Evaluation of Therapeutic Tissue Crosslinking (TXL) for Myopia Using Second Harmonic Generation Signal Microscopy in Rabbit Sclera

Evaluation of Therapeutic Tissue Crosslinking (TXL) for Myopia Using Second Harmonic Generation Signal Microscopy in Rabbit Sclera

Second harmonic generation signals (SHG) are emitted preferentially from collagenous tissue structures and have been used to evaluate photochemically-induced (CXL) crosslinking changes in the cornea. Since therapeutic tissue crosslinking (TXL) using sodium hydroxymethylglycinate (SMG) of the sclera...

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Bibliographic Details
Published in:Investigative ophthalmology & visual science Vol. 58; no. 1; pp. 21 - 29
Main Authors: Zyablitskaya, Mariya, Takaoka, Anna, Munteanu, Emilia L, Nagasaki, Takayuki, Trokel, Stephen L, Paik, David C
Format: Journal Article
Language:English
Published: United States The Association for Research in Vision and Ophthalmology 01-01-2017
Subjects:
Animals
Collagen - metabolism
Cross-Linking Reagents - administration & dosage
Disease Models, Animal
Injections
Microscopy, Confocal
Multidisciplinary Ophthalmic Imaging
Myopia - diagnosis
Myopia - drug therapy
Myopia - metabolism
Rabbits
Sarcosine - administration & dosage
Sarcosine - analogs & derivatives
Sclera - drug effects
Sclera - pathology
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Summary:Second harmonic generation signals (SHG) are emitted preferentially from collagenous tissue structures and have been used to evaluate photochemically-induced (CXL) crosslinking changes in the cornea. Since therapeutic tissue crosslinking (TXL) using sodium hydroxymethylglycinate (SMG) of the sclera is a potential treatment for high myopia, we explored the use of SHG microscopy to evaluate the effects. Single sub-Tenon's (sT) injections (400 μL) using SMG (40-400 mM) were made at the equatorial 12 o'clock position of the right eye of cadaveric rabbit heads (n = 16 pairs). After 3.5 hours, confocal microscopy (CM) was performