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相关概念视频

Tumor Progression02:07

Tumor Progression

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Tumor progression is a phenomenon where the pre-formed tumor acquires successive mutations to become clinically more aggressive and malignant. In the 1950s, Foulds first described the stepwise progression of cancer cells through successive stages.
Colon cancer is one of the best-documented examples of tumor progression. Early mutation in the APC gene in colon cells causes a small growth on the colon wall called a polyp. With time, this polyp grows into a benign, pre-cancerous tumor. Further...
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Cancers Originate from Somatic Mutations in a Single Cell02:21

Cancers Originate from Somatic Mutations in a Single Cell

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Cancer arises from mutations in the critical genes that allow healthy cells to escape cell cycle regulation and acquire the ability to proliferate indefinitely. Though originating from a single mutation event in one of the originator cells, cancer progresses when the mutant cell lines continue to gain more and more mutations, and finally, become malignant. For example, chronic myelogenous leukemia (CML) develops initially as a non-lethal increase in white blood cells, which progressively...
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Abnormal Proliferation02:23

Abnormal Proliferation

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Under normal conditions, most adult cells remain in a non-proliferative state unless stimulated by internal or external factors to replace lost cells. Abnormal cell proliferation is a condition in which the cell's growth exceeds and is uncoordinated with normal cells. In such situations, cell division persists in the same excessive manner even after cessation of the stimuli, leading to persistent tumors. The tumor arises from the damaged cells that replicate to pass the damage to the...
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Mutations01:39

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Overview
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Loss of Tumor Suppressor Gene Functions01:12

Loss of Tumor Suppressor Gene Functions

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Tumor suppressor genes are normal genes that can slow down cell division, repair DNA mistakes, or program the cells for apoptosis in case of irreparable damage. Hence, they play an essential role in preventing the proliferation of damaged cells.
When the tumor suppressor genes develop mutations or are lost, cells start growing out of control, leading to cancer. However, a single functional copy of the tumor suppressor gene is enough for the cells to maintain their normal functions and cell...
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Cancer-Critical Genes II: Tumor Suppressor Genes01:05

Cancer-Critical Genes II: Tumor Suppressor Genes

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Genes usually encode proteins necessary for the proper functioning of a healthy cell. Mutations can often cause changes to the gene expression pattern, thereby altering the phenotype.
When the function of certain critical genes, especially those involved in cell cycle regulation and cell growth signaling cascades, gets disrupted, it upsets the cell cycle progression. Such cells with unchecked cell cycles start proliferating uncontrollably and eventually develop into tumors.
Such genes that act...
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相关实验视频

Updated: Jun 25, 2025

Next Generation Sequencing for the Detection of Actionable Mutations in Solid and Liquid Tumors
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儿科固体瘤中的分子变化

Jonathan C Slack1, Alanna J Church2

  • 1Pathology & Laboratory Medicine Institute (Robert J. Tomsich), Cleveland Clinic, Cleveland, OH, USA.

Clinics in laboratory medicine
|May 31, 2024
PubMed
概括
此摘要是机器生成的。

本综述总结了儿科固体瘤中关键的分子变化,影响诊断和治疗. 它强调了测序技术及其整合到儿科癌症病理学中.

关键词:
一个分子分子的分子.儿科病理学 儿科病理学软组织和骨的瘤.固体瘤是一种固体瘤.

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Last Updated: Jun 25, 2025

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科学领域:

  • 在瘤学瘤学.
  • 遗传学 遗传学 是一个
  • 病理学 病理学 病理学

背景情况:

  • 儿科瘤包括血液性恶性瘤,中枢神经系统瘤和额头外固体瘤.
  • 分子变化显著影响儿童固体瘤的诊断,预后,治疗和遗传性癌症风险.

研究的目的:

  • 总结临床相关的分子变化在脑外儿科固体瘤.
  • 讨论分子技术及其融入儿科固体瘤的诊断病理学.

主要方法:

  • 关于脑外儿科固体瘤分子变化的文献综述.
  • 讨论传统和下一代测序技术.
  • 对瘤倾向综合征的检查.

主要成果:

  • 在儿科固体瘤中确定了临床相关的分子变化.
  • 详细介绍了传统和下一代测序方法.
  • 研究了分子数据在儿科固体瘤诊断病理学的作用.

结论:

  • 分子分析对于理解和管理儿科固体瘤至关重要.
  • 测序技术的进步提高了诊断能力.
  • 整合分子数据可以改善儿科癌症的诊断病理实践.