Recent advancements in multiomics approaches have granted researchers a more detailed understanding of tumors, accelerating the development of precision medicine.
Despite this, the use of formalin-fixed paraffin-embedded (FFPE) samples introduces additional complexity and time-consuming steps into analytical workflows. Thus, urgent solutions are needed to remove the burden on sample processing times in diagnostic laboratories.
This case study presents a scalable, automation-friendly workflow for active deparaffinization, extraction and purification of nucleic acids from FFPE samples that can transform cancer diagnostics as demand grows.
Download this case study to discover a workflow that:
- Enhances the yield and quality of extracted DNA and RNA
- Provides reliable, actionable data to accelerate treatment decisions
- Enables flexibility in batch size and throughput
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Precision Diagnostics Advances Treatment of Solid
Tumors: Omniseq/Labcorp Integrates Covaris Technology
to Automate FFPE Sample Prep for CGIP
In a recent webinar, Jeffrey Conroy, Head of Science at OmniSeq and Executive Director at LabCorp, and Eugenio Daviso, Ph.D, Vice
President of Solutions at Covaris, highlighted the significant role of Comprehensive Genomic and Immune Profiling (CGIP) in enhancing
decision-making for cancer treatments. They presented Covaris’ truXTRAC® FFPE SMART Solutions, a scalable, automation-friendly
workflow solution for active deparaffinization, extraction, and purification of DNA and RNA from FFPE samples. By employing Adaptive
Focused Acoustics® (AFA®) Technology in an automated workflow, this method ensures high quality and yield of total nucleic acids
from the same FFPE sample while providing reliable data and flexibility in throughput and batch size.
Eugenio Daviso, Ph.D.
VP Solutions, Covaris
Jeffrey Conroy
Head of Science, OmniSeq Inc.
Executive Director, LabCorp
Introduction
Recent advances in multiomics approaches have provided
a more comprehensive view of tumors, accelerating the
development of precision medicine. However, incorporating
such complex workflows into diagnostic laboratories remains
challenging.
Comprehensive Genomic and Immune Profiling (CGIP) is the
standard of care for cancer that allows molecular pathology
laboratories to consolidate individual biomarkers into a nextgeneration sequencing (NGS) assay.1
Yet, the use of formalinfixed paraffin-embedded (FFPE) methods for preserving human
tissue specimens introduce obstacles—including the need to
remove paraffin and deal with degraded or crosslinked nucleic
acids. The workflows to isolate DNA and RNA are complex and
time-consuming, involving toxic chemicals and requiring high
sample input.
In addition, as the demand for actionable results from FFPE
tissues continues to grow, clinical laboratories are tasked
to process more samples in less time as patients and their
caregivers wait for results. Thus, better solutions for nucleic acid
isolation from FFPE samples are urgently needed.1
Working together, OmniSeq/LabCorp and Covaris developed an
innovative workflow that provides both high quality and yield of
DNA and RNA from the same FFPE sample while ensuring
reliable, reproducible data along with flexibility in throughput and
batch size.
Automating Sample Prep for CGIP with Covaris
truXTRAC FFPE SMART Solutions
Extraction of DNA and RNA from FFPE samples can be
challenging, time consuming, and labor-intensive. Traditional
methods of extraction require toxic chemicals, often resulting in
degraded and fragmented nucleic acids.
This underscores the need for greater yield with minimal tissue
input, simplified and automated workflows, as well as suitable
vessel design for better tracking and access. The ultimate goal
is to achieve actionable outcomes, whether that is to identify an
effective treatment or to qualify a patient for clinical trials.
The workflow developed by OmniSeq/LabCorp and Covaris is a
fully automated system for evaluating FFPE samples, designed
to overcome these challenges. Covaris truXTRAC FFPE SMART
Solutions with R230 Focused-ultrasonicator enable assays.1
This solution offers a scalable, automation-friendly workflow
for active deparaffinization, extraction, and purification of highquality DNA and RNA from FFPE samples.
