Showing 8 results for Ventilation
Nili F,
Volume 58, Issue 3 (6-2000)
Abstract
Despite improvement of mechanical ventilation devices for infants, lung injury still causes morbidity and mortality in many cases. To determine the effect of high frequency oscillatory ventilation (HFOV) in infants with severe respiratory failure, 10 neonates were evaluated prospectively. Mean gestational age of these patients was 35 weeks and alveolar-arterial oxygen gradient (A-aDo2) and the ratio of arterial to alveolar oxygen pressure (a/A) immediately before HFO were 610 torr and 0.072 respectively. These neonates were received inspired oxygen concentration of >95% with a mean airway pressure of 12 cm H2O by conventional mechanical ventilation. The A-aDo2 and a/A after 6 and 24 hrs on HFO was not significant in those infants with survived compared with those who died. Comparison of 3 alive neonates with 7 deaths, demonstrate that pulmonary hypoplasia, HMD accompanied with asphyxia, congestive heart failure with pneumonia are associated with poor outcome. The mean a/A ratio during 24hrs of HFO in the alived HMD group was 0.75 compared with 0.25 in those who died. It is possible that we can use this as a prognostic factor in survival. In this study, the positive effect of HFOV was demonstrated in those with no predisposing factors such as pulmonary hypoplasia, congestive heart failure, pneumonia and asphyxia.
Gharabaghian M, Sadeghy Sa, Mir Mohammad Sadeghi Sf, Rafieyani Sa,
Volume 60, Issue 4 (7-2002)
Abstract
Background: Cuffed pharyngeal tube is a device designed for ventilation of anesthetized patients. CPT has advantages over face mask including: maintaining of face mask can be difficult and boring after several minutes and mobility of the practitioner is reduced due to involvement of hands. Mask pressure can cause soft tissue and nerve damage around the nose. Anesthetic gas leakage from the mask adds to the operation room pollution. In difficult intubation CPT can be life-saving.
Materials and Methods: In our study CPT was compared with endotracheal tube (ET) in anesthetized patients. A scoring system for evaluating ventilation of patients was designed using symmetric chest wall motion during ventilation with anesthesia bag and sensing lung compliance through it, auscultation of breathing sounds, oscilation of bag with breathing and peripheral oxygen saturation by pulse oxymetry. Respiratory complications (pulmonary aspiration, Iaryngospasm and bronchospasm, nausea and vomiting) were looked for during anesthesia.
Results: The results showed that CPT was successful as ET in ventilation of spontaneously breathing patients and incidence of respiratory complications with CPT was no more than ET. Airway resistance was significantly greater with CPT than ET (P<0.05). Patients with ET had significantly greater incidence of sore throat than with CPT (P<0.05).
Conclusion: Thus we concluded that CPT can be used for ventilation of anesthetized patients not predisposed to pulmonary aspiration and whose peak airway pressure does not exceed 20-25 CmH2O.
Taheri A, Hajimohamadi F, Khagavy Mr ,
Volume 60, Issue 6 (9-2002)
Abstract
Introduction: Laser beam due to finest of incision and reduction of postoperative complication, facilitates airway surgery, but at the same time it increases the danger or firing and the airway management and protection becomes difficult during anesthesia. In this study, two general anesthesia methods (Intermittent Apneic Technique And Continuous Controlled Ventilation With Enveloped Endotracheal Tube) have been compared with each other mater.
Materials and methods: two groups, each consist of 25 patients 10 to 60 years old, and ASA I-II class and below 100kg weight who have been candidate for laser therapy, were given two mentioned methods of anesthesia. All patients were suffering from subglotic stenosis, vocal cord nodules, papillomatosis and oropharyngeal obstruction. Induction and maintenance of anesthesia, and monitoring during surgery (EGG, PETCO2, SaPo2, BP, PR) in both groups were the same.
Results: Homodynamic stability in the both groups were the same and there was no hypoxia and dysrhythmia. In apneic technique group, most of the surgeries needed 2-3 time of apnea, and each apnea duration was 2-4 minutes, without any hypercaphic (Peteco 2>47 mmHg) and hypoxic (Spo2<90 percent) state and duration of laser surgery was about 9-10 minutes. More satisfaction was gained with apneic technique because of having a better surgery filed. All the patients had no recall at the end of anesthesia and patietn's expenses were much lower with no danger of firing.
Conclusion: It has been concluded that intermittent apneic technique in upper airway laser therapy is a better technique of anesthesia.
