E. more than 60% for extreme obesity
The 18 cause of tetany of vitamin D deficiency is that (A B C D E)
A. with vitamin D treatment to calcium deposition in bone, caused by hypocalcemia
B. consumption of dairy products of high phosphorus
C. premature infants
D. chronic diseases
E. parathyroid function
25, 19.1 (OH) 2D3 main physiological function is (B C D A)
A. promotes the absorption of calcium and phosphorus in the small intestine mucosa
B. promotes the absorption of calcium and phosphorus in kidney tubules
C. strengthening the role of calcium in the mobilization of bone calcium
D. stimulates osteoblasts to promote new bone salt deposition
E. to reduce the absorption of calcium and phosphorus in the small intestine mucosa
20 premature infants prone to rickets, mainly due to (A B C)
A. calcium, phosphorus storage and less B. vitamin D storage
C. growth and development, the need for vitamin D is relatively more D. calcium storage
E. of vitamin D and calcium phosphorus gastrointestinal malabsorption
21 abnormal A (B C E)
A. metabolism abnormal B. organ function is low
C. D. low immune function of severe rickets
E. vitamin deficiency
22 vitamin D deficiency include the treatment of rickets recovery period (A C)
A. sun B. intramuscular vitamin D60 000 IU
C. oral administration of vitamin DD. injection of calcium and calcium
E. correct skeletal deformity
23 endocrine changes in obesity, the right is (E D)
A. total T4, free T4 increased B.PTH normal
C. growth hormone levels increased D. high insulin blood disease
E. serum levels of serum growth hormone
Neonatal and neonatal diseases
Easy: 24.25
Ordinary: 27 28 29 30 31 32.33
Harder: 35 36 37 38.39
Difficulty: 41 42.43 40
24 Apgar E A score (B C D)
A. heart rate B. D. muscle tone C. skin color E. to stimulate the response
25 A C D (B)
A. physiological jaundice B. mammary gland enlargement
C. epithelium and \
E. apnea
26 the possible complication of A C D (B)
A. B. C. pneumonia and suppurative meningitis osteomyelitis
D. purulent arthritis E. nephritis
27.ABO hemolytic disease of blood exchange transfusion therapy selection (A B)
A.AB type and O type red blood cells mixed with B. anti A, anti B titer is not high O type of blood
Mixed blood of D.O type and AB type red blood cells in children with C.
E. blood with the same mother blood
28 A D E (C)
A., foot and Xu animal B. hydrocephalus
C. hearing decline D. intelligent backward
E. eye movement disorders
29 characteristics of neonatal physiological jaundice (D B)
B. serum bilirubin was 205 mol/L in 24 hours after A..
C. full-term infants 3 weeks subsided D. serum bilirubin is less than 26 mol/L
E. serum bilirubin increased daily with 85 mol/L
30 of those considered as pathologic jaundice (A B C D E)
A. jaundice appeared early, 24 hours in the degree of B. jaundice, bilirubin > 205 mol / L
C. jaundice in full-term infants, >2 week D. direct bilirubin.
E. serum bilirubin increased daily with 85 mol/L
The 31 reason is the emergence of septicemia of newborn jaundice (A C)
A. B., Y,, and the lack of Z protein
C. liver enzyme system function was inhibited by D. in the intestinal wall of the absorption of bilirubin increased
E. above are not
32 what is the main treatment method of B C D (A)
A. pulmonary surfactant B. continuous positive airway pressure (CPAP)
C. mechanical ventilation D. to correct acidosis
E. positive airway cleaning
33 A C D (B), the cause of the cold damage syndrome in newborn infants.
A. body temperature regulation center development is not mature
B. body surface area is relatively large, easy to lose heat
C. brown fat reserves
The saturated fatty acid content of D. subcutaneous adipose tissue
Unsaturated fatty acid content of E. subcutaneous adipose tissue
34 clinical characteristics of neonatal hemolytic disease (C A)
B. net of A. anemia
C. mother blood type is O type, the baby is D. type A mother blood type is A, the baby blood type is O type
E. serum bilirubin > 66 mol/L
35 A C (B)
A. skin shiny, B. foot vellus hair texture
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