AI-Powered Blood Bag Conservation

Monitor Blood Bag
Conservation in Real Time

Track glucose depletion, ATP decline, and metabolic drift throughout storage. Detect quality changes before they become critical with RBC metabolic modeling and AI-assisted alerting.

Create free account Schedule a demo
Unit #RBC-2026-0342Day 18 / 42CPD-SAGM4°C
Attention needed

Glucose

2.8 mM

↓ 44%

ATP

1.2 mM

↓ 28%

Lactate

18.4 mM

↑ 312%

2,3-BPG

2.1 mM

↓ 53%

RoBoCop AI Alert

Glucose depletion approaching critical threshold. ATP decline rate exceeds baseline by 1.8×. Consider reviewing storage conditions for this unit.

How it works

Follow every blood bag from storage to decision

A researcher stores a blood unit. airbc continuously tracks metabolic state, surfaces AI-generated insights, and enables remote follow-up from any device.

01

Quantify

Run extracellular metabolite analysis on your stored blood units to establish baseline concentrations and generate the input data the platform needs.

02

Store & Simulate

Configure a storage scenario and run mechanistic simulations to predict how metabolite concentrations evolve over the full 42-day storage window.

03

Monitor & Alert

The platform continuously tracks key indicators — glucose, ATP, lactate, 2,3-BPG — and RoBoCop AI flags meaningful shifts before they become critical.

04

Act & Follow Up

Review AI summaries from the web platform or receive updates on your phone through secure messaging workflows for remote oversight.

Platform capabilities

Everything you need for RBC storage research

Mechanistic Simulation

Run ODE-based simulations of ~200 reactions across 8 metabolic pathways over configurable storage horizons.

Conservation Monitoring

Track glucose depletion, ATP decline, lactate accumulation, and redox state changes throughout storage.

AI-Assisted Alerts

RoBoCop AI interprets trajectory data, surfaces quality signals, and generates actionable summaries.

Pathway Interpretation

Explore the metabolic network structure and understand how storage affects glycolysis, PPP, and nucleotide metabolism.

AI + Remote supervision

Monitor from anywhere.
AI keeps you informed.

RoBoCop AI monitors your stored units in real time, generates quality summaries when metabolic indicators shift, and delivers actionable alerts — to the web dashboard or through planned secure messaging workflows on your phone.

AI-generated quality summaries when key metabolites shift
Automated alerts on glucose depletion, ATP decline, and lactate rise
Planned mobile follow-up via secure messaging (Telegram, WhatsApp)
Remote oversight without being tied to the lab desktop
Secure messaging preview

RoBoCop

Unit RBC-0342 alert: glucose dropped to 2.1 mM (day 21). ATP at 0.9 mM. Recommend reviewing storage conditions.

14:23

Show me the full trajectory comparison for this unit.

14:25

RoBoCop

Here is the 21-day metabolites monitoring. Lactate accumulation confirms increased glycolytic stress. Full report available on the dashboard.

21-Day Metabolite Monitoring
D0D7D14D21mMGLC ↓LAC ↑ATP ↓BPG ↓

14:25

Why it matters

Grounded in mechanistic RBC research

Built on the Bordbar et al. (2015) whole-cell kinetic reconstruction of red blood cell metabolism. airbc models the storage lesion — the progressive metabolic deterioration that affects transfusion quality — and helps researchers detect meaningful shifts before they compromise the stored unit.

113

Metabolites tracked

42

Day storage horizon

~200

Reactions modeled

Start monitoring your stored blood units

Join researchers and blood banking teams using airbc to follow RBC conservation with AI-assisted precision.

Create free account Sign in Book a demo