M.r Khajavi, M Saberi, R Moharari, M Mojtahed Zadeh, A Najafi,
Volume 66, Issue 5 (8-2008)
Abstract
Background: Acute lung injury (ALI) is a pulmonary pathology occuring in context of infection, trauma, burn, and sepsis. Tissue injury and release of chemical mediators result in tissue damage and organ failure especially respiratory failure. Many therapeutic modalities including vitamin E, allopurinol, and N-acetylcystein (NAC) have been used to decrease levels of inflammatory factors and to control and improve signs and symptoms. The antioxidant feature of NAC induces synthesis of glutathione- the scavenger of free radicals- and increase respiratory drive and PaO
2. In time diagnosis of ALI, prompt institution of treatment will reduce mortality and morbidity in critical illness.
Methods: This open label analytical clinical trial included a total of 50 patients admitted in the ICU ward of Sina University Hospital. They were randomly divided into two groups of 25, the case group received NAC 150mg/kg in 100ml Normal saline within 20 minutes then 50mg/kg in 100ml Normal saline within 4 hr after that 50mg/kg daily for three days. The controls received only normal saline. Oxygenation and ventilation parameters were studied In both groups.
Results: There were no significant difference between the groups in terms of demographic indices, mean SpO
2, ABG values, mortality rates, and clearing of chest x-rays. The best outcome was seen in young traumatic patients.
Conclusion: In this relatively small group of patients presenting with an established ALI/ ARDS subsequent to a variety of underlying disease, intravenous NAC treatment during first four days neither significantly improved systemic oxygenation nor reduced the need for ventilatory support.
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Nayeri F, Goodarzi R, Amini E, Nili F,
Volume 66, Issue 10 (1-2009)
Abstract
Background: The use of synchronized intermittent mandatory ventilation (SIMV) and pressure support ventilation (PSV) have been used for older children and adults. The purpose of this study was to compare PSV and SIMV modes in weaning from mechanical ventilation in neonate with respiratory failure.
Methods: A randomized clinical trial study carried out in NICU ward of Valiasr hospital Imam Khomeini Hospital complex, Tehran, Iran. Thirty neonates enrolled in two groups of 15. At the weaning time they randomly assigned to SIMV or PSV. They compared for tidal volume (VT), peak inspiratory pressure (PIP), incidence of pneumothorax, weaning failure and duration of weaning. For two groups to be homogeneous, maternal disease during pregnancy were also considered.
Results: In this study, VT, PIP, incidence of pneumothorax and weaning failure did not differ between groups duration of ventilation of the two methods (hours) and duration of hospitalization (days) were separately calculated. The only meaningful difference in two groups were due to weaning duration. The neonates weaned by PSV mode experienced shorter weaning time. (6.05 hours). The weaning time in SIMV mode was longer (45 hours) (P=0.006). There were no other meaningful differences between the two groups
Conclusions: According to the results of this study there were no advantage using PSV over SIMV except that the weaning time were shorter in PSV. This decrease in weaning time causes less dependence of the neonate to the ventilator and as a result secure them from complications.
Mohsen Soleimani , ,
Volume 76, Issue 1 (4-2018)
Abstract
Background: Endotracheal tube cuff pressure must be maintained in safe range. Many factors could be affecting on endotracheal tube cuff pressure in patients on mechanical ventilation. Patients undergoing mechanical ventilation (MV) in critical care settings require changing position for different reasons. The aim of this study was to determine the effect of changes in body position and head of bed on the endotracheal tube cuff pressure in patients with mechanical ventilation.
Methods: This quasi-experimental study (pre-post design) was performed from April to October 2016 on 70 patients with positive pressure mechanical ventilation in critical care settings in two university hospitals in the cities of Semnan and Shahroud, Semnan Province, Iran. At first, the endotracheal tube cuff pressure of patients was regulated on 25 cmH2O in the bed position of 30 degree. Then the patients were randomly positioned on zero degree bed position, 45 degree bed position, lateral position of patients toward mechanical ventilation apparatus and lateral position opposite the MV apparatus. In each position cuff pressure was measured after 5 minutes pause and head and neck of the patients was not flexed or extended. Tube cuff pressure was measured and recorded in the end expiratory with aneroid manometer after each position change. Data analysis was performed with software of SPSS software, version 18 (Armonk, NY, USA) in the significant level of 0.05.
