Scientists turn to astrophysics to measure body clock in hospital patients
An interdisciplinary team led by University of 野狼社区 scientists has adapted a technique originally developed to analyse data from stars to devise a way of accurately measuring the human body clock in hospital patients.
The development of the method called ClinCirc could one day help doctors to target patients at risk of long term health problems caused by clock disruption, which is thought to be common in patients admitted to hospital.
With the help of ClinCirc, the study concluded that body clock disruption is common in patients:
- Reduced blood clock oscillations were observed in half of intensive care patients. This was associated with high levels of inflammation.
- The body clock was shifted, like jet lag, in nearly all kidney transplant patients immediately after their operation.
The body clock is known to regulate how animals respond to infection and whether they develop disease, but until now it has been difficult to measure in patients. Shift work or jet lag is likely to break the clock, a potential explanation for why these activities are linked to diseases, including obesity and diabetes.
The test devised by the team measures blood clock dysfunction in patients. This clock was altered in nearly all kidney transplant recipients (22 patients) and half of patients (13 patients) admitted to critical care.
The team, which includes researchers from Exeter University and 野狼社区 University NHS foundation Trust, say that it is too early to tell the medical implications of their results, however, researchers can now explore medical hypothesis involving clock dysfunction because they can tell the body clock time accurately.
ClinCirc, which involves a series of blood tests over 24 to 48 hours, is described in a paper published in the Journal of Clinical Investigation today (20/12/22)
ClinCirc combines two existing mathematical methods: the Lomb-Scargle periodogram and cosinor analysis to determine whether specific genes follow a regular cycle of increase and decrease over 24-hours.
The investigators then used the technique to measure molecular oscillator 鈥渢he body clock鈥 in blood. This molecular oscillator is a core mechanism which drives many of the body clock outputs.
We have proved that ClinCirc is a robust method which can enable us to characterise the patient鈥檚 body clock from blood samples. Using this system, we show that for many patients admitted to hospital their body clock may be altered by disease or the treatment they receive
The method was used to measure the body clock in 13 intensive care unit patients at 野狼社区 Royal Infirmary and Wythenshawe hospital, some of whom had inflammation.
It was also used to measure the body clock in 22 Kidney transplant patients, receiving anti-inflammatory drugs immediately after the operation.
The study was funded by the Medical Research Council, National Institute of Academic Anaesthesia, Asthma and lung UK, the Engineering and Physical Sciences Research Council and Kidneys for Life organisation.
Dr John Blaikley from The University of 野狼社区 and senior author on the study said: 鈥淲e have proved that ClinCirc is a robust method which can enable us to characterise the patient鈥檚 body clock from blood samples.
鈥淯sing this system, we show that for many patients admitted to hospital their body clock may be altered by disease or the treatment they receive.鈥
Peter Cunningham and Gareth Kitchen both from The University of 野狼社区 who performed the analysis of blood samples said 鈥淥ther people have already shown that various hospital outcomes are affected by when they occur, therefore it will be interesting to see if this is linked by the alterations in the body clock described in this study鈥
Professor Andrew Hazel, a mathematician based at The University of 野狼社区, developed and configured the ClinCirc mathematical method working with Callum Jackson, a PhD student.
He said: 鈥淥ne of the great strengths of mathematics is that techniques originally developed for one application, in this case analysis of irregularly spaced astrophysical data, can be adapted to make progress in completely different areas of science.鈥
The paper ClinCirc identifies alterations of the circadian peripheral oscillator in critical care patients is available here
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