Active clinical trials for "Breast Neoplasms"

The goal of this project is to adapt the super-resolution ultrasound imaging technology motion-model Ultrasound Localization Microscopy (mULM) to clinical application. In this exploratory patient study a scan protocol will be established to subsequently investigate whether mULM allows the assessment of the tumor response to neoadjuvant chemotherapy in participants with a primary breast cancer diagnosis as well as for the differentiation of benign and malignant breast tumors in participants with lesions of unknown dignity.

The early diagnosis and evaluation of breast cancer is of great significance to its treatment and prognosis. Among the multiple factors affecting the prognosis, the degree of axillary lymph node metastasis is one of the most vital factors. Accurately understanding the status of axillary lymph nodes prior to surgery allows better prediction of staging, enables correct treatment plans, and guides the scope of node dissection during surgery. For patients with early breast cancer or clinically negative axillary lymph nodes, sentinel lymph node biopsy (SLNB) can largely avoid complications such as upper extremity lymphedema caused by axillary lymph node dissection (ALND). Thus, clinical identification of negative lymph nodes becomes more valuable. Based on clinical verification, the NCCN guidelines (edition 2019) made the following recommendation: SLNB is performed for patients with clinically negative axillary lymph nodes, and the biopsy findings determine whether ALND is included; ALND is performed for patients with clinically positive axillary nodes. Currently, imaging examinations have limitations is assessing axillary lymph nodes. Finding an accurate and non-invasive method in preoperative axillary assessment has been a project that needs to be urgently addressed. Ultrasonography has advantages in its simplicity, non-invasiveness, economy, and on radiation, however it is highly subjective, dependent upon examiner's experience and knowledge, and is difficult to detect deeper and small lesions. Molybdenum Target examination plays an important role in diagnosis of breast cancer, however it is expensive and limited in evaluating the whole axilla. PET-CT is restricted by its high cost and is not a routine examination in China. Therefore, computed tomography (CT) scan is more advantageous in determination of lymph node metastasis. The 2014 GORO KUTOMI study suggested that lymph node morphology assessed as clear by preoperative CT was an independent predictor of sentinel lymph node metastasis. CT scan can not only evaluate the presence or absence of distant metastasis and pectoralis muscle invasion, but also provide intuitive, accurate and detailed evaluation of axillary, supraclavicular, and pectoralis major intramuscular lymph nodes. The diagnostic criteria of magnetic resonance imaging (MRI) is relatively vague; CT can also obtain imaging data of the lungs, mediastinum, whereas MRI has no such function. Based on previous studies, we will further explore and evaluate axillary node status using prone positioning CT scan and ultrasound in patients with breast cancer.

The goal of this study is to establish a novel community-based breast cancer program to address delayed presentation and lack of access to diagnostic and treatment facilities in South-West Nigeria. It is aimed at evaluating the impact of a novel breast cancer early detection program using triple mobile assessment (innovative handheld iBreast Exam [iBE] device, mobile ultrasound, and mobile mammography) and patient navigation program in a Nigerian community.

Sentinel lymph node biopsy is mandatory during breast cancer operation for disease staging and treatment. The localization of sentinel lymph node is by the injection of radioisotope and blue dye, which is the gold standard. However the use of radioisotope and blue dye are associated with specific drawbacks. Superparamagnetic iron oxide is a magnetic tracer which is FDA-approved for sentinel lymph node localization. The hypothesis of this study is superparamagnetic iron oxide can replace the conventional dual mapping of radioisotope and blue dye in the detection of sentinel lymph nodes for early breast cancers.

This trial is designed to determine the feasibility of 1 year of adjuvant enzalutamide, an androgen receptor (AR) antagonist for the treatment of patients with early stage, AR(+) triple negative breast cancer (TNBC).

Post meno-pausal women with T1 Breast cancers will be randomized to receive either 600 centiGray (cGy) X 5 over five consecutive days (arm 1) versus 800 cGy X 3 fractions given every other day (arm 2). Patients will complete treatment in one week. All patients will be followed a month after the completion of treatment then q6 months for the first year, then yearly for the next 10 years.

This pilot clinical trial studies intensity-modulated accelerated partial breast irradiation (APBI) before surgery in treating older patients with estrogen receptor positive or progesterone receptor positive stage I breast cancer. APBI is a specialized type of radiation therapy that delivers a high dose of radiation directly to the tumor may kill more tumor cells and cause less damage to normal tissue. Giving radiation therapy before surgery may make the tumor smaller and reduce the amount of normal tissue that needs to be removed.

The investigators propose a prospective, multicenter, single arm Phase II design to evaluate the feasibility of repeated breast-conserving surgery combined with re- irradiation using IORT after local recurrence of breast carcinoma.

Trial for the optimization of risk assessment and therapy success prediction in patients with early breast cancer by the use of biomarkers in advance to therapy decision-making to personalize therapies.

This trial studies photoacoustic imaging of the breast in patients with breast cancer and healthy subjects. Dense breasts typically reduce the sensitivity of a mammography and also is associated with a higher risk of breast cancer. Photoacoustic tomography combines light and sound to provide more information about breast tissue.