NAM design and perfusion platforms
Develop and adapt advanced in vitro models that fit your biological question ,Context of Use and technical constraints. We design, customize, and refine Microphysiological Systems (MPS), Organ‑on‑Chip platforms, and other advanced in vitro models to ensure physiological relevance, usability, and reproducibility. From cell selection, platform choice and functionality readout!
Our approach begins with a deep understanding of your biological question, followed by systematic translation into engineering and experimental requirements. We support the full development cycle:
- Model conceptualization based on disease mechanisms, tissue physiology, or assay needs
- Cell selection, depending on your time lime, physiological releveance, experimental scale and future proof, we help to select your best option!
- Microfluidic and perfusion strategy design to ensure appropriate mechenical stimulation, nutrient delivery, and waste removal
- Material,Biomaterials and geometry selection for compatibility with cells, imaging, and downstream assays
- Integration of sensors, readouts, and sampling ports for real‑time or endpoint measurements
- Workflow adaptation to ensure the system fits seamlessly into your lab’s capabilities and throughput
- Validation and optimization to confirm stability, reproducibility, and biological relevance
Whether you’re building a custom disease model, adapting an existing OoC platform, or exploring NAMs for regulatory or translational applications, we help you create systems that are scientifically robust, technically feasible, and ready for adoption.
Biological validation of your technology
Translate your technology into meaningful biological impact with rigorous, independent validation. We help to design and execute experiments that demonstrate biological relevance, reproducibility, and performance of your device, assay, or platform—ensuring your innovation stands up to real‑world biological conditions and quick adaptation.
For engineering‑driven teams, biological adoption is often the bottleneck. Promising technologies stall when biological groups lack the time, expertise, or workflows to integrate new tools. Academic collaborations can be succesfull but often struggle with timely delivery and consistent follow‑up. We bridge that gap by converting technical potential into validated biological evidence that stakeholders can trust.
Our validation packages include:
- Biological feasibility studies to confirm that your technology interacts with cells, tissues, or models as intended
- Reproducibility and robustness testing across conditions, operators, or biological sources
- Performance benchmarking against conventional methods or gold‑standard assays
- Clear, decision‑ready validation reports suitable for internal R&D milestones, investor discussions, or early regulatory conversations
By aligning engineering precision with biological relevance, we help your technology move from prototype to adoption—faster, smoother, and with fewer surprises.
Technical implementation in biology laboratories
Bring new technologies into your lab quickly, confidently, and without disrupting ongoing research. We support biological teams in adopting advanced tools and platforms—even when internal expertise, time, or personnel are limited. From hands‑on setup to workflow integration, including Electronic Lab Journal and SOP development, we ensure that new technologies become usable, reliable parts of your daily operations.
Many promising tools never reach routine use because implementation requires engineering insight, troubleshooting capacity, or cross‑disciplinary coordination that biological teams aren’t resourced for. We bridge that gap by translating technical requirements into practical laboratory workflows that fit your assays, timelines, and scientific goals.
Our implementation support includes:
- On‑site or remote setup and optimization of devices, perfusion systems, imaging platforms, or microfluidic tools
- Workflow integration to ensure compatibility with existing assays, culture systems, and data pipelines
- Troubleshooting and refinement to stabilize performance and remove early bottlenecks
- Training and documentation so your team can operate the technology independently and reproducibly
We help biological groups adopt innovation efficiently—so new technologies enhance your science instead of slowing it down. If you’re preparing to introduce a new platform or tool, reach out to discuss how we can support a smooth, effective implementation.
Functional Assay Development & Data Analysis Pipelines
Develop functional readouts that truly capture the biology behind your model or technology. We design, optimize, and validate cellular, molecular, imaging, and physiological assays tailored to your disease model, platform, or device. Whether you need a robust viability readout, a mechanistic biomarker panel, or a high‑content imaging workflow, we ensure your assays are reproducible, sensitive, and aligned with your scientific goals.
On the data side, we build analysis pipelines that turn complex datasets into actionable insights. From imaging quantification and time‑series analysis to multi‑omics integration and high‑content screening, we create workflows that are transparent, scalable, and tailored to your experimental design. We provide statistical interpretation, quality control, and clear visualizations so your team can make confident, data‑driven decisions.
Our support helps you move from raw signals to meaningful biological conclusions—efficiently, reproducibly, and with the depth required for R&D milestones, publications, or regulatory conversations.
Interim Scientist and project leadership
Strengthen your team with flexible, hands‑on scientific support. Whether you need an interim scientist to keep experiments moving or a scientific lead to steer complex projects, we provide the expertise and stability required during transitions, vacancies, or periods of peak demand.
We integrate quickly into your workflows, taking ownership of experimental execution, project coordination, and milestone delivery. Our support helps maintain momentum, reduce pressure on existing staff, and ensure that critical work continues without interruption.
Our interim leadership services include:
- Hands‑on experimental support to keep R&D activities on track
- Project leadership and coordination to maintain clarity, timelines, and communication
- Team stabilization during restructuring, onboarding, or rapid growth
- Technical and scientific oversight to ensure quality, reproducibility, and strategic alignment
- Bridge‑role support while you recruit permanent staff or scale capacity
We help your team stay productive and focused—so your projects progress smoothly, even when resources are stretched.
Expert consultations and scientific reviews
Accelerate your R&D with targeted, interdisciplinary input. Book a focused session for independent assessment, experimental design review, technical or scientific due diligence, or strategic advice tailored to your development stage.
Whether you’re validating a prototype, refining a disease model, or preparing for investor or regulatory review, we help you ask the right questions early, before resources are committed and optimizations become premature.
Our consultations lower the threshold for accessing deep scientific expertise. We help you avoid common pitfalls, align milestones across engineering and biology teams, and make confident decisions grounded in biological relevance and technical feasibility.
We support a broad range of life science and biotech domains—from Organ-on-Chip and regenerative medicine to imaging, bioinformatics, and assay development. Reach out today to discuss your challenge and receive a tailored proposal.
Managing Industry–Academic Collaboration
Turn interdisciplinary partnerships into productive, goal‑driven collaborations. We help align academic curiosity with industrial timelines, ensuring that both sides contribute their strengths without losing momentum or scientific depth. By mediating expectations, translating priorities, and structuring communication, we create a shared pathway that leads to meaningful, synergistic output.
Academic groups excel at exploration and mechanistic insight, while industry focuses on deliverables, milestones, and reproducibility. These differences often lead to delays, misaligned expectations, or over‑engineered solutions that don’t address the real biological bottleneck. We bridge that gap by establishing clear frameworks, defining realistic milestones, and ensuring that both scientific rigor and practical feasibility are maintained.
Our collaboration support includes:
- Milestone alignment that respects academic discovery cycles and industrial development needs
- Technical and scientific translation to ensure both sides understand constraints, assumptions, and priorities
- Structured communication workflows that prevent drift and keep projects on track
- Independent review and mediation to resolve bottlenecks before they impact timelines
- Documentation and reporting suitable for grants, consortia, and internal R&D governance
We help partnerships move from good intentions to measurable progress—so interdisciplinary innovation becomes a strength, not a hurdle.
Fields of expertise
Organ on Chip; Microphysiological Systems; Live 3D Microscopy; Regenerative Medicine; Tissue Engineering; In Vitro Disease Modelling; Vascular Biology; (Stem) Cell Biology; Biomaterials; 3D Bioprinting; Microfluidics; Lab on Chip; Microfabrication; Biofabrication; Process Development; Molecular Biology; Bioinformatics; Multi‑Omics Profiling; Analytical Methods.
