Purpose, Partnership, and Possibilities: The Implementation of the Dog Aging Project Biobank

Lara Mouttham; Marta G. Castelhano; Joshua M. Akey; Brooke Benton; Elhanan Borenstein; Marta G. Castelhano; Amanda E. Coleman; Kate E. Creevy; Kyle Crowder; Matthew D. Dunbar; Holley R. Ernst; Virginia R. Fajt; Annette L. Fitzpatrick; Susan J. Garrison; Reba S. Herndon; Debra Jaramilla; Unity Jeffery; Erica C. Jonlin; Matt Kaeberlein; Elinor K. Karlsson; Kathleen F. Kerr; Jonathan M. Levine; Jing Ma; Robyn L. McClelland; Jena O. Prescott; Daniel E.L. Promislow; Audrey Ruple; Stephen M. Schwartz; Sandi Shrager; Noah Snyder-Mackler; Amanda K. Tinkle; M. Katherine Tolbert; Silvan R. Urfer; Benjamin S. Wilfond

doi:10.1177/11772719221137217

Purpose, Partnership, and Possibilities: The Implementation of the Dog Aging Project Biobank

Lara Mouttham, Marta G. Castelhano, Joshua M. Akey, Brooke Benton, Elhanan Borenstein, Marta G. Castelhano, Amanda E. Coleman, Kate E. Creevy, Kyle Crowder, Matthew D. Dunbar, Holley R. Ernst, Virginia R. Fajt, Annette L. Fitzpatrick, Susan J. Garrison, Reba S. Herndon, Debra Jaramilla, Unity Jeffery, Erica C. Jonlin, Matt Kaeberlein, Elinor K. KarlssonKathleen F. Kerr, Jonathan M. Levine, Jing Ma, Robyn L. McClelland, Jena O. Prescott, Daniel E.L. Promislow, Audrey Ruple, Stephen M. Schwartz, Sandi Shrager, Noah Snyder-Mackler, Amanda K. Tinkle, M. Katherine Tolbert, Silvan R. Urfer, Benjamin S. Wilfond

Life Sciences, School of (SOLS)

Research output: Contribution to journal › Article › peer-review

Abstract

Background: Biobanks have been supporting longitudinal prospective and retrospective studies by providing standardized services for the acquisition, transport, processing, storage, and distribution of high-quality biological material and associated data. Here, we describe how the Dog Aging Project (DAP), a large-scale longitudinal study of the domestic dog (Canis familiaris) with translational applications for humans, developed a biobank of canine biospecimens and associated data. Design and methods: This was accomplished by working with the Cornell Veterinary Biobank, the first biobank in the world to receive accreditation to ISO 20387:2018—General Requirements for Biobanking. The biobank research team was involved in the early collection stages of the DAP, contributing to the development of appropriate workflows and processing fit-for-purpose biospecimens. In support of a dynamic strategy for real-time adjustment of processes, a pilot phase was implemented to develop, test, and optimize the biospecimen workflows, followed by an early phase of collection, processing, and banking of specimens from DAP participants. Results: During the pilot and early phases of collection, the DAP Biobank stored 164 aliquots of whole blood, 273 aliquots of peripheral blood mononuclear cells, 130 aliquots of plasma, and 70 aliquots of serum, and extracted high molecular weight genomic DNA suitable for whole-genome sequencing from 109 whole blood specimens. These specimens, along with their associated preanalytical data, have been made available for distribution to researchers. Conclusion: We discuss the challenges and opportunities encountered during the implementation of the DAP Biobank, along with novel strategies for promoting biobanking sustainability such as partnering with a DAP quality assurance manager and a DAP marketing and communication specialist and developing a pilot grant structure to fund small innovative research projects.

Original language	English (US)
Journal	Biomarker Insights
Volume	17
DOIs	https://doi.org/10.1177/11772719221137217
State	Published - Jan 1 2022

Keywords

Biobanking
canine
fit-for-purpose
longitudinal study
translational

ASJC Scopus subject areas

Molecular Medicine
Pharmacology
Biochemistry, medical

Access to Document

10.1177/11772719221137217

Cite this

Mouttham, L., Castelhano, M. G., Akey, J. M., Benton, B., Borenstein, E., Castelhano, M. G., Coleman, A. E., Creevy, K. E., Crowder, K., Dunbar, M. D., Ernst, H. R., Fajt, V. R., Fitzpatrick, A. L., Garrison, S. J., Herndon, R. S., Jaramilla, D., Jeffery, U., Jonlin, E. C., Kaeberlein, M., ... Wilfond, B. S. (2022). Purpose, Partnership, and Possibilities: The Implementation of the Dog Aging Project Biobank. Biomarker Insights, 17. https://doi.org/10.1177/11772719221137217

