Analysis of trace elements in human tissues. II. The lymphomatous diseases

NTIL A FEW years ago, it was doubtful U whether the mean zinc level of the blood of cancerous patients showed a decrease or an increase as compared with blood from healthy subjects. In a paper by Koch et al.4 in 1957, it was assumed that in the case of the lymphomatous diseases, the plasma zinc leve

Human tissues (bone, hair, liver and kidney) from 61 individuals, collected post-mortem, were analyzed by energydispersive x-ray Ñuorescence (EDXRF) spectrometry. All samples were analyzed without any chemical treatment. The soft tissues (liver and kidney) were lyophilized and ground in an agate mor

Disorders of essential elements arise from inadequate intake, genetic defects, excessive exposure, or impaired elimination. Severe deficiency is rare, but aspecific symptoms and reduced protection against risk factors have been ascribed to suboptimal intake of trace elements. Inherited disturbances

report12 it was suggested I that there was an increased zinc concentration in the uninvolved portions of liver containing cancerous implants that was not found in the liver of patients dying of noncancerous disease. Koch et a1.lO and Tipton et a1.l8, 17 have since reported several trace element conc

## Abstract Neutron activation of Mo in urine was performed by radiochemical separation, both via the ^101^Mo (T~1/2~ 14.6 min) and via the ^99^Mo (T~1/2~ 66.2 h)‐^99m^Tc (6.02 h). The urinary excretion of Mo of 9 healthy individuals ranged from 11.1 up to 88.0 μg. day^−1^. The variation of the Mo‐