Cell-cycle complete response after neoadjuvant endocrine therapy, based on Ki67 staining, predicts breast ca survival

Article

It may soon be possible to determine which breast cancer patients will respond to adjuvant endocrine therapy, based on the level of cell-cycle response in the surgical specimen after neoadjuvant endocrine therapy

ASCO—It may soon be possible to determine which breast cancer patients will respond to adjuvant endocrine therapy, based on the level of cell-cycle response in the surgical specimen after neoadjuvant endocrine therapy, Matthew Ellis, MD, PhD, reported at the 2007 ASCO annual meeting (abstract 570). Dr. Ellis is director of the Breast Cancer Program and associate professor of medicine at Washington University, St. Louis.

P024 Study

The new approach was evaluated in a retrospective analysis of the P024 study, a double-blind randomized trial of neoadjuvant endocrine therapy that compared 16 weeks of letrozole (Femara) 2.5 mg daily with tamoxifen 20 mg daily.

In P024, letrozole proved to be more effective than tamoxifen in terms of tumor response and rates of breast conservation. Biomarker studies also indicated that letrozole was a more effective antiproliferative agent, producing greater declines in tumor cell Ki67 values.

"Ki67 measures proliferation. If endocrine therapy is maximally effective, the Ki67 should disappear. If Ki67 is present, by definition the tumor is relatively endocrine-therapy resistant," Dr. Ellis explained.

In the P024 trial, the rate of pathological complete responses (pCR) to endocrine therapy was very low. "We have therefore proposed that a cell-cycle complete response (CCCR)—in which Ki67 staining is

Recent Videos
Chun-Yu Chen, PhD, a research scientist at Seattle Children’s Research Institute
William Chou, MD, on Targeting Progranulin With Gene Therapy for Frontotemporal Dementia
Alexandra Collin de l’Hortet, PhD, the head of therapeutics at Epic Bio
David Dimmock, MBBS, on Accelerating Therapy Discovery and Approval With AI David Dimmock, MBBS, on Accelerating Therapy Discovery and Approval With AI
Joshua M. Hare, MD, on Working to Address Unmet Needs in Alzheimer Disease With Lomecel-B Cell Therapy
John Finn, PhD, the chief scientific officer of Tome Biosciences
David Dimmock, MBBS, on a Promising Case Study of Ultra-Rare, AI-Guided, ASO Development
William Chou, MD, on Expanding Frontotemporal Dementia Gene Therapy to Both GRN and C9orf72 Mutations
Scott Jeffers, PhD, on The Importance of Precise Reproducibility of AAVs
Related Content
© 2024 MJH Life Sciences

All rights reserved.