Some blood lipid biomarkers linked to cardiovascular disease risk are also associated with a lower risk of amyotrophic lateral sclerosis (ALS) suggest the findings of a large epidemiology study published online in the Journal of Neurology Neurosurgery & Psychiatry.

ALS is the most common form of motor neuron disease — a progressive nervous system disease that destroys nerve cells responsible for voluntary movement such as walking and talking.

Single gene factors drive only a minority of cases of ALS, and in the remainder, the causes of the condition are not well understood. Lower weight, higher levels of strenuous physical activity levels, and relatively good cardiovascular health have been shown by some studies to be risk factors for ALS, but the relationships are complex and the evidence inconsistent.

Researchers are keen to identify biomarkers linked to ALS, which could ultimately lead to much earlier diagnosis, potentially before symptoms appear, and the hope of preventative treatments. 

The authors were able to use data from a very large epidemiological study to try to determine, with more certainty, the nature of any relationships between levels of biomarkers associated with cardiovascular disease and subsequent diagnosis of ALS.

They used data for 502,409 people who enrolled in the UK Biobank study between March 2006 and October 2010  for those aged 39 to 72 years old. All had blood tests at enrollment and were followed for an average of 11.9 years.

The authors looked at the relationship between ALS and baseline blood levels of high and low density lipoprotein (HDL and LDL), total cholesterol, apolipoproteins A1 and B (apoA1 and apoB), triglycerides, glycated hemoglobin A1c (HbA1c) and creatinine. They also looked at the relationship between ALS and self-reported exercise and body mass index.

After controlling for age and sex, the authors found higher HDL and apoA1 were associated with a lower risk of ALS. A higher total cholesterol:HDL ratio was associated with a higher risk of ALS.

When models incorporating multiple metabolic markers were used to assess risk of the condition, HDL and apoA1 continued to be associated with a reduced risk of ALS independent of other factors. Lower LDL and apoB levels were also associated with a decreased risk of ALS. 

In further analysis, levels of LDL and apoB were shown to be higher long before diagnosis but lower in people closer to diagnosis, whereas HDL and apoA1 levels showed no differences.

“The persistence of these findings in models controlling for statin use, smoking and vascular disease indicates that the association of lipid levels and ALS is not attributable to a confounding association between lipids, ALS and these factors,” according to the authors.

As an observational study, researchers admit a cause could not be determined. They also acknowledge certain limitations, including differences between study participants and the general population due to the nature of the Biobank recruitment processes, use of ICD10 and ICD9 diagnostic codes to identify ALS cases. Meaning some non-ALS motor neuron disease cases might be incorrectly included, and lack of data on common genetic causes of ALS.

There remain some inconsistencies across other published studies, reflecting different methodologies. “This study adds to a growing literature documenting differences in the premorbid metabolic profile of those who eventually develop ALS,” the authors note. “In addition to providing novel insights into pathogenesis, this emphasizes the need to consider a broader set of potential pre-symptomatic ALS biomarkers. Such markers might help to target population screening for ALS and also build confidence in future trials of preventative therapy.”