Transcriptomic and Multi-scale Network Analyses Reveal Key Drivers of Cardiovascular Disease [0.03%]
转录组学和多尺度网络分析揭示心血管疾病的关键驱动因素
Bat-Ider Tumenbayar,Khanh Pham,John C Biber et al.
Bat-Ider Tumenbayar et al.
Cardiovascular diseases (CVDs) and pathologies are often driven by changes in molecular signaling and communication, as well as in cellular and tissue components, particularly those involving the extracellular matrix (ECM), cytoskeleton, an...
Steven S Andrews
Steven S Andrews
Biological systems often include spatial regions with different diffusion coefficients. Explicitly simulating their physical causes is computationally intensive, so it is typically preferable to simply vary the coefficients. This raises the...
Douglas Raymond Beahm,Yijie Deng,Thomas M DeAngelo et al.
Douglas Raymond Beahm et al.
Electronic circuits intuitively visualize and quantitatively simulate biological systems with nonlinear differential equations that exhibit complicated dynamics. Drug cocktail therapies are a powerful tool against diseases that exhibit such...
Nasir Saeed,Mohamed Habib Loukil,Hadi Sarieddeen et al.
Nasir Saeed et al.
Following recent advancements in Terahertz (THz) technology, THz communications are currently being celebrated as key enablers for various applications in future generations of communication networks. While typical communication use cases a...
A Novel Multi-Stage Residual Feature Fusion Network for Detection of COVID-19 in Chest X-Ray Images [0.03%]
一种新颖的多阶段残差特征融合网络在胸部X光图像中检测COVID-19
Zhenyu Fang,Jinchang Ren,Calum MacLellan et al.
Zhenyu Fang et al.
To suppress the spread of COVID-19, accurate diagnosis at an early stage is crucial, chest screening with radiography imaging plays an important role in addition to the real-time reverse transcriptase polymerase chain reaction (RT-PCR) swab...
Molecular Communication Theoretical Modeling and Analysis of SARS-CoV2 Transmission in Human Respiratory System [0.03%]
SARS-CoV2在人体呼吸系统中的分子通信理论建模与分析
Caglar Koca,Meltem Civas,Selin Merve Sahin et al.
Caglar Koca et al.
Severe Acute Respiratory Syndrome-CoronaVirus 2 (SARS-CoV2) caused the ongoing pandemic. This pandemic devastated the world by killing more than a million people, as of October 2020. It is imperative to understand the transmission dynamics ...
A Molecular Communications System for the Detection of Inflammatory Levels Related to COVID-19 Disease [0.03%]
一种与COVID-19疾病相关的炎症水平检测的分子通讯系统
Luca Felicetti,Mauro Femminella,Gianluca Reali
Luca Felicetti
A recent and extensive research activity highlighted the process behind the attack and spread of COVID-19 in the human body. What emerged is that the SARS-CoV-2 virus makes use of both the ACE2 receptor, expressed by pneumocytes in the ephi...
Molecular Communications in Viral Infections Research: Modeling, Experimental Data, and Future Directions [0.03%]
病毒感染研究中的分子通讯:模型、实验数据及未来方向
Michael Taynnan Barros,Mladen Veletic,Masamitsu Kanada et al.
Michael Taynnan Barros et al.
Hundreds of millions of people worldwide are affected by viral infections each year, and yet, several of them neither have vaccines nor effective treatment during and post-infection. This challenge has been highlighted by the COVID-19 pande...
Duality Between Coronavirus Transmission and Air-Based Macroscopic Molecular Communication [0.03%]
冠状病毒传播与基于空气的宏观分子通信之间的对偶性
Max Schurwanz,Peter Adam Hoeher,Sunasheer Bhattacharjee et al.
Max Schurwanz et al.
This contribution exploits the duality between a viral infection process and macroscopic air-based molecular communication. Airborne aerosol and droplet transmission through human respiratory processes is modeled as an instance of a multius...
VIVID: In Vivo End-to-End Molecular Communication Model for COVID-19 [0.03%]
VIVID:COVID-19的体内端到端分子通信模型
Saswati Pal,Nabiul Islam,Sudip Misra
Saswati Pal
As an alternative to ongoing efforts for vaccine development, scientists are exploring novel approaches to provide innovative therapeutics, such as nanoparticle- and stem cell-based treatments. Thus, understanding the transmission and propa...