BACKGROUND: Mechanical ventilation is a double-edged sword to acute respiratory distress syndrome (ARDS) including lung injury, and systemic inflammatory response high tidal volumes are thought to increase mortalit...BACKGROUND: Mechanical ventilation is a double-edged sword to acute respiratory distress syndrome (ARDS) including lung injury, and systemic inflammatory response high tidal volumes are thought to increase mortality. The objective of this study is to evaluate the effects of dynamic ventilatory factors on ventilator induced lung injury in a dog model of ARDS induced by hydrochloric acid instillation under volume controlled ventilation and to investigate the relationship between the dynamic factors and ventilator-induced lung injuries (VILI) and to explore its potential mechanisms.METHODS: Thirty-six healthy dogs were randomly divided into a control group and an experimental group. Subjects in the experimental group were then further divided into four groups by different inspiratory stages of flow. Two mL of alveolar fluid was aspirated for detection of IL-8 and TNF-α. Lung tissue specimens were also extracted for total RNA, IL-8 by western blot and observed under an electronic microscope.RESULTS: IL-8 protein expression was significantly higher in group B than in groups A and D. Although the IL-8 protein expression was decreased in group C compared with group B, the difference was not statistically significant. The TNF-a ray degree of group B was significantly higher than that in the other groups (P〈0.01), especially in group C (P〉0.05). The alveolar volume of subjects in group B was significantly smaller, and cavity infiltration and cell autolysis were marked with a significant thicker alveolar septa, disorder of interval structures, and blurring of collagenous and elastic fiber structures. A large number of necrotic debris tissue was observed in group B.CONCLUSION: Mechanical ventilation with a large tidal volume, a high inspiratory flow and a high ventilation frequency can cause significant damage to lung tissue structure. It can significantly increase the expression of TNF-α and IL-8 as well as their mRNA expression. Furthermore, the results of our study showed that small tidal ventilation significantly reduces the release of proinflammatory media. This finding suggests that greater deterioration in lung injury during ARDS is associated with high inspiratory flow and high ventilation rate.展开更多
BACKGROUND The prognosis of cerebrovascular diseases treated with mechanical ventilation during perioperative has not been clearly reported.AIM To analyze mortality and functional disability and to determine predictor...BACKGROUND The prognosis of cerebrovascular diseases treated with mechanical ventilation during perioperative has not been clearly reported.AIM To analyze mortality and functional disability and to determine predictors of unfavorable outcome in the patients with cerebrovascular diseases treated with mechanical ventilation.METHODS A retrospective follow-up study of 111 cerebrovascular disease patients who underwent mechanical ventilation during the perioperative period in the First Hospital of Jilin University from June 2016 to June 2019 was performed.Main measurements were mortality and functional outcome in-hospital and after 3-month follow-up.According to the modified rankin scale(mRS),the functional outcome was divided into three groups:Good recovery(mRS≤3),severe disability(mRS=4 or 5)and death(mRS=6).Univariate analysis was used to compare the differences between three functional outcomes.Multivariate logistic regression analysis was used to for risk factors of mortality and severe disability.RESULTS The average age of 111 patients was 56.46±12.53 years,59(53.15%)were males.The mortality of in-hospital and 3-month follow-up were 36.9% and 45.0%,respectively.Of 71 discharged patients,46.47% were seriously disabled and 12.67% died after three months follow-up.Univariate analysis showed that preoperative glasgow coma scale,operation start time and ventilation reasons had statistically significant differences in different functional outcomes.Multiple logistic regression analysis showed that the cause of ventilation was related to the death and poor prognosis of patients with cerebrovascular diseases.Compared with brainstem compression,the risk of death or severe disability of pulmonary disease,status epilepticus,impaired respiratory center function,and shock were 0.096(95%CI:0.028-0.328),0.026(95%CI:0.004-0.163),0.095(95%CI:0.013-0.709),0.095(95%CI:0.020-0.444),respectively.CONCLUSION The survival rate and prognostic outcomes of patients with cerebrovascular diseases treated with mechanical ventilation during the perioperative period were poor.The reason for mechanical ventilation was a statistically significant predictor for mortality and severe disability.展开更多
