Connective tissue polarity. Optical second-harmonic microscopy, crossed-beam summation, and small-angle scattering in rat-tail tendon.

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Connective tissue polarity. Optical second-harmonic microscopy, crossed-beam summation, and small-angle scattering in rat-tail tendon.

I Freund, M Deutsch and A Sprecher

ABSTRACT

Connective tissue polarity has remained an intractable enigmafor over two decades. We present new data on optical secondharmonic generation in native, wet, rat-tail tendon. Scanningsecond-harmonic microscopy has revealed, for the first time,the existence of a discrete network of fine, polar, filamentousor columnar, structures, and, also, the presence of stronglypolar surface, or near-surface patches. The thickness of thesefeatures was probed via crossed-beam optical frequency summationand the polar material is estimated to occupy a few percentof the tendon volume. The three-dimensional spatial distributionof filaments was studied with the aid of small-angle second-harmonicscattering, and the filaments were found to permeate the tendoncross-section in an apparently random fashion. These lattermeasurements also revealed that essentially all polar filamentshad the same directionality. Concomitant studies of the polarcollagen fibrils that comprise the bulk of tendon were in fullaccord with prior electron microscope results that had demonstratedthat the directionality of these fibrils varies up/down in apurely random fashion, and thus cannot yield a net macroscopicpolarity. Quantitative analysis of the second-harmonic datayields the conclusion that the observed polar structures cannotbe simply local regions containing some accidental net excessof similarly oriented fibrils. The analytical expressions usedin the analysis of the data obtained for this complex tissuewere supported by extensive, realistic computer simulations.The discovery that the polarity of rat-tail tendon, and possiblyother forms of connective tissue, resides in discrete structures,some of which are located near the tendon surface, should permitthe ready isolation of polar-rich material for further studyby a variety of techniques.

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