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
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
举一反三
- 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
- Which<br/>of the followings is the main mechanism of decreased myocardial<br/>contractility induced by acidosis, hyperkalemia?() A: myocardial<br/>energy generation disorder B: myocardial<br/>energy utilization disorder C: myocardial<br/>energy storage disorder D: disorder<br/>of excitation-contraction coupling E: contractive<br/>proteins destruction of myocardium
- Which will be elevated<br/>in stage I of shock? () A: ADH level B: AT-II level C: serum catecholamines level D: urine output E: heart rate<br/>II Nounexplanation.(3<br/>marks/each, total 24marks)
- 有以下程序:[br][/br]#include <stdio.h>[br][/br]main()[br][/br]{ int a=2,b=2,c=2;[br][/br]printf("%d\n",a/b&c);[br][/br]}[br][/br]程序运行后的输出结果是( )。[br][/br] A: 0 B: 1 C: 2 D: 3
- If the magnetic field B through<br/>a loop of wire is increasing, the<br/>induced magnetic field will be A: in<br/>the same direction as B B: in<br/>the opposite direction as B C: perpendicular<br/>to B D: at<br/>an acute angle to B E: there<br/>is no induced magnetic field