Cell Dry Thawer

Cell Dry ThawerPrecision Dry-Block Cell Recovery System The Bocheng Cell Dry Thawer employs proprietary dry-block temperature control combined with integrated infrared thermographic monitoring to deliver rapid, waterless cell recovery. An AI-driven thermal algorithm optimizes the thaw curve in real time, achieving superior post-thaw viability compared with conventional water-bath methods. The system supports cell therapy manufacturing, stem cell research, biobanking, and clinical bedside use. Six Key Features▸ Infrared Thermographic MonitoringBuilt-in thermal imaging sensor continuously maps the temperature distribution across all sample positions, detecting partial thaw states and preventing localized overheating.▸ Waterless Dry-Block TechnologyMetal conduction blocks eliminate water-bath contamination risks entirely. No liquid media required — simplified cleaning and zero cross-contamination.▸ AI Adaptive Temperature ControlDeep-learning thermal model auto-generates an optimized ramp profile based on sample volume and initial temperature, ensuring recovery within the ideal thaw window.▸ Full Data TraceabilityTemperature, time, and operator data are logged continuously and exported via USB or network — compliant with GMP, FDA 21 CFR Part 11, and ICH Q10.▸ Touchless Safe OperationFully enclosed chamber design prevents direct contact with cryogenic samples or heated blocks, protecting both personnel and cell viability.▸ Intuitive 7-inch TouchscreenHigh-resolution colour display shows live thaw curves and thermal maps. Multi-language UI; programmable protocols stored per sample type.   Standard Thawing Workflow01  Step 1 — Retrieve SampleRemove the cryovial or bag from liquid nitrogen or −80 °C storage. Verify label identity.02  Step 2 — Load SampleInsert the cryovial into the designated port. Confirm seating and block contact.03  Step 3 — Select ProtocolChoose the sample type and thaw program on the touchscreen. Confirm start temperature.04  Step 4 — Initiate ThawPress Start. The AI controller executes the optimized ramp profile automatically.05  Step 5 — Transfer CellsAudible alert signals completion. Immediately transfer cells to medium for downstream use.  Post-Thaw Viability ComparisonBocheng Dry Thawer99.91%Mean Post-Thaw Viabilityn=50, CD34⁺ HSCsConventional Water Bath99.83%Mean Post-Thaw ViabilityMatched sample cohortData source: Bocheng Internal Validation Report, 2025. Viability measured by trypan blue exclusion. Sample: CD34⁺ haematopoietic stem cells. Product SpecificationsFour model variants are available to accommodate different throughput requirements, from single-bench research laboratories to high-volume GMP cell therapy facilities.  ParameterBC-DT02 (2-Port)BC-DT04 (4-Port)BC-DT06 (6-Port)BC-DTB (Bag Type)Compatible Container2 mL cryovials2 mL cryovials2 mL cryovialsCryo bags 50–250 mLThroughput (per run)2461 bagTemperature Range−10 to +45 °C−10 to +45 °C−10 to +45 °C−10 to +40 °CTemperature Accuracy±0.1 °C±0.1 °C±0.1 °C±0.2 °CHeating Rate1–20 °C/min adjustable1–20 °C/min adjustable1–20 °C/min adjustable1–15 °C/min adjustableThermal Imaging Res.160 × 120 px160 × 120 px160 × 120 px320 × 240 pxDisplay7" colour touch7" colour touch7" colour touch10" colour touchData InterfaceUSB / RS-232USB / RS-232USB / RS-232 / NetworkUSB / NetworkPower SupplyAC 100–240 V 50/60 HzAC 100–240 V 50/60 HzAC 100–240 V 50/60 HzAC 100–240 V 50/60 HzRated Power120 W180 W240 W300 WDimensions (mm)200×160×140280×180×140350×180×140400×280×180Weightapprox. 3.5 kgapprox. 4.8 kgapprox. 6.2 kgapprox. 8.5 kgCertificationsCE / ISO 13485CE / ISO 13485CE / ISO 13485CE / ISO 13485   Model Selection GuideBC-DT02 (2-Port) — Ideal for low-throughput research labs and clinical bedside recovery.BC-DT04 (4-Port) — Suited to mid-volume cell laboratories and clinical collection centres.BC-DT06 (6-Port) — Designed for high-throughput GMP cell manufacturing suites.BC-DTB (Bag Type) — Purpose-built for large-volume cryobags in CAR-T and large-scale cell therapy workflows; features enhanced thermal resolution. Application Areas▸ Cell TherapySupports standardised recovery of CAR-T, NK, and TCR-T cell products under GMP-compliant conditions. Compatible with regulatory audit documentation workflows.▸ Stem Cell ResearchValidated for haematopoietic stem cells (HSCs), mesenchymal stem cells (MSCs), and induced pluripotent stem cells (iPSCs).▸ BiobankingEnables reproducible batch recovery across large-scale sample repositories. Full traceability ensures consistent sample quality.▸ Reproductive MedicineApplicable to cryopreserved sperm, oocytes, and embryo recovery with high precision and continuous process monitoring.▸ Drug Discovery & ToxicologySupports rapid, standardised recovery of cell lines such as CHO and HEK293, improving assay reproducibility and screening throughput.▸ Clinical InfusionCompact footprint enables deployment in infusion suites for immediate post-thaw administration, minimising ex vivo time.  Service & Technical SupportInstall

jiangying@sh-biochem.com