A Machine Learning-Optimized System for Pulsatile, Photo- and Chemotherapeutic Treatment Using Near-Infrared Responsive MoS-Based Microparticles in a Breast Cancer Model.: Social discussions and analytics

A Machine Learning-Optimized System for Pulsatile, Photo- and Chemotherapeutic Treatment Using Near-Infrared Responsive MoS-Based Microparticles in a Breast Cancer Model.

Maria Kanelli, Neelkanth M Bardhan, Morteza Sarmadi, Behnaz Eshaghi, Shahad K Alsaiari, William T Rothwell, Apurva Pardeshi, Dhruv Varshney, Dominique C De Fiesta, Howard Mak, Virginia Spanoudaki, Nicole Henning, Ashutosh Kumar, Jooli Han, Angela M Belcher

November 2024 ACS Nano

Synopsis of Social media discussions

Discussions consistently praise the article's innovative approach, highlighting phrases like 'game-changing' and 'completely eradicates tumors,' reflecting strong enthusiasm. The tone, supported by technical references and mentions of reduced side effects, underscores a recognition of its potential to revolutionize cancer therapy and influence ongoing research.

Agreement

Strong agreement

All discussions express strong support and excitement for the research, frequently calling it 'game-changing' and emphasizing its potential in cancer therapy.

Interest

High level of interest

The topics generate high interest, with many posts highlighting innovative aspects like the use of machine learning and near-infrared responsive microparticles.

Engagement

High engagement

Posts show deep engagement by referencing specific methods, such as pulsatile delivery, thermal ablation, and systemic toxicity reduction, demonstrating thorough understanding and interest.

Impact

High level of impact

The overall tone suggests that users believe this development could significantly influence future cancer treatments and inspire further research, indicating high perceived impact.

Social Mentions

YouTube

2 Videos

Bluesky

1 Posts

Twitter

14 Posts

Blogs

2 Articles

News

23 Articles

Metrics

Video Views

238,359

Total Likes

7,898

Extended Reach

423,604

Social Features

42

Timeline: Posts about article

Innovative Cancer Treatment Using Heat and Chemotherapy in Microparticles

Learn about a new technology that combines heat and chemotherapy in tiny microparticles to target tumors precisely, potentially reducing side effects and improving cancer treatment effectiveness.

Breaking Lab

December 29, 2024

226,482 views

Innovative Cancer Treatment Combining Heat and Chemotherapy

This new technology makes tumors disappear in record time. It combines heat and chemotherapy in tiny microparticles to target tumors effectively while reducing side effects, offering a promising advancement in cancer therapy. Clinical trials are ongoing.

German Science Guy

June 21, 2025

11,877 views

Ivan Vidal (Van-rito Ullij)
@nanoLaniakea (Twitter)

RT @kochinstitute: Cancer treatment, upgraded. Tiny implantable microparticles deliver chemo & heat therapy directly to tumors, reducing si…
view full post

March 4, 2025

3
Koch Institute at MIT
@kochinstitute (Twitter)

Cancer treatment, upgraded. Tiny implantable microparticles deliver chemo & heat therapy directly to tumors, reducing side effects. Vote for this #STATMadness entry - Group 2, Matchup 6: https://t.co/cMWdrhlTqO
view full post

March 4, 2025

7
3
Reiner 
@erlesen (Twitter)

RT @erlesen: A Machine Learning-Optimized System for Pulsatile, Photo- and Chemotherapeutic Treatment https://t.co/CZa8Joloen Game-Changing…
view full post

January 8, 2025

1
Dr Singularity
@Dr_Singularity (Twitter)

more here https://t.co/rGNe4F4z02 and here https://t.co/wIO7yznoC7
view full post

December 24, 2024

4
Ariel R Abramovsky
@realAriel_A (Twitter)

https://t.co/965Q6cuO4c
view full post

December 23, 2024
Reiner
@erlangen.bsky.social (Bluesky)

A Machine Learning-Optimized System for Pulsatile, Photo- and Chemotherapeutic Treatment pubs.acs.org/doi/10.1021/... Game-Changing Dual Cancer Therapy Completely Eradicates Tumors Without Harsh Side Effects scitechdaily.com/game-changin... This synergistic effect results in lower systemic toxicity
view full post

December 21, 2024

1
Reiner 
@erlesen (Twitter)

A Machine Learning-Optimized System for Pulsatile, Photo- and Chemotherapeutic Treatment https://t.co/CZa8Joloen Game-Changing Dual Cancer Therapy Completely Eradicates Tumors Without Harsh Side Effects https://t.co/nO3qfgDiJ0 Synergistic effect results in lower systemic toxicity
view full post

December 21, 2024

2
1
Chidambara .ML.
@chidambara09 (Twitter)

https://t.co/d0JKATuprI
view full post

November 4, 2024
Machine Learning in Chemistry
@ML_Chem (Twitter)

A Machine Learning-Optimized System for Pulsatile, Photo- and Chemotherapeutic Treatment Using Near-Infrared Responsive MoS2-Based Microparticles in a Breast Cancer Model #machinelearning #compchem https://t.co/OhkaVODpXQ
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November 4, 2024

1
Tom Varghese Jr. MD, MS, MBA, FACS, MAMSE
@TomVargheseJr (Twitter)

RT @ScottSAmyx: A Machine Learning-Optimized System for Pulsatile, Photo- and Chemotherapeutic Treatment Using Near-Infrared Responsive MoS…
view full post

October 30, 2024

1
Scott Amyx
@ScottSAmyx (Twitter)

A Machine Learning-Optimized System for Pulsatile, Photo- and Chemotherapeutic Treatment Using Near-Infrared Responsive MoS2-Based Microparticles in a Breast Cancer Model | ACS Nano https://t.co/9NUZZZm0GR
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October 30, 2024

1
Free56
@Free5620 (Twitter)

RT @Free5620: https://t.co/ZGfZrDS4U3 https://t.co/SyLFsSFbWu. https://t.co/Jh7aJvL1f0
view full post

October 29, 2024

1
Free56
@Free5620 (Twitter)

https://t.co/ZGfZrDS4U3 https://t.co/SyLFsSFbWu. https://t.co/Jh7aJvL1f0
view full post

October 29, 2024

1
1
Chidambara .ML.
@chidambara09 (Twitter)

https://t.co/s9McPKcpBi
view full post

October 28, 2024
Epic Plain
@EpicPlain (Twitter)

A Machine Learning-Optimized System for Pulsatile, Photo- and Chemotherapeutic ... https://t.co/HLALMwhBxe #MachineLearning
view full post

October 28, 2024

Abstract Synopsis

The study developed a light-activated microparticle system made of polycaprolactone containing MoS2 nanosheets and anticancer drugs, enabling localized, pulsatile delivery combined with thermal ablation when exposed to near-infrared laser light.
A machine learning algorithm was used to optimize the laser treatment conditions, improving the efficiency of the therapy, which was tested in mice with breast cancer tumors, showing significant tumor eradication and increased survival rates.
This approach offers a minimally invasive and precisely targeted treatment option suitable for recurring cycles, reducing side effects and overcoming resistance seen with traditional cancer therapies.]

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