Synopsis of Social media discussions
Discussions highlight key elements of the article, such as the nuanced role of cell death in tumor progression across different maturity stages, often referring to phrases like 'complex relationship' and 'implications for therapies.' The tone suggests curiosity and recognition of the study's importance, with examples like 'this model could change how we approach treatment' emphasizing its potential impact.
Agreement
Moderate agreementMost posts acknowledge the complexity and relevance of the model, showing a general consensus of agreement with its findings.
Interest
Moderate level of interestDiscussions reflect curiosity about how developmental maturity and cell death influence tumor growth, indicating moderate interest.
Engagement
Moderate level of engagementPosts often ask questions or highlight implications for cancer treatment, demonstrating active engagement.
Impact
Moderate level of impactMany comments suggest that the study offers valuable insights with potential impacts on therapeutic approaches, indicating a meaningful impact.
Social Mentions
YouTube
6 Videos
1 Posts
News
2 Articles
Metrics
Video Views
924
Total Likes
17
Extended Reach
1,170
Social Features
9
Timeline: Posts about article
Top Social Media Posts
Brain tumor ULisboa
Stochastic cellular automata model of tumorous neurosphere growth: Roles of developmental maturity and cell death. https://t.co/IpXdBBP6vg
view full post
Posts referencing the article
Modeling Tumorous Growth in Neurospheres Using Cellular Automata
Simulation of a stochastic cellular automata model of neurosphere growth, highlighting the role of progenitor cell transformation into tumor stem cells and how developmental maturity influences tumor development and cell death effects.
September 19, 2019
255 views
Modeling Tumorous Neurosphere Growth Using Cellular Automata Simulation
Simulation of a stochastic cellular automata model of neurosphere growth, highlighting the impact of progenitor cell transformation into tumor stem cells and the role of cell death in tumor progression and development.
September 19, 2019
213 views
Modeling Tumor Growth in Neurospheres Using Cellular Automata
This video simulates a stochastic cellular automata model of neurosphere development, highlighting the impact of progenitor cell transformation into brain tumor stem cells and the role of cell death and maturity on tumor growth.
November 5, 2019
173 views
Cellular Automata Modeling of Tumorous Neurosphere Growth and Development
Simulation of a stochastic cellular automata model for neurosphere growth, highlighting how progenitor cell transformation influences tumor development and cell death impacts growth dynamics in different maturity stages.
November 5, 2019
125 views
Simulation of Tumorous Growth in Neurospheres Using Cellular Automata
This video demonstrates a stochastic cellular automata model of neurosphere growth, highlighting how progenitor cell transformation into tumor stem cells influences tumor development, especially concerning cell death and developmental maturity.
November 5, 2019
80 views
Cellular Automata Simulation of Neurosphere Growth and Tumor Development
This video presents a stochastic cellular automata model simulating neurosphere growth and tumor formation. It explores how progenitor cell transformation into tumor stem cells impacts sphere size and tumor development, influenced by cell death and developmental maturity.
November 5, 2019
80 views
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Stochastic cellular automata model of tumorous neurosphere growth: Roles of developmental maturity and cell death. https://t.co/IpXdBBP6vg
view full postFebruary 2, 2019
Abstract Synopsis
- The study uses a stochastic cellular automata model to simulate the growth of tumorous neurospheres, emphasizing how transformation of a progenitor cell into a brain tumor stem cell leads to larger, tumor-like spheres, especially when tumor cells escape contact inhibition.
- The likelihood of tumor formation is higher in less mature neurospheres and is further influenced by the probability of cell death among progeny, with immature neurospheres showing more normal growth as cell death increases, while mature neurospheres show more tumor growth under the same conditions.
- These findings suggest that the effect of cell death on tumor progression is complex: inducing apoptosis can both promote and hinder tumor growth, depending on the developmental maturity of the neurosphere, providing insight into the nuanced outcomes of some cancer therapies.
Brain tumor ULisboa
@braintumor_UL (Twitter)