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Lung Cancer

Lung Cancer

Cerba Research conducted many lung cancer trials in the past 5 years alone. The lab’s expertise extends to the utilization of next-generation sequencing (NGS) broad-panel assays, alongside circulation tumor DNA (ctDNA) panels, 250+ immunohistochemistry (IHC) biomarkers, fluorescence in situ hybridization (FISH) and more. Get in touch to learn more

What Is Lung Cancer?

Lung cancer is a devastating disease for patients and families, and is the leading cause of cancer death worldwide, more than breast and prostate cancer combined (1). The two main lung cantypes are non-small cell lung cancer (NSCLC 80-85%), and small cell lung cancer (SCLC 15%), a more aggressive cancer when compared to NSCLC (2,3) .

Lung cancer is complexified by various histopathology (e.g. adenocarcinoma, squamous, large cell, and more) and numerous clinically meaningful biomarkers that need to be assessed to provide the best treatment or select the right trial for patients (e.g. EGFR, ALK, ROS1, and more) (4). Not to worry as at Cerba research, we got you covered with a wide range of histopathology and clinically meaningful biomarker offerings that can be detected with cutting-edge technics. Contact us to find out.

Cerba Research Lung Cancer Services

Our lung cancer specialists support the whole range of lung studies from discovery / preclinical (data not shown) to phase III registration trials and beyond. Most of our projects include specialty testing, such as, but not limited to, NGS broad-panel assays, ctDNA panels, 250+ IHC simplex and multiplex protocols, fluorescence in situ hybridization (FISH) and even NanoString®.

Our Areas Of Expertise In Lung Cancer

Did you know that we can cover for your lung cancer biomarker needs? Check out our mapping exercise by select lung biomarkers against our Cerba Research offerings with three technics (NGS, IHC, FISH) (4,5,6). Interested in artificial intelligence (AI) image analysis for your lung cancer trial? Check out our resources.

What Are Lung Cancer Guidelines Proposing? Aligned with Cerba Research Offerings

Lung Cancer Biomarkers Most Commonly Deployed Additional Assays(s) Cerba Research NGS Cerba Research IHC Cerba Research FISH



Sanger Sequencing, Single Gene





NGS, IHC, Liquid Biopsy

FISH (reflex), RT-PCR




Lung Cancer Biomarkers
Most Commonly Deployed


Additional Assays(s)

Sanger Sequencing, Single Gene

Cerba Research NGS


Cerba Research IHC


Cerba Research FISH


Lung Cancer Biomarkers
Most Commonly Deployed

NGS, IHC, Liquid Biopsy

Additional Assays(s)

FISH (reflex), RT-PCR

Cerba Research NGS


Cerba Research IHC


Cerba Research FISH


a close-up image of a hand reaching for a labeled microscope slide

We recommend starting engagement with our scientific team early, such as at the protocol design phase, for optimal results. Reach out to us here.

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ASCO 2022 – Standing ovation and hope.

Astra Zeneca and Daiichi Sankyo’s Enhertu is the first targeted treatment prolonging progression-free survival of HER2-low breast cancer patients.

Presented in the @NEJM and at #ASCO2022 (Phase 3 Destiny-Breast04 clinical trial), Enhertu almost doubled median progression-free survival to 10.1 months over chemotherapy (5.4 months) in women with HER2-low, estrogen receptor-positive breast cancer, equivalent to a 49% reduction in the risk of progression. Around half of all breast cancers are considered HER2-low (IHC score 1), meaning that a major life-changing drug is on its way for hundreds of thousands of patients.

Trastuzumab deruxtecan (formerly DS-8201), an antibody–drug conjugate consisting of a humanized anti-HER2 monoclonal antibody linked to a topoisomerase I inhibitor payload through a tetrapeptide-based cleavable linker, has been approved for the treatment of patients with metastatic HER2-positive breast cancer who have received prior anti-Her2 based treatment and relapsed. It binds to and blocks the signaling of the epidermal growth factor reception 2 (Her2). 
Once it is bound to Her2, it is internalized and the payload (deruxtecan) interferes with DNA replication during mitosis, ultimately resulting in DNA damage and cell death. A main adverse event caused by Enhertu is interstitial lung disease (ILD), which will need to be carefully monitored in Her2 low breast cancer patients during the administration of this drug.

