From UCSF: Laura van ‘t Veer, PhD is Professor of Laboratory Medicine is the Program Leader of the UCSF Helen Diller Family Comprehensive Cancer Center Breast Oncology Program (BOP), Director of Applied Genomics with the UCSF Helen Diller Family Comprehensive Cancer Center, and UCSF-Site Principal Investigator of the Athena Breast Health Network.
Dr. van ‘t Veer is a world renowned Molecular Biologist and inventor of MammaPrint®. A recent publication in the New England Journal of Medicine on the MINDACT trial shows that 46% of breast cancer patients who are clinically high risk and are therefor considered for chemotherapy, can safely forgo this treatment based on a Low Risk MammaPrint result (NEJM 2016, Aug 25).
Dr. van ‘t Veer’s research focuses on personalized medicine, to advance patient management based on knowledge of the genetic make-up of the tumor as well as the genetic make-up of the patient. This allows clinicians to optimally assign systemic therapy for those patients in need of such treatment, and to ensure the selection of the therapy that is most effective. Dr. van ‘t Veer’s research shows that molecular diagnostics and microarray genomics technology increasingly impact patient management. Molecular genomics contributes to the knowledge of who is at risk for breast cancer, how external factors may influence this risk, whether breast tumors are likely to metastasize or not, and which subtype of tumors will likely respond to what therapy. Her current research, involving genomics data from various types, is aimed to understand the molecular basis for early response to therapy as a surrogate for outcome prediction.
Dr. van ‘t Veer is the Biomarker Committee Chair for the Foundation of NIH sponsored multicenter adaptive clinical trial I-SPY 2, overseeing the processes for FDA-IDE biomarker usage and qualifying biomarker companion diagnostic testing. She served 2010-2014 as Board member of the American Association of Cancer Research. She has over 230 peer-reviewed scientific articles and is co-inventor of 6 patents. Dr. van ‘t Veer received the 2007 European Society of Medical Oncology (ESMO) life-time achievement award for translational research in breast cancer and the prestigious European Union Women Innovator Award, 2nd prize in 2014.
Dr. van ‘t Veer received undergraduate training in biology and a master of science in molecular oncology (1984) at the University of Amsterdam in the Netherlands. She earned her PhD in Medicine for a dissertation on oncogene activation and tumorigenesis in 1989 at the University of Leiden. She then completed two postdoctoral fellowships, first at the Cancer Center of Harvard Medical School and Massachusetts General Hospital in Boston (1989-1991), followed by the Division of Molecular Carcinogenesis at The Netherlands Cancer Institute (1992-1993). She then joined The Netherlands Cancer Institute as a Molecular Biologist in the Department of Pathology. At the institute she assumed increasing responsibilities, starting with the initiation and leadership of the Departments of Molecular Pathology and Genetic Counseling, culminating with her appointment as the Head of Diagnostic Oncology, overseeing the clinical work and associated research. In 2003 she was one of the founders of the Netherlands Cancer Institute spin-off, the molecular profiling company Agendia. Concurrent to her employment at The Netherlands Cancer Institute Dr. van ‘t Veer served as the Chief Operating Officer from 2002-2007 and as the Chief Research Officer from 2007-2014 for Agenda NV, a company she founded in Amsterdam to make her scientific discoveries available to clinicians for patient use. MammaPrint® obtained the first FDA 510K ‘In Vitro Diagnostic Multigene Index Assay’ (IVDMIA) clearance in 2007, and is included in several international and national guidelines for breast cancer management.
After a 2008-2009 appointment as Visiting Associate Professor at the UCSF Helen Diller Family Cancer Center, Dr. van ‘t Veer moved to UCSF as Professor of Laboratory Medicine in 2010 and assumed leadership of the Bay Area Breast Cancer SPORE and the BOP. In 2011 she assumed leadership of the Athena Breast Health Network at UCSF. She holds the Angela and Shu Kai Chan Endowed Chair in Cancer Research. She has established at UCSF a Laboratory for Applied Genomics that is CLIA licensed and provides a robust infrastructure and testing incubator lab for new molecular diagnostics of cancer. From LinkedIn: Laura van ‘t Veer, PhD, is a world renowned Molecular Biologist and inventor of MammaPrint®. Her research focuses on personalized medicine, to advance patient management based on knowledge of the genetic make-up of the tumor as well as the genetic make-up of the patient.
Dr. van ‘t Veer is the lead scientist of the 6693 patient MINDACT trial which showed that for early diagnosed breast cancer, 46% of clinically high risk patients can safely forego chemotherapy (New England Journal of Medicine 2016). MammaPrint is included in US ASCO, NCCN, International St. Gallen recommendations, several national guidelines for the treatment of breast cancer, and part of the AJCC staging system.
She received the 2017 European CanCer Organization Clinical Research Award, in 2015 the European Inventor Award in the category Small and Medium-sized Enterprises, in 2014 the second prize EU Women Innovator Award, and in 2007 the European Society of Medical Oncology (ESMO) Life Time Achievement Award. In 2020 she received the Precision Medicine World Conference Luminary award.
Laura van ‘t Veer was recognized as one of ’32 Amazing Women Inventors’, a group of women who succeeded in fields that are overwhelmingly dominated by men.
Dr. van ‘t Veer is the Biomarker Committee Chair for the multicenter adaptive breast cancer clinical trial I-SPY 2, overseeing the processes for FDA-IDE biomarker usage and qualifying biomarker companion diagnostic testing. She served as board member for the AACR 2011-2014, and is currently the chair of AACR Diagnostics Policy Sub-Committee, part of the AACR Science Policy and Government Affairs Committee.
Molecular genomics contributes to the knowledge of who is at risk for breast cancer, how external factors may influence this risk, whether breast tumors are likely to metastasize or not, and which subtype of tumors will likely respond to what therapy. Her current research involving genomics data from various types, is aimed to understand the molecular basis for early response to therapy as a surrogate for outcome prediction.