Doctors from two healthcare clusters
here will soon be using digital
twin technology to detect and
manage chronic kidney disease
(CKD) due to diabetes, a condition
that could lead to kidney failure if
left untreated.
A digital twin is a virtual counterpart
of an individual based on his
or her biological data.
This virtual replica of the patient’s
condition can be used to
simulate the progress and probable
direction of a chronic disease, thus
allowing doctors to make better
decisions.
The technology will be trialled
under a pilot programme in early
2025 at the Singapore General
Hospital (SGH), Tan Tock Seng
Hospital (TTSH) and selected
polyclinics under Singapore
Health Services (SingHealth) and
National Healthcare Group (NHG)
for potential clinical adoption at no
extra cost to patients.
It has already received regulatory
approval from the Health Sciences
Authority.
Digital-twin tech is expected to
help Singapore move away from
having the third-highest incidence
of treated end-stage CKD due to
diabetes globally, said Associate
Professor Bee Yong Mong, who
heads the department of endocrinology
at SGH.
According to the 2023 annual report
by the US Renal Data System,
Brunei in 2021 topped the list of
countries with the highest rates of CKD due to diabetes, with 370 per
million population (pmp).
Jalisco, a state in Mexico, followed
in second place with 297
pmp and Singapore placed third at
250 pmp.
Diabetes is the No. 1 cause of kidney
failure in Singapore, accounting
for 67 per cent of new cases.
The number of people with kidney
failure here has gone up by 40 per
cent over the past 10 years.
Currently, more than 470,000
adults in the Republic live with diabetes,
and about half of them have
CKD.
With the number of Singapore
adults with diabetes projected to
double to one million by 2050,
doctors here want to be able to detect
CKD early to manage it effectively.
“When you look at (patients
with) Stage 5 or end-stage kidney
failure among all the dialysis patients,
about 70 per cent have diabetes
as the underlying contributing
factor.
“When they reach Stage 5, the lifespan
is shortened by up to 16
years,” Prof Bee said.
“In terms of the trend from 2010
to 2019, we see a large increase in
the prevalence of end-stage kidney
disease. I think part of this is because
our diabetes patients are
surviving longer with better treatments,”
he added.
Dr Andrew Wu, chief executive
of Mesh Bio, a health technology
start-up focusing on the digital
transformation of care delivery,
said: “We believe this technology
will be instrumental in reducing
the burden of diabetes complications
and advancing personalised
care strategies.”
Using data from two hospitals
and selected polyclinics under
SingHealth and NHG, Mesh Bio developed
HealthVector Diabetes,
the world’s first foundational digital
twin model of human biology.
The metabolic digital twin software
uses data analysis and artificial
intelligence to predict the risk
of CKD onset in diabetes patients
over three years.
At present, patients with diabetes
need to be monitored for diabetic
kidney disease through yearly
blood and urine tests, as early
kidney disease usually does not
have any symptoms. Testing is the
only way to know how well the kidneys
are working.
Data of 7,000 patients from SGH,
TTSH and selected polyclinics was
assessed to derive a risk score to
predict worsened kidney function.
Using information such as fasting
blood sugar levels, cholesterol
measurements, body mass index
and blood pressure, the software
estimates the three-year risk for
CKD development in Type 2 diabetes
patients who do not have
pre-existing kidney issues.
Associate Professor Rinkoo Dalan,
an endocrinologist at TTSH, a
member of NHG, said that work
done using HealthVector Diabetes
has shown that the predictions of
the software outperformed other
prediction models such as the annual
blood and urine tests.
The study into the development
and validity of HealthVector Diabetes
was published in npj Digital
Medicine journal in May 2024.
“(From there), we developed this
algorithm further and subsequently
fine-tuned and validated it by
adding the SingHealth diabetes
registry,” Prof Bee said.
Prof Rinkoo said the improved
software can potentially transform
the care of patients with diabetes,
as doctors use the information to
prioritise and intensify treatments
to delay the progression of kidney
failure.
Once the pilot programme is
launched in early 2025, Prof Rinkoo
said its predictions will allow
doctors to create personalised
treatment for sugar and blood
pressure control, which will in turn
delay the onset or progression of
CKD and its complications.
“This way, patients with diabetes
will have an additional 15 years free
from having to deal with end-stage
kidney failure, and will have a better
quality of life,” she added.