The patient with the microcirculatory dysfunction caused by shock is predisposed to DIC.
The patient with the microcirculatory dysfunction caused by shock is predisposed to DIC.
10.Judgment: Microcirculatory dysfunction caused by reduced effective circulating blood volume is the common basis of most shock.
10.Judgment: Microcirculatory dysfunction caused by reduced effective circulating blood volume is the common basis of most shock.
10.Judgment: Microcirculatory dysfunction caused by reduced effective circulating blood volume is the common basis of most shock. A: 正确 B: 错误
10.Judgment: Microcirculatory dysfunction caused by reduced effective circulating blood volume is the common basis of most shock. A: 正确 B: 错误
The main mechanism of early shock induced microcirculatory ischemia is A: Hypersecretion of Angiotensinogen II B: TXA2 is increase C: Hypersecretion of catecholamine D: Hypersecretion of ADH
The main mechanism of early shock induced microcirculatory ischemia is A: Hypersecretion of Angiotensinogen II B: TXA2 is increase C: Hypersecretion of catecholamine D: Hypersecretion of ADH
The<br/>main mechanism of early shock induced microcirculatory ischemia is() A: Hypersecretion<br/>of Angiotensinogen II B: TXA2<br/>is increase C: Hypersecretion<br/>of catecholamine D: Hypersecretion<br/>of ADH
The<br/>main mechanism of early shock induced microcirculatory ischemia is() A: Hypersecretion<br/>of Angiotensinogen II B: TXA2<br/>is increase C: Hypersecretion<br/>of catecholamine D: Hypersecretion<br/>of ADH
The main cause of the refractory stage (or microcirculatory failure stage) of shock is A: Acid-base disturbances B: Lung edema C: Cardiac dysfunction D: Serious renal dysfunction E: Failure of vasoconstriction response or DIC
The main cause of the refractory stage (or microcirculatory failure stage) of shock is A: Acid-base disturbances B: Lung edema C: Cardiac dysfunction D: Serious renal dysfunction E: Failure of vasoconstriction response or DIC
The characteristic change of microcirculatory perfusion in stagnant<br/>hypoxia stage is() A: Both inflow and outflow are low and inflow B: Low inflow and high outflow and inflow C: Restored inflow and low outflow and inflow> outflow D: Both inflow and outflow are high and inflow> outflow E: Both inflow and outflow are high and inflow> outflow
The characteristic change of microcirculatory perfusion in stagnant<br/>hypoxia stage is() A: Both inflow and outflow are low and inflow B: Low inflow and high outflow and inflow C: Restored inflow and low outflow and inflow> outflow D: Both inflow and outflow are high and inflow> outflow E: Both inflow and outflow are high and inflow> outflow
The characteristic change of microcirculatory perfusion in ischemic hypoxia stage is() A: Low inflow and high outflow and inflow is lower than﹤outflow B: Both inflow and outflow are low and inflow C: High inflow and low outflow and inflow is more than> outflow D: Both inflow and outflow are high and inflow E: Both inflow and outflow are low and inflow > outflow
The characteristic change of microcirculatory perfusion in ischemic hypoxia stage is() A: Low inflow and high outflow and inflow is lower than﹤outflow B: Both inflow and outflow are low and inflow C: High inflow and low outflow and inflow is more than> outflow D: Both inflow and outflow are high and inflow E: Both inflow and outflow are low and inflow > outflow
The characteristic change of microcirculatory perfusion in ischemic<br/>hypoxia stage is() A: Low inflow and high outflow and inflow is lower than﹤outflow B: Both inflow and outflow are low and inflow C: High inflow and low outflow and inflow is more than> outflow D: Both inflow and outflow are high and inflow E: Both inflow and outflow are low and inflow > outflow
The characteristic change of microcirculatory perfusion in ischemic<br/>hypoxia stage is() A: Low inflow and high outflow and inflow is lower than﹤outflow B: Both inflow and outflow are low and inflow C: High inflow and low outflow and inflow is more than> outflow D: Both inflow and outflow are high and inflow E: Both inflow and outflow are low and inflow > outflow