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2
By utilizing the power of focused ultrasonication with Adaptive
Focused Acoustics (AFA) Technology, this workflow provides
both high quality and yield of DNA and RNA from the same FFPE
sample while ensuring reliable, reproducible data along with
flexibility in throughput and batch size. With no toxic organic
solvents or harmful chemicals, the workflow easily integrates
with most liquid handling systems. In addition, this workflow was
shown to save time, reduce costs, and offer flexibility in terms
of hands-on time. The accuracy and precision of NGS outcomes
was prioritized, aiming to improve the efficiency and reliability of
genomic profiling (Figure 1).
Figure 1. Innovative workflow using Covaris AFA Technology resulted in repeatable, reproducible results regardless of sample type.
Case Study: Examining the Efficiency of Protein Extraction Using the R230 Focused-ultrasonicator
The workflow tests multiple biomarkers from small volume
specimens and generates a single report of detected variances
and associated therapies, aiding in treatment decisions and
clinical trial selection. It also simultaneously evaluates both
genomic and immune profiles from a single sample and reports
alterations at various levels, including single nucleotide variants,
copy number variation, gene rearrangements, splice variance,
TMB, MSI, and regions of loss.
Revolutionizing Cancer Diagnostics with Broad
Access and Rapid Results
In a study using this workflow, patients from 44 states were
tested, showcasing the broad access provided by the LabCorp
distribution network. Genomic alteration viewpoint showed
single nucleotide variants and copy number variance as the most
prevalent alteration types detected.
When focusing on alterations matchable to targeted and/or
immunotherapy guidelines or associated with clinical trials, it
was found that 1.6–95% of patients had a positive biomarker
across any single class of alteration type. Nearly all MSI and
TMV high patients matched to an approved therapy, while a
high percentage of patients without tier one alterations had
alterations that matched inclusion criteria for at least one trial.
Overall, the number of patients not matching either category
was minimal, highlighting the potential of tumor profiling in
personalized cancer treatment and clinical trial matching. The
test detected tier one alterations in almost 85% of lung cancer
patients. This is significant given the high number of biomarkers
associated with personalized therapies and their prevalence.
Over 50% of patients were PD-1 positive above a 1% TPS cutoff
for 22C3, and a similar percentage tested positive for either
an EGFR or KRASS mutation. These findings emphasize the
importance of simultaneous testing of all relevant biomarkers.
The study also highlighted the need to match patients with
appropriate therapies based on up-to-date guidelines and
biomarkers. For newly diagnosed stage IV non-small cell lung
cancer (NSCLC) patients, timely identification of actionable
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mutations significantly improved outcomes. Other cancers,
including cervical, melanoma, head and neck, bladder, thyroid,
and stomach, showed therapy associations in nearly 50% of
cases or higher, driven by high PDL-1 positivity rates and specific
mutations.
Conclusion
Adopting Covaris’ truXTRAC FFPE SMART Solutions helped
OmniSeq/LabCorp facilitate the extraction of high-quality DNA
and RNA from FFPE samples. Utilizing focused ultrasonication to
break down the paraffin and extract the nucleic acids eliminates
the need for toxic solvents or harsh chemicals. This innovative
workflow is scalable and automation-friendly, saving time while
delivering reliable results, no matter how many samples need to
be processed.
This work by OmniSeq/LabCorp and Covaris is helping to bring
the industry closer to realizing the full potential of precision
medicine in cancer care, making it accessible to all patients.
Reference
1. Poster: Total Nucleic Acids (tNA) Extraction from FFPE
Samples Using Adaptive Focused Acoustics (AFA)
Technology for Comprehensive Genomic Profiling.
Presented at ABRF 2023.
Curious how Covaris’ truXTRAC FFPE SMART Solutions can
streamline extraction of high-quality DNA and RNA from your
FFPE samples? Contact us at www.covaris.com/contact
To view the recorded webinar, please visit https://ln.run/m_nbO
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www.covaris.com | 2024© Covaris, LLC
M020178_RevA_Apr2024
Information subject to change without notice. For research use only. Not for use in diagnostic procedures.
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