Mouttham, L, Castelhano, MG, Akey, JM, Benton, B, Borenstein, E, Castelhano, MG, Coleman, AE, Creevy, KE, Crowder, K, Dunbar, MD, Ernst, HR, Fajt, VR, Fitzpatrick, AL, Garrison, SJ, Herndon, RS, Jaramilla, D, Jeffery, U, Jonlin, EC, Kaeberlein, M, Karlsson, EK, Kerr, KF, Levine, JM, Ma, J, McClelland, RL, Prescott, JO, Promislow, DEL, Ruple, A, Schwartz, SM, Shrager, S, Snyder-Mackler, N, Tinkle, AK, Tolbert, MK, Urfer, SR & Wilfond, BS 2022, 'Purpose, Partnership, and Possibilities: The Implementation of the Dog Aging Project Biobank', Biomarker Insights, vol. 17. https://doi.org/10.1177/11772719221137217

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title = "Purpose, Partnership, and Possibilities: The Implementation of the Dog Aging Project Biobank",

abstract = "Background: Biobanks have been supporting longitudinal prospective and retrospective studies by providing standardized services for the acquisition, transport, processing, storage, and distribution of high-quality biological material and associated data. Here, we describe how the Dog Aging Project (DAP), a large-scale longitudinal study of the domestic dog (Canis familiaris) with translational applications for humans, developed a biobank of canine biospecimens and associated data. Design and methods: This was accomplished by working with the Cornell Veterinary Biobank, the first biobank in the world to receive accreditation to ISO 20387:2018—General Requirements for Biobanking. The biobank research team was involved in the early collection stages of the DAP, contributing to the development of appropriate workflows and processing fit-for-purpose biospecimens. In support of a dynamic strategy for real-time adjustment of processes, a pilot phase was implemented to develop, test, and optimize the biospecimen workflows, followed by an early phase of collection, processing, and banking of specimens from DAP participants. Results: During the pilot and early phases of collection, the DAP Biobank stored 164 aliquots of whole blood, 273 aliquots of peripheral blood mononuclear cells, 130 aliquots of plasma, and 70 aliquots of serum, and extracted high molecular weight genomic DNA suitable for whole-genome sequencing from 109 whole blood specimens. These specimens, along with their associated preanalytical data, have been made available for distribution to researchers. Conclusion: We discuss the challenges and opportunities encountered during the implementation of the DAP Biobank, along with novel strategies for promoting biobanking sustainability such as partnering with a DAP quality assurance manager and a DAP marketing and communication specialist and developing a pilot grant structure to fund small innovative research projects.",

keywords = "Biobanking, canine, fit-for-purpose, longitudinal study, translational",

author = "Lara Mouttham and Castelhano, {Marta G.} and Akey, {Joshua M.} and Brooke Benton and Elhanan Borenstein and Castelhano, {Marta G.} and Coleman, {Amanda E.} and Creevy, {Kate E.} and Kyle Crowder and Dunbar, {Matthew D.} and Ernst, {Holley R.} and Fajt, {Virginia R.} and Fitzpatrick, {Annette L.} and Garrison, {Susan J.} and Herndon, {Reba S.} and Debra Jaramilla and Unity Jeffery and Jonlin, {Erica C.} and Matt Kaeberlein and Karlsson, {Elinor K.} and Kerr, {Kathleen F.} and Levine, {Jonathan M.} and Jing Ma and McClelland, {Robyn L.} and Prescott, {Jena O.} and Promislow, {Daniel E.L.} and Audrey Ruple and Schwartz, {Stephen M.} and Sandi Shrager and Noah Snyder-Mackler and Tinkle, {Amanda K.} and Tolbert, {M. Katherine} and Urfer, {Silvan R.} and Wilfond, {Benjamin S.}",

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year = "2022",

month = jan,

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doi = "10.1177/11772719221137217",

language = "English (US)",

volume = "17",

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T2 - The Implementation of the Dog Aging Project Biobank

AU - Mouttham, Lara

AU - Castelhano, Marta G.

AU - Akey, Joshua M.

AU - Benton, Brooke

AU - Borenstein, Elhanan

AU - Castelhano, Marta G.

AU - Coleman, Amanda E.

