Diagnosis, analysis

Blood analysis with optical fiber-assemblies

Performing blood analysis using specific optical fiber assemblies.

The challenge
Medical instrumentation requiring high reliability with a large number of channels. Any error of mapping is not allowed!

Major constraints

  • optical fibers must be coherently mapped with high accuracy and uniformity
  • the solution must be compatible with broad spectral range spectrometers

SEDI-ATI solution

  • implementation of assembly solutions and manufacturing processes tailored to customer specifications
  • a wide range of optical fibers from solarization resistant to very wide band

Advantages of the SEDI-ATI solution
SEDI-ATI adapts to customer’s requests and offers customer-specific designs.

Blood analysis with optical fiber-assemblies

SEDI-ATI designs customer-specific fiber-assembly solutions for blood analysis applications using fluorescence spectroscopy.

Blood tests can help detect potential health disorders and diagnose diseases.

Fiber optics are ideal to perform fluorescence spectroscopy analysis. They allow to illuminate a sample of blood at a defined wavelength, and to collect the fluorescence emitted as a reaction to the excitation caused by the incoming light. The emitted fluorescence is relevant of the composition of the target, which allows to identify the nature of the target.

SEDI-ATI has been involved in this field for decades. We supply industry leaders with fiber optic assemblies based on customer specifications.

These fibre assemblies can be octopuses consisting of a coherent or non-coherent arrangement of several fibres arranged in a linear, circular or matrix fashion at one end of the octopus, and a fanout of several individual fibres at the other end. There are then as many samples that can be tested simultaneously as there are channels (legs) available on the octopus.

In the case of a spectrometric analysis, all the fibers are arranged in a coherent and linear pattern to be aligned with the spectrophotometer entrance slit.

Such arrangements can include fibers with core diameters ranging from 50 µm to 1000 µm and lengths up to 20 m.