Weekly Piece of Future #118
From Rewriting DNA to Alzheimer's Vaccines and Bioprinting Organs
Hey there, fellow future-addicts!
Welcome to this week's edition of Rushing Robotics! This edition showcases some of the most extraordinary advances in AI, biotech, and robotics—from a world-first personalized gene-editing therapy that saved a baby, to revolutionary 3D bioprinting inside the body, and AI restoring voices lost to disease.
🤯 Mind-Blowing
Prepare to be amazed by historic firsts—from a world-first personalized CRISPR gene-editing therapy that saved an infant’s life, to revolutionary 3D bioprinting methods that build living tissues inside the body without surgery. We also explore how artificial intelligence is restoring voices lost to degenerative disease, cutting-edge brain-monitoring technology that could transform neurological care, and groundbreaking vaccines targeting Alzheimer’s disease.
🔊 Industry Insights & Updates
Step into the world of intelligent machines with Lenovo’s “LeXiang No.1” humanoid robot, demonstrating fluid tai chi movements and advanced data integration. Explore neuromorphic devices inspired by the human brain that process visual and sensory information in real time without heavy computing resources. Plus, get an inside look at Cadence’s Millennium M2000 supercomputer, accelerating simulations by up to 80 times while drastically reducing power use—transforming design in semiconductors, aerospace, and life sciences.
🧬 BioTech
Learn about a promising vaccine targeting tau proteins to combat Alzheimer’s disease progression, offering fresh hope for prevention. Discover how new cancer metabolism research identifies a key protein linked to tumor growth, and explore one of the largest genetic studies of OCD, providing evidence of its biological roots and potential treatment targets.
💡 Products/Tools of the Week
Discover AI-powered platforms making complex tasks effortless—from Flatlogic’s full-stack app generator that converts ideas into ready-to-use web applications, to TranslateVideos.io, an AI-driven video translation service that preserves voice tone and lip-sync across languages. Explore Urbiverse’s simulation tools for smarter urban mobility and logistics planning, and CodeRide’s developer-focused AI assistant that understands entire codebases for faster, more accurate coding.
🎥 Video Section
Sometimes you have to see it to believe it. Our video picks feature humanoids learning full-body control, Boston Dynamics flexing robotic arms, and a behind-the-scenes look at AI-powered burger bots. Watch how the future moves.
IThe future is unfolding fast—explore these innovations, share them with your circle, and get ready for what’s next! Stay hungry, stay futurish!
🤯 Mind-Blowing
World-first personalized gene-editing therapy saves infant from deadly disease in US. This marks the first instance of a completely customized CRISPR gene editing therapy in the world. Physicians and researchers at Children’s Hospital of Philadelphia (CHOP) and Penn Medicine have successfully treated a baby diagnosed with a rare and often fatal metabolic disease using a tailored CRISPR-based gene editing therapy. The patient, referred to as KJ, was born with carbamoyl phosphate synthetase 1 (CPS1) deficiency—a condition that prevents the body from properly processing nitrogen, leading to dangerous buildups of ammonia in the bloodstream. This marks the first instance of a completely customized CRISPR gene editing therapy in the world. After receiving treatment at just under seven months of age, KJ is now doing well, marking a significant advance in the treatment of rare genetic disorders.
Researchers at the California Institute of Technology have developed a revolutionary 3D bioprinting method that enables the creation of tissues, biosensors, and drug depots directly inside the body—without surgery. The system, known as deep tissue in vivo sound printing (DISP), utilizes an injectable bioink that remains liquid at body temperature but solidifies into customized structures when activated by ultrasound. A special monitoring molecule, also ultrasound-sensitive, allows for real-time visualization of the printing process. In preclinical trials, the team successfully printed tissue structures inside a rabbit’s stomach and a mouse’s bladder. Additionally, they incorporated conductive nanoparticles to fabricate biosensors and embedded drug depots that release anticancer or antibacterial agents on demand via ultrasound activation. Any unused bioink is safely metabolized by the body.
