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In 2017, astronomers spotted something no one had ever seen before — ‘Oumuamua, the first known interstellar object to fly through our Solar System. It came from another star… and vanished just as quickly.

Traveling at over 32 km per second, it sparked a global awakening: if we want to study these cosmic drifters, we need to act fast.

Now, NASA and ESA are preparing to chase the next one. From ESA’s Comet Interceptor to NASA’s Bridge mission, new tech like AI, solar sails, and spacecraft swarms could finally let us intercept an interstellar visitor in real time.

And with the upcoming Vera C. Rubin Observatory, we may soon detect dozens of these mysterious objects each year.

The next visitor could be on its way.
Will we be ready to meet it?

Tuberculosis has plagued humanity for centuries, killing more people each year than nearly any other infectious disease. But scientists may have finally turned the tide. A new mRNA vaccine, dubbed mRNACV2, has demonstrated strong effectiveness in preclinical trials—triggering a powerful immune response in mice and dramatically reducing the bacterial load in their lungs. This represents a major leap beyond the current BCG vaccine, which offers limited protection and hasn't changed much since its introduction in 1921.

What makes this breakthrough especially significant is the use of mRNA technology—the same approach that powered COVID-19 vaccines. This marks the first time mRNA has shown such promise against a bacterial infection, not just viruses. With human trials now on the horizon, the medical community is hopeful that this could lead to a durable, global solution for TB—a disease that still kills over 1 million people annually despite being preventable and treatable.

#mRNAVaccine #TBCure #MedicalBreakthrough #InfectiousDiseases
#PublicHealthRevolution

Japan has been at the forefront of using AI and drone technology for reforestation efforts.

Companies like Droneseed and other Japan-based startups have developed autonomous drones equipped with AI systems that enable rapid, precise deployment of seed pods.

These drones can map deforested land, analyze soil and environmental conditions, and drop seed pods in optimal locations—doing the work of human reforestation teams up to 10 times faster.

The "smart seed pods" refer to biodegradable capsules containing seeds, nutrients, and sometimes even fungi or beneficial bacteria to improve germination and survival rates.

These pods are designed to break down naturally and support the early life of the planted trees, even in degraded or remote environments.

This technology addresses multiple challenges in traditional tree-planting:

- Reduces manual labor costs
- Covers large, inaccessible terrains
- Increases survival rates due to targeted planting
- Speeds up forest recovery in post-disaster or logged areas

While Japan is a key adopter, similar systems are also used globally, including by reforestation tech firms in the U.S., Australia, and Europe.

In a landmark medical advancement, researchers at Newcastle University have successfully created a 3D-printed human cornea using stem cells, collagen, and alginate to form a bio-ink. This innovation offers renewed hope to more than 10 million people globally who suffer from corneal blindness due to disease, trauma, or infection. The 3D printing process can produce custom-shaped corneas in under 10 minutes, tailored precisely to each patient using a simple eye scan.

What makes this technology even more promising is its potential to ease the global shortage of donor corneas. Since bio-printed corneas are derived from a patient’s own stem cells, the risk of rejection could be significantly reduced. While clinical trials and regulatory hurdles remain before these corneas can be widely used in patients, this achievement marks a massive step toward revolutionizing eye care and restoring sight for millions.

#3DPrinting #StemCellTherapy #VisionRestoration #MedicalInnovation
#Bioengineering