Malnutrition is associated with multi-organ manifestations including urinar
y concentrating defects. The purpose of our study was to prospectively dete
rmine the effect of body size and malnutrition on kidney size in children.
The length and width of both kidneys were assessed in 525 children with no
renal disease (289 male: 236 female; age: newborn-12 years) by real time ul
trasonography. The nutritional status was assessed using the Indian Academy
of Pediatrics classification, where the expected weight (EW) for age is th
e 50th percentile for Harvard statistics. Thus, Grade 0: 80-100% of EW; Gra
de I: 70-80% of EW; Grade II: 60-70% of EW; Grade III: 50-60% of EW; Grade
IV:< 50% of EW. There was no difference in renal size between males and fem
ales, or between right and left kidneys. The relationship between kidney ar
ea and age and grade of malnutrition was as follows: kidney area (mm(2))= 1
3.74 age (months) - 110.9 grade + 1265 (P < 0.001). The partial r for grade
and age were -0.318 (P < 0.001) and 0.849 (P < 0.001), respectively. Norma
l Indian children (Grade 0) had smaller kidneys than those obtained in age
matched children in the Western world. We conclude that severe malnutrition
(Grade IV) reduces kidney size independent of age. Furthermore, we attribu
te the smaller kidney size in normal (grade 0) children, to the smaller bod
y habitus of Indian children. Age based data alone, which are widely used c
urrently to determine if kidney size is appropriate, may not be sufficient
in geographic regions where malnutrition is prevalent and/or the growth cur
ves of the population vary from Western derived standards.