Garden’s classification is used in () A: epiphyseal separation B: fracture of intertrochanter of femur C: intrinsic muscle weakness D: fracture of neck of femur
Garden’s classification is used in () A: epiphyseal separation B: fracture of intertrochanter of femur C: intrinsic muscle weakness D: fracture of neck of femur
Garden’s classification is used in ( ) A: epiphyseal separation B: fracture of intertrochanter of femur C: intrinsic muscle weakness D: fracture<br/>of neck of femur
Garden’s classification is used in ( ) A: epiphyseal separation B: fracture of intertrochanter of femur C: intrinsic muscle weakness D: fracture<br/>of neck of femur
Vitamin D deficient rickets and genetic Vitamin D resistant rickets<br/>diagnose by ( ) A: epiphyseal changes in X ray B: increased serum alkaline phosphatase C: hypocalcaemia. Hypophosphatemia D: healing appears with treatment of vitamin D 600,000 IU
Vitamin D deficient rickets and genetic Vitamin D resistant rickets<br/>diagnose by ( ) A: epiphyseal changes in X ray B: increased serum alkaline phosphatase C: hypocalcaemia. Hypophosphatemia D: healing appears with treatment of vitamin D 600,000 IU
The<br/>clinical feature of the sequelae stage of vitamin D deficiency<br/>rickets is () A: Skeleton<br/>deformity B: Abnormal<br/>epiphyseal of long bone C: Serum<br/>calcium and phosphorus decrease D: Alkaline<br/>phosphatase decrease E: Irritability,<br/>hidrosis
The<br/>clinical feature of the sequelae stage of vitamin D deficiency<br/>rickets is () A: Skeleton<br/>deformity B: Abnormal<br/>epiphyseal of long bone C: Serum<br/>calcium and phosphorus decrease D: Alkaline<br/>phosphatase decrease E: Irritability,<br/>hidrosis