Innovation Saving Lives

We are a biotechnology company with a proprietary epigenetic biomarker discovery platform, EpiSwitch™, based on the latest advances in regulatory genome architecture and its link to clinical outcomes and patient stratification.

EpiSwitch™ biomarkers based on chromosomal conformation signatures are a critical cog in personalised medicine.

Technology to select the right drug at the right dose at the right time for the right patient.

EpiSwitch™ captures the heterogeneity of the environment on the genome.

Our Publications on Episwitch™


Ectopic gene deregulations and chromosome conformations: integrating novel molecular testing into clinical applications, from leukemias to gliomas

Grand, FH., et. al.,
Handbook of Biomarkers and Precision Medicine
https://www.crcpress.com/Handbook-of-Biomarkers-and-Precision-Medicine/Carini-Fidock-Gool/p/book/9781498762588

Epigenetic chromatin conformation changes in peripheral blood can detect thyroid cancer.

Yan et. al.,
Surgery
https://doi.org/10.1016/j.surg.2018.05.081

Genomic architecture differences at the HTT locus underlie symptomatic and pre-symptomatic cases of Huntington’s disease.

Salter, M., et. al.,
F1000Research 2018, 7:1757
https://doi.org/10.12688/f1000research.15828.1

The Chromosomal Conformation Signature: A New Kid on the Block in ALS Biomarker Research?

Poesen, K.
EBioMedicine
https://doi.org/10.1016/j.ebiom.2018.06.015

Chromosome conformation signatures as a clinical tool for diagnosis, prognosis and disease understanding in ALS

Salter, M., et. al.,
ENCALS
https://www.oxfordbiodynamics.com/wp-content/uploads/2016/10/2018-ENCALS-Chromosome-conformation-signatures-as-a-clinical-tool-for-diagnosis-prognosis-and-disease-understanding-in-ALS.pdf

White blood cells from Prostate cancer patients carry distinct Chromosome Conformations.

Pchejetski, D., et. al.
J of Urology
https://www.jurology.com/article/S0022-5347(18)40436-3/pdf

Chromosome conformation signatures response to methotrexate in early rheumatoid arthritis.

Carini et. al.
J Transl Med
http://em.rdcu.be/wf/click?upn=KP7O1RED-2BlD0F9LDqGVeSNikQRdSSVno6y1sy5PiGtY-3D_1Xwc2qYR6TifXA9E6uiEHGOeyluJhvI-2BsoiymOjeLDmDhsgq-2BbJrS1iWyD4DsCokgw5J-2B3bme1wt9rQL1jPNrKEjzTH0bn6qR5ZNXKiFtMLgW49uGX8lHedANlmYJiPtQKetB85nI2-2Fygw2eFOzKryJU11Ig7fnQky06uGSbL0kRMmx3Z1UlRwvSOj4YhjgjUdPyQrXAe2DRsMlWr1e0dEbPhgYPENQKNTaKXZ2wEtkRxWvzZzrnDcvZjd3FAYgSy-2BurJe-2BZNifTHuR9l-2Fc8RlzWrudMdGVINHdvg1Y0uzw-3D

A chromosomal conformation signature for a priori prediction of ALS progression subtypes.

Salter, et. al.,
F1000 Research
http://dx.doi.org/10.7490/f1000research.1115185.1

Glycaemic progression study among population in Penang, Malaysia.

Patel, JS, et. al.,
Diabetes Asia 2017 Conference
http://www.oxfordbiodynamics.com/wp-content/uploads/2016/10/Glycaemic-Progression-Study-Among-Population-in-Penang-Malaysia.pdf