechanics and treatment outcomes of different types of mechanical ventilation for patients with neonatal acute respiratory distress syndrome(ARDS):the high frequency oscillation ventilation + pulmonary surfactant (HFOV+PS),conventional mechanical ventilation + pulmonary surfactant(CMV+PS),conventional mechanical ventilation(CMV). Methods Seventy-five cases with neonatal ARDS,25 cases in the HFOV+PS group,30 cases in the CMV+PS group,20 cases in the CMV group. Patients in the former two groups received 70 mg/kg PS at a time. PaO2,PaCO2,PaO2/FiO2,oxygenation index(OI)and respiratory index(RI)were detected at 0 h,12 h,24 h,48 h,72 h post-mechanical ventilation. Results At 12, 24,and 48 hours post-mechanical ventilation,patients in the HFOV+PS group had a significantly higher level of PaO2 and a significantly lower level of PaCO2 than those of patients in the CMV+PS group and the CMV group(P<0.05). At 12,24,48,and 72 hours post-mechanical ventilation,patients in the HFOV+PS group had a significantly higher level of PaO2/FiO2 and significantly lower level of OI and RI than those of patients in the CMV+PS group and the CMV group (P < 0.05,respectively). Patients in the HFOV+PS group also had significantly shorter durations of mechanical ventilation and oxygen usage than those of patients in the CMV+PS group and the CMV group (P < 0.05). No significant differences were observed in Gas leak,the incidence of intracerebral haemorrhage and cure rate among the three groups. Conclusions Application of HFOV with PS therapy for patients with neonatal ARDS can timely improve the oxygenation,shorten the time of mechanical ventilation and the usage of oxygen,without increasing complications.

The Effect of High Frequency Jet Ventilation with Partial Liquid Ventilation in Saline Lavaged Lung Injury in the Rabbit / 대한마취과학회지

BACKGROUND: Morbidity and mortality rates from acute respiratory failure remain noteworthy despite advances in conventional ventilatory techniques and improvements in supportive care. Repeated, the large tidal volume breaths during positive pressure mechanical ventilation lead to destruction of alveoli and pulmonary capillaries. Moreover, the overdistention of terminal lung units is considered as an important mechanism of ventilator induced lung injury. High frequency ventilation (HFV) is a technique involving a small tidal volume, and a higher than physiologic respiratory rate. Partial liquid ventilation (PLV), also known as perfluorocarbon-associated gas exchange, is a new technique for respiratory support. This study was designed to compare conventional mechanical ventilation (CMV) and high frequency jet ventilation (HFJV), in combination with PLV. METHODS: Twenty rabbits were anesthetized with xylazine, ketamine and vecuronium. We studied rabbits with lung injury induced by saline lavage. Animal were randomized into one of two treatment groups. Ventilator parameters included the following; CMV: FIO2 of 1.0, respiratory rate 20-30 breaths/min, I/E ratio 1 : 1; HFJV: respiratory rate 2 Hz, driving pressure 2psi. Animals were briefly disconnected from the ventilator and lungs were lavaged with warmed saline. This procedure was repeated until PaO2 < 100 mmHg. After one hour, we initiated the instillation of perfluorodecalin via an endotracheal tube. Baseline measurements were performed at 60 mins after the induction of anesthesia and repeated again at hour after the induction of lung injury, which included 30 mins of stabilization. After PFD instillation, data were recorded. RESULTS: All animals developed hypoxemia after the lung injury, but oxygenation improved significantly after perfluorodecalin instillation. The PLV-HFJV group showed a high pH and a low PaCO2. Mean arterial pressure, cardiac index and systemic vascular resistance was differed significantly. Although there were no qualitative histological differences between lungs ventilated with HFJV on CMV, the lower lobes of all PLV-treated animals were damaged less than the upper lobes, but without statical significance. CONCLUSIONS: PLV-HFJV produced a more efficient gas exchange than PLV-CMV. No significant difference was observed in the pulmonary pathologies of the groups.

The Comparison of High Frequency Jet Ventilation and/or Conventional Mechanical Ventilation in Dogs / 대한마취과학회지

