A new method to detect Parkinson’s disease has been determined by analyzing sebum with mass spectrometry.
The study, published today in the JACS Au , have found that there are lipids of high molecular weight that are substantially more active in people suffering from Parkinson’s disease.
The researchers from The University of Manchester used cotton swabs to sample people and identify the compounds present with mass spectrometry. The method developed involves paper spray ionization mass spectrometry combined with ion mobility separation and can be performed in as little as three minutes from swab to results.
Professor Perdita Barran at The University of Manchester, who led the research said, “We are tremendously excited by these results which take us closer to making a diagnostic test for Parkinson’s Disease that could be used in clinic.”
The research used a sample group of 79 people with Parkinson’s compared with a heathy control group of 71 people.
The study has arisen from the observation of Joy Milne, who discovered that she can distinguish PD in individuals from a distinct body odor before clinical symptoms occur.
Joy has hereditary Hyperosmia—a heightened sensitivity to smells—which has been exploited to find that Parkinson’s has a distinct odor which is strongest where sebum collects on patient’s backs and is less often washed away.
Sebum is an oily secretion from sebaceous glands under the skin which are connected to the endocrine system. The scientists have found that sebum can be used as a diagnostic biofluid, which is rich in hydrophobic endogenous metabolites.
Altered sebum production is a well-recognized feature of Parkinson’s. The sampling procedure they have developed is simple and non-invasive; sebum is collected in clinics from the upper back of patients and posted in the regular mail to the lab.
Describing the new technique Dr. Depanjan Sarkar said, “The sebum is transferred to filter paper from sampling swab, and we then cut this to a triangle, add a drop of solvent, apply a voltage and this transfers compounds from the sebum into the mass spectrometer. When we do this, we find more than 4,000 unique compounds of which 500 are different between people with PD compared to the control participants.”
The Manchester team now see this as a major step forward towards a clinical method for confirmatory diagnosis of Parkinson’s, for which to date there is no diagnostic test based on biomarkers.
Professor Monty Silverdale, Clinical Lead on this study said, “This test has the potential to massively improve the diagnosis and management of people with Parkinson’s disease.”
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