At Cerba Research, we pride ourselves on providing state-of-the art histopathology services, alongside our global central lab footprint. With a biobank of over 3,000 samples and Her2 as a validated marker, we are ready to take on the challenge to expand our capacity and support the development of more breast cancer drugs that will undoubtedly come to light on the tails of this fantastic new development.”

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How Cerba Research Helped Advance a Phase IIb Study in the Middle of a Pandemic and Brexit

by John Hinton, project manager, Cerba Research USA

A two-country clinical trial that involves a nasopharyngeal swab and two assays sounds relatively straightforward. But when you’re conducting a study during a global pandemic and Brexit, nothing is simple.

A combination of creative logistics, careful planning, and a strong customer relationship allowed Cerba Research to keep sample processing for a novel COVID-19 treatment on track in the middle of extraordinary upheaval.

The case: A randomized, controlled Phase IIb clinical trial to evaluate the safety and efficacy of the sponsor’s drug for high-risk subjects with mild COVID-19. The subject population enrolled a total of 600 men and women aged 18 years and over, recruited in the U.S. and the U.K., and initially included 25 U.S. sites and 10 U.K. sites. However, as COVID-19 continued to impact investigator and site availability and patients’ willingness to visit sites, the sponsor moved to a decentralized model.

Once the sponsor randomized patients into the trial, a “COVID in a Box” kit was delivered to patients’ homes. Patients could then decide whether to participate on-site or remotely using telemedicine. Most chose the latter.

Once the patient supplied the sample and repacked the box, an agent from Marken, the preferred courier, arrived within the hour to collect the sample. Both agent and patient followed a strict process using physical distancing and personal protective equipment (PPE) during the handoff.

The challenge: The sponsor had an ultra-quick turnaround time. For example, it requested a fully executed contract one week after the award. It also had a three-month window to ship supplies and bring sites online.

According to our stability testing, samples had a maximum room temperature stability of 72 hours between collection and testing. Samples had to move fast, and shipments coming through U.K. ports were at their peak due to Brexit concerns.

How we responded: Cerba Research had a strong preexisting relationship with the sponsor. The high level of established trust allowed us to obtain approval and execute all contracts quickly.

Kit production for the U.K. sites took place at Cerba Research’s central lab in Ghent, Belgium. Kit production for the U.S. sites occurred at our New York facility. Staff from other departments came in to help manually assemble kits. Others worked evenings and weekends. With teamwork, the necessary collection materials, requisition forms, and PPE were kitted into each COVID in a Box in as short a time as possible. Necessary random batch QC checks were performed before we forwarded the kits to the U.K. investigator sites in bulk.

Concerned about the short stability window, our lab in Johannesburg, South Africa, conducted an additional long-term stability experiment on the Abbott m2000sp sample preparation platform using the Seegene Allplex 2019 kit. Based on this data, we were able to extend the stability of the samples from 72 to 96 hours. Marken managed all inbound shipments. No samples were lost to stability issues.

Top Takeaways:

Get all legal and vendor onboarding agreements in place early, perhaps prospectively. Even with necessary agreements in place, responsiveness and goodwill will help smooth the process.

Find practical solutions to sponsor challenges. Cerba Research experts in two different continents came together to find a way to overcome Brexit-related logistical challenges and execute within a tight timeline.

Bring in your central lab partners early. During preliminary conversations, we can evaluate assay stability, lab capacity, logistics, screening timelines, and other important aspects of your study. Early involvement helps us develop strategies to advance your research sooner.

Build a relationship of trust. Cerba Research’s reputation — built on robust governance paired with open, transparent conversation and a commitment to do whatever it takes to keep studies on time and on budget — allowed us to get the rapid client buy-in required to deliver under challenging circumstances.

For more than 35 years, this commitment is why organizations worldwide choose Cerba Research: the central lab centered on you.

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Integrate IHC Biomarkers for More Effective Clinical Development in IO

by Amanda Finan

Immuno-oncology (IO) research carries a low probability of success. The likelihood-of-approval rate for oncology in general falls well below average — 5.3% vs. 7.9% for all indications.

Biomarkers can improve the clinical trial success rate for pharma and biopharma drug developers by allowing for the selection of patients more likely to respond to a potential new therapeutic, by enhancing safety, and by serving as surrogate clinical endpoints. Statistically, the use of biomarkers for patient stratification increases approval rate five-fold (Wong et al., Biostatistics, 2019).