For the first time in ten years, Daniel Lalara found his voice again—not through speech, but through song. Living with Machado-Joseph disease (MJD), a degenerative condition that had taken his ability to speak and stripped away much of his independence, Daniel remained silent—until artificial intelligence stepped in. With the help of psychologist Damien Howard and an innovative AI technique, Daniel created a song titled For My Children, a tribute to his daughter and family. "It's like bringing 'Daniel' back again," said his mother, Jenny Baird, who had long yearned to hear her son speak. Though Daniel has since passed, his voice, shared with the permission of his family, now sings across time and silence.
A research team from the University of New Mexico has developed a novel vaccine targeting the tau protein, a key driver of Alzheimer’s disease progression. In contrast to current therapies that primarily focus on beta-amyloid, this vaccine aims to prevent the accumulation of toxic tau in the brain. The experimental treatment has demonstrated strong immune responses in both mice and non-human primates, prompting researchers to pursue funding for human clinical trials. If successful, this approach could represent a major advancement in the prevention and management of Alzheimer’s disease.
Researchers at Pennsylvania State University have developed a novel 3D-printed hydrogel-based EEG electrode designed for long-term, non-invasive brain monitoring. Unlike traditional EEG systems that use rigid metal electrodes and conductive gels—often causing discomfort and inconsistent signal quality—this new device is lightweight, flexible, and hairlike in design. It adheres directly to the scalp without irritation and maintains stable signal recordings even during activities such as hair brushing. This innovation promises a more comfortable and reliable alternative for continuous brain monitoring, particularly for managing neurological conditions such as epilepsy, sleep disorders, and brain injuries.
🔊 Industry Insights & Updates
Researchers at RMIT University in Australia have developed a cutting-edge neuromorphic device that emulates the human brain's information processing capabilities, representing a significant advancement in autonomous technology. The compact system can independently detect hand movements, store memory, and process visual data in real time without the need for an external computer. Functioning similarly to the human eye and brain, the device captures light and processes environmental changes instantaneously. This proof-of-concept innovation sets the stage for breakthroughs in robotics, autonomous vehicles, and future technologies designed for natural human-machine interaction—all while operating with minimal data and energy requirements.
Cadence Design Systems has unveiled the Millennium M2000 Supercomputer, an advanced platform engineered for high-performance computing in fields such as semiconductor design, aerospace, life sciences, and hyperscale systems. Introduced at CadenceLIVE Silicon Valley 2025, the M2000 leverages NVIDIA’s cutting-edge Blackwell architecture, integrating HGX B200 systems, RTX PRO 6000 Blackwell Server Edition GPUs, and Cadence’s complete solver suite. Designed for both cloud and on-prem environments, the system offers up to 80X faster performance and 20X lower power consumption compared to traditional CPU-based solutions. By tightly integrating software and hardware, simulations that once took days across hundreds of CPUs can now be completed in under 24 hours.
At the Tech World 2025 event in Shanghai, Lenovo, the prominent Chinese PC manufacturer, unveiled its inaugural humanoid robot named LeXiang No.1, branding it as a “silicon employee.” This launch marks Lenovo’s significant push into the rapidly expanding domains of embodied intelligence and artificial intelligence. During a live demonstration, LeXiang No.1 showcased its dexterity by performing a traditional tai chi routine, a martial art known for its slow, deliberate motions and emphasis on balance. In a subsequent Q&A session, the robot demonstrated advanced data integration capabilities by accessing Lenovo’s entire business database to respond to inquiries. Its capabilities include facilitating proactive device communication and perception via natural multimodal interactions, unifying local knowledge across multiple devices, platforms, and ecosystems, and delivering sophisticated task autonomy and orchestration.
Huawei Technologies and UBTech Robotics have entered into a strategic partnership aimed at accelerating the deployment of humanoid robots in industrial and domestic settings. Announced in Shenzhen, the collaboration seeks to move humanoid robots from research labs into practical, large-scale applications. The initiative includes joint efforts to build smart factories powered by humanoid robots, as well as the development of bipedal and wheeled service robots for home use. As part of the agreement, Huawei will support UBTech in launching an innovation center dedicated to “embodied intelligence”—an advanced form of AI that integrates cognitive capabilities within physical robotic systems.
