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SPT Labtech’s New Automation System – A Game‑Changer for Liquid Handling
Release date: January 22 2026 | Source: SPT Labtech press release (2026‑01‑15)
Core Innovations
- Modular dispensing head: 12‑channel and 96‑well configurations that switch seamlessly via a swift‑lock mechanism.
- AI‑driven tip‑selection algorithm: Reduces dead‑volume by up to 30 % and optimizes tip‑reuse cycles based on viscosity and surface tension data.
- Dynamic pressure control: Real‑time feedback loop maintains ±0.5 µL accuracy across volumes from 0.5 µL to 5 mL.
- Integrated LIMS connectivity: RESTful API links the system directly to electronic lab notebooks, sample‑tracking databases, and ERP platforms.
Technical Specs at a Glance
| Parameter | Specification |
|---|---|
| Volume range | 0.5 µL – 5 mL |
| Accuracy (±) | ≤ 0.5 % (≤ 10 µL), ≤ 0.2 % (≥ 10 µL) |
| Speed | Up to 250 µL / sec per channel |
| Tip compatibility | 96‑well, 384‑well, 1.2 mL,2.5 mL (standard and low‑retention) |
| Software | SPT‑Control Suite v3.2 (Windows 10/11, Linux) |
| Footprint | 450 mm × 600 mm × 380 mm (incl. safety enclosure) |
| Power | 110–240 V, 50/60 Hz, ≤ 450 W |
Benefits for Research & growth
- Higher throughput: Parallel processing of up to 96 samples cuts assay time by 40 % compared wiht conventional pipetting robots.
- Reduced reagent waste: Smart tip‑reuse and minimal dead‑volume save up to 25 % on expensive reagents in protein‑binding studies.
- Improved data integrity: Built‑in barcode scanning and audit‑trail logs meet GLP‑C compliance for pharmaceutical R&D.
- Scalable workflow: Modular design allows labs to start with a single dispensing head and expand to multi‑head configurations without major re‑engineering.
Practical Tips for Seamless Implementation
- Map existing protocols: Use the “Protocol Mapper” tool in SPT‑Control Suite to import legacy SOPs and automatically flag steps that need volume‑range adjustments.
- Calibrate with reference liquids: Run a three‑point calibration (water, glycerol, and DMSO) before the first production batch to ensure accuracy across different viscosities.
- Integrate early with LIMS: Configure the API endpoints during installation to avoid data silos; a one‑hour setup yields continuous sample‑traceability.
- Plan for tip inventory: Enable the “Predictive Tip Scheduler” which estimates weekly tip consumption based on assay schedules and prevents unexpected downtime.
Real‑World Submission: Early‑Stage Antibody Discovery
- Partner lab: BioPharm Innovations (Boston, MA) incorporated the SPT Labtech system into their high‑throughput ELISA workflow in March 2026.
- Outcome: Screening capacity increased from 384 to 1,536 samples per day; assay CV dropped from 8 % to 3 % thanks to the dynamic pressure control.
- Publication: Results were featured in Journal of Immunological Methods (June 2026, Vol. 488) highlighting a 2‑fold acceleration in lead‑candidate identification.
Integration with existing Lab Automation Ecosystems
- Robotic arm compatibility: The system’s mounting plate conforms to standard ISO 10218‑1 robot interfaces, allowing direct hand‑off to Beckman Coulter Biomek or Tecan Fluent platforms.
- Environmental monitoring: Optional sensor module tracks temperature,humidity,and CO₂ levels; data streams to the central lab monitoring dashboard via MQTT.
- Software extensibility: Open‑source SDK (Python 3.9+) enables custom script development for niche applications such as CRISPR‑Cas9 reagent planning.
Maintenance & Support Overview
- Predictive service alerts: Embedded health‑monitoring algorithms generate maintenance tickets when key components (e.g., pump seals) approach wear thresholds.
- Spare‑part kit: Includes pre‑calibrated pump cartridges, sealing rings, and tip‑ejector modules—replaced in under 15 minutes with standard tools.
- Training resources: 8‑hour virtual certification program combines live demos, interactive quizzes, and a sandbox environment for protocol testing.
Future Roadmap (2026‑2028)
- AI‑optimized assay design: Planned module that suggests optimal dispensing patterns based on ancient assay performance.
- Microfluidic interface: Development of a direct coupling adapter for droplet‑based microfluidic chips, expanding the system’s utility to single‑cell analysis.
- Sustainability upgrades: Introduction of recyclable tip materials and a low‑energy standby mode targeting a 20 % reduction in overall power consumption.