Objective: To determine whether spinal cord decompression plays a role in neural cell apoptosis after spinal cord injury. Study design: We used an animal model of compressive spinal cord injury with incomplete parap...Objective: To determine whether spinal cord decompression plays a role in neural cell apoptosis after spinal cord injury. Study design: We used an animal model of compressive spinal cord injury with incomplete paraparesis to evaluate neural cell apoptosis after decompression. Apoptosis and cellular damage were assessed by staining with terminal deoxynucleotidyl transferase (TdT)-mediated deoxyuridine triphosphate nick-end labelling (TUNEL) and immunostaining for caspase-3, Bcl-2 and Bax. Methods: Experiments were conducted in male Sprague-Dawley rats (n-78) weighing 300-400 g. The spinal cord was compressed posteriorly at T10 level using a custom-made screw for 6 h, 24 h or continuously, followed by decompression by removal of the screw. The rats were sacrificed on Day I or 3 or in Week 1 or 4 post-decompression. The spinal cord was removed en bloc and examined at lesion site, rostral site and caudal site (7.5 mm away from the lesion). Results: The numbers of TUNEL-positive cells were significantly lower at the site of decompression on Day 1, and also at the rostral and caudal sites between Day 3 and Week 4 post-decompression, compared with the persistently compressed group. The numbers of cells between Day 1 and Week 4 were immunoreactive to caspase-3 and B-cell lymphoma-2 (Bcl-2)-associated X-protein (Bax), but not to Bcl-2, correlated with those of TUNEL-positive cells. Conclusion: Our results suggest that decompression reduces neural cell apoptosis following spinal cord injury.展开更多
Dear Editor,Respiration is a vital and continuous physiological process depending on the output from spinal respiratory motoneurons to excite the inspiratory pump muscles[1-3].In mammals,phrenic motoneurons and interc...Dear Editor,Respiration is a vital and continuous physiological process depending on the output from spinal respiratory motoneurons to excite the inspiratory pump muscles[1-3].In mammals,phrenic motoneurons and intercostal motoneurons are the main spinal respiratory motoneurons,which innervate the diaphragm and intercostal muscles(IMs),respectively[4].展开更多
基金supported by grants from the Shanghai Health Bureau issues(2007102)
文摘BACKGROUND: Mechanical ventilation is a double-edged sword to acute respiratory distress syndrome (ARDS) including lung injury, and systemic inflammatory response high tidal volumes are thought to increase mortality. The objective of this study is to evaluate the effects of dynamic ventilatory factors on ventilator induced lung injury in a dog model of ARDS induced by hydrochloric acid instillation under volume controlled ventilation and to investigate the relationship between the dynamic factors and ventilator-induced lung injuries (VILI) and to explore its potential mechanisms.METHODS: Thirty-six healthy dogs were randomly divided into a control group and an experimental group. Subjects in the experimental group were then further divided into four groups by different inspiratory stages of flow. Two mL of alveolar fluid was aspirated for detection of IL-8 and TNF-α. Lung tissue specimens were also extracted for total RNA, IL-8 by western blot and observed under an electronic microscope.RESULTS: IL-8 protein expression was significantly higher in group B than in groups A and D. Although the IL-8 protein expression was decreased in group C compared with group B, the difference was not statistically significant. The TNF-a ray degree of group B was significantly higher than that in the other groups (P〈0.01), especially in group C (P〉0.05). The alveolar volume of subjects in group B was significantly smaller, and cavity infiltration and cell autolysis were marked with a significant thicker alveolar septa, disorder of interval structures, and blurring of collagenous and elastic fiber structures. A large number of necrotic debris tissue was observed in group B.CONCLUSION: Mechanical ventilation with a large tidal volume, a high inspiratory flow and a high ventilation frequency can cause significant damage to lung tissue structure. It can significantly increase the expression of TNF-α and IL-8 as well as their mRNA expression. Furthermore, the results of our study showed that small tidal ventilation significantly reduces the release of proinflammatory media. This finding suggests that greater deterioration in lung injury during ARDS is associated with high inspiratory flow and high ventilation rate.
