Multi-layer phantoms are thin phantoms stackable in order to mimic the layered structured of human tissues
Embark on a journey of scientific exploration with our Multi-layer phantoms – ingeniously designed to replicate the multi-layered composition of biological tissues. These remarkable tools provide a window into the complexities of nature, enabling systematic assessments that unravel the influence of individual layer parameters on optical properties and system performance.
Why choose multi-layer phantoms
- Heterogeneous mimicry: Immerse yourself in the heterogeneous nature of biological tissue layers, allowing you to meticulously replicate real-world scenarios
for unparalleled assessments.
- Systematic Parameter Analysis: Explore the effect of each layer’s parameters on measured optical properties and system
behavior, fostering a comprehensive understanding of your instrument’s performance.
- Tailored Assessment Protocols: Craft well-defined assessment protocols customized to your application’s unique requirements,
ensuring precise evaluations that align with your research goals.
- Incorporating the best practices: Leverage the principles of protocols like
MEDPHOT, tailoring them to multi-layer phantoms and harnessing established methodologies for robust and reliable assessments.
- Dynamic layer structure: Select from two options: a static multi-layer structure with layers firmly fixed in place, or a dynamic structure allowing for layer removal and reconfiguration after measurements. Flexibility tailored to your experimental needs.
KEY FEATURES
Layer Thickness Precision
Experience layer thickness as minute as 100 µm, allowing for meticulous emulation of even the finest tissue layers.
Geometry and Dimension Variety
Choose from an array of geometries and dimensions, accommodating your experimental setups with unmatched flexibility.
Tailored Wavelength Characterization
Spanning from 450 to 1050 nm, our phantoms empower you to explore optical properties across a broad spectral range, driving comprehensive assessments.
Perfectly Stackable Layers
Our proprietary technology ensures that layers are flawlessly stackable with no air gaps between them. This design precision guarantees consistent and accurate multi-layer configurations.
Reproducible TDDO Characterization
Rely on reproducible, coupling-free Time-domain Diffuse Optical (TDDO) characterizations, ensuring consistent and reliable measurements.
Traceability and Benchmarking
Access traceable datasheets that elevate your measurement confidence and enable seamless sharing and benchmarking of your research within our community of traceable customers.
Unleash the potential of multi-layer assessments with our advanced Multi-layer phantoms. Seamlessly integrate the complexity of biological tissue into your research and development endeavors!
When precision and reliability are paramount, trust in our multi-layer phantoms to guide you towards groundbreaking discoveries. If your research takes a unique path, reach out to us, and let’s design a custom solution that aligns perfectly with your needs!
APPLICATIONS
Unveil the endless potential of Multi-layer phantoms
Neurological Studies: Dive into the complexities of the human brain, using our multi-layer phantoms to simulate the intricate tissue layers from scalp to brain, revolutionizing neuroimaging research and diagnostics, as well as cognitive science research.
Dermatological Investigations: Unlock insights into skin health and pathologies by mimicking the layers of human skin, enhancing optical diagnostic tools for dermatological conditions.
Optical Coherence Tomography Research: Dive into the complexities of optical tomography research, using our phantoms to explore the impact of different layer characteristics on imaging quality and instrument accuracy.
Gastrointestinal Exploration: Unveil the complexities of the digestive system by emulating the layers of the stomach, intestines, and more, enhancing your understanding of gastrointestinal diseases.
Biomedical Imaging Calibration: Calibrate and fine-tune your biomedical imaging instruments using phantoms that precisely replicate multi-layer tissue structures, ensuring reliable and accurate measurements.
Medical Device Development: Elevate the precision of medical device development, enabling to systematically assess how each layer parameter impacts system performance and optical properties.
Disease Diagnosis Modeling: Create accurate disease diagnosis models by mimicking tissue heterogeneity with our multi-layer phantoms, advancing the accuracy of optical diagnostic tools.
Clinical Training Enhancement: Elevate professional training in clinical environments by offering realistic, multi-layer phantoms that replicate human tissue complexities. Trainees can gain hands-on experience in a controlled setting, enhancing their skills and confidence in various medical procedures.