Your search keyword '"Perrin, Danielle L."' showing total 3 results

1. Whole-exome sequencing and clinical interpretation of formalin-fixed, paraffin-embedded tumor samples to guide precision cancer medicine

Author

Van Allen, Eliezer M., Wagle, Nikhil, Stojanov, Petar, Perrin, Danielle L., Cibulskis, Kristian, Marlow, Sara, Jane-Valbuena, Judit, Friedrich, Dennis C., Kryukov, Gregory, Carter, Scott L., McKenna, Aaron, Sivachenko, Andrey, Rosenberg, Mara, Kiezun, Adam, Voet, Douglas, Lawrence, Michael, Lichtenstein, Lee T., Gentry, Jeff G., Huang, Franklin W., Fostel, Jennifer, Farlow, Deborah, Barbie, David, Gandhi, Leena, Lander, Eric S., Gray, Stacy W., Joffe, Steven, Janne, Pasi, Garber, Judy, MacConaill, Laura, Lindeman, Neal, Rollins, Barrett, Kantoff, Philip, Fisher, Sheila A., Gabriel, Stacey, Getz, Gad, and Garraway, Levi A.

Subjects

Nucleotide sequencing -- Usage -- Research, DNA sequencing -- Usage -- Research, Cancer -- Diagnosis -- Genetic aspects -- Research, Biological sciences, Health

Abstract

Translating whole-exome sequencing (WES) for prospective clinical use may have an impact on the care of patients with cancer; however, multiple innovations are necessary for clinical implementation. These include rapid and robust WES of DNA derived from formalin-fixed, paraffin-embedded tumor tissue, analytical output similar to data from frozen samples and clinical interpretation of WES data for prospective use. Here, we describe a prospective clinical WES platform for archival formalin-fixed, paraffin-embedded tumor samples. The platform employs computational methods for effective clinical analysis and interpretation of WES data. When applied retrospectively to 511 exomes, the interpretative framework revealed a 'long tail' of somatic alterations in clinically important genes. Prospective application of this approach identified clinically relevant alterations in 15 out of 16 patients. In one patient, previously undetected findings guided clinical trial enrollment, leading to an objective clinical response. Overall, this methodology may inform the widespread implementation of precision cancer medicine., Massively parallel sequencing approaches such as WES have elucidated the landscape of genetic alterations in many tumor types and revealed biological insights relevant to clinical contexts (1). The increased practical [...]

Published

2014

2. Whole-exome sequencing and clinical interpretation of FFPE tumor samples to guide precision cancer medicine

Author

Allen, Eliezer M. Van, Wagle, Nikhil, Stojanov, Petar, Perrin, Danielle L., Cibulskis, Kristian, Marlow, Sara, Jane-Valbuena, Judit, Friedrich, Dennis C., Kryukov, Gregory, Carter, Scott L., McKenna, Aaron, Sivachenko, Andrey, Rosenberg, Mara, Kiezun, Adam, Voet, Douglas, Lawrence, Michael, Lichtenstein, Lee T., Gentry, Jeff G., Huang, Franklin W., Fostel, Jennifer, Farlow, Deborah, Barbie, David, Gandhi, Leena, Lander, Eric S., Gray, Stacy W., Joffe, Steven, Janne, Pasi, Garber, Judy, MacConaill, Laura, Lindeman, Neal, Rollins, Barrett, Kantoff, Philip, Fisher, Sheila A., Gabriel, Stacey, Getz, Gad, and Garraway, Levi A.

Subjects

HEK293 Cells, Massachusetts, Neoplasms, Databases, Genetic, Mutagenesis, Site-Directed, Computational Biology, Humans, Exome, Sequence Analysis, DNA, Precision Medicine, Article, Algorithms, Statistics, Nonparametric

Abstract

Translating whole-exome sequencing (WES) for prospective clinical use may have an impact on the care of patients with cancer; however, multiple innovations are necessary for clinical implementation. These include rapid and robust WES of DNA derived from formalin-fixed, paraffin-embedded tumor tissue, analytical output similar to data from frozen samples and clinical interpretation of WES data for prospective use. Here, we describe a prospective clinical WES platform for archival formalin-fixed, paraffin-embedded tumor samples. The platform employs computational methods for effective clinical analysis and interpretation of WES data. When applied retrospectively to 511 exomes, the interpretative framework revealed a 'long tail' of somatic alterations in clinically important genes. Prospective application of this approach identified clinically relevant alterations in 15 out of 16 patients. In one patient, previously undetected findings guided clinical trial enrollment, leading to an objective clinical response. Overall, this methodology may inform the widespread implementation of precision cancer medicine.

Published

2014

3. Whole-exome sequencing and clinical interpretation of FFPE tumor samples to guide precision cancer medicine

Author

Allen, Eliezer M. Van, Wagle, Nikhil, Stojanov, Petar, Perrin, Danielle L., Cibulskis, Kristian, Marlow, Sara, Jane-Valbuena, Judit, Friedrich, Dennis C., Kryukov, Gregory, Carter, Scott L., McKenna, Aaron, Sivachenko, Andrey, Rosenberg, Mara, Kiezun, Adam, Voet, Douglas, Lawrence, Michael, Lichtenstein, Lee T., Gentry, Jeff G., Huang, Franklin W., Fostel, Jennifer, Farlow, Deborah, Barbie, David, Gandhi, Leena, Lander, Eric S., Gray, Stacy W., Joffe, Steven, Janne, Pasi, Garber, Judy, MacConaill, Laura, Lindeman, Neal, Rollins, Barrett, Kantoff, Philip, Fisher, Sheila A., Gabriel, Stacey, Getz, Gad, and Garraway, Levi A.

Abstract

Translating whole exome sequencing (WES) for prospective clinical use may impact the care of cancer patients; however, multiple innovations are necessary for clinical implementation. These include: (1) rapid and robust WES from formalin-fixed paraffin embedded (FFPE) tumor tissue, (2) analytical output similar to data from frozen samples, and (3) clinical interpretation of WES data for prospective use. Here, we describe a prospective clinical WES platform for archival FFPE tumor samples. The platform employs computational methods for effective clinical analysis and interpretation of WES data. When applied retrospectively to 511 exomes, the interpretative framework revealed a “long tail” of somatic alterations in clinically important genes. Prospective application of this approach identified clinically relevant alterations in 15/16 patients. In one patient, previously undetected findings guided clinical trial enrollment leading to an objective clinical response. Overall, this methodology may inform the widespread implementation of precision cancer medicine.

Published

2013