EnanoSc

Medical Nanobots

Revolutionary microscopic robotic systems for precision medicine, tissue regeneration, and targeted therapeutic delivery.

How Medical Nanobots Work

Our nanobots are microscopic programmable devices constructed from biocompatible nanomaterials. They use magnetic propulsion, chemical sensors, and AI-driven controllers to navigate the human body.

Targeting

Detect disease markers through molecular recognition systems

Delivery

Release therapeutic agents with nanoliter precision

Communication

Real-time signal transmission wirelessly to monitoring systems

Degradation

Natural biodegradation after treatment cycles complete

Applications in Medicine

Targeted Cancer Therapy

Eliminate malignant cells with precision while preserving healthy tissue through focused drug delivery and thermal destruction.

Cardiovascular Repair

Repair arterial damage and prevent plaque buildup using self-assembling vascular nanoscaffolds.

Regenerative Medicine

Stimulate tissue regeneration using nanostructured matrices embedded with growth factors.

Technical Specifications

Dimensions

500nm - 10µm in diameter

Materials

Gold-silica composites with biodegradable polylactide coatings

Power

Zinc-air batteries with 6-month lifespans

Control Systems

Magnetic guidance systems (MRI-compatible)

Real-time GPS-like tracking via RF signatures

Explore 3D Model

Safety & Ethical Standards

Clinical Safety

Zero systemic toxicity in all clinical trials
100% bioresorption within 60 days post-treatment
Comprehensive safety protocols under ISO 13485 standards

Ethical Compliance

Full WHO and FDA regulatory compliance
Patents assigned exclusively to public health institutions
Strict human rights protocols in all trials

Ready to Advance Medical Innovation?

Partner with EnanoSc to develop next-generation medical nanobots that are changing the landscape of modern medicine.

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