The integration of biomarkers — and the process of choosing from the lengthy number of candidates — into a comprehensive clinical development plan to increase the effectiveness of your clinical trial is always a quandary. The less-invasive approach is to look at systemic protein or genomic biomarkers in bodily fluids or circulating tumor or immune cells.

In oncology, however, pathologists can obtain critical information from tissue biopsies that they cannot observe at the systemic level. Using classic techniques such as immunohistochemistry (IHC) and in situ hybridization (ISH), they can observe not only the presence of an antitumoral response, but also information on its presence and actual engagement at the tumor level. For these reasons, biopsies are a must when monitoring the effectiveness of anti-blockade treatments in clinical trials.

Histology (IHC) Helps Us Understand Biomarker Mechanisms in the Tumor Environment

Immunohistochemistry technology has historically been, and remains today, the gold standard of clinical pathology. It is a simple (Fig. 1), cost-effective, readily available method for profiling biomarkers to individualize a patient’s therapy.

How IHC Works

The Value of Multiplex IHC

It has become increasingly apparent that with the complexity of immuno-oncology, a single biomarker may not be sufficient and has thus led to a need for multiplexing techniques in

preclinical and clinical studies. Multiplex IHC allows for the detection of multiple biomarkers (up to eight) on a single tissue section, broadening mechanistic investigations. Harnessing the power of multiplex IHC can expand your biomarker research by allowing for a myriad of analyses, including in-depth immune cell phenotype analysis (e.g., regulatory T cell — CD3+/CD4+/CD25+/FoxP3+) and target localization (e.g., Ligand in relation to a receptor, protein expression on specific cell types).

Multiplex IHC is particularly useful in preclinical and early and retrospective clinical studies. These early investigations can have more flexibility to study a panel of candidate biomarkers that could (Fig. 2) accomplish the following:

  1. Detect a specific drug target of interest, look at its level of expression, and determine its localization. Is it expressed in the healthy tissue or is it within the tumor? Is it expressed on a certain cell type?
  2. Examine the mechanism — the biology of interactions in the tumor microenvironment between the tumor, the infiltrating immune cells, and the stromal cells that are supporting the tumor.
  3. Profile immune cells and understand where different subtypes are within the tissue, such as CD8 T cells. For example, are these immune cells within the tumor (hot) or do they stay on the periphery (cold)?
  4. Look at interactions between different cell types: are they within proximity of one another and possibly communicating?

Combining the multiplex and clinical data can then be used to identify a more focused biomarker approach that is more applicable in later phase clinical trials.

Having had one of the first multi-spectral imaging systems in Europe, Cerba Research has years of multiplex IHC experience and has developed off-the-shelf panels with a number of common immuno-oncology targets. We have the expertise and technology to help you understand the neighborhoods of your tissue sections, always with respect for the patients behind the samples.

Fit-for-Purpose IHC Assays Must Be Validated for the Intended Use

Once the basics have been determined — which biomarkers are relevant, what tissues are being studied, the intended use (e.g., proof of principle, mechanism), what type of analysis is relevant — we can generate a fit-for-purpose assay.

A robust biomarker validation process is crucial for the successful integration of biomarkers into a clinical trial. It requires collaboration between you and your specialty lab at each stage of preclinical and clinical development with special attention to the protocol optimization, specificity, sensitivity, and precision.

 At Cerba Research, our IHC expert scientific team is flexible in their approach and delivery to providing timely and cost-effective solutions to meet your clinical and commercial objectives.

Cerba Research solutions include:

  • A catalog of available protocols
  • Development of custom IHC assays and validations for preclinical and clinical studies
  • Access to numerous indications in our tissue biobank to facilitate target detection in multiple disease areas
  • Guidance by IHC experts
  • Support technologies (imaging mass cytometry, Nanostring, cell culture, antibody target screening)

Shape Your Immuno-Oncology Research With IHC

Detection of specific antigens in tissue sections by IHC is a unique tool in cancer and immunotherapy research. It can provide far more detailed insights than standard histopathology. With special techniques such as multiplex IHC and ISH, tissue biomarkers can yield crucial insights for diagnosis, patient stratification, or mechanistic evaluation. Proper validation is required for regulatory acceptance, provides confidence in the results, and improves the chances for success in I/O clinical trials.

