Large-scale prospective T cell function assays in shipped, unfrozen blood samples: experiences from the multicenter TRIGR trial

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Standard

Large-scale prospective T cell function assays in shipped, unfrozen blood samples : experiences from the multicenter TRIGR trial. / Hadley, David; Cheung, Roy K; Becker, Dorothy J; Girgis, Rose; Palmer, Jerry P; Cuthbertson, David; Krischer, Jeffrey P; Dosch, Hans-Michael; TRIGR North America Investigators ; Mandrup-Poulsen, Thomas.

I: Clinical and Vaccine Immunology (Online), Bind 21, Nr. 2, 02.2014, s. 203-11.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Hadley, D, Cheung, RK, Becker, DJ, Girgis, R, Palmer, JP, Cuthbertson, D, Krischer, JP, Dosch, H-M, TRIGR North America Investigators & Mandrup-Poulsen, T 2014, 'Large-scale prospective T cell function assays in shipped, unfrozen blood samples: experiences from the multicenter TRIGR trial', Clinical and Vaccine Immunology (Online), bind 21, nr. 2, s. 203-11. https://doi.org/10.1128/CVI.00516-13

APA

Hadley, D., Cheung, R. K., Becker, D. J., Girgis, R., Palmer, J. P., Cuthbertson, D., Krischer, J. P., Dosch, H-M., TRIGR North America Investigators, & Mandrup-Poulsen, T. (2014). Large-scale prospective T cell function assays in shipped, unfrozen blood samples: experiences from the multicenter TRIGR trial. Clinical and Vaccine Immunology (Online), 21(2), 203-11. https://doi.org/10.1128/CVI.00516-13

Vancouver

Hadley D, Cheung RK, Becker DJ, Girgis R, Palmer JP, Cuthbertson D o.a. Large-scale prospective T cell function assays in shipped, unfrozen blood samples: experiences from the multicenter TRIGR trial. Clinical and Vaccine Immunology (Online). 2014 feb.;21(2):203-11. https://doi.org/10.1128/CVI.00516-13

Author

Hadley, David ; Cheung, Roy K ; Becker, Dorothy J ; Girgis, Rose ; Palmer, Jerry P ; Cuthbertson, David ; Krischer, Jeffrey P ; Dosch, Hans-Michael ; TRIGR North America Investigators ; Mandrup-Poulsen, Thomas. / Large-scale prospective T cell function assays in shipped, unfrozen blood samples : experiences from the multicenter TRIGR trial. I: Clinical and Vaccine Immunology (Online). 2014 ; Bind 21, Nr. 2. s. 203-11.

Bibtex

@article{ae25352facad44f28a4a6a9a4d96386f,
title = "Large-scale prospective T cell function assays in shipped, unfrozen blood samples: experiences from the multicenter TRIGR trial",
abstract = "Broad consensus assigns T lymphocytes fundamental roles in inflammatory, infectious, and autoimmune diseases. However, clinical investigations have lacked fully characterized and validated procedures, equivalent to those of widely practiced biochemical tests with established clinical roles, for measuring core T cell functions. The Trial to Reduce Insulin-dependent diabetes mellitus in the Genetically at Risk (TRIGR) type 1 diabetes prevention trial used consecutive measurements of T cell proliferative responses in prospectively collected fresh heparinized blood samples shipped by courier within North America. In this article, we report on the quality control implications of this simple and pragmatic shipping practice and the interpretation of positive- and negative-control analytes in our assay. We used polyclonal and postvaccination responses in 4,919 samples to analyze the development of T cell immunocompetence. We have found that the vast majority of the samples were viable up to 3 days from the blood draw, yet meaningful responses were found in a proportion of those with longer travel times. Furthermore, the shipping time of uncooled samples significantly decreased both the viabilities of the samples and the unstimulated cell counts in the viable samples. Also, subject age was significantly associated with the number of unstimulated cells and T cell proliferation to positive activators. Finally, we observed a pattern of statistically significant increases in T cell responses to tetanus toxin around the timing of infant vaccinations. This assay platform and shipping protocol satisfy the criteria for robust and reproducible long-term measurements of human T cell function, comparable to those of established blood biochemical tests. We present a stable technology for prospective disease-relevant T cell analysis in immunological diseases, vaccination medicine, and measurement of herd immunity.",
author = "David Hadley and Cheung, {Roy K} and Becker, {Dorothy J} and Rose Girgis and Palmer, {Jerry P} and David Cuthbertson and Krischer, {Jeffrey P} and Hans-Michael Dosch and {TRIGR North America Investigators} and Thomas Mandrup-Poulsen",
year = "2014",
month = feb,
doi = "10.1128/CVI.00516-13",
language = "English",
volume = "21",
pages = "203--11",
journal = "Clinical and Vaccine Immunology (Online)",
issn = "1556-679X",
publisher = "American Society for Microbiology",
number = "2",

