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For
immediate release
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13 December
2024
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ANGLE plc ("the
Company")
WEILL CORNELL MEDICINE
PRESENTS HER2 PARSORTIX WORKFLOW AT SAN ANTONIO BREAST CANCER
SYMPOSIUM
Independent findings support
ANGLE's HER2 assay development programme
Potential for stratification
of breast cancer patients for treatment with HER2 antibody drug
conjugates
ANGLE plc (AIM:AGL OTCQX:ANPCY), a
world-leading liquid biopsy company with innovative circulating
tumour cell (CTC) solutions for use in research, drug development
and clinical oncology, is pleased to announce the presentation of
an independent study, reporting on a novel,
Parsortix®-based human epidermal growth factor receptor
2 (HER2) workflow at the prominent San Antonio Breast Cancer
Symposium being held from 10 to 13 December 2024.
The findings, published by Weill
Cornell Medicine, corroborate ANGLE's own findings from its HER2
assay development programme, and provide a semi-automated solution
which may help to accelerate adoption of CTC-based HER2 tests. HER2
status is known to change in a significant proportion of breast
cancer patients over time, so a minimally invasive, real-time assay
is needed for dynamic HER2 assessment to enable targeted treatment
selection and detection of emerging treatment resistance or
progression.
HER2 is a protein that is
associated with many cancers, and HER2 tumour marker testing is
used to determine if targeted therapy will be effective. A
quantitative HER2 test, that objectively measures HER2 expression
levels, enables the identification of patients who are HER2-high,
intermediate or low and therefore suitable for treatment with
HER2-antibody drug conjugates (ADCs).
The poster reports on a study in 16
patients with metastatic breast cancer, in which the Parsortix
system was used to isolate and harvest CTCs and CTC-clusters prior
to automated imaging and classification as HER2-high, intermediate,
low or negative. Using the Parsortix system, CTCs were identified
in 100% of patients and their HER2 status classified.
Importantly the study identified patients with HER2 expressing CTCs
that had a HER2-negative tissue biopsy.
Over 60% of breast cancer patients
have a HER2-negative tissue biopsy when diagnosed and, as a result,
are currently excluded from prescription of HER2 targeted
ADCs. The workflow presented in this poster has the potential
to be used to assess the current HER2 status of these patients and
identify those whose HER2 status has changed making them eligible
for the treatment.
Dr.
Carolina Reduzzi, Assistant Professor of Cancer Biology Research in
Medicine, Weill Cornell Medicine commented:
"We are pleased to present further
data validating our workflow which enables quantitative and
semi-automated assessment of HER2 in CTCs. HER2 is a major
therapeutic target and an accurate and real-time assessment of HER2
status could be used to monitor CTCs over time to better guide
treatment and identify patients with any detectable HER2
expression, or changes to HER2 expression, who could benefit from
treatment with ADCs.
This methodology has the potential
to be applied to a wide range of biomarkers and our ultimate goal
is to develop automated workflows which enable longitudinal CTC
assessment of biomarker status for targeted treatment selection or
to predict treatment response."
ANGLE's Chief Scientific Officer, Karen Miller,
commented:
"We are pleased to see new data that
supports the utility of quantitative HER2 assessment on CTCs
isolated using the Parsortix system and independently validates
ANGLE's own findings from our HER2 assay development programme.
HER2 status is known to change in up to 38% of breast cancer
patients. As such real-time quantitative HER2 assessment is crucial
for both effective treatment and to support patient stratification
for clinical trials and insight into dynamic changes in HER2 status
which may correlate to therapeutic response."
The poster is available at:
https://angleplc.com/resources/posters/
For
further information:
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ANGLE plc
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+44
(0) 1483 343434
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Andrew Newland, Chief
Executive
Ian Griffiths, Finance
Director
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Berenberg (NOMAD and Broker)
Toby Flaux, Ciaran Walsh, Milo
Bonser
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+44
(0) 20 3207 7800
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FTI
Consulting
Simon Conway, Ciara
Martin
Matthew Ventimiglia (US)
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+44
(0) 203 727 1000
+1
(212) 850 5624
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For Frequently Used Terms, please
see the Company's website on https://angleplc.com/investor-relations/glossary/
Notes for editors
About ANGLE plc
ANGLE is a world-leading liquid
biopsy company with innovative circulating tumour cell (CTC)
solutions for use in research, drug development and clinical
oncology using a simple blood sample. ANGLE's FDA cleared and
patent protected CTC harvesting technology known as the
Parsortix® PC1 System enables complete downstream
analysis of the sample including whole cell imaging and proteomic
analysis and full genomic and transcriptomic molecular
analysis.
ANGLE's commercial businesses are
focusing on clinical services and diagnostic products. The clinical
services business is offered through ANGLE's GCLP-compliant
laboratories. Services include custom made assay development and
clinical trial testing for pharma. Products include the Parsortix
system, associated consumables and assays.
Over 100 peer-reviewed publications
have demonstrated the performance of the Parsortix system. For more
information, visit www.angleplc.com
Any reference to regulatory
authorisations such as FDA clearance, CE marking or UK MHRA
registration shall be read in conjunction with the full intended
use of the product:
The Parsortix® PC1 system is an in vitro diagnostic
device intended to enrich circulating tumor cells (CTCs) from
peripheral blood collected in K2EDTA tubes from patients
diagnosed with metastatic breast cancer. The system employs a
microfluidic chamber (a Parsortix cell separation cassette) to
capture cells of a certain size and deformability from the
population of cells present in blood. The cells retained in
the cassette are harvested by the Parsortix PC1 system for use in
subsequent downstream assays. The end user is responsible for
the validation of any downstream assay. The standalone
device, as indicated, does not identify, enumerate or characterize
CTCs and cannot be used to make any diagnostic/prognostic claims
for CTCs, including monitoring indications or as an aid in any
disease management and/or treatment decisions.
All results reported in this
announcement and any other products and services are for research
use only and not for use in diagnostic procedures.