Objective To study the clinical feasibility of invasive mechanical ventilation with bilevel positive airway pressure(BiPAP) non-invasive ventilator in the stable patients needing prolonged mechanical ventilation.Methods Eleven patients with respiratory failure admitted in intensive care unit(ICU)of our department,who needed prolonged mechanical ventilation,between Jun 2004 and Nov 2007 were enrolled in the study and followed until death or Jan 2008.The arterial blood gas analysis data,length of stay(LOS),LOS after changing to BiPAP non-invasive ventilator(Synchrony,Harmony,RESPIRONICS,VPAP III ST-A,RESMED),survival time after discharge(or fulfilled the discharge standards) were reviewed retrospectively.Results The settings of inspiratory pressure,expiratory pressure and respiratory rate of non-invasive ventilation were 21.3 (16-26) cm H2O,4 cm H2O,and 16 min-1,respectively.The LOS (or up to the discharge standard) was (91.5±50.2) days.The LOS (or up to the discharge standard) after changing to BiPAP ventilator was (23.5±12.2) days.The mean survival time after discharge (or up to the discharge standard) was (353.1±296.5) days.Four patients were still alive up to the end of the study.The arterial pH,PaCO2,PaO2,and SaO2 were not significant different before and after changing to BiPAP ventilator.Conclusion The mechanical ventilation with BiPAP non-invasive ventilator via tracheotomy tube is an alternative choice for stable patients needing prolonged mechanical ventilation.
Objective To compare the efficacy and safety of different airway humidification methods in patients with tracheotomy in weaning process. Methods Twelve patients with tracheotomy in the medical intensive care unit ( MICU) of the First Affiliated Hospital of Sue Yat-sen University fromSeptember 2008 to August 2009 were enrolled in which 45 case /times weaning tests in three different humidification ways were performed( 15 cases in each group) . Wet square gauze method was used in group A and traditional intermittent wet fluid drip method was used in group B. In group C, MR850 humidifier device, RT200 Venturi tube and T tube device were used to perform humidification. Comparisons were carried out between the three groups on sputum viscosity, comfort of patients before and after humidification, length of weaning time, frequencies of irritating coughs and phlegm formation during test period. Sputum viscosity was evaluated by airway secretion score ( AWSS) .Results There was no significant difference of sputum viscosity assessed by AWSS in group A before and after humidification( P gt; 0. 05 ) while AWSS was significantly increased in group B and group C ( P lt;0. 01) , implied that sputum viscosity was significantly lower than that of group A ( P lt;0. 05) . The scores of patients’comfortwere 3. 0 ±0. 4, 5. 0 ±1. 2, and 8. 0 ±1. 7 in groups A, B, and C respectively which mean that the patients in group C felt more comfortable than those in group A and group B ( P lt;0. 01) . Cough frequencies of groups A, B and C per hour were 0. 8,2. 6,and 0. 4 times/hour respectively in which the frequency of group B was significantly higher than those of group A and group C ( P lt;0. 01) . The frequency of phlegm formation in group A was 7 times in 15-times offline record, which was significantly higher than those in group B and group C ( P lt;0. 01) . Conclusions For the patients with tracheotomy in weaning process, MR850 humidifier device, RT200 Venturi tube and T tube device for humidification is superior in reducing sputum viscosity and phlegm formation, improving patient comfort, and reducing the occurrence of irritating cough.
ObjectiveTo explore the clinical effectiveness of two kinds of treatment methods to nurse wound after tracheotomy. MethodsWe collected 108 cases and randomly divided them into two groups between March 2012 and May 2013. The experimental group (n=52) received tracheotomy care with PermaFoam dressing, while the control group (n=56) was treated with traditional sterile absorbent gauze. We analyzed the differences in terms of infection of wound, errhysis and frequency of dressing changes between the two groups. ResultsThe experimental group had a lower rate of wound infection than the control group (P<0.05). Moreover, the experimental group was superior to the control group in the total number of dressing changes, wound redness and oozing (P<0.05). ConclusionPermaFoam dressing can reduce wound complications and frequency of dressing changes effectively. It is easy to operate, and can reduce the workload of clinical nursing, and deserves clinical application.
ObjectiveTo summarize the experiences of artificial airway management for inhalation injury patients undergoing tracheotomy. MethodsA retrospective analysis was made on the clinical data of 16 patients with inhalation injury who accepted artificial airway implantation after tracheotomy from January 2012 to October 2014. Certain measures were taken for the patients such as timely sputum suction in a correct way, effective airway moist, timely airway lavage, strict aseptic operation, reasonable position management, dynamic observation and health education. ResultsFifteen patients were cured, and one died. Among the cured patients, there were one case of catheter change due to blocked sputum, and one case of catheter outward portion sliding depth adjusting. ConclusionStrengthening artificial airway management after tracheotomy is the key to keep airway unobstructed, to prevent complications, and to guarantee the safety and a speedy recovery of patients.
ObjectiveTo investigate the clinical efficacy of AIRVO2 respiratory humidification apparatus in patients with tracheotomy after successful weaning from mechanical ventilation in intensive care unit (ICU).MethodsOne hundred subjects were randomly divided into a control group (treated with the tracheotomy mask joint oxygen inhalation by heating humidifier, n=50) and an observation group (treated with AIRVO2 model, n=50) on the basis of conventional therapy. Blood gas indexes (pH, PaO2, PaCO2, PaO2/FiO2) and clinical data (heart rate, respiratory rate, SpO2, sputum viscosity) were recorded at 0 h, 6 h, 12 h, 24 h, 48 h, 72 h after weaning. Besides, the incidence of postoperative pulmonary infection, rapid shallow breathing index (RSBI), successful weaning rate from mechanical ventilation and daily cost of weaning between the two groups were compared at 72 h after weaning.ResultsAfter treatment, all observed data of the patients were obviously improved compared with those before treatment. The differences of humidification effects between the observation group and the control group at the same time point were statistically significant (P<0.05). The differences of heart rate, respiratory rate, and SpO2 between the observation group and the control group at the same time point were statistically significant (P<0.05). The improvement of PaO2 and PaCO2 at the same time point were statistically different between the observation group and the control group (P<0.05). Seventy-two hours after weaning, the incidence of postoperative pulmonary infection and RSBI in the observation group were significantly lower than those in the control group (P<0.05), successful weaning rate from mechanical ventilation in the observation group was significantly higher than that in the control group (P<0.05), and the average daily cost of weaning from mechanical ventilation in the observation group was lower than that in the control group (P<0.05). Nine patients in the control group and 1 patient in the observation group needed secondary mechanical ventilation due to hypoxemia.ConclusionThe therapy of AIRVO2 respiratory humidification apparatus combined with conventional treatment may achieve satisfactory effect for patients of successful weaning from mechanical ventilation with tracheotomy, and it is worthy of promotion in clinical use.
Tracheotomy is a commonly used measure in clinical rescue of critically ill patients, and it has an important impact on the survival outcome of patients. The time of extubation directly affects the recovery process of the patient. This article reviews the research progress of extubation management of tracheotomy patients at home and abroad, and mainly summarizes and elaborates from four aspects, including the role of the multidisciplinary team in tracheostomy management, where tracheostomy patients are extubated, conditions for extubation in tracheotomy patients, and wound care after extubation in tracheotomy patients. The purpose is to provide a reference for the selection of extubation timing and extubation management for patients with tracheotomy, to improve the success rate of extubation and improve the quality of life of patients.