Apolipoprotein Profiling by Mass Spectrometry Enables Precision Cardiovascular Risk Assessment
Standard lipid panels measuring LDL cholesterol leave significant residual cardiovascular risk unaddressed. Apolipoprotein profiling provides more biologically meaningful information about atherogenic particles including VLDL, IDL, remnants, and Lp(a), enabling personalised therapeutic targeting beyond generic statin therapy. Robust MS technology now meets the analytical performance and standardisation requirements for clinical implementation, aligning apolipoprotein profiling with the precision medicine paradigm for stratified cardiovascular care.
The original study
Apolipoprotein profiling as a personalized approach to the diagnosis and treatment of dyslipidaemia.
- Authors
- Renee Ruhaak L, van der Laarse A, Cobbaert CM
- Journal
- Annals of clinical biochemistry
- Type
- Journal Article, Review
- PMID
- 30889974
Original abstract
An elevated low-density lipoprotein cholesterol concentration is a classical risk factor for cardiovascular disease. This has led to pharmacotherapy in patients with atherosclerotic heart disease or high heart disease risk with statins to reduce serum low-density lipoprotein cholesterol. Even in patients in whom the target levels of low-density lipoprotein cholesterol are reached, there remains a significant residual cardiovascular risk; this is due, in part, to a focus on low-density lipoprotein cholesterol alone and neglect of other important aspects of lipoprotein metabolism. A more refined lipoprotein analysis will provide additional information on the accumulation of very low-density lipoproteins, intermediate density lipoproteins, chylomicrons, chylomicron-remnants and Lp(a) concentrations. Instead of measuring the cholesterol and triglyceride content of the lipoproteins, measurement of their apolipoproteins (apos) is more informative. Apos are either specific for a particular lipoprotein or for a group of lipoproteins. In particular measurement of apos in atherogenic particles is more biologically meaningful than the measurement of the cholesterol concentration contained in these particles. Applying apo profiling will not only improve characterization of the lipoprotein abnormality, but will also improve definition of therapeutic targets. Apo profiling aligns with the concept of precision medicine by which an individual patient is not treated as 'average' patient by the average (dose of) therapy. This concept of precision medicine fits the unmet clinical need for stratified cardiovascular medicine. The requirements for clinical application of proteomics, including apo profiling, can now be met using robust mass spectrometry technology which offers desirable analytical performance and standardization.