What is the
SPOT-MAS test?

Spot cancer signals early

SPOT-MAS is a non-invasive, multi-cancer early detection (MCED) test that detects tumor DNA (ctDNA) circulating in the blood. This test incorporates next-generation sequencing (NGS) and AI technologies to analyze the methylation profile and multiple features of ctDNA, enabling early detection for the 10 most common and aggressive cancers(*) from a single tube of blood.

(*) WHO GLOBOCAN South-East Asia Report, 2022
Brochure:
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Patient Guiding Handbook 11.40 MB 232 downloads

Spot early signals of 10 common and aggressive cancers using next generation of ctDNA...
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Patient Guiding Handbook for Healthcare Professionals 19.45 MB 223 downloads

Spot early signals of common and aggressive cancers using next-generation of ctDNA...
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What is ctDNA Multi–Cancer Early Detection?

What is ctDNA technology?

Cells from all organs carry DNA. Throughout their life cycle, cells release fragments of their DNA into the bloodstream. Examining these DNA fragments can provide valuable clinical insights.
cfDNA (cell–free DNA): DNA fragments released passively from cells into bloodstream.
Since 2011, cfDNA sequencing technology has been used to detect genetic abnormalities of the fetus through the collection of pregnant women blood. This test is known as Non–invasive Prenatal Testing (NIPT).
ctDNA (circulating tumor DNA): cell–free DNA released from tumor cells. Tumor cells release ctDNA actively with multiple features significantly different with cfDNA.
Following a similar concept, ctDNA technology is clinical applied to detect and examine tumor DNA in the blood. This enables early detection of cancer for healthy individuals, as well as profiling and tracking tumor progress in cancer patients.

Benefits of ctDNA in Multi–cancer early detection

Early Detection

The potential to identify cancer signals at an early stage.

Efficiency

Capability to test for cancers that do not have recommended screenings to improve patient outcomes.

Convenience

One single blood draw during a healthcare visit.

High Accuracy

High specificity limits false positive and unnecessary work–up.

The practice of early detection for multiple cancers is an active search for a signal that many cancers share, thereby improving the probability of identifying cancer at an early stage.

ctDNA has been proved as an insightful signal in multi–cancer screening.(1)

  • (1) Le Son Tran, et al. (2023) eLife 12:RP89083.

Why should we care?

Status of 10 common and AGGRESSIVE cancers

Mortality

No Data Found

10 cancer types

  1. Breast
  2. Lung
  3. Colorectum
  4. Stomach*
  5. Liver*
  6. Ovary*
  7. Pancreas*
  8. Esophagus*
  9. Uterus*
  10. Biliary tract*

*7/10

Cancer types that currently have no standard–of–care screening program available.

The WHO GLOBOCAN South–East Asia Report (2022) tracks the incidences of more than 3,000 new cases a day, spanning a total of 32 reported cancer types(1). Remarkably, 10 types of cancer, accounted for 56.2% of total new incidences and 59.9% of total mortality.

Only three among them (Breast, Lung, Colorectum) have established screening programs. The need for early–stage screening for more cancer types is crucial, given the rising incidence of cancers. Early detection can significantly improve survival rates and save lives.

  • (1) WHO – GLOBOCAN 2022. South–Eastern Asia

The need for early detection

5–year survival rate percentage**

No Data Found

Early detection is key in the fight against cancer. 
It not only increases the chances of successful treatment but also significantly improves the quality of life for patients.
Common cancer types like breast or colorectum have >90% survival rate if detected early(2). However, more than 70% of cancers in low–income and middle–income Asian countries are diagnosed in late stage (3).

Main reasons for late detection:

  • People with no obvious signs of cancer 
do not go for early cancer screening.
  • Only few cancers types have recommended screening.
  • Cancer symptoms mostly occur 
at late stage.

Late–stage diagnosis leads to(4):

  • 5x higher mortality rate within 12 months.
  • 50% higher chance of financial catastrophe.
  • (2) Statistics adapted from the American Cancer Society’s (ACS) publication, Cancer Facts & Figures 2022 and Cancer Facts & Figures 2021;  the ACS website; and the International Agency for Cancer Research website.
  • (3) Sankaranarayanan, R., Ramadas, K., Qiao, Y., 2014. Managing the changing burden of cancer in Asia. BMC Med 12, 3.
  • (4) ACTION (Asean CosTs in Oncology) STUDY, Singapore 2020.

What should we do to improve early detection?

Hereditary
& Familial

25 -30% (1) attributed to all cancers

  • Inherited from familial gene
  • Mutations in a person genome from birth All cells in the body have these mutations
  • May be passed to future generations
  • Screen for hereditary cancer risks: 
common genes associated with 
specific types of cancer.

Occurred mutations

70% (1) attributed to all cancers

  • Caused by age, environment & lifestyle habits
  • Mutations acquired over time
  • New mutations are present at the tumor only
  • Will not be passed to future generations
  • Screen for tumor presence at early stages by annual screening checkup or using ctDNA multi–cancer early detection test.
Awareness of screening methods
  • (1) Garber J.E., Offit K. Hereditary Cancer Predisposition Syndromes. J. Clin. Oncol. 2005;23:276–292

SPOT-MAS Videos

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Test Process

01

Request the test

Request the test through your primary care doctor. A prescription and 10ml blood collection are required.

02

Sequencing of cfDNA

Your extracted DNA from the plasma will be sequenced by Next–generation ctDNA technology to analyze methylation profile and multi–feature of DNA.

03

Returning results

Receive your ctDNA signal analysis results after 20 working days from the time sample is received at Gene Solutions Genomics Singapore laboratory.

SPOT-MAS video