Security for connected care that can't be taken offline.
Hospitals and health systems now run on hyper-connected IoMT devices, AI-assisted diagnostics, and shared health information exchanges — layered over decades-old clinical equipment. iBlades secures that convergence — without disrupting patient care.
The same risk pattern shows up across hospitals, clinics, and health systems of every size.
Adversaries capture encrypted patient and genomic data today to decrypt it once quantum computers mature — and unlike a password, health and genomic data must stay private for a lifetime.
AI compresses reconnaissance, phishing, and exploit generation to machine speed, overwhelming security teams and turning data-poisoning into a threat to AI-driven clinical decision support.
Imaging systems, infusion pumps, and other connected medical devices can't be patched without voiding manufacturer warranties — leaving a soft, connected path for ransomware to reach life-support systems.
A single hardware-anchored security fabric that overlays existing clinical and IT infrastructure — no rip-and-replace.
A "digital quarantine" for legacy connected medical devices — isolating imaging systems, infusion pumps, and monitors from the general network without disrupting the care they deliver.
Quantum-safe encryption for data moving between facilities, clinics, and health information exchanges — protecting integrity and confidentiality in transit.
Post-quantum cryptography for patient records and genomic data that must remain confidential for decades, neutralizing the "harvest now, decrypt later" threat.
Hardware-secured mobile access for telemedicine and remote clinicians — protecting patient data on any network, including home Wi-Fi and public cellular.
One hardware-anchored architecture, overlaid on existing infrastructure — no changes to clinical applications.
Software-defined, peer-to-peer quantum-safe mesh. NIST post-quantum cryptography with autonomous key rotation, self-healing routing, and cryptographic data provenance.
Plug-and-play hardware edge node that isolates and encrypts legacy connected medical devices — agentless, warranty-safe, and invisible to attackers.
Hardware-secured mobile communications for clinicians and field teams — isolating device radios through a quantum-encrypted tunnel.
A deeper look at the threat landscape, architecture, use cases, and a low-risk pilot path.