🧬 BioTech
In recent research led by Hui-Kuan Lin, PhD, scientists have revealed an unrecognized function of the protein ALDH4A1 in maintaining cellular energy homeostasis. Its absence triggers a metabolic state conducive to cancer development, suggesting a strong link between energy regulation and tumor biology. These findings challenge prevailing theories about mitochondrial function and identify ALDH4A1 as a novel and potentially high-impact therapeutic target in oncology.
In a major advancement in Alzheimer’s research, scientists have used living human brain tissue to reveal how the toxic protein amyloid beta disrupts neural connections long before symptoms of the disease emerge. Alzheimer’s, the most common form of dementia, affects over 55 million people globally and remains without a cure despite decades of study. While amyloid beta and tau proteins have long been linked to neurodegeneration, this study offers the clearest evidence yet of how subtle changes in these proteins impair brain function. Utilizing an innovative laboratory technique, researchers maintained fragments of live human brain tissue for several weeks, enabling unprecedented insights into early-stage Alzheimer’s disease. The findings offer new hope for identifying the disease before clinical signs appear.
In one of the largest genetic investigations into obsessive-compulsive disorder (OCD) to date, researchers from QIMR Berghofer and the University of Florida have identified 25 genes that may contribute to the development of the condition. The study analyzed DNA samples from over 53,000 individuals diagnosed with OCD and compared them to more than 2 million control participants. These findings provide compelling evidence for a biological foundation of OCD, challenging the long-standing perception of the disorder as solely psychological and offering promising new directions for future treatment and research.
💡Products/tools of the week
Urbiverse employs AI-driven simulations alongside synthetic data modeling to empower businesses and government entities in making more informed decisions surrounding urban mobility and logistics. The platform enables users to construct highly realistic city datasets for testing a wide range of scenarios, including determining the most efficient locations for micromobility hubs and EV charging stations. Through the integration of fleet data, Urbiverse facilitates the simulation of proposed changes and their potential effects, delivering insights that support actionable, evidence-based decisions. This enables organizations to refine fleet sizes, strategically place infrastructure, and improve operational planning, ultimately achieving cost savings and closer alignment with strategic objectives.
TranslateVideos.io is an advanced AI-driven video translation platform designed to convert content into multiple languages while ensuring natural audio and visual synchronization. Its features include voice cloning to maintain the speaker’s original tone and identity, accurate lip-syncing for realistic delivery, and multilingual support—all secured with strong privacy safeguards. The platform is widely used by content creators, educators, global businesses, and communicators aiming to broaden their reach, cut traditional dubbing costs, and uphold brand consistency across different markets. By enabling seamless, professional-quality translations that retain emotional authenticity, TranslateVideos.io helps users create content that feels native to each target audience. Its intuitive interface and comprehensive localization features make it a powerful tool for removing language barriers.
Flatlogic is an AI-powered full-stack application generator that converts natural language descriptions into complete, production-ready web applications. It automatically creates frontend, backend, and database layers, supporting popular frameworks such as React, Angular, Vue, and Next.js. The platform includes built-in modules for authentication, user management, and role-based access control. By significantly accelerating development time—from months to minutes—Flatlogic helps users reduce costs while retaining full control and ownership of their code. It is especially valuable for startups aiming to build MVPs rapidly, businesses in need of custom software solutions, and developers seeking to streamline repetitive coding tasks.
CodeRide is a developer-focused tool that grants AI assistants full visibility into your codebase, removing the need to repeatedly explain structure, context, or logic. By automatically supplying AI with a deep understanding of your project’s architecture, CodeRide facilitates smoother collaboration between developers and AI tools. This results in more precise code suggestions, improved reviews, and faster debugging. It’s especially beneficial for developers managing medium to large-scale codebases who regularly rely on AI assistants to enhance coding efficiency and reduce time spent on context-switching.
