Breast Cancer Patients Clinical Trial
Official title:
Pharmacogenetic Risk Factors of Doxorubicin-Cyclophosphamide Chemotherapy Related Toxicities in Breast Cancer Patients
Genetic polymorphisms of metabolic enzymes may influence the metabolism of
Doxorubicin-Cyclophosphamide regimen in breast cancer patients.
the investigators want to
1. evaluate the frequency or incidence of the genetic polymorphisms of CYP2C19 and ALDH3A1
in breast cancer patients, and
2. analyze the association between the genetic polymorphisms of CYP2C19 and ALDH3A1 and
toxicities in breast cancer patients treated by Doxorubicin-Cyclophosphamide regimen
therapy.
Breast cancer refers to the erratic growth and proliferation of cells that originate in the
breast tissue, most commonly from the inner lining of milk ducts (ductal cancers) or the
lobules that supply the ducts with milk (lobular cancers). Breast cancer is about 100 times
more common in women than in men, although males tend to have poorer outcomes due to delays
in diagnosis. Alteration in hormonal level and Family history of breast cancer are risk
factors for breast cancer.
The classic symptom for breast cancer is a lump found in the breast or armpit. Doing monthly
breast self-exam (BSE) is a great way to be familiar with the breasts' texture, cyclical
changes, size, and skin condition. Breast cancer is usually diagnosed by biopsy of nodule
detected by mammogram or by palpitation.
Today there are so many approaches, which can be made for the treatment of breast cancer such
as surgery, radiation therapy, chemotherapy, hormonal therapy and recently nanotechnology and
gene therapy. Chemotherapy is the use of anti-cancer drugs to treat cancerous cells. The
differences in patients' response to the same medication, toxicity included, are one of the
major problems in breast cancer treatment.
Chemotherapy toxicity makes a significant clinical problem due to decreased quality of life,
prolongation of treatment and reinforcement of negative emotions associated with therapy.
Four cycles of doxorubicin and cyclophosphamide (AC) chemotherapy regimen has become a
standard regimen. No chemotherapy regimen administered for four cycles has proven to be
superior to AC. The undeniable advantage of this therapy scheme is low cost of treatment, its
proven efficacy and mostly acceptable toxicity. Hematological (neutropenia and anemia) and
gastrointestinal (nausea, vomiting and mucositis) toxicities are common in patients treated
with AC regimen.
Doxorubicin is metabolized by the CBR (carbonyl reductase) enzymes to its active component.
Similarly cyclophosphamide, the cell cycle nonspecific prodrug, requires activation by a
number of different cytochrome P450 enzymes, mainly of CYP2C family. The transport systems
are also crucial for the treatment outcome, as both importers and exporters are responsible
for the cellular drugs' concentration. It is expected that any variation that affects
metabolic enzymes and transporter activity would be reflected in not only the response to
treatment, but also in the development of drug-related toxicity. Each of these enzymes and
transporter genes is known to exhibit a degree of genetic variation, characterized by single
nucleotide polymorphisms (SNPs). In particular, there have been few investigations of the
possible influence of variations in the genes encoding transporters and drug metabolizing
enzymes relevant for the two drugs.
Pharmacogenomic analysis offers the promise that personalized regimens may be identified for
individuals who might have more favorable outcomes with certain chemotherapies. Specifically,
because genetic variation in metabolic enzymes is one determinant of drug concentration,
pharmacogenomics has been proposed as an approach to tailor drug choice or dose to optimize
efficacy and reduce toxicity of cancer treatments.
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