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Together, Lowering the Global Tuberculosis Burden

On World Tuberculosis Day, we raise our voices to increase awareness of the indication that is still one of the top ten causes of death worldwide and the leading cause of death from a single infectious agent. While curable and preventable, research is still needed to reduce tuberculosis (TB) incidence worldwide.

Research Breakthroughs and Clinical Trials Are Key

TB treatments have been used for decades, and strains that are resistant to one or more therapeutics have been documented worldwide. The evolution of the strains requires innovative breakthroughs in the prevention and treatment of the illness. Looking at the clinical trial landscape, we can see that at the moment there are 183 ongoing clinical trials on tuberculosis worldwide, 83 planned clinical studies on tuberculosis worldwide, and that the majority of studies are run in the Asia-Pacific and African regions, where TB incidence is highest.

At Cerba Research, we are committed to shaping patient’s lives. When it comes to battling TB, our experts and laboratories worldwide support drug and vaccine developers in their effort to reduce TB prevalence. Our strong presence in South Africa, one of the eight countries that account for two-thirds of new TB cases, highlights our commitment to lowering the global TB burden. 

P3 Labs and TB Testing

TB testing requires a P3 laboratory and, often, the use of GeneXpert machines, which have mainly been reallocated in 2020 as a global response to the COVID-19 pandemic. 

Our affiliate in South Africa, BARC SA, has one of the largest TB P3 laboratories in Africa, consisting of a P3 facility and a separate area for MGIT analyzers and microscopic analyses. This lab, combined with our network of laboratories in Europe and North America, has the testing capacity and capabilities needed to support TB clinical trials on an international scale. 

Furthermore, we understand the need to develop TB testing to support the research agenda of quantitative detection and further characterization (Targeted Next-Generation Sequencing for resistance detection, species determination [RFLP, TB Fingerprinting, whole-genome sequencing]) of TB.

Together, let’s lower the global tuberculosis burden.

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3 Central Lab Capabilities Mandatory for I/O Clinical Trial Success

In the exploding field of immuno-oncology (I/O), delivering the right treatment to the right patient at the right time requires expert, integrated clinical laboratory and diagnostic solutions delivered by top scientists who will help you assess needs and generate early insights that optimize your protocol. Along with access to a sizable patient database, impeccable performance across the globe, and I/O experience, three main testing capabilities are nonnegotiable when selecting a lab partner for the challenging journey from translational research to commercialization.

Biomarkers make all the difference in immunotherapeutic and personalized medicine

For a drug developer, the value of obtaining early biological insights that help identify the right patients, treatments, dosages, and durations and streamline complex trials cannot be overstated. Biomarker development and validation are key to:

  • Guide dose selection
  • Characterize mode of action or resistance
  • Stratify patients/determine inclusion-exclusion
  • Predict drug efficacy and safety profiles
  • Aid in prognosis
  • Monitor disease

At Cerba Research, where half of our studies are in oncology, access to biobank human specimens provides a clear advantage when identifying novel and existing I/O-related pathways including tumor morphology, tumor genetics, tumor protein and gene expression, and tumor-infiltrating lymphocytes (TILs). Related biomarkers can then be developed further to stratify patients into treatment groups, gauge efficacy, formulate hypotheses, and increase the trial’s probability of success.

3 types of tests support a wide variety of biomarkers

For precision medicine in immuno-oncology, a complete program enabling a 360˚ view of patient status and tumor susceptibility demands experienced guidance and customization for three types of testing: flow cytometry, tissue immunohistochemistry (IHC), and genetic screening (next-generation sequencing, NGS).

Flow cytometry

Flow cytometry is a powerful technique that rapidly detects and measures thousands of cells with high sensitivity and specificity, providing a snapshot of the immune response. Beyond cell surface markers, flow cytometry can also detect intracellular antigens such as cytokines and phosphorylated signaling proteins. This methodology allows functional analysis and helps with therapeutic strategies and prediction of therapeutic response. The simultaneous use of many biomarkers generates data that is multifaceted, highly complex, and dimensional.

Immune profiling by flow cytometry produces a large amount of information from a single blood sample. The result is a very granular breakdown, for example, of lymphocytes and subtypes, down to T cell memory subsets and activated-versus-nonactivated markers. Clinical researchers can utilize this technology to understand how patients are responding and what kind of therapies are suitable for patient-specific treatment plans.