AU - Creevy, Kate E.

AU - Crowder, Kyle

AU - Dunbar, Matthew D.

AU - Ernst, Holley R.

AU - Fajt, Virginia R.

AU - Fitzpatrick, Annette L.

AU - Garrison, Susan J.

AU - Herndon, Reba S.

AU - Jaramilla, Debra

AU - Jeffery, Unity

AU - Jonlin, Erica C.

AU - Kaeberlein, Matt

AU - Karlsson, Elinor K.

AU - Kerr, Kathleen F.

AU - Levine, Jonathan M.

AU - Ma, Jing

AU - McClelland, Robyn L.

AU - Prescott, Jena O.

AU - Promislow, Daniel E.L.

AU - Ruple, Audrey

AU - Schwartz, Stephen M.

AU - Shrager, Sandi

AU - Snyder-Mackler, Noah

AU - Tinkle, Amanda K.

AU - Tolbert, M. Katherine

AU - Urfer, Silvan R.

AU - Wilfond, Benjamin S.

PY - 2022/1/1

Y1 - 2022/1/1

N2 - Background: Biobanks have been supporting longitudinal prospective and retrospective studies by providing standardized services for the acquisition, transport, processing, storage, and distribution of high-quality biological material and associated data. Here, we describe how the Dog Aging Project (DAP), a large-scale longitudinal study of the domestic dog (Canis familiaris) with translational applications for humans, developed a biobank of canine biospecimens and associated data. Design and methods: This was accomplished by working with the Cornell Veterinary Biobank, the first biobank in the world to receive accreditation to ISO 20387:2018—General Requirements for Biobanking. The biobank research team was involved in the early collection stages of the DAP, contributing to the development of appropriate workflows and processing fit-for-purpose biospecimens. In support of a dynamic strategy for real-time adjustment of processes, a pilot phase was implemented to develop, test, and optimize the biospecimen workflows, followed by an early phase of collection, processing, and banking of specimens from DAP participants. Results: During the pilot and early phases of collection, the DAP Biobank stored 164 aliquots of whole blood, 273 aliquots of peripheral blood mononuclear cells, 130 aliquots of plasma, and 70 aliquots of serum, and extracted high molecular weight genomic DNA suitable for whole-genome sequencing from 109 whole blood specimens. These specimens, along with their associated preanalytical data, have been made available for distribution to researchers. Conclusion: We discuss the challenges and opportunities encountered during the implementation of the DAP Biobank, along with novel strategies for promoting biobanking sustainability such as partnering with a DAP quality assurance manager and a DAP marketing and communication specialist and developing a pilot grant structure to fund small innovative research projects.

AB - Background: Biobanks have been supporting longitudinal prospective and retrospective studies by providing standardized services for the acquisition, transport, processing, storage, and distribution of high-quality biological material and associated data. Here, we describe how the Dog Aging Project (DAP), a large-scale longitudinal study of the domestic dog (Canis familiaris) with translational applications for humans, developed a biobank of canine biospecimens and associated data. Design and methods: This was accomplished by working with the Cornell Veterinary Biobank, the first biobank in the world to receive accreditation to ISO 20387:2018—General Requirements for Biobanking. The biobank research team was involved in the early collection stages of the DAP, contributing to the development of appropriate workflows and processing fit-for-purpose biospecimens. In support of a dynamic strategy for real-time adjustment of processes, a pilot phase was implemented to develop, test, and optimize the biospecimen workflows, followed by an early phase of collection, processing, and banking of specimens from DAP participants. Results: During the pilot and early phases of collection, the DAP Biobank stored 164 aliquots of whole blood, 273 aliquots of peripheral blood mononuclear cells, 130 aliquots of plasma, and 70 aliquots of serum, and extracted high molecular weight genomic DNA suitable for whole-genome sequencing from 109 whole blood specimens. These specimens, along with their associated preanalytical data, have been made available for distribution to researchers. Conclusion: We discuss the challenges and opportunities encountered during the implementation of the DAP Biobank, along with novel strategies for promoting biobanking sustainability such as partnering with a DAP quality assurance manager and a DAP marketing and communication specialist and developing a pilot grant structure to fund small innovative research projects.

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KW - canine

KW - fit-for-purpose

KW - longitudinal study

KW - translational

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ER -

Purpose, Partnership, and Possibilities: The Implementation of the Dog Aging Project Biobank

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Purpose, Partnership, and Possibilities: The Implementation of the Dog Aging Project Biobank

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ASJC Scopus subject areas

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