Controlled Fibrous Architecture
Structures with tunable morphology and structural features.
Scientific design for living systems
Advanced 3D structures for living systems.
We design and develop innovative platforms inspired by biomaterials, electrospinning, and tissue engineering to support research and biomedical innovation.
About Us
About SpinCulture
At SpinCulture, our mission is to help move cell culture beyond traditional 2D systems and make 3D culture more accessible, scalable, and affordable. More importantly, we aim to establish the SpinCulture concept: a new approach to cell culture built around electrospinning-based technologies and fibrous 3D environments that better reflect physiological conditions.
Our work began with the goal of developing improved cancer models and supporting future drug screening with patient-derived cells. Over time, we have shown that cells cultured on our scaffolds behave in a more physiologically relevant way, highlighting the value of this platform as an intermediate step between conventional 2D culture and animal models. Today, our vision is to expand SpinCulture across many different cell culture applications, helping drive more predictive, ethical, and widely accessible research.
Vision
A new step in cell culture: SpinCulture.
SpinCulture is conceived as a bridge between conventional 2D culture and more complex biological models, enabling more relevant, scalable, and accessible in vitro research environments.
Approach
Focus
Goal
Impact
Technology
What we do
SpinCulture's technology is based on electrospinning as a platform for generating advanced fibrous structures for applications in bioengineering and biomedical research.
Electrospinning is a manufacturing technology that enables the production of ultrafine fibers from polymer-based materials. It enables us to generate structures with high surface area and controllable morphology, making it interesting for advanced cell culture systems.
Our technology is focused on a novel electrospinning machine which allows the design of structures that provide a microenvironment aligned with the needs of each application, with particular attention to architecture, reproducibility, and functional performance.
Key advantages
High Surface Area
Designed to provide a large interaction area for advanced applications.
Material Versatility
Compatible with different materials and application-driven design needs.
Customizable Solutions
Structures can be tailored in composition, architecture and function depending on the target application.
Applications
Advanced Cell Culture
Fibrous structures designed to support more representative and functional cell culture environments.
Validated Across Cell Models
Our platform has been validated across different cell lines, enabling the development of in vitro models for breast and lung cancer, adipocytes, hepatoma, etc.
Drug Screening Support
Engineered systems that can contribute to more reliable preclinical testing environments.
Customizable R&D Platforms
Flexible solutions designed to support customizable studies for validation, testing, and applied bioengineering research.
Services
Services tailored to your research and development needs
At SpinCulture, we provide development services based on electrospun fibrous platforms for bioengineering, advanced cell culture, drug delivery, environmental applications, and customized in vitro studies.
We work with researchers, innovators, and companies seeking representative, adaptable, and application-oriented fibrous systems. Our experience includes the development of electrospun membranes for heavy metal capture, drug delivery systems, and cell-related applications, allowing us to approach each project with a broad and versatile perspective.
Because electrospinning enables the creation of specific, complex, and reproducible geometries, our technology can be adapted to a wide range of needs wherever controlled fibrous architectures can add value.
How can we help you?
Flexible entry points for teams looking to build, validate, or scale advanced electrospun solutions.
Choose the level of support that best matches your research stage, from early technical conversations to tailored development partnerships.
Core Support
Technology consultation
Electrospun platform design
In vitro model development
Drug delivery system design
Functional membrane development
Customized studies and validation
Collaboration Path
Tailored R&D collaborations
A stronger partnership model for teams who need a more customized route, combining scientific alignment, application design, and project-specific development.
Startup-ready support
Products
Product section coming soon
This area is intentionally reserved for future product definitions, prototypes, and structured offers.
Once products are defined, this section can host catalog cards, scientific platform summaries, downloadable materials, or direct links to individual product pages.
Team
The people behind SpinCulture3D
A multidisciplinary team combining biomedical engineering and biology to create meaningful tools for research and innovation.
BE
Team Member
Biomedical Engineer
Focused on the design and development of advanced biomedical structures, bridging fabrication strategies, translational thinking, and functional research applications.
BI
Team Member
Biologist
Bringing expertise in living systems, cellular environments, and biological relevance to ensure each platform is grounded in real scientific and experimental needs.
News
Latest updates from SpinCulture
Discover milestones, events, and activities that connect SpinCulture with the broader innovation and research ecosystem.
Contact
Let's build something meaningful together
We are shaping the first version of SpinCulture3D. Get in touch to explore ideas, collaborations, or future opportunities.