Results: Most of study patients (58.6%) were male and no smokers (81.4%). Age mean of patients were 63.37±20.9 years. Most of patients connected to MV because of respiratory failure. In each change positions and head of bed regulation, the mean of endotracheal tube cuff pressures were significantly increased (P<0.001). Endotracheal tube cuff pressure in the lateral position opposite to the apparatus had maximum increase (29.12±0.41 cmH2O) and in the zero degree bed position tube cuff pressure had minimum increase (27.6±0.38 cmH2O).
Conclusion: Findings of this study showed that changing position of bed and patients undergoing mechanical ventilation, especially in lateral position opposite to the apparatus could increase endotracheal tube cuff pressure. This increase may reach to abnormal range and cause tracheal injury.
Hamidreza Shetabi, Mehrdad Norouzi , Hossein Mahjubipour, Anahita Naviafar,
Volume 80, Issue 6 (9-2022)
Abstract
Background: Coronavirus in 2019 was recognized as one of the leading causes of death worldwide. According to reports, the mortality rate in people who need mechanical ventilation varies from 50 to 97 percent. The aim of this study was to evaluate the outcome of Covid-19 disease based on different characteristics in patients and mechanically ventilated variables.
Methods: This descriptive-analytical study was conducted on 160 patients with a definite diagnosis of Covid-19 who were under mechanical ventilation and admitted to the intensive care unit of Alzahra Hospital in Isfahan from March 2020 to March 2021. Data was collected by checklist. The checklist included demographic information, including age, gender, as well as information such as underlying diseases, disease outcome, length of hospitalization, etc. After collecting the data, they were analyzed in SPSS software version 22 and at a significance level of less than 0.05.
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Results: In this study, the overall mortality rate among mechanically ventilated patients was 62.5%. The mean age of patients was 69.99±17.87 years and the mean duration of hospitalization in surviving patients was 15.47±11.73 days and for deceased ones was 55.21±69.14 days. The mean age of the deceased group (65.71±16.59) was significantly higher than the surviving group 53±21.17 was (P=0.0001). The length of hospital stay in the deceased group was significantly longer than the surviving group (P=0.005). As a result, ventilator mode and inotropic agent intake during treatment increased the chance of mortality in patients under mechanical ventilation (P=0.001). There was a significant relationship between underlying diseases of hypertension, kidney disease and autoimmune disease with mortality in patients (P<0.05).
Conclusion: Various factors including the length of stay in the hospital, comorbidities such as hypertension, renal disease and autoimmunity may affect the outcome of critically ill ICU patients under mechanical ventilation. Patients who require long-term invasive ventilation and the use of inotropic drugs to maintain their cardiovascular status while hospitalized in the ICU are at higher risk for mortality.
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Nazli Farnoosh, Shahram Seyfi, Khadijeh Ezoji, Asadollah Shakeri, Kayvan Latifi, Parviz Amri Male ,
Volume 81, Issue 8 (11-2023)
Abstract
Background: Noninvasive ventilation (NIV) has been used as one of the most promising methods to treat hypoxic respiratory failure in COVID-19.
Methods: In this study, the clinical outcomes of 80 patients with acute respiratory failure caused by COVID-19 were evaluated. The disease was confirmed in two methods: clinical and radiographic confirmation of disease in patients with an acute respiratory infection (highly suspected) or in some cases with a positive PCR test. The rate of discharge from the ICU without the need for intubation was evaluated as the primary outcome and based on that, the patients were divided into two groups: NIV failure and NIV success. Mortality rate, length of stay in ICU, frequency of intubated patients and laboratory factors of patients as secondary outcomes in two groups were compared.
Results: Regarding the outcome of death and discharge, there was a statistically significant difference between the two groups. Therefore, all patients with corona who were admitted to ICU and received NIV and were intubated due to non-responsiveness to NIV died and the patients were discharged from the hospital without intubation. All the patients investigated in this study, had received antiviral, antibiotic, and glucocorticoid treatment during hospitalization. In this study, the patients who were in the NIV success group and were not intubated had a lower mean age compared to the group without NIV success (54 vs. 67 years, respectively). The number of white blood cells in the NIV success group was 3945.28±10011.21 and in the group without NIV success was 9242.38±17296.16, which was statistically significant (P=0.004). The number of blood neutrophils in the successful and unsuccessful NIV groups was 12.19±83.04 and 4.31±89.49, respectively (P=0.034). The mean APACHEII score in patients in the NIV success group (11.07±5.05) was significantly lower than the group without NIV success (20.16±4.96).
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Conclusion: Mortality was higher in the intubated group than in the NIV group. The combination of APACHEII score and respiratory rate one hour after receiving NIV can predict success with NIV.
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