Objective Aim: NP-59 (I-131-6ß-iodomethyl-19-norcholesterol) and MIBG (I-131-metaiodobenzylguanidine) both are useful to detect tumors. There is a great need to understand their distributions in normal organs and tissues as well as ways to reduce normal uptakes in tumor imaging and/or treatment. Activated Brown Adipose tissue (BAT) has been promising for its role in optimal treatment of obesity and hypercholesterolemia. The study of cholesterol uptake in BAT may have a significant impact in managing hyperlipidemia and protecting from atherosclerosis. Materials and Methods: Male Sprague-Dawley rats weighing 250—300 g were used in the study. All animals received 25 µCi of I-131-MIBG or NP-59 by the tail vein and were killed (N = 4 - 6 each) 3, 24 or 48 hours afterwards. For cold stressed animals were kept at 6 – 8 C in a cold room overnight prior to receiving labeled MIBG or NP-59. The animal continued to stay in cold room as compared to room temperature controls. To study the effect of norepinephrine-blocking agent, reserpine (4 mg/kg, IP) was given to rats 4 hours prior to I-131-MIBG infusion. Organs were immediately dissected. Radioactivity was counted and tissue concentrations were expressed as percent kilogram (body weight) dose per gram of tissue (% Kg dose/g). Findings: Higher uptakes of I-131-MIBG were observed in organs rich in sympathetic innervation [BAT (brown adipose tissue), heart and spleen] as compared to liver and muscle. Reserpine reduced uptakes in BAT, heart, adrenals and spleen but not in liver in room temperature controls. BAT, but not in other organs, showed a paradoxical increase in reserpine-treated animal kept in cold room as compared to room temperature controls. NP-59 showed a near 6 folds increase in adrenals from 30 minutes to 48 hours and unchanged in cold stressed animals. The only tissue showed significant increases in NP-59 uptake under cold stress was BAT from 1.84 folds at 30 minutes to 1.44 folds at 48 hours (p<0.05 as compared to room temperature controls). Conclusions: The uptake of MIBG is reduced in organs rich in sympathetic innervation under cold stress, but this reduction is partially blocked by reserpine. Findings may help to improve the efficacy of MIBG as a theragnostic agent. A noteworthy finding is the significant increase in NP-59, a cholesterol analog, in cold-activated BAT. This novel observation could serve as a valuable tool for studying the role of activated BAT in the overall cholesterol metabolism in humans. Furthermore, it presents a potent therapeutic avenue for mitigating hyperlipidemia and providing protection against atherosclerosis.