Granulocytes were isolated from whole blood of guinea pigs by counterflow centrifugation and labeled with [ 14C]diisopropylfluorophosphate ([ 14C]DFP). One-half of the labeled cells was injected intravenously via the femoral vein into a guinea pig, while the other half was cryogenically preserved with 5% dimethyl sulfoxide (DMSO), 6% hydroxyethyl starch (HES), and 4% human albumin, at a rate of 4 °C per minute by storage at −80 °C and then stored for 3 days at −80 °C. Ninety percent of the isolated granulocytes were recovered after cryogenic preservation, thawing, and washing. Aliquots before injection all produced fluorescein from fluorescein diacetate and excluded ethidium bromide. Latex ingestion was 78% and yeast ingestion was 75%. The frozen-thawed-washed-resuspended labeled granulocytes were injected into a second guinea pig. Paired animals sacrificed 35 min after injection were examined in whole-body sections for distribution of radiolabeled granulocytes to the tissues. In two pairs of animals, activity was found in the lung, liver, spleen, and kidney. The technique does not permit a distinction between fresh and cryopreserved granulocytes although there was a greater deposition of fresh cells in the liver and spleen. No activity was found in the blood of the vena cava in animals with either fresh or frozen cells. An animal injected with free [ 14C]DFP revealed a vascular distribution with high activity in blood, lung, and kidney, and less activity in the liver and spleen. The data indicate that radiolabeled, cryogenically preserved guinea pig granulocytes exhibited a tissue distribution qualitatively similar to fresh granulocytes, and free [ 14C]DFP infused without granulocytes differed qualitatively and quantitatively from fresh and cryopreserved granulocytes.