文摘BACKGROUND The prognosis of cerebrovascular diseases treated with mechanical ventilation during perioperative has not been clearly reported.AIM To analyze mortality and functional disability and to determine predictors of unfavorable outcome in the patients with cerebrovascular diseases treated with mechanical ventilation.METHODS A retrospective follow-up study of 111 cerebrovascular disease patients who underwent mechanical ventilation during the perioperative period in the First Hospital of Jilin University from June 2016 to June 2019 was performed.Main measurements were mortality and functional outcome in-hospital and after 3-month follow-up.According to the modified rankin scale(mRS),the functional outcome was divided into three groups:Good recovery(mRS≤3),severe disability(mRS=4 or 5)and death(mRS=6).Univariate analysis was used to compare the differences between three functional outcomes.Multivariate logistic regression analysis was used to for risk factors of mortality and severe disability.RESULTS The average age of 111 patients was 56.46±12.53 years,59(53.15%)were males.The mortality of in-hospital and 3-month follow-up were 36.9% and 45.0%,respectively.Of 71 discharged patients,46.47% were seriously disabled and 12.67% died after three months follow-up.Univariate analysis showed that preoperative glasgow coma scale,operation start time and ventilation reasons had statistically significant differences in different functional outcomes.Multiple logistic regression analysis showed that the cause of ventilation was related to the death and poor prognosis of patients with cerebrovascular diseases.Compared with brainstem compression,the risk of death or severe disability of pulmonary disease,status epilepticus,impaired respiratory center function,and shock were 0.096(95%CI:0.028-0.328),0.026(95%CI:0.004-0.163),0.095(95%CI:0.013-0.709),0.095(95%CI:0.020-0.444),respectively.CONCLUSION The survival rate and prognostic outcomes of patients with cerebrovascular diseases treated with mechanical ventilation during the perioperative period were poor.The reason for mechanical ventilation was a statistically significant predictor for mortality and severe disability.
基金Project (No. Y207216) supported by the Natural Science Foundation of Zhejiang Province, China
文摘Objective: To determine whether spinal cord decompression plays a role in neural cell apoptosis after spinal cord injury. Study design: We used an animal model of compressive spinal cord injury with incomplete paraparesis to evaluate neural cell apoptosis after decompression. Apoptosis and cellular damage were assessed by staining with terminal deoxynucleotidyl transferase (TdT)-mediated deoxyuridine triphosphate nick-end labelling (TUNEL) and immunostaining for caspase-3, Bcl-2 and Bax. Methods: Experiments were conducted in male Sprague-Dawley rats (n-78) weighing 300-400 g. The spinal cord was compressed posteriorly at T10 level using a custom-made screw for 6 h, 24 h or continuously, followed by decompression by removal of the screw. The rats were sacrificed on Day I or 3 or in Week 1 or 4 post-decompression. The spinal cord was removed en bloc and examined at lesion site, rostral site and caudal site (7.5 mm away from the lesion). Results: The numbers of TUNEL-positive cells were significantly lower at the site of decompression on Day 1, and also at the rostral and caudal sites between Day 3 and Week 4 post-decompression, compared with the persistently compressed group. The numbers of cells between Day 1 and Week 4 were immunoreactive to caspase-3 and B-cell lymphoma-2 (Bcl-2)-associated X-protein (Bax), but not to Bcl-2, correlated with those of TUNEL-positive cells. Conclusion: Our results suggest that decompression reduces neural cell apoptosis following spinal cord injury.
基金This work was supported by the National Natural Science Foundation of China(31921003)the National Key Research and Development Program of China(2018YFC2000301)the National Major Project of China Science and Technology Innovation 2030 for Brain Science and Brain-Inspired Technology(2021ZD0203400)。
文摘Dear Editor,Respiration is a vital and continuous physiological process depending on the output from spinal respiratory motoneurons to excite the inspiratory pump muscles[1-3].In mammals,phrenic motoneurons and intercostal motoneurons are the main spinal respiratory motoneurons,which innervate the diaphragm and intercostal muscles(IMs),respectively[4].
