A Study to Correlate Ultrasound Elastography With Histopathology to Monitor the Response of Locally Advanced Breast Cancer to Neoadjuvant Chemotherapy

Completed

• Conditions: Breast Cancer; Neoadjuvant Therapy

• Registration Number: NCT01737970
• Lead Sponsor: Oxford University Hospitals NHS Trust

Brief Summary

This research proposal concerns a study to monitor the effects of chemotherapy on breast cancer tumour and peritumour stromal cells using ultrasound (US) elastography (also known as strain imaging).

Many cancer treatments currently being developed are targeted; that is they exploit particular biological processes in specific cancer cell types to disrupt tumour growth. Being able to monitor the efficacy of these typically high-cost drug therapies is essential both for the best patient outcome as well as offering economical benefits to the health care system and much needed insight into future drug development.

Ultrasound provides a relatively inexpensive, non-invasive means for imaging cancers, and has been used widely in breast cancer diagnosis for many years. Its role in therapy monitoring has been suggested but has not been well explored. The purpose of this proposal is to explore this potential in more depth.

It has been identified that significant interaction takes place between tumour and stroma through all stages of tumour growth; this complex relationship is an ongoing topic of research. Fibrotic changes occur during tumour growth and are also a quintessential process of healing. Indeed, fibrosis is a common after effect to chemotherapy in many forms of cancer. Elastography is an established imaging technique (based on ultrasound or MRI) which can estimate the relative stiffness of tissues in vivo and is thus well-suited to monitor these particular biological processes.

This elucidates the main hypothesis of this project: fibrosis, cancer cell necrosis and inflammation may all contribute to a measurable response in elastography. These changes to the tissue composition can be imaged over a course of a patient's treatment to assess the response to chemo/hormonal therapy.

The ultimate project goals are to develop a clinical tool (based on ultrasound elastography) to improve treatment management in addition to offering a better biological understanding of tumour/stroma behaviour.

Detailed Description

This research proposal concerns a study to monitor the effects of chemotherapy on breast cancer tumour and peritumour stromal cells using ultrasound (US) elastography (also known as strain imaging).

Many cancer treatments currently being developed are targeted; that is they exploit particular biological processes in specific cancer cell types to disrupt tumour growth. Being able to monitor the efficacy of these typically high-cost drug therapies is essential both for the best patient outcome as well as offering economical benefits to the health care system and much needed insight into future drug development.

Ultrasound provides a relatively inexpensive, non-invasive means for imaging cancers, and has been used widely in breast cancer diagnosis for many years. Its role in therapy monitoring has been suggested but has not been well explored. The purpose of this proposal is to explore this potential in more depth.

It has been identified that significant interaction takes place between tumour and stroma through all stages of tumour growth; this complex relationship is an ongoing topic of research. Fibrotic changes occur during tumour growth and are also a quintessential process of healing. Indeed, fibrosis is a common after effect to chemotherapy in many forms of cancer. Elastography is an established imaging technique (based on ultrasound or MRI) which can estimate the relative stiffness of tissues in vivo and is thus well-suited to monitor these particular biological processes.

This elucidates the main hypothesis of this project: fibrosis, cancer cell necrosis and inflammation may all contribute to a measurable response in elastography. These changes to the tissue composition can be imaged over a course of a patient's treatment to assess the response to chemo/hormonal therapy.

The ultimate project goals are to develop a clinical tool (based on ultrasound elastography) to improve treatment management in addition to offering a better biological understanding of tumour/stroma behaviour.

Study Timeline

• Study Start: 2012-02
• Study First Submitted: 2012-11-20
• Study First Submitted QC: 2012-11-29
• Study First Posted: 2012-11-30
• Primary Completion: 2014-07
• Study Completion: 2014-07
• Status Verified: 2017-10
• Last Update Submitted: 2017-10-11
• Last Update Posted: 2017-10-12

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 10

Inclusion Criteria

• Participant is willing and able to give informed consent for participation in the study.
• Has an established diagnosis of locally advanced breast cancer.
• Aged 18 years or above.
• History of previous breast cancer does not exclude from study.
• Having neoadjuvant chemotherapy delivered in Oxford Cancer Centre.
• Good general health
• Blood tests to check suitability for the diagnostic core biopsy
• Having a localisation coil as part of routine medical care.
• Patients who are recruited into other studies can be included if there is no conflict of interest and the patient is in agreement.

Exclusion Criteria

• Any co-morbidity that is likely to prevent regular attendance.
• Is <18 years of age or over 70 years.
• Has a movement disorder as the patient is required to lie very still for a few minutes during the scan.

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
The ratio of average stiffness measured within the tumour over average stiffness measured in the stroma	Patients will be followed over the course of chemotherapy treatment, an expected average of 18 weeks	Tissue stiffness will be used to assess a patients response to chemotherapy