Chemotherapy drugs are used in different stages of tumor cell proliferation to kill tumor cells and inhibit tumor cell proliferation or induce differentiation. According to different mechanisms of action, chemotherapy drugs commonly used in clinic can be classified into 6 classes: (1) platinum-based drugs: cisplatin, carboplatin, oxaliplatin, etc.; (2) antimetabolites: 5-fluorouracil, gemcitabine, etc.; (3) alkylating agents: cyclophosphamide, etc.; (4) DNA intercalators: anthracycline antibiotics, bleomycin,  actinomycin D, etc.; (5) DNA topoisomerase I/II inhibitors: irinotecan, etoposide; (6) antimicrotubular drugs: taxol, docetaxel,  vinblastine, vincristine, vinorelbine, etc.

    Clinical tests prove that the interaction with chemotherapy drugs or gene mutation or expression level involved in metabolism have enormous effects on the chemotherapy efficacy. Testing of relevant gene expression level provides necessary basis for the selection of chemotherapy drugs and ensures desired effects of individualized chemotherapy.


Product list

Item

Drug

Type

Method

TP53 gene mutation

Platinum-based drugs

Tumor

ARMS

UGT1A1 gene polymorphism

Irinotecan

Colorectal cancer 

lung cancer   

cervical cancer
ovarian cancer

Sequencing

CYP2D6 gene polymorphism

Tamoxifen

Breast cancer

Sequencing

ERCC1 gene expression level

Platinum-based drugs

Tumor

△△Ct

BRCA1 gene expression level

Platinum-based drugs

Tumor

△△Ct

TOP2A gene expression level

Etoposide

Breast cancer

△△Ct

STMN1 gene expression level

Vinorelbine or taxol

Tumor

△△Ct

TUBB3 gene expression level

Taxol,

vinblastine

Tumor

△△Ct

TYMS gene expression level

Fluorouracil

Colorectal cancer  

lung cancer 

breast cancer

SCCHN

△△Ct

TYMP gene expression level

Fluorouracil


NSCLC 

Gastric cancer  

breast cancer

Head cancer

△△Ct

DPYD gene expression level

Fluorouracil


Colorectal cancer  

lung cancer 

breast cancer

SCCHN

△△Ct

RRM1 gene expression level

Gemcitabine

NSCLC

Pancreatic Cancer

△△Ct