University of Hertfordshire

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Detection of disease change from a biological marker : using CA125 in ovarian cancer as an example. / Qian, Wendi; Hall, Marcia; Rustin, Gordon J.; Kornbrot, Diana.

2012. 118 Paper presented at Royal Statistical Society International Conference, Telford, United Kingdom.

Research output: Contribution to conferencePaper

Harvard

Qian, W, Hall, M, Rustin, GJ & Kornbrot, D 2012, 'Detection of disease change from a biological marker: using CA125 in ovarian cancer as an example' Paper presented at Royal Statistical Society International Conference, Telford, United Kingdom, 3/09/12 - 6/09/12, pp. 118.

APA

Qian, W., Hall, M., Rustin, G. J., & Kornbrot, D. (2012). Detection of disease change from a biological marker: using CA125 in ovarian cancer as an example. 118. Paper presented at Royal Statistical Society International Conference, Telford, United Kingdom.

Vancouver

Qian W, Hall M, Rustin GJ, Kornbrot D. Detection of disease change from a biological marker: using CA125 in ovarian cancer as an example. 2012. Paper presented at Royal Statistical Society International Conference, Telford, United Kingdom.

Author

Qian, Wendi ; Hall, Marcia ; Rustin, Gordon J. ; Kornbrot, Diana. / Detection of disease change from a biological marker : using CA125 in ovarian cancer as an example. Paper presented at Royal Statistical Society International Conference, Telford, United Kingdom.

Bibtex

@conference{4b571cefa3f347b186adddb7f1c4643c,
title = "Detection of disease change from a biological marker: using CA125 in ovarian cancer as an example",
abstract = "Objectives: In Oncology drug development, the great majority of phase 3 trials are negative. New strategies are required to rapidly identify novel agents prior to large randomised trials. The CA125 doubling trial successfully showed that an effective drug could be identified efficiently by testing whether the rate of increase in the tumour marker CA125 decreased after starting the novel agent, at a point identified by CA125 rising to four times it's nadir level. However efficiency could be improved, if more patients could be included. This work explores identifying an earlier effective starting point by analysing the time course of CA125 rise. Method/Models: Tumour growth is measured by the slope of the linear regression of ln(CA125) level on time. This slope is estimated for time points: 1 to n, 2 to n+1,..., C-n+1 to C, where C is the time patient transfers to new drug or leaves trial. A new potential transfer point to novel drug is identified as both CA125 level > ULN and slope > .0121 (estimated minimum slope before transfer). The number of additional patients available for trial of the novel agent within 9 months is the end point, explored using n=3 and n=4. Results and Conclusions: The number of patients who did not receive drug, but would have received drug with the new method, and the number of patients who did transfer to drug, but might have transferred earlier depends on the exact combination of slope and absoluteCA125 level chosen, hence boundary estimates are given. Between 12 and 28 patients who did not receive drug with the existing protocol would have received drug with the new method. Between 12 and 25 patients who received drugs within 6 months would have received drug earlier using the new method. In addition, 2 patients who were transferred to drug after 9 months could have been transferred within 9 months. These preliminary analyses show that the proposed new monitoring approach could be applied in the selecting novel active agents suitable for larger randomised trials. Simulation of statistical performance of the approach will be presented.",
keywords = "ca125 monitoring, ovarain cancer, statistical method",
author = "Wendi Qian and Marcia Hall and Rustin, {Gordon J.} and Diana Kornbrot",
year = "2012",
language = "English",
pages = "118",
note = "Royal Statistical Society International Conference ; Conference date: 03-09-2012 Through 06-09-2012",

}

RIS

TY - CONF

T1 - Detection of disease change from a biological marker

T2 - using CA125 in ovarian cancer as an example

AU - Qian, Wendi

AU - Hall, Marcia

AU - Rustin, Gordon J.

AU - Kornbrot, Diana

PY - 2012

Y1 - 2012

N2 - Objectives: In Oncology drug development, the great majority of phase 3 trials are negative. New strategies are required to rapidly identify novel agents prior to large randomised trials. The CA125 doubling trial successfully showed that an effective drug could be identified efficiently by testing whether the rate of increase in the tumour marker CA125 decreased after starting the novel agent, at a point identified by CA125 rising to four times it's nadir level. However efficiency could be improved, if more patients could be included. This work explores identifying an earlier effective starting point by analysing the time course of CA125 rise. Method/Models: Tumour growth is measured by the slope of the linear regression of ln(CA125) level on time. This slope is estimated for time points: 1 to n, 2 to n+1,..., C-n+1 to C, where C is the time patient transfers to new drug or leaves trial. A new potential transfer point to novel drug is identified as both CA125 level > ULN and slope > .0121 (estimated minimum slope before transfer). The number of additional patients available for trial of the novel agent within 9 months is the end point, explored using n=3 and n=4. Results and Conclusions: The number of patients who did not receive drug, but would have received drug with the new method, and the number of patients who did transfer to drug, but might have transferred earlier depends on the exact combination of slope and absoluteCA125 level chosen, hence boundary estimates are given. Between 12 and 28 patients who did not receive drug with the existing protocol would have received drug with the new method. Between 12 and 25 patients who received drugs within 6 months would have received drug earlier using the new method. In addition, 2 patients who were transferred to drug after 9 months could have been transferred within 9 months. These preliminary analyses show that the proposed new monitoring approach could be applied in the selecting novel active agents suitable for larger randomised trials. Simulation of statistical performance of the approach will be presented.

AB - Objectives: In Oncology drug development, the great majority of phase 3 trials are negative. New strategies are required to rapidly identify novel agents prior to large randomised trials. The CA125 doubling trial successfully showed that an effective drug could be identified efficiently by testing whether the rate of increase in the tumour marker CA125 decreased after starting the novel agent, at a point identified by CA125 rising to four times it's nadir level. However efficiency could be improved, if more patients could be included. This work explores identifying an earlier effective starting point by analysing the time course of CA125 rise. Method/Models: Tumour growth is measured by the slope of the linear regression of ln(CA125) level on time. This slope is estimated for time points: 1 to n, 2 to n+1,..., C-n+1 to C, where C is the time patient transfers to new drug or leaves trial. A new potential transfer point to novel drug is identified as both CA125 level > ULN and slope > .0121 (estimated minimum slope before transfer). The number of additional patients available for trial of the novel agent within 9 months is the end point, explored using n=3 and n=4. Results and Conclusions: The number of patients who did not receive drug, but would have received drug with the new method, and the number of patients who did transfer to drug, but might have transferred earlier depends on the exact combination of slope and absoluteCA125 level chosen, hence boundary estimates are given. Between 12 and 28 patients who did not receive drug with the existing protocol would have received drug with the new method. Between 12 and 25 patients who received drugs within 6 months would have received drug earlier using the new method. In addition, 2 patients who were transferred to drug after 9 months could have been transferred within 9 months. These preliminary analyses show that the proposed new monitoring approach could be applied in the selecting novel active agents suitable for larger randomised trials. Simulation of statistical performance of the approach will be presented.

KW - ca125 monitoring

KW - ovarain cancer

KW - statistical method

M3 - Paper

SP - 118

ER -