Busy clinicians need an accurate, cost-effective screen for early dementia and strategies to decrease dementia risk in their patient populations. An estimated 5.8 million people in the United States currently suffer from dementia, and that number is expected to rise to about 14 million people by 2060. Women and minority populations are expected to have the greatest increase in incidence. Women of all races have a risk about twice that of men, which is due mostly to the longer female lifespan.
A new study indicates that such screening may be possible. Because the imaging and comprehensive cognitive testing typically used in Alzheimer’s diagnosis is expensive and time-consuming, the researchers developed a model that used “non-cognitive” factors to screen patients and sort them into clinical stages of cognitive function or dysfunction.
Since dementia and Alzheimer’s disease are associated with the presence of other chronic inflammatory conditions, the researchers developed a “non-cognitive” screening model that included a variety of factors available from a thorough medical history and in-office examination:
Compared to a comprehensive model that included advanced cognitive assessments, the “non-cognitive” model demonstrated good predictive ability for 3-5 years from the baseline assessment. As expected, additional cognitive assessments further refined the model and predictive power. The researchers felt that the most powerful overall dementia predictors were the MMSE, hand strength, and APOEε2 genetic status while advancing age and APOEε4 genetics were the most powerful “non-cognitive” Alzheimer’s predictors.
The research, while fascinating, failed to assess another known risk factor – allergy. Atopic disease (allergy) and perhaps, environmental sensitivity (IgG, IgA), may also be contributing inflammatory factors for dementia. Both allergy and APOEε4 genetics need to be considered to fully evaluate the patient. Multiple epidemiology studies indicate that chronic inflammation and Alzheimer’s/dementia risk are linked in individuals with allergy/asthma, dysbiosis, gum disease, or toxic exposures such as air pollution. However, human studies that specifically look at immunoglobulins (Ig) and risk also show associations with immune dysregulation:
A total immunoglobulin level, whether IgE, IgG, or IgA, is always a combination of auto-antibodies and antibodies against environmental antigens.
Auto-antibodies + environmental antibodies = Igtotal
It is also important to note that total IgE levels are also affected by gender, obesity, and alcohol use; this is likely true for all types of immunoglobulins because they are metabolized in the liver. Male gender, a higher body mass index, and heavy alcohol use were shown to increase total IgE levels in a large epidemiology study in Spain.
Fortunately for patients, it is possible to assess the effects of environmental exposures on IgE, IgG, and IgA, and once identified, the offending antigen exposures can be eliminated, decreasing overall inflammation.
In the USA, the number of dementia patients is expected to rise to approximately 14 million people by 2060. Risk reduction and early identification via accurate, efficient, screening methods can help reduce the number of new dementia patients and may help prevent the progression of existing dementia. The evaluation of less well-known risk factors, such as total IgE and serum IgA, in those at risk of dementia, is clearly indicated by the available human studies and easily implemented. Astute clinicians can start reducing their patients’ risk immediately using US BioTek’s Ig (immunoglobulin) testing.