他们将成为突破口,或目标,以帮助我们防止不受控制的生长,侵袭和转移的癌细胞?
Which of them will become the breakthrough point or target to help us prevent the uncontrolled growth, invasion and metastasis of cancer cells?
尽管在做放疗和化疗,古蒂于2月份就知道癌细胞已经转移到其它器官,而且被告知生存的时间只有很短了。
Despite undergoing radiotherapy and chemotherapy, Goody learned in February that cancer had spread to other organs and was warned she had only a short time to live.
在2002年,他就得出了一个能预测癌症演化和扩散方式的方程组,比如说染色体何时开始变得不稳定,使得癌细胞在转移中发生变异。
In 2002 he worked out equations that can predict the way cancer evolves and spreads, such as when mutations emerge in a metastasis and chromosomes become unstable.
微转移是肿瘤开始转移时会出现在人体的各种器官中留有微小的癌细胞。
Micrometastases are the tiny cancers that form in various organs when a tumor starts to spread and seed itself around the body.
骨盆中转移性癌细胞的沉积物表明这具身材肥胖,满口无牙的木乃伊也曾遭受过癌症的折磨。
Obese, plagued with decayed teeth, the mummy also suffered from cancer, as a metastatic deposit in the pelvic bone revealed.
癌症的危险因素主要在于癌细胞转移。
A major reason why many cancers are so dangerous is that they metastasize.
这种类型的癌细胞在通过淋巴和血液循环的早期转移时分化严重。
The cancer cells in this type are badly differentiated with early metastasis through lymph and blood circulation.
中医治疗能彻底铲除化放疗后残留的癌细胞,预防复发扩散再转移。
TCM treatment can completely uprooted chemoradiotherapy residue after the cancer cells, prevent recurrence diffusion transfer again.
我经历过三次肾脏移植,一次胰腺移植,有2 7年的1型糖尿病史,癌细胞转移已有4年多。
I've had three kidney transplants, a pancreas transplant, 27 years of Type 1 diabetes, and four-plus years of metastasizing cancer.
癌细胞通过器官移植从一个人转移到另一个身上的案例,或者从母亲转移到胎儿身上的案例也有很多。
There are also cases of malignant cells being transferred from one person to another through an organ transplant or from a woman to her fetus.
如果我没有把它咳出来,肿瘤就会继续扩散,癌细胞肯定会转移到其他的器官上。
If I hadn't coughed it up, the tumour would have grown and almost certainly spread to my other organs.
在诊断为乳腺癌的病人中,癌细胞侵袭与扩散至身体的其他部位(即转移)是导致病人死亡的主要原因。
The invasion and spread of cancer cells to other parts of the body, known as metastasis, is a principal cause of death in patients diagnosed with breast cancer.
目的:探讨KAI1/CD82 基因在非小细胞肺癌(NSCLC)组织中的表达水平及在癌细胞发生侵袭、转移过程中的意义。
Objective: To study the expression of KAI1/CD82 in non-small cell lung carcinomas (NSCLC) and explore the mechanism of invasion and metastasis of tumor cell.
进一步的分析推断出,这名男子身上的癌细胞最初存在于这种寄生虫内,然后通过他的身体进行了转移。
Further analysis concluded that the cancer cells had originated in the parasite and then metastasized through the man's body.
通过淋巴管与血管的血源浸润是癌细胞向局部淋巴结及身体其他部位转移的主要途径。
Vascular invasion - through lymphatic and blood vessels - is the major route for cancer spreading to regional lymph nodes and to the rest of the body.
结论乳腺癌细胞可能通过活跃的淋巴管生成加速肿瘤的生长和转移。
Conclusion Breast cancer has active lymphangiogenesis which might contribute to its growth and metastasis.
胃癌细胞诱导损伤间皮后,受损残余的间皮可以反作用于癌细胞,使其迁移转移力提高。
The injuryed mesothelial cells could up-regulate the abilitys of invasion and metastasis in gastric cancer cells.
BRMS1是2000年在乳腺癌细胞中发现的癌转移抑制基因。
BRMS1 is a tumor metastasis suppressor gene discovered in breast carcinoma cells in 2000.
最近的研究表明,趋化运动在癌细胞转移中起关键作用。
Recent studies reveal a key role of chemotaxis in cancer cell metastasis.
该过程可以称为癌转移,即癌细胞从原位癌转移到身体的其它部位形成继发癌。
In a process called metastasis, these cells are transmitted from the primary tumor to other locations in the body, where they form secondary, cancerous growths.
这些转移性癌细胞比那些非转移性的细胞更加易于迁移,但我们对于迁移如何进行还所知甚少。
These metastatic cells tend to move more than their non-metastatic variants but this movement is poorly understood.
高金雀花碱可以限制细胞的移动,癌细胞试图通过产生与转移相关的蛋白来弥补高金雀花碱的抑制作用。
When genistein restricted their ability to do so, they tried to compensate by producing more protein involved in migration.
它所编码的蛋白还可以抑制黑素瘤细胞和小鼠乳腺癌细胞的转移。
Its protein product was found to also suppress metastasis of melanoma cells and murine mammary carcinoma cells.
分离高转移性和低转移性前列腺癌细胞,筛选转移相关基因,为研究前列腺癌的转移分子标志奠定基础。
To isolate high metastatic and low metastatic prostate cancer cells and screen metastasis-associated genes for the purpose of the biomarker exploration of prostate cancer metastasis.
PEDF低表达和VEGF高表达可能是胃癌组织内微血管生成的分子基础,是促进胃癌细胞发生淋巴及血道转移的重要因素。
Lower PEDF and higher VEGF expression might be the molecular basis of angiogenesis in gastric carcinoma tissue and play an important role in lymphatic and blood metastasis of gastric carcinoma.
PEDF低表达和VEGF高表达可能是胃癌组织内微血管生成的分子基础,是促进胃癌细胞发生淋巴及血道转移的重要因素。
Lower PEDF and higher VEGF expression might be the molecular basis of angiogenesis in gastric carcinoma tissue and play an important role in lymphatic and blood metastasis of gastric carcinoma.
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