| 遗传病 | 肿瘤靶向药物 | 阻断 | 北京 | 公司 | - 湖北佳学基因医学检验实验室有限公司
佳学基因遗传病基因检测机构排名,三甲医院的选择

基因检测就找佳学基因!

热门搜索
  • 癫痫
  • 精神分裂症
  • 鱼鳞病
  • 白癜风
  • 唇腭裂
  • 多指并指
  • 特发性震颤
  • 白化病
  • 色素失禁症
  • 狐臭
  • 斜视
  • 视网膜色素变性
  • 脊髓小脑萎缩
  • 软骨发育不全
  • 血友病

客服电话

4001601189

在线咨询

CONSULTATION

一键分享

CLICK SHARING

返回顶部

BACK TO TOP

分享基因科技,实现人人健康!
×
查病因,阻遗传,哪里干?佳学基因准确有效服务好! 靶向用药怎么搞,佳学基因测基因,优化疗效 风险基因哪里测,佳学基因
当前位置:    致电4001601189! > 检测产品 > 遗传病 > 肿瘤科 >

【佳学基因检测】胰腺癌液体活检之循环肿瘤DNA(ctDNA)基因检测

肿瘤细胞释放的cfDNA通常称为ctDNA,是癌症的高度特异性标志物。基因解码研究表明,ctDNA通常携带胰腺导管腺癌(PDAC)组织中常见的致癌突变,涉及基因,如Kristen大鼠肉瘤(KRAS)、细胞周期依

佳学基因检测】胰腺癌液体活检之循环dota2吧雷电竞 DNA(ctDNA)基因检测


1948年,Mandel和Metais报道了人类血液中存在无细胞核酸片段的证据。值得注意的是,早在1977年,León及其同事就对dota2吧雷电竞 患者的循环DNA发表了有趣的声明。细胞外DNA,也称为循环游离DNA(cfDNA),包括从细胞释放的细胞核和/或线粒体DNA,存在于各种生理循环液中。肿瘤细胞释放的cfDNA通常称为ctDNA,是dota2吧雷电竞 的高度特异性标志物。基因解码研究表明,ctDNA通常携带胰腺导管腺癌(PDAC)组织中常见的致癌突变,涉及基因,如Kristen大鼠肉瘤(KRAS)、细胞周期依赖性激酶抑制剂2A(CDKN2A)、肿瘤蛋白53(TP53)和SMAD家族成员4(SMAD4)/Delete in Pancrec Cancer-4(DPC4)。值得注意的是,根据基因检测大数据机构佳学基因的统计,在可检测到ctDNA的胰腺导管腺癌(PDAC)病例中,分别有超过90%和73%的病例到KRAS突变或p53失活。

各种技术,如等位基因特异性聚合酶链反应(PCR)、数字PCR(dPCR)、液滴数字PCR(ddPCR)、珠乳液扩增磁学(BEAMing)和下一代测序(NGS),可用于检测液体活检(LB)样本中的ctDNA。虽然检测ctDNA可能带来挑战,但结合各种技术可以提高这一过程的正确性和效率。

一些研究发现,与胰腺神经内分泌肿瘤或CP患者相比,从胰腺导管腺癌(PDAC)患者中检测到的cfDNA水平更高,并且与较差的疾病特异性生存率有关。在胰腺导管腺癌(PDAC)患者ctDNA检测到的所有突变基因中,KRAS是贼常见的(50-90%)。虽然突变也可以在健康对照和CP患者中发现,但其突变水平在胰腺导管腺癌(PDAC)中明显更高。 在他们的综述中,朱和他的同事强调,虽然ctDNA的灵敏度略低于CTC,但ctDNA提供了更高的特异性。值得注意的是,虽然ctDNA的检测被认为适用于诊断胰腺导管腺癌(PDAC),但并不适合筛查。ctDNA在早期胰腺导管腺癌(PDAC)中的灵敏度有限,这是由于该阶段细胞坏死极少,导致只有少量ctDNA释放到外周血液中。
 

