京都で久々の花魁体験 してきたよ

着付けもヘアもメイクも全部プロの方がしてくれて
一気に“別人”になった気分

撮影中もスタッフさんがめっちゃ丁寧で
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京都行くなら絶対おすすめ

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Japanese researchers, primarily from Kyoto University and the Kitano Hospital, have been developing a novel drug aimed at stimulating natural tooth regeneration.

This research builds upon earlier discoveries related to inhibiting a specific protein called USAG-1 (uterine sensitization-associated gene-1). This protein is known to suppress tooth growth, and by blocking it, the body’s natural pathways for growing new teeth can be reactivated.

The team has already demonstrated success in animal trials — notably in mice and ferrets — where the drug prompted the growth of third-generation teeth, which do not naturally develop in most mammals.

Human trials are reportedly planned to begin around 2025, with hopes of offering this as a treatment for conditions like anodontia (a congenital absence of teeth) or for those who lose teeth due to injury or age.

If successful in humans, this could revolutionize dental care by reducing dependence on implants and dentures, and potentially offering a one-time, regenerative treatment.

However, this "miracle drug" is still under research and not yet available commercially. It must pass through rigorous human clinical trials and safety checks before becoming an approved treatment

In Japan, nature’s recovery is being supercharged by technology. AI-powered drones equipped with LiDAR and soil sensors are restoring forests decimated by wildfires and climate change. Each drone carries over 300 biodegradable seed pods filled with native species, nutrients, and growth-promoting fungi. They scan the terrain from the air, identify optimal planting zones, and deploy seeds with unmatched speed and accuracy.

This innovation, developed by Kyoto-based engineers, has already shown remarkable success—early tests report over 80% germination rates. These drones can replant a football field in under an hour, making them 10 times faster than human crews. It's not just reforestation—it's ecosystem resurrection, powered by AI. The future of environmental recovery is taking off—literally.

#AIDrones #Reforestation #ClimateTech #GreenInnovation #SustainableFuture

In an ambitious leap toward eco-restoration, Japan has unveiled AI-powered drones capable of planting forests up to 10 times faster than traditional methods. These drones are equipped with LiDAR mapping, terrain analytics, and autonomous flight systems, allowing them to identify ideal planting spots and launch biodegradable seed pods with pinpoint precision. Each pod contains pre-selected native seeds, nutrients, and fungal spores to support early growth—even in harsh or degraded environments.

Developed by Kyoto-based engineers, this swarm-based system is powered by solar-charged batteries and has shown an impressive 80% germination success rate in early trials. With each drone planting hundreds of pods per mission, entire football-field-sized plots can be reforested in under an hour. This innovation could be a game-changer for combatting deforestation, restoring biodiversity, and offsetting carbon emissions—proving once again that the fusion of AI and environmental science can rewrite the future of the planet.

#ReforestationTech #AIDrones #EcoInnovation #GreenTechnology
#SustainableForestry

Japan has begun deploying AI-powered drones to accelerate reforestation efforts, particularly in areas affected by wildfires and deforestation.

These drones are equipped with LiDAR (Light Detection and Ranging) and AI mapping systems that allow them to scan landscapes in real-time, identifying the most fertile locations based on soil quality, moisture levels, and terrain features.

Once optimal spots are located, the drones release biodegradable seed pods that contain not just seeds, but also essential nutrients and symbiotic fungi (mycorrhizae) to help plants thrive.

This method is reportedly up to 10 times faster than traditional manual planting, with each drone capable of planting over 300 pods per flight and covering the area of a football field in under an hour.

Furthermore, the drones operate in swarms and can recharge using solar-powered stations, making them a scalable and eco-friendly solution for reforestation.

Initial tests in places like Kumamoto, Japan, have demonstrated over 80% seed germination rates, indicating both efficiency and ecological viability.

This technology, developed by engineers in Kyoto, reflects a growing global interest in automated ecological restoration, blending robotics, AI, and sustainability.