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▼a 9780309490849
▼q (electronic bk.)
▼a 0309490847
▼q (electronic bk.)
▼z 0309490812
▼z 9780309490818
▼a 2243118
▼b (N$T)
▼a (OCoLC)1117339730
▼a N$T
▼b eng
▼c N$T
▼d 248023
▼e pn
▼e rda
▼a MAIN
▼a RC270.3.D53
▼b I47 2019eb
▼a QZ 241
▼a 616.99/4075
▼2 23
▼a Improving Cancer Diagnosis and Care: Clinical Application of Computational Methods in Precision Oncology (Workshop)
▼d (2019 :
▼c Washington, D.C.),
▼j author.
▼a Improving cancer diagnosis and care:
▼b clinical application of computational methods in precision oncology : proceedings of a workshop /:
▼c Emily Zevon, Margie Patlak, and Sharyl J. Nass, rapporteurs ; National Cancer Policy Forum, Board on Health Care Services, Health and Medicine Division ; the National Academies of Sciences, Engineering, Medicine.
▼a Washington, DC:
▼b The National Academies Press,
▼c 2019.
▼a 1 online resource (xx, 71 pages):
▼b illustrations.
▼a text
▼b txt
▼2 rdacontent
▼a computer
▼b c
▼2 rdamedia
▼a online resource
▼b cr
▼2 rdacarrier
▼a Includes bibliographical references.
▼a Workshop overview - New paradigm in cancer diagnosis and care - Translation challenges - Research needed - Examples of care delivery models for computational precision medicine - Lessons learned from implementing computational precision oncology care - Wrap up - References - Appendix A: Statement of task - Appendix B: Workshop agenda.
▼a A hallmark of high-quality cancer care is the delivery of the right treatment to the right patient at the right time. Precision oncology therapies, which target specific genetic changes in a patient's cancer, are changing the nature of cancer treatment by allowing clinicians to select therapies that are most likely to benefit individual patients. In current clinical practice, oncologists are increasingly formulating cancer treatment plans using results from complex laboratory and imaging tests that characterize the molecular underpinnings of an individual patient's cancer. These molecular fingerprints can be quite complex and heterogeneous, even within a single patient. To enable these molecular tumor characterizations to effectively and safely inform cancer care, the cancer community is working to develop and validate multiparameter omics tests and imaging tests as well as software and computational methods for interpretation of the resulting datasets. To examine opportunities to improve cancer diagnosis and care in the new precision oncology era, the National Cancer Policy Forum developed a two-workshop series. The first workshop focused on patient access to expertise and technologies in oncologic imaging and pathology and was held in February 2018. The second workshop, conducted in collaboration with the Board on Mathematical Sciences and Analytics, was held in October 2018 to examine the use of multidimensional data derived from patients with cancer, and the computational methods that analyze these data to inform cancer treatment decisions. This publication summarizes the presentations and discussions from the second workshop--Publishers description.
▼a Print version record.
▼a Cancer
▼x Diagnosis
▼v Congresses.
▼a Diagnostic imaging
▼v Congresses.
▼a Cancer
▼x Treatment
▼v Congresses.
▼a Cancer
▼x Patients
▼v Congresses.
▼a Patlak, Margie,
▼e rapporteur.
▼a Nass, Sharyl J.,
▼e rapporteur.
▼a Zevon, Emily,
▼e rapporteur
▼a National Cancer Policy Forum (U.S.),
▼e issuing body.
▼a National Academies of Sciences, Engineering, and Medicine (U.S.).
▼b Board on Health Care Services.
▼a National Academies of Sciences, Engineering, and Medicine (U.S.).
▼b Health and Medicine Division.
▼i Print version:
▼a Improving Cancer Diagnosis and Care: Clinical Application of Computational Methods in Precision Oncology (Workshop) (2019 : Washington, D.C.), author.
▼t Improving cancer diagnosis and care.
▼d Washington, DC : The National Academies Press, 2019,
▼z 0309490812
▼w (OCoLC)1110467330
▼3 EBSCOhost
▼u http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=2243118
▼a 강리원
▼a eBook
| Data Type : | eBook |
|---|---|
| ISBN : | 9780309490849 |
| ISBN : | 0309490847 |
| ISBN : | |
| ISBN : | |
| 회의명 : | Improving Cancer Diagnosis and Care: Clinical Application of Computational Methods in Precision Oncology (Workshop) (2019 : Washington, D.C.), |
| Title/Author : | Improving cancer diagnosis and care: clinical application of computational methods in precision oncology : proceedings of a workshop /: Emily Zevon, Margie Patlak, and Sharyl J. Nass, rapporteurs ; National Cancer Policy Forum, Board on Health Care Services, Health and Medicine Division ; the National Academies of Sciences, Engineering, Medicine. |
| Imprint : | Washington, DC: The National Academies Press, 2019. |
| Format : | 1 online resource (xx, 71 pages): illustrations. |
| Note : | Includes bibliographical references. |
| Content Note : | Workshop overview - New paradigm in cancer diagnosis and care - Translation challenges - Research needed - Examples of care delivery models for computational precision medicine - Lessons learned from implementing computational precision oncology care - Wrap up - References - Appendix A: Statement of task - Appendix B: Workshop agenda. |
| 요약 : | A hallmark of high-quality cancer care is the delivery of the right treatment to the right patient at the right time. Precision oncology therapies, which target specific genetic changes in a patient's cancer, are changing the nature of cancer treatment by allowing clinicians to select therapies that are most likely to benefit individual patients. In current clinical practice, oncologists are increasingly formulating cancer treatment plans using results from complex laboratory and imaging tests that characterize the molecular underpinnings of an individual patient's cancer. These molecular fingerprints can be quite complex and heterogeneous, even within a single patient. To enable these molecular tumor characterizations to effectively and safely inform cancer care, the cancer community is working to develop and validate multiparameter omics tests and imaging tests as well as software and computational methods for interpretation of the resulting datasets. To examine opportunities to improve cancer diagnosis and care in the new precision oncology era, the National Cancer Policy Forum developed a two-workshop series. The first workshop focused on patient access to expertise and technologies in oncologic imaging and pathology and was held in February 2018. The second workshop, conducted in collaboration with the Board on Mathematical Sciences and Analytics, was held in October 2018 to examine the use of multidimensional data derived from patients with cancer, and the computational methods that analyze these data to inform cancer treatment decisions. This publication summarizes the presentations and discussions from the second workshop--Publishers description. |
| General Subject Name : | Cancer -- Diagnosis -- Congresses. -- |
| General Subject Name : | Diagnostic imaging -- Congresses. -- |
| General Subject Name : | Cancer -- Treatment -- Congresses. -- |
| General Subject Name : | Cancer -- Patients -- Congresses. -- |
| Personal Author : | Patlak, Margie, rapporteur. |
| Personal Author : | Nass, Sharyl J., rapporteur. |
| Personal Author : | Zevon, Emily, rapporteur |
| Organization Author : | National Cancer Policy Forum (U.S.), issuing body. |
| Organization Author : | National Academies of Sciences, Engineering, and Medicine (U.S.). Board on Health Care Services. |
| Organization Author : | National Academies of Sciences, Engineering, and Medicine (U.S.). Health and Medicine Division. |
| 기타형태 저록 : | Print version: Improving Cancer Diagnosis and Care: Clinical Application of Computational Methods in Precision Oncology (Workshop) (2019 : Washington, D.C.), author. Improving cancer diagnosis and care. Washington, DC : The National Academies Press, 2019, 0309490812 |
| Language | English |
| URL : |
|---|
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