Table 1:Comparison between biomarkers of pancreatic ductal adenocarcinoma ctDNA

Target KRAS, TP53, CDKN2A, SMAD4, BRAF, PIK3CA, ADAMTS1, BNC1, 5MC, H2AZ, H2A1.1, H3K4me2, h2ak119ub CD45, CEP8, CK, EpCAM KRAS, TP53, RNA: miRNA, longRNA
Proteins markers: EFGR, EPCAM, MUC-1, GPC-1, WNT2
Isolation Blood Blood Body fluids
Tumor information Epigenetic information DNA, RNA, Protein DNA, RNA, Protein
Technological approaches qPCR, dPCR, ddPCR, NGS, commercial kits Immunoaffinity, Physical methods (size and density) Density-based, size-based, affinity-based, commercial kits
Advantages qPCR: Fast and low-cost
dPCR: High sensitivity/Specificity
NGS: capability to screen for a broad range of genetic variants using high DNA input
Immunoaffinity: Specific, label-free obtained
Physical methods: Fast, simple, Low-cost, label-free obtained
Density-based: low cost. Independent of marker expression.
Size-based: Low-cost, fast, Independent of marker expression.
Affinity-based: Specificity. High purity.
Commercial kits: Simple, fast.
Disadvantages General: No early stages
qPCR: Low sensitivity. Only points mutations.
dPCR: High cost. Only points mutations.
NGS: Variable sensitivity. High cost.
General: Isolation complex and expensive. Technical variability
Immunoaffinity: capture only one subpopulation. Low purity.
Physical methods: Needs immuno-labeling techniques to distinguish CTCs
General: Isolation complex by contamination and expensive
Density-based: Time, high volume sample, can damage EVs.
Size based: contamination.
Affinity-based: low sample yield.
Commercial kits: High cost.
Sensitivity (S) (%) 34–71%
KRAS mutations: codons 12, 13, 61, in different stages.
73–76%
CD45/CEP8
100% Mt, 58% resectable
Anti-EpCAM portal vein Blood
67% ES, 80% LA, 85% Mt
KRAS mutations in exoDNA
50% ES
GPC1
miRNAs
Increased expression
Specificity (Sp) (%) 75–81%
Mutations KRAS exon 2
68%
CD45/CEP8
90% ES
GPC1
Combined techniques (%) S: 85–98%, Sp: 77–81%
ctDNA (KRAS exon 2) with CA19.9
S: 47%
ctDNA (KRAS MAFs) with CA19.9
S: 100%, Sp: 80%
CTCs.with EVs
NR
Application No suitable for screening of PDAC
Monitoring postoperative minimal residual disease
Predictor of disease recurrence and prognosis
Not present in healthy controls
Variable sensitivity in early diagnosis
Excellent specificity.
Follow-up of disease recurrence and prognosis
Functional analysis drug resistance
The highest sensitivity and specificity in early detection
Evaluated response of resection or any therapy
Biotherapeutic application
CTCs EVs

BEAMing: beads-emulsion-amplification-magnetics; CEP8: chromosome 8 centromere; ctDNA: circulating tumor DNA; CTC: circulating tumor cells; dPCR: digital polymerase chain reaction; ddPCR: droplet digital PCR; EpCAM: epithelial cell adhesion molecule; ES: early stages; EVs: extracellular vesicles; GPC1: glypican-1; LA: locally advanced; miRNA: micro-RNA; Mt: metastatic; NGS: next-generation sequencing; NR: not reported.
 

支持本文的科学文献

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10855073/


(责任编辑:佳学基因)
顶一下
(0)
0%
踩一下
(0)
0%
推荐内容:
来了,就说两句!
请自觉遵守互联网相关的政策法规,严禁发布色情、暴力、反动的言论。
评价:
表情:
用户名: 验证码: 点击我更换图片

Copyright © 2013-2033 网站由佳学基因医学技术(北京)有限公司,湖北佳学基因医学检验实验室有限公司所有 京ICP备16057506号-1;鄂ICP备2021017120号-1

设计制作 基因解码基因检测信息技术部

Baidu
map