These studies demand highly skilled staff scientists to develop and validate both off-the-shelf and novel biomarkers. Therefore, the lead time for assay development to validation must be considered. Further, for global trials, a standardized approach is critical, including instrument standardization and assay process standardization (same SOP).


Immunohistochemistry (IHC) is a cost-effective assay that profiles tissue biomarkers to individualize a patient’s therapy. It is an antibody-mediated approach that allows detection of the target of interest in the tissue through fluorescent or chromogenic revelation for quantification and cellular localization. This technique has typically been used for the diagnosis and classification of tumors such as lymphomas and breast cancer. In addition, IHC conveys structural information about the tumor and the tumor microenvironment, demonstrating the localization of immune cells in relation to the tumor or other immune cell populations. It can also reveal the expression of activation/deactivation biomarkers as part of immune cell profiling and oncogene evaluation. Cerba Research offers sponsors an ever-increasing number of novel I/O biomarkers, including hard-to-develop, customized IHC assays for the preclinical phase, with subsequent validation for use in clinical trials.

Multiplex IHC, the combination of several biomarkers on a single slide/section, is an advanced version that allows for the detection of up to eight biomarkers in one precious tissue section. The ability to detect more biomarkers per slide is increasingly important as:

  • Demand for more biomarkers is growing.
  • Accurate phenotyping requires several markers.
  • Biopsy size limits the number of sections.
  • Some data cannot be obtained from circulating markers, such as spatial context and organization and distances between populations of cells.

NGS for genetic screening

Genetic screening measures changes in nucleic acid sequences associated with disease susceptibility or resistance. Next generation sequencing (NGS) enables a wide range of new applications and investigations in genetics, including analysis of solid and hematologic tumor genomes as well as in-depth analysis of the patient’s immune repertoire pre- and post-treatment, including T cell receptor (TCR) analysis.

Cerba Research’s capacity for high throughput, with the ability to sequence 1,000+ whole human genomes in a week — coupled with one of the largest catalogs of clinical NGS genetic and genomic testing — helps ensure that sponsors reach milestones and preserve development timelines, whether they need whole exome sequencing or gene panels customized to suit their protocol.

Applications of genetic insights to look for:

  • Biomarker discovery, with comprehensive genomic profiling and customized assays that link mutation to disease
  • Prospective patient stratification screening with NGS, PCR, and other assays
  • Companion diagnostics development on NGS-based or CHIP-based multiplex qPCR platforms to assess therapeutic suitability
  • Cyto- and molecular-genetic diagnosis of constitutional and acquired disorders, including developmental disease, predisposition factors, and clotting malfunctions

As an example, the tumor mutational burden (TMB) is a genetic biomarker currently receiving some attention. Cancer is the result of a series of mutations, and cancer cell lines each have between one (1) and around 10,000 coding mutations, or .1 to 100 mutations per megabase — the tumor mutational burden. TMB is associated with antitumor response and is a good predictor of response to cancer immunotherapy drugs in some cases, such as melanoma, cutaneous squamous cell carcinoma, and certain colorectal and noncolorectal GI cancers. The reason may be that tumor cells with high TMB have high neoantigen loads, leading to greater T cell reactivity and an enhanced antitumor T cell response. Although the gold standard for TMB analysis has been whole exome sequencing, recent advances in NGS tumor panels have provided consistent results.

Support for immuno-oncology trials depends on experience and commitment

With ever-expanding possibilities for specificity and design, immune-based therapies are pouring into the clinical research funnel. In immuno-oncology clinical trials, finding the proper resources to achieve your goals can be a challenge. Three main testing methodologies are needed for immuno-oncology: multiplex immunohistochemistry (IHC) for solid tumors, flow cytometry for cells in suspension, and genetic studies (NGS).

Partnering with a high-performing global central lab like Cerba Research for patient- and science-driven insights can help you optimize your protocol, then seamlessly ramp up to commercial scale. You will be able to minimize expenditures while keeping timelines intact — and bring groundbreaking therapies to patients sooner. With over 35 years of experience, Cerba Research is a leader in immuno-oncology clinical trials, providing global solutions that include a vast array of biomarker assays and expert validation services. Start with Cerba Research. As your partner, we empower you to bring new life-changing therapies to patients worldwide.Together, we’ll change the shape of your clinical development.

