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Thermo Fisher Scientific, Pfizer collaborate to expand accesss to next-generation sequencing-based cancer testing in more than 30 countries

Pfizer and Thermo Fisher Scientific have agreed to collaborate to help increase local access to next-generation sequencing (NGS)-based testing for lung and breast cancer patients in more than 30 countries across Latin America, Africa, the Middle East and Asia where advanced genomic testing has previously been limited or unavailable. Access to local NGS testing can help to provide faster analysis of associated genes, enabling healthcare providers to select the right therapy for that individual patient [1].

Cancer is a leading cause of death globally, accounting for nearly 10 million deaths in 2020, or around one in six deaths. Breast and lung cancer are the leading types of cancer diagnosed and are responsible for almost 4.5 million deaths worldwide [2]. By 2040, the global burden for cancer is expected to grow to 27.5 million new cancer cases and 16.3 million cancer deaths [3].

Under the agreement, Thermo Fisher will identify local labs that will be using the company’s NGS technology and ensure they have the necessary infrastructure, trained staff, and quality control measures to meet industry standards for NGS testing services for breast and lung cancer. Pfizer will explore ways to enable affordable patient access for NGS testing for these types of cancer and work to raise healthcare provider awareness regarding the benefits of advanced testing. The two companies will continue to evaluate opportunities to expand geographically and to expand testing for other types of cancer.

“Anyone facing a cancer diagnosis should have access to cutting-edge testing that can match them with an appropriate, optimized treatment plan and better inform their care. Today, we aim to bring rapid NGS testing to an increased number of decentralized labs, closer to where patients are treated,” said Gianluca Pettiti, executive vice president at Thermo Fisher Scientific. “We are moving one step closer to delivering precision insights to underserved patients so they can receive a more tailored path for their care no matter where they are in the world.”

“The more we understand the complex science behind cancer, the better we can treat it. Our experience has taught us that cancer cannot always be treated with a broad brush and often requires an individualized approach based on precise disease characteristics,” said Nick Lagunowich, Pfizer Global President of Emerging Markets. “In many parts of the world, access to next-generation sequencing may be limited or unaffordable for cancer patients. This programme aims to improve their treatment journey and help increase their chances for improved outcomes.”

Single gene testing has historically been used to match patients with appropriate targeted therapies. However, this can be a time intensive process if sequential tests are needed and there may not be enough tissue to run every test – which may require additional biopsy procedures. As more targeted therapies are available that can be matched through a broader set of genomic markers, next-generation sequencing is quickly replacing sequential, single biomarker tests. By screening a single tumour tissue or blood sample for multiple biomarkers simultaneously, NGS can provide clinical teams with rapid and actionable genomic insights to help inform precision oncology treatment decisions for eligible patients [4].

A retrospective observational real-world data study looked at newly diagnosed stage IV non-small cell lung cancer patients, and found outcomes such as apparent survival and time to next treatment were significantly compromised if actionable mutations were identified after systemic treatment was initiated (e.g. chemotherapy and immunotherapy). However, when treatment was initiated based on molecular results, patients experienced better outcomes compared to patients who were treated prior to receiving molecular results, supporting the need for rapid molecular testing to inform better treatment decisions [5].

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References

1. Véronique Hofman, et al. (2022) JTO 2022: 100457   https://www.jtocrr.org/article/S2666-3643(22)00181-3/fulltext
2. Cancer (who.int)  https://www.who.int/news-room/fact-sheets/detail/cancer
3. Global Cancer Facts & Figures | American Cancer Society  https://www.cancer.org/research/cancer-facts-statistics/global.html
4. Lemmon, CA et al. (2023) JCO Precision Oncology 2023 :7  https://ascopubs.org/doi/full/10.1200/PO.22.00294?role=tab
5. Smith RE et al. (2022) J Clin Oncol. 40(16_suppl):1530