Effect of time and temperature on the stability of HPV and cellular nucleic acid using simulated dry self-samples

Linzi Connor; Anna Davey; Janathan Danial; Sharon Moncur; Hana Elasifer; Catriona Graham; Kate Cuschieri

doi:10.1016/j.jviromet.2024.115101

Effect of time and temperature on the stability of HPV and cellular nucleic acid using simulated dry self-samples

Linzi Connor, Anna Davey, Janathan Danial, Sharon Moncur, Hana Elasifer, Catriona Graham, Kate Cuschieri

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

Abstract

BACKGROUND: Self-sampling is now a key component within HPV-based cervical screening programmes to engage individuals and enhance participation. As self-sampling is relatively new, information on the influence of pre-analytical parameters such as transit-temperature and time between sampling and testing on HPV test results requires detailed investigation.

METHODS: FLOQSwabs® and Evalyn Brushes® were used to assess HPV and cellular stability over a 30-week period (0w,4w,12w,30w) at 4 °C, ambient, and 37 °C. Vaginal self-samples were simulated by inoculating the devices with an HPV16-positive cell-line suspension. Devices were tested using two DNA-based (Anyplex™ II HPV28, Papilloplex® HR-HPV), one mRNA-based (APTIMA HR-HPV,) and one in-house beta-globin qPCR assay.

RESULTS: No loss of qualitative HPV detection was observed after 12-weeks storage at ambient or 4°C irrespective of device or assay. For DNA-based assays, no loss of qualitative HPV detection was observed over time (30w) irrespective of temperature/device. Loss of qualitative mRNA signal was observed when devices were stored at 37°C for 12-weeks or longer; however, no loss of detection was observed at 30-weeks when either device was stored at 4°C.

CONCLUSION: HPV nucleic acid is stable on proxies of self-taken samples, however, the duration of stability was affected by the device and storage conditions. Such differences should be considered when optimising self-sampling exercises.

Original language	English
Pages (from-to)	115101
Journal	Journal of Virological Methods
Volume	333
Early online date	17 Dec 2024
DOIs	https://doi.org/10.1016/j.jviromet.2024.115101
Publication status	E-pub ahead of print - 17 Dec 2024

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HPV Self Sampling_Manuscript - J Viro Meth_revised cleanAccepted author manuscript, 421 KBLicence: Creative Commons: Attribution (CC-BY)

Cite this

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title = "Effect of time and temperature on the stability of HPV and cellular nucleic acid using simulated dry self-samples",

abstract = "BACKGROUND: Self-sampling is now a key component within HPV-based cervical screening programmes to engage individuals and enhance participation. As self-sampling is relatively new, information on the influence of pre-analytical parameters such as transit-temperature and time between sampling and testing on HPV test results requires detailed investigation.METHODS: FLOQSwabs{\textregistered} and Evalyn Brushes{\textregistered} were used to assess HPV and cellular stability over a 30-week period (0w,4w,12w,30w) at 4 °C, ambient, and 37 °C. Vaginal self-samples were simulated by inoculating the devices with an HPV16-positive cell-line suspension. Devices were tested using two DNA-based (Anyplex{\texttrademark} II HPV28, Papilloplex{\textregistered} HR-HPV), one mRNA-based (APTIMA HR-HPV,) and one in-house beta-globin qPCR assay.RESULTS: No loss of qualitative HPV detection was observed after 12-weeks storage at ambient or 4°C irrespective of device or assay. For DNA-based assays, no loss of qualitative HPV detection was observed over time (30w) irrespective of temperature/device. Loss of qualitative mRNA signal was observed when devices were stored at 37°C for 12-weeks or longer; however, no loss of detection was observed at 30-weeks when either device was stored at 4°C.CONCLUSION: HPV nucleic acid is stable on proxies of self-taken samples, however, the duration of stability was affected by the device and storage conditions. Such differences should be considered when optimising self-sampling exercises.",

author = "Linzi Connor and Anna Davey and Janathan Danial and Sharon Moncur and Hana Elasifer and Catriona Graham and Kate Cuschieri",

year = "2024",

month = dec,

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doi = "10.1016/j.jviromet.2024.115101",

language = "English",

volume = "333",

pages = "115101",

journal = "Journal of Virological Methods",

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T1 - Effect of time and temperature on the stability of HPV and cellular nucleic acid using simulated dry self-samples

AU - Connor, Linzi

AU - Davey, Anna

AU - Danial, Janathan

AU - Moncur, Sharon

AU - Elasifer, Hana

AU - Graham, Catriona

AU - Cuschieri, Kate

PY - 2024/12/17

Y1 - 2024/12/17

N2 - BACKGROUND: Self-sampling is now a key component within HPV-based cervical screening programmes to engage individuals and enhance participation. As self-sampling is relatively new, information on the influence of pre-analytical parameters such as transit-temperature and time between sampling and testing on HPV test results requires detailed investigation.METHODS: FLOQSwabs® and Evalyn Brushes® were used to assess HPV and cellular stability over a 30-week period (0w,4w,12w,30w) at 4 °C, ambient, and 37 °C. Vaginal self-samples were simulated by inoculating the devices with an HPV16-positive cell-line suspension. Devices were tested using two DNA-based (Anyplex™ II HPV28, Papilloplex® HR-HPV), one mRNA-based (APTIMA HR-HPV,) and one in-house beta-globin qPCR assay.RESULTS: No loss of qualitative HPV detection was observed after 12-weeks storage at ambient or 4°C irrespective of device or assay. For DNA-based assays, no loss of qualitative HPV detection was observed over time (30w) irrespective of temperature/device. Loss of qualitative mRNA signal was observed when devices were stored at 37°C for 12-weeks or longer; however, no loss of detection was observed at 30-weeks when either device was stored at 4°C.CONCLUSION: HPV nucleic acid is stable on proxies of self-taken samples, however, the duration of stability was affected by the device and storage conditions. Such differences should be considered when optimising self-sampling exercises.

AB - BACKGROUND: Self-sampling is now a key component within HPV-based cervical screening programmes to engage individuals and enhance participation. As self-sampling is relatively new, information on the influence of pre-analytical parameters such as transit-temperature and time between sampling and testing on HPV test results requires detailed investigation.METHODS: FLOQSwabs® and Evalyn Brushes® were used to assess HPV and cellular stability over a 30-week period (0w,4w,12w,30w) at 4 °C, ambient, and 37 °C. Vaginal self-samples were simulated by inoculating the devices with an HPV16-positive cell-line suspension. Devices were tested using two DNA-based (Anyplex™ II HPV28, Papilloplex® HR-HPV), one mRNA-based (APTIMA HR-HPV,) and one in-house beta-globin qPCR assay.RESULTS: No loss of qualitative HPV detection was observed after 12-weeks storage at ambient or 4°C irrespective of device or assay. For DNA-based assays, no loss of qualitative HPV detection was observed over time (30w) irrespective of temperature/device. Loss of qualitative mRNA signal was observed when devices were stored at 37°C for 12-weeks or longer; however, no loss of detection was observed at 30-weeks when either device was stored at 4°C.CONCLUSION: HPV nucleic acid is stable on proxies of self-taken samples, however, the duration of stability was affected by the device and storage conditions. Such differences should be considered when optimising self-sampling exercises.

U2 - 10.1016/j.jviromet.2024.115101

DO - 10.1016/j.jviromet.2024.115101

M3 - Article

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SN - 0166-0934

VL - 333

SP - 115101

JO - Journal of Virological Methods

JF - Journal of Virological Methods

ER -

Effect of time and temperature on the stability of HPV and cellular nucleic acid using simulated dry self-samples

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