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How We Put Patients First On a Daily Basis

September 17th marks World Patient Safety Day, an initiative created by the WHO to bring awareness to the safety of patients all around the world. As a clinical laboratory whose mission is to help shape and advance clinical trials and ultimately improve patients’ lives, their safety lies at the core of our business. We’re also proud to have directly supported Health Worker safety through our various COVID-19 testing projects across the world and support the WHO’s slogan of “Safe health workers, Safe patients’.

So, how as a leading, global clinical trial laboratory service provider, do we put patients first on a daily basis?

Employee Training

Every employee at Cerba Research, no matter the job function, completes the Good Clinical (Laboratory) Practice training. We ensure our entire organization is, aware of our responsibilities regarding the conduct of clinical trials in order to meet GCP’s objective; ensuring that the rights, safety and well-being of human subjects are protected. This is also reinforced in our company culture whereby patient safety supports our core values and mission.

Data security

While perhaps not the most obvious in terms of patient safety, data security is paramount to the well-being of patients in clinical trials. It is vital to secure the privacy of subjects, to guarantee that people cannot be identified based on the samples and (medical) data. Similar to our GCP training, all employees attend mandatory training on data security and GDPR compliance. Further still, our CISO and DSO ensure that our IT infrastructure remains secure and that we have the appropriate systems and checks in place to maintain data security at all times.

Sites and Sample Collection

As a clinical trial laboratory, we have a fundamental role to play in patient safety as the data we produce are critical to health care decisions that will be made affecting diagnosis or treatment. Any analytical or diagnostic error therefore has the potentially to significantly affect patient safety and drives our unrelenting focus on quality all the way through our processes.

These processes begin even before any samples are taken, whereby careful measures are taken to minimize discomfort and pain for the subjects and guarantee the health worker’s safety. Our in-house kit-building team and project management team are instrumental in this. Through them, the sites receive both instructions on how to take samples and the necessary equipment to do so thus creating an informed and protected environment for both.

Through accreditation by the major bodies, we ensure that testing is always done to the highest standards, ensuring accuracy and reproducibility of results. Our deep scientific, technical and operational expertise mitigates any risk during the journey from sampling through to reporting, thus ensuring certainty of results.

Towards the future

Clinical trials continue to evolve, bringing new requirements but always with a focus on the patient to ensure their safety. As 2020 has proven through the COVID-19 pandemic, clinical trials and their processes need to be flexible enough to adapt and overcome unforeseen disruptions. That’s why we are constantly looking for ways to support these new developments, and proactively create solutions that will help support patients’ lives across the globe by enabling them to participate in research in a flexible way that’s centered around them.. 

The major challenge during the pandemic was the inability of patients or healthcare works to visit sites. Decentralized trials, whereby some or all of the study visit is performed in a patient’s home, is one way around this. Home sampling is therefore an important initiative that we are developing to tackle this obstacle. A combined package of sampling materials and clear instructions that can be sent to the patients themselves, allows them to take their own samples. Guided step-by-step through the process with videos and manuals, patients will no longer need to leave the comfort of their own home in order to participate in trials. Not only does this increase the safety of the patient, it also allows us to involve patients in studies who might have been unable to before. This enables those patients that live in hard-to-reach areas, with little infrastructure, or those who simply do not possess the time or means to go to the collection site, to participate.

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How We Started an Infectious Disease Trial in Ten Days

COVID-19 changed the shape of clinical development. But you can be certain with Cerba Research: This blog describes a trial for a COVID-19 prophylactic medication. In the spring of 2020, we initiated complete central laboratory support for a substantial virology study in just 10 days. A typical timeline for a project like this would be eight weeks.

A Friend in Need

A long-standing pharma client wanted to evaluate a previously approved drug for safety and efficacy in a new indication — as post-exposure prophylaxis for a viral respiratory illness. The FDA had granted rapid protocol approval for a Phase III study, which our client was anxious to initiate. For rapid study startup, the sponsor needed complete central laboratory support, including custom test kits distributed to various North American locations — and the associated database build — in 10 days.

