ABSTRACT
ObjectiveTo study the relationship between acute myocardial injury(AMI) and coagulation function in patients with COVID-19.MethodsA retrospective study was carried out to record the general and laboratory data of 133 patients diagnosed with COVID-19 who were hospitalized in Wuhan TongJi Guanggu Hospital, Wuhan, Hubei Province from February 10 to February 29, 2020. The laboratory data includes blood routine, liver and renal function, myocardial infarction tests, coagulation function, inflammatory factors, hypersensitive C-reactive protein, procalcitonin etc. The patients were divided into two groups according to cardiac troponin I(TNI)34.2 ug/L. The differences of general conditions and laboratory data between the two groups were compared. Besides, the correlation between coagulation function and coagulation function, and the ROC curve of D-dimer in AMI were conducted .ResultsAmong the 133 patients, 9 (6.77%) had cTnI greater than 34.2 μg/L, and 124 (93.23%) had normal cTnI. There were significant differences between the two groups in age, COPD history, blood routine (neutrophil count, lymphocyte count, platelet count), myoglobin, liver function (direct bilirubin, indirect bilirubin), cytokines (IL-2 receptor, IL-6, IL-8, IL-10, TNF-α), coagulation function (PT, PTA, D-dimer). D-dimer level was positively correlated with TnI, CK-MB and myoglobin levels. The cut off value of D-dimer was 2.35 μg/ml in acute myocardial injury.ConclusionAcute myocardial injury in COVID-19 patients may be related to coagulation dysfunction. Therefore, monitoring of coagulation function dynamically, screening of thrombus and starting anticoagulant and antiplatelet therapy timely help to reduce acute myocardial injury.
ABSTRACT
ObjectiveTo study the relationship between acute myocardial injury(AMI) and coagulation function in patients with COVID-19.MethodsA retrospective study was carried out to record the general and laboratory data of 133 patients diagnosed with COVID-19 who were hospitalized in Wuhan TongJi Guanggu Hospital, Wuhan, Hubei Province from February 10 to February 29, 2020. The laboratory data includes blood routine, liver and renal function, myocardial infarction tests, coagulation function, inflammatory factors, hypersensitive C-reactive protein, procalcitonin etc. The patients were divided into two groups according to cardiac troponin I(TNI)34.2 ug/L. The differences of general conditions and laboratory data between the two groups were compared. Besides, the correlation between coagulation function and coagulation function, and the ROC curve of D-dimer in AMI were conducted .ResultsAmong the 133 patients, 9 (6.77%) had cTnI greater than 34.2 μg/L, and 124 (93.23%) had normal cTnI. There were significant differences between the two groups in age, COPD history, blood routine (neutrophil count, lymphocyte count, platelet count), myoglobin, liver function (direct bilirubin, indirect bilirubin), cytokines (IL-2 receptor, IL-6, IL-8, IL-10, TNF-α), coagulation function (PT, PTA, D-dimer). D-dimer level was positively correlated with TnI, CK-MB and myoglobin levels. The cut off value of D-dimer was 2.35 μg/ml in acute myocardial injury.ConclusionAcute myocardial injury in COVID-19 patients may be related to coagulation dysfunction. Therefore, monitoring of coagulation function dynamically, screening of thrombus and starting anticoagulant and antiplatelet therapy timely help to reduce acute myocardial injury.
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Objective To evaluate the protective effect and mechanism of mild hypothermia on swine kidney after cardiopulmonary resuscitation, and whether changes in body temperature during mild hypothermia weaken the protective effect of mild hypothermia. Methods 18 swines were randomly divided into constant mild hypothermia group (CMH), variable mild hypothermia group (VMH) and control group (CON), with 6 swines in each group. Cardiac arrest model was successfully made. Then ECPR and temperature management was adopted. The target body temperature was 34℃ in the CMH group, and 37℃ in the control group, while the target body temperature of the VMH group fluctuated from 33 to 35 ℃ every two hours. After 24h, the animals were slowly reheated and then sacrificed. The kidneys were taken for real-time quantitative PCR, immunohistochemistry and histopathological examination. Results The expression levels of Bax, GRP78 and CHOP in the CMH group were lower than those in the CON group. Moreover, the expression of GRP78 in the CMH group were lower than those in the VMH group. The expression of Bcl-2 in the CMH group were higher than those in the VMH group and the CON group, and the expression of Bcl-2 in the VMH group were higher than those in the CON group (all P < 0.05). The positive expression of Bax was the most significant in the CON group and the least in the CMH group. The positive expression of Bcl-2 was the most significant in the CMH group and the least in the CON group. The nuclear membrane of porcine kidney cells shrank, nucleoli shrank and mitochondria swelled obviously in the CON group. The morphological injury changes were mild in the CMH group compared with the VMH group, while the CON group showed the severest change. Conclusion Mild hypothermia could attenuate the renal tubular cells apoptosis after cardiopulmonary resuscitation by inhibiting endoplasmic reticulum stress pathway, thus playing a protective role to the kidney. While aAbnormal temperature fluctuation during mild hypothermia maintenance may weaken the protection of kidney by mild hypothermia.
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Objective To monitor the exercise load in daily life activities, a reliable method to estimate the real-time plantar pressure based only on a few sensors was presented. Methods Pedar-X pressure insoles were applied to collect plantar pressures from 10 healthy young adults performing 5 typical motions (vertical jump-landing, level walking, level running, stair ascending and stair descending). Stepwise linear regression was performed to reconstruct a mathematic model of calculating the foot force for each style of the motion based on 99 individual pressure data. Then these models were validated by comparing the plantar pressures measured by Pedar-X system and the estimated values by these models when other 4 subjects conducted the same 5 motions and the continuous motion composed of the 5 motions. Results Regardless of the single motion or continuous motion, the foot force calculated by each model for each motion, as well as that calculated by level walking model for each motion were almost the same as the data measured by Pedar-X system. In addition, there was no significant difference between the estimated values by each motion model and level walking model. Conclusions The foot force in daily life activities can be monitored effectively by level walking model with only 5 pressure sensors placed under T1, M2, M3, HM and HL region of the foot.