Eliza Mette scite author profile

Eliza Mette

4Publications

16Citation Statements Received

29Citation Statements Given

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Affiliations

National Cancer Institute, University of Oslo

Publications

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The Use of Biospecimens in Population-Based Research: A Review of the National Cancer Institute's Division of Cancer Control and Population Sciences Grant Portfolio

Carrick

Mette²,

Hoyle³

et al. 2014

Biopreservation and Biobanking

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Over the past two decades, researchers have increasingly used human biospecimens to evaluate hypotheses related to disease risk, outcomes and treatment. We conducted an analysis of population-science cancer research grants funded by the National Cancer Institute (NCI) to gain a more comprehensive understanding of biospecimens and common derivatives involved in those studies and identify opportunities for advancing the field. Data available for 1,018 extramural, peer-reviewed grants (active as of July 2012) supported by the Division of Cancer Control and Population Sciences (DCCPS), the NCI Division that supports cancer control and population-science extramural research grants, were analyzed. 455 of the grants were determined to involve biospecimens or derivatives. The most common specimen types included were whole blood (51% of grants), serum or plasma (40%), tissue (39%), and the biospecimen derivative, DNA (66%). While use of biospecimens in molecular epidemiology has become common, biospecimens for behavioral and social research is emerging, as observed in our analysis. Additionally, we found the majority of grants were using already existing biospecimens (63%). Grants that involved use of existing biospecimens resulted in lower costs (studies that used existing serum/plasma biospecimens were 4.2 times less expensive) and more publications per year (1.4 times) than grants collecting new biospecimens. This analysis serves as a first step at understanding the types of biospecimen collections supported by NCI DCCPS. There is room to encourage increased use of archived biospecimens and new collections of rarer specimen and cancer types, as well as for behavioral and social research. To facilitate these efforts, we are working to better catalogue our funded resources and make that data available to the extramural community.

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Navigating the road ahead: addressing challenges for use of metabolomics in epidemiology studies

Haznadar¹,

Maruvada

Mette³

et al. 2014

Metabolomics

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Metabolomics platforms allow for the measurement of hundreds to thousands of unique small chemical entities, as well as offer extensive coverage of metabolic markers related to obesity, diet, smoking, and other exposures of high interest to health scientists. Nevertheless, its potential use as a tool in population-based study design has not been fully explored. As the field of metabolomics continues to mature, and in part, accelerate through the National Institutes of Health (NIH) investment of ≤65 million in the Common Fund’s Metabolomics Program (https://common fund.nih.gov/metabolomics/index), it is time to consider those challenges most pertinent to epidemiologic studies.

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Zilascorb(2H), a low-toxicity protein synthesis inhibitor that exhibits signs of anticancer activity in malignant melanoma

Semb

Aamdal²,

Mette

et al. 1998

Anti-Cancer Drugs

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Abstract 307: The use of biospecimens in cancer population science research

Carrick

Mette

Hoyle

et al. 2014

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Background: Over the past two decades, researchers have increasingly used human biospecimens to help evaluate hypotheses related to disease risk, outcomes and treatment options. We conducted an analysis of the population science cancer research grants funded by NCI in order to gain a more comprehensive understanding of the biospecimens involved in those studies. Recognizing that there are many pre-existing collections of biospecimens, we investigated the cost and time efficiencies observed with studies involving the use of existing biospecimens versus collecting new specimens. Methods: Data available for 1,018 extramural, peer-reviewed grants (active as of July 2012) supported by the Division of Cancer Control and Population Sciences, (NCI Division that supports cancer control and population science extramural research grants) were analyzed. Results: 455 of the grants were determined to involve biospecimens. The most common specimen types included were DNA (66% of grants involved DNA), whole blood (51%), serum or plasma (40%), and tissue (39%). Grants that involved the use of existing biospecimens resulted in greater cost (serum/plasma studies were 4.2 times less expensive) and time efficiencies (1.4 times more publications per year resulted) than grants that collected new biospecimens. Conclusions: Clearly, there is an opportunity for NCI to promote future sharing. We are currently working to better catalogue our funded resources and make data available to the extramural community. Further work is being done to investigate possible trends based on year of grant award. Citation Format: Danielle M. Carrick, Eliza Mette, Brittany Hoyle, Scott D. Rogers, Elizabeth M. Gillanders, Sheri D. Schully, Leah E. Mechanic. The use of biospecimens in cancer population science research. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 307. doi:10.1158/1538-7445.AM2014-307

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Eliza Mette

The Use of Biospecimens in Population-Based Research: A Review of the National Cancer Institute's Division of Cancer Control and Population Sciences Grant Portfolio

Navigating the road ahead: addressing challenges for use of metabolomics in epidemiology studies

Zilascorb(2H), a low-toxicity protein synthesis inhibitor that exhibits signs of anticancer activity in malignant melanoma

Abstract 307: The use of biospecimens in cancer population science research

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