Here’s how it went:

Time from project kickoff to collection kits received at sites

Services We Provided

  • Sample management: drug susceptibility testing and blood samples for PK
  • Logistics support
  • Safety testing: hematology, biochemistry, urinalysis
  • RT-PCR through GenMark ePlex® Respiratory Pathogen Panel
  • Hologic SARS-CoV-2 (Panther Fusion® System) for COVID-19 testing
  • COVID-19 testing in stool samples

We hit our target! And within that breathtaking timeline, we handled protocol changes, logistics challenges, and more.

How Infectious Disease Preparation Along With Communication, Flexibility, and Resourcefulness Made It All Work Out

Cerba Research is highly capable, with extensive global experience in infectious disease. Our cutting-edge laboratories provide the full portfolio of harmonized laboratory testing services required in infectious disease research including vaccine immunogenicity and efficacy, neutralization assays, immunoassays, viral load, and BSL 3 environments. Our seven centers in Ghent, Johannesburg, Montpellier, New York, Paris, Shanghai, Sydney, Taiwan, and Tokyo enable you to target disease populations even in the most remote locations with results easily cross-referenced via our unified global clinical data management platform.

In fact, our industry-leading expertise was called on at the start of the pandemic by the Belgian government, which invited Cerba Research to join an elite consortium task force of leading pharma, biotech, IT, and academia to scale up COVID-19 testing. Our teams worked at risk and over evenings and weekends to ensure rapid testing of the most exposed populations within Belgium.

But even the best resources and pedigree cannot make up for human elements like grit, cooperation, and good sense. In this study, paired with our top laboratories and full portfolio of testing services, the following factors made all the difference and were key to our successful service.

Communication and transparency

To meet this timeline, the Cerba Research team knew it would take dynamic organization, collaboration, adaptability, and understanding. Multiple daily meetings kept hurdles in sight and gave the team space to brainstorm solutions. Daily internal calls included project, trial setup, sample handling, and logistics staff along with associate trial managers, scientific liaisons, and regional heads of project management in disparate time zones. In addition, daily teleconferences with client representatives ensured key milestones were met. Even the contracts and proposal team completed their work within the collapsed timeline.

Flexibility and persistence

During this time, ramped-up border controls were causing delays and uncertainty in international shipping. And with demand for hospital PPE outstripping availability, supplies for both sample collection and testing were scarce. Yet initially, despite these ongoing shortages and supply chain interruptions, the Cerba Research team worked with suppliers and obtained everything needed — with one exception.

At 5 p.m. on a Friday, word came that a shipment of swabs from Belgium was held up in customs, indefinitely. This was a major setback, as the site supplies were to be shipped the following Tuesday. Swabs sourced locally did not pass validation with the assay being used.

Finally, the Cerba Research facility in Belgium shipped the supplies as a series of smaller-value lots to expedite their passage through customs. By building our test kits in-house, we ensure rapid, accurate production and quick reorder turnaround times. In this case, the kit-building team received the swabs late afternoon on Monday, QC’d them, and started shipping complete kits that evening.

Expertise and initiative

Protocol amendments can wreak havoc with any timeline — especially with one as truncated as this. In response to a last-minute client request to fulfill an updated FDA requirement, we added stool PCR testing and located a lab with a validated process to perform the assay. Other amendments our team negotiated successfully included a change from ambient to refrigerated shipping and its resultant cascade of adjustments to the related database, supplies, and manuals. Cerba Research also added value by tapping our network to help recruit health care workers for the study and connected the sponsor with a nonprofit able to assist with funding.

Motivation and Accomplishment Yield Insights

With infectious disease, timing is critical. Inspired by our long-term client and eager to go above and beyond to solve a global dilemma, our team was wholeheartedly determined to achieve this timeline. Because we have partnered with clients in key areas such as influenza, tuberculosis, malaria, HIV, and arboviruses as well as many other indications, we were confident we could get the job done. What we learned was that close collaboration overcomes the highest hurdles. We succeeded because of:

  • Tireless and transparent internal and external communications
  • Outstanding organization and management
  • Flexibility to adapt to changing needs
  • Global scientific experts and logistics network
  • In-house kit production
  • Highly capable team for building a unified global study database

Despite today’s changeable landscape, you can think outside the box. Or you can change it. Cerba Research has the expertise, assets, and optimal timing to empower our clients to bring new life-changing therapies to patients worldwide sooner. Even as the shape of clinical development changes, you can be certain with Cerba Research.