Coherent Anti-Stokes Raman Scattering Imaging of Axonal Myelin in Live Spinal Tissues

¹ Purdue University

^* To whom correspondence should be addressed. E-mail: jcheng{at}purdue.edu.

Submitted on February 24, 2005
Revised on March 24, 2005
Accepted on 11 April 2005

	Abstract

We present a vibrational imaging study of axonal myelin under physiological conditions by laser-scanning coherent anti-Stokes Raman scattering (CARS) microscopy. We use spinal cord white matter strips which are isolated from guinea pigs and kept alive in oxygen bubbled Krebs' solution. Both forward- and epi-detected CARS are used to probe the parallel axons in the spinal tissue with a high vibrational contrast. With the CARS signal from CH₂ vibration, we have measured the ordering degree and the spectral profile of myelin lipids. Via comparison with the ordering degrees of lipids in myelin figures formed of controlled lipid composition, we show that the majority of the myelin membrane is in the liquid ordered phase. By measuring the myelin thickness and axon diameter, the value of g ratio is determined to be 0.68 with forward- and 0.63 with epi-detected CARS. Detailed structures of the node of Ranvier and Schmidt-Lanterman incisure are resolved. We have also visualized the ordering of water molecules between adjacent bilayers inside the myelin. Our observations provide new insights into myelin organization, complementary to the knowledge from light and electron microscopy studies of fixed and dehydrated tissues. In addition, we have demonstrated simultaneous CARS imaging of myelin and two-photon excitation fluorescence imaging of intra- and extra-axonal Ca²⁺. The current work opens up a new approach to the study of spinal cord injury and demyelinating diseases.

Key Words: CARS microscopy, myelin sheath, neuron imaging, spinal cord, vibrational imaging

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