Patch

A wearable patch for vital signal monitoring and pain free capillar blood extraction.

Aion

Aion total analysis system, a modular, future-ready total analysis system integrating multiple physical domains.

SiP

Our main product: compact, interchangeable, analytical subsystem exploiting state-of-the-art fluidic actuation, FET-based detection mechanism, and low power, low noise ASIC integrated into a multiphysic SiP (system in package).

Developing a wearable patch designed to monitor vital signals, coupled with a state of the art capillary blood extraction mechanism.

Extraction layer

A wearable device for pain free capillary blood extraction through micro-needles.

Sensors

State-of-the-art integrated photonics for high-performance optical sensors for various health and dynamic metrics.

Integrated microfluidic

A reliable microfluidic system able to manipulate with high control the biological samples.

Low power IC

The heart of our device lies in a low-power ASIC, ensuring a long-lasting battery and playing a crucial role in delivering reliable health insights.

Modularity means readiness, efficiency, sustainability

Build your own healthcare tracker by purchasing each module separately and personalize your analysis.

An innovative multi-physics system in package (SiP) realized in a fully microelectronic compatible micro-fabrication process. 

Integrating fluidic actuation, thermodynamic control, cutting-edge FET based sensing and low power low noise digital/analog electronic in a single platform. 

The current series

NUI

NUI: imbalances, inflammation, and potential risks monitoring.
Integrated biosensors:

  • pH: (Sensitivity = 60 mV/pH | Range = 2 ÷ 14)
  • CRP: (Sensitivity = 90.7 nA/(nM*cm^2) | LOD = 0.15 nM)
  • Electrolyte:
    — Calcium: Sensitivity = 26.55 mV/decade | LOD = 0.001 mM
    — Sodium: Sensitivity = 50.47 mV/pNa | LOD = 0.1 mM
    — Chloride: Sensitivity = 0.174 mA/(mM*cm^2) | LOD = 20 μM
    — Potassium: Sensitivity = 49.38 mV/pK | LOD = 0.1 mM

IWA

IWA: diabetes and cardiovascular system monitoring.

Integrated biosensors:

  • Glucose: Sensitivity = 0.127 μA/mM | LOD = 10 mM
  • Hemoglobin (HbA1c): Sensitivity = 13.18 μA /μM | LOD = 3.7 nM
  • Troponin: Sensitivity = 0.5 μA/mM| LOD = 8.0 pg/mL
  • Cholesterol: Sensitivity = 0.92 μA/(μM*cm^2) | LOD = 0.42 μM

AKO

AKO: liver functions and malnutrition monitoring.
Integrated biosensors:

  • Albumin: [Range = 0.1 ÷ 100 ng/mL]
    Sensitivity = 0.95 log(ng/mL)^-1 | LOD = 0.023 ng/mL
  • Bilirubine: [Range = 2 ÷ 162 μM]
    Sensitivity = 0.2 μA*(μM*cm^2)| | LOD = 0.42 μM

AHU

AHU: renal functions and metabolic disorders monitoring.
Integrated biosensors:

  • Creatinine: [Range = 0 ÷ 5 mM]
    Sensitivity = 6.85 mV/mM | LOD = 10 μM
  • BUN (urea): [Range = 0.1 ÷ 300 mM]
    Sensitivity = 8.92 μA/pC | LOD = 0.1 mM

An everyday-use medical laboratory in your living room

Thought for the people.

AION is the main matrix that incorporates multiple detection modules into a unified system.

It features independent thermal control, performing sensing and actuation autonomously, powered by an energy-efficient multi-core SoC.

Aion - Total Analysis System

User Interface

The user-friendly interface allows for the creation of a virtual assistant, building and monitoring your health profile.

All the analyses performed are stored and used to train the neural network for the development of your medical profile, maintaining user privacy as the main priority.

Module subsystems

Several different SiP modules can be inserted into AION, allowing the personalization of your analysis according to your biological needs.

The extraction patch is inserted into a dedicated module, enabling fully off-body analysis.

Fluidic Domain

Digital micro-fluidics interconnects will link the different modules with the capillary blood extraction patch.

Droplets of a few micro to nano-liters will be displaced by parallel actuation, allowing for simultaneous analysis.

PCB control electronics

A PCB empowers sample movement control and interfaces with the external world.

The low-power IC provides accurate control of the overall system, ensuring high performance with low consumption.

Thermal domain

Peltier cells integrated in the lowest layer of the analysis system allow for finely controlling the temperature in each module, creating a perfect environment for consistent data collection.

SIP

Each of our module can be purchased separately and serve the purpose of performing its own analysis.

Realized as a fully microelectronic compatible system in package (SiP) integrating multyphysics domains.

Fluidic actuation, thermodynamic control, FET sensing and integrated low power low noise digital/analog electronic.

Thermal Domain

PCB Domain

Microfluidic Domain

 

Blocks Domain

SIP

Modularity means readiness, efficiency, sustainability

Build your own healthcare traker, purchasing sepraterly each module.

An innovative multipsycis system in package (SiP) realized in a fully microelectronic compatible microfabrication process.

Integrating fluidic actuation, thermodynamic control, FET based sensing and low power low noise digital/analog electronic in a single platform.

AION

An everyday usage medical laboratory, in your living-room.

Tought for the people.

Aion is the main matrix incorporating multiple detection modules into a unified system.

Indipendednt thermal control, perform sensing and actuation autonomously powered by Arm Cortex-M multi-core SoC.

 

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