BACKGROUND: High frequency jet ventilation (HFJV) which can be replaced conventional mechanical ventilation (CMV) is another method in respiratory care. But, each one has weakness. This study was designed to determine whether combined HFJV with CMV is more prominent than HFJV on cardiopulmonary system. METHOD: Korean mongrel dogs (n=11) were induced with thiopental sodium 10 mg/Kg, intravenously. Tracheal intubation was performed, and CMV (respiratory rate 30/min, VT 10 ml/Kg, FiO2 1.0) was applied. After placement of monitors, arterial blood pressure (BP), heart rate (HR), central venous pressure (CVP), cardiac output (CO), pulmonary capillary wedge pressure (PCWP) were measured for control values on steady state of vital signs. Thereafter, HFJV was done using respiratory rate 120/min, inspiratory time 30 %, driving pressure 40 psi for 60 min (examed at time of 15, 30, 60 min), and then CMV was supplemented to HFJV using VT 10 ml/Kg, respiratory rate 8, 4, 2, 1, 0.5/min for 150 min (examed at time of 30, 60, 90, 120, 150 min). All values were measured and analyzed on suggested times according to the different ventilatory modes. RESULT: Arterial BP, HR, CO, CVP and PCWP were not changed significantly during the 60 minutes of HFJV. PaCO2 was increased significantly from 33+/-9 mmHg to 45+/-12 mmHg (p<0.05) and arterial pH was decreased significantly from 7.39+/-0.10 to 7.29+/-0.11 (p<0.05) after 60 minutes of HFJV. PaO2 was not changed for HFJV. Variables (BP, HR, CO, CVP and PCWP) were not changed significantly after combined HFJV with CMV at each respiratiry rates. Elevated PaCO2 at the 60 minutes of HFJV was normalized after combined HFJV with CMV at respiratory rate of 8, 4, 2, 1, 0.5/min. (p<0.05) and decreased pHa was also normalized (p<0.05) after combined HFJV with CMV at respiratory rate of 8, 4, 2, 1/min. PaO2 was not changed for the time which we combind HFJV with CMV. CONCLUSION: The combinded HFJV with CMV makes expected arterial oxygenation and prevents accumulation of arterial carbon dioxide without depressive effect on cardiovascular system, when tidal volume of CMV is 10 ml/Kg and the respiratory rate is above 1/minute. So, this study suggests that the combined HFJV with CMV may be applied to respiratory failure effectively.

Effects of High Frequency Ventilation after Surfactant Replacement Therapy Compared with Conventional Ventilation in the Neonatal Respiratory Distress Syndrome

PURPOSE: We performed a retrospective study to compare effects of Surfacten(R) with HFV administration and meticulous conventional ventilatory support for neonatal RDS by analyzing clinical effects, complication and mortality between two groups. METHODS: Of 107 cases admitted to the nursery in Taegu Fatima hospital from February 1990 to June 1996, 52 neonates (admitted from January 1993 till June 1996) with RDS on high frequency ventilation after Surfacten(R) replacement were included as study group while 57 neonates(admitted from January 1990 till December 1996) with RDS on only conventional ventilation as control group. Serial change of FiO2, MAP, PaO2 and PaCO2 within 48hours after Surfacten(R) replacement, chest X-ray, clinical course, complication and mortality rate were propectively analyzed between two groups. RESULT: 1) After 24 hours Surfacten(R) replacement FiO2 had gradually decreased to 40% in the treated group, while in the control group, decreased to 50% within 48 hours. 2) MAP was maintained at 5.2cmH2O in the treated group, while in the control group, at 6.9cmH2O. 3) Serial change of PaO2 during weaning period after Surfacten(R) replacement between two groups were not significantly different(in the treated group : 74.5mmHg, in the conrol group : 76.1mmHg). 4) Serial change of PaCO2 during weaning period after Surfacten(R) replacement in the treated group were maintained significantly below the level of PaCO2 in the control group(in the treated group : 42.3mmHg, in the control group : 46.6mmHg). 5) In the treated group, complications were a series of PDA, IVH and pneumothorax, while in the control group, of PDA, Sepsis and IVH, and there were no differences between two groups with respect to mortality. CONCLUSION: It was concluded that the combined treatment with Surfacten(R) replacement and high frequency ventilation for neonatal RDS improved short term clinical effects than in the control group, but there were no significant difference in terms of complications and mortality rate between two groups

Improvement of Ventilatory Status by HFJV in the Patient with Hypoxemia Refractory to Conventional Mechanical Ventilation / 대한마취과학회지

The selection of either conventional mechanical ventilation or HFJV depends on the physical status of the patient,potential physioloic advantages and disadvantages, the requirements of the clinical situation and the capability of providing adequate oxygenation and ventilation. We have experienced that HFJV markedly improved the ventilatory status of a 52-year old male patient with severe respiratory failure due to flail chest and ruptured giant bulla refractory to conventional mechanical ventilatory support.

Improvement of Ventilatory Status by HFJV in the Patient with Hypoxemia Refractory to Conventional Mechanical Ventilation / 대한마취과학회지

The selection of either conventional mechanical ventilation or HFJV depends on the physical status of the patient,potential physioloic advantages and disadvantages, the requirements of the clinical situation and the capability of providing adequate oxygenation and ventilation. We have experienced that HFJV markedly improved the ventilatory status of a 52-year old male patient with severe respiratory failure due to flail chest and ruptured giant bulla refractory to conventional mechanical ventilatory support.