Anthropomorphic phantoms are phantoms that mimic not only optical properties of tissues, but also their anatomical features.
Experience innovation on a whole new level with our Anthropomorphic phantoms – meticulously designed to bridge the gap between optical precision and anatomical realism. Going beyond mere optical properties, these phantoms replicate not only the optical complexity of tissues but also the anatomical features crucial for developing different types of biophotonics devices, including portable and wearable ones.
Why choose anthropomorphic phantoms
- Realistic Validation: Test your biophotonics devices with confidence by validating them on phantoms that mirror realistic
anatomical features. From fNIRS head caps to pulse oximeters, our phantoms enable you to understand boundary effects, coupling behavior, and system bias.
- Exact Anatomical Reproduction: Our anthropomorphic phantoms are crafted using MRI and CT scans, ensuring the reproduction
of precise anatomical features alongside optical properties. Dive into simulations and validations with unparalleled accuracy.
Specific for head phantoms:
- Off-the-Shelf Availability: Choose from our readily available head phantoms, expediting your testing process without compromising on accuracy.
- Customizable Options: Tailor head phantoms for adults and babies, addressing diverse testing needs and scenarios.
- Standalone Stand: Facilitate measurements with ease using the provided stand, ensuring accurate phantom positioning.
KEY FEATURES
Customized Anthropomorphic Phantoms
Tailor-made from CT/MRI scans or standard atlases, our phantoms replicate the uniqueness of human anatomy, providing an unmatched testing environment.
Layer Thickness Precision
With layer thickness as small as 100 µm, our phantoms enable you to emulate even the finest tissue layers, guaranteeing realistic assessments.
Customized Wavelength Characterization
Spanning from 480 to 1050 nm, our phantoms empower you to explore optical properties across a broad spectral range, enhancing the depth of your assessments.
Multi-layer Anthropomorphic features
Possibility to incorporate multi-layer anthropomorphic features, allowing for comprehensive simulations that mirror complex anatomical structures.
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 bolster your measurement confidence and facilitate seamless sharing and benchmarking within our community of traceable customers.
Unleash the potential of anthropomorphic realism with our advanced Anthropomorphic Phantoms. Revolutionize the development of biophotonics devices by combining optical precision with anatomical fidelity!
Experience customization, reliability, and innovation with our Anthropomorphic Phantoms. If your research demands the pinnacle of anatomical realism, connect with us to craft a solution that aligns perfectly with your research aspirations!
APPLICATIONS
Experience the boundless applications of Anthropomorphic phantoms
fNIRS Device Development: Elevate the precision of functional near-infrared spectroscopy (fNIRS) device development by testing on phantoms that mirror the realistic anatomical features of the human head, enhancing boundary effect assessments and coupling behavior simulations.
Pulse Oxymetry innovations: Validate pulse oximeters with unprecedented accuracy by using anthropomorphic phantoms to emulate not only tissue optical properties but also anatomical features, ensuring reliable performance assessments.
Neuroimaging Advancements: Revolutionize neuroimaging research with phantoms that replicate the intricate anatomy of the brain, enabling detailed simulations and validations for enhanced imaging techniques.
Clinical Device Validation: Empower the validation of wearable clinical devices by testing on phantoms that faithfully reproduce human anatomical structures, accounting for inherent biases and boundary effects.
Pediatric Medical Solutions: Tailor phantoms for both adults and babies, advancing pediatric medical device research and innovation with anatomically accurate testing scenarios.
Functional Studies Enhancement: Elevate functional studies by incorporating anatomically realistic phantoms, enabling comprehensive investigations into physiological responses and device interactions.
Professional Training in Clinical Environments: Enhance professional training in clinical environments by offering realistic anatomical phantoms for hands-on practice. Medical professionals can gain invaluable experience in a controlled setting, improving their skills and confidence in various medical procedures.