}

RIS

TY - JOUR

T1 - Large-scale prospective T cell function assays in shipped, unfrozen blood samples

T2 - experiences from the multicenter TRIGR trial

AU - Hadley, David

AU - Cheung, Roy K

AU - Becker, Dorothy J

AU - Girgis, Rose

AU - Palmer, Jerry P

AU - Cuthbertson, David

AU - Krischer, Jeffrey P

AU - Dosch, Hans-Michael

AU - TRIGR North America Investigators

AU - Mandrup-Poulsen, Thomas

PY - 2014/2

Y1 - 2014/2

N2 - Broad consensus assigns T lymphocytes fundamental roles in inflammatory, infectious, and autoimmune diseases. However, clinical investigations have lacked fully characterized and validated procedures, equivalent to those of widely practiced biochemical tests with established clinical roles, for measuring core T cell functions. The Trial to Reduce Insulin-dependent diabetes mellitus in the Genetically at Risk (TRIGR) type 1 diabetes prevention trial used consecutive measurements of T cell proliferative responses in prospectively collected fresh heparinized blood samples shipped by courier within North America. In this article, we report on the quality control implications of this simple and pragmatic shipping practice and the interpretation of positive- and negative-control analytes in our assay. We used polyclonal and postvaccination responses in 4,919 samples to analyze the development of T cell immunocompetence. We have found that the vast majority of the samples were viable up to 3 days from the blood draw, yet meaningful responses were found in a proportion of those with longer travel times. Furthermore, the shipping time of uncooled samples significantly decreased both the viabilities of the samples and the unstimulated cell counts in the viable samples. Also, subject age was significantly associated with the number of unstimulated cells and T cell proliferation to positive activators. Finally, we observed a pattern of statistically significant increases in T cell responses to tetanus toxin around the timing of infant vaccinations. This assay platform and shipping protocol satisfy the criteria for robust and reproducible long-term measurements of human T cell function, comparable to those of established blood biochemical tests. We present a stable technology for prospective disease-relevant T cell analysis in immunological diseases, vaccination medicine, and measurement of herd immunity.

AB - Broad consensus assigns T lymphocytes fundamental roles in inflammatory, infectious, and autoimmune diseases. However, clinical investigations have lacked fully characterized and validated procedures, equivalent to those of widely practiced biochemical tests with established clinical roles, for measuring core T cell functions. The Trial to Reduce Insulin-dependent diabetes mellitus in the Genetically at Risk (TRIGR) type 1 diabetes prevention trial used consecutive measurements of T cell proliferative responses in prospectively collected fresh heparinized blood samples shipped by courier within North America. In this article, we report on the quality control implications of this simple and pragmatic shipping practice and the interpretation of positive- and negative-control analytes in our assay. We used polyclonal and postvaccination responses in 4,919 samples to analyze the development of T cell immunocompetence. We have found that the vast majority of the samples were viable up to 3 days from the blood draw, yet meaningful responses were found in a proportion of those with longer travel times. Furthermore, the shipping time of uncooled samples significantly decreased both the viabilities of the samples and the unstimulated cell counts in the viable samples. Also, subject age was significantly associated with the number of unstimulated cells and T cell proliferation to positive activators. Finally, we observed a pattern of statistically significant increases in T cell responses to tetanus toxin around the timing of infant vaccinations. This assay platform and shipping protocol satisfy the criteria for robust and reproducible long-term measurements of human T cell function, comparable to those of established blood biochemical tests. We present a stable technology for prospective disease-relevant T cell analysis in immunological diseases, vaccination medicine, and measurement of herd immunity.

U2 - 10.1128/CVI.00516-13

DO - 10.1128/CVI.00516-13

M3 - Journal article

C2 - 24334687

VL - 21

SP - 203

EP - 211

JO - Clinical and Vaccine Immunology (Online)

JF - Clinical and Vaccine Immunology (Online)

SN - 1556-679X

IS - 2

ER -

ID: 113810272