SpectraCell Blog

Impact of a Zinc and Copper Imbalance on Cognitive Function

Posted by SpectraCell Laboratories, Inc. on Wed, Jun 27, 2018 @ 03:57 PM

Brain-Health-ConsultingThe prevalence of AD in our aging population is frightening, affecting 10% of those over age 60, 20% of those over age 70, and 30% of those over age 80.1 There are roughly 5 to 6 million AD patients in the US and an equal number of people with mild cognitive impairment (MCI), memory loss, but not enough loss of function to be called AD. In general, MCI is a precursor to AD, with 80% eventually developing AD, at the rate of 15% per year.2

Supplementation with Zinc

Because this was an animal study, researchers could precisely manipulate and consequently correlate blood and brain levels of zinc and copper and with age and cognitive function.  Specifically, they measured the effect of zinc supplementation on short-term memory, long-term memory and spatial memory. In addition, they measured zinc and copper levels in both the blood and the hippocampus, which is the part of the brain linked to memory.

The authors discovered that as the rats got older, their blood levels of copper increased while blood levels of zinc decreased with simultaneous decreases in memory.  However, supplementation with zinc reversed the elevated copper levels and improved memory in all areas.   It is well established that zinc and copper work together and that balance of the minerals is important.  In fact, excess zinc supplementation may possibly induce a copper deficiency, so although this study concludes “zinc as a plausible therapeutic intervention” for age-related cognitive decline, this study reminds us that micronutrients do not work alone but in balance so a comprehensive look at nutritional status is key.

Download our Cognitive Function Nutrient Wheel.


1.      Alzheimer's Association. Alzheimer's Disease Facts and Figures. 2010:1–74. 
2.      Oscar L. Lopez, M.D. Mild Cognitive Impairment. NCBI 2013 Apr; 19(2 Dementia): 411–424

LINK to ABSTRACT Supplementation with zinc in rats enhances memory and reverses an age-dependent increase in plasma copper.

Topics: Cognitive Function, Alzheimer's Disease, Micronutrients and Cognitive Health, Zinc and Copper Impact on Cognitive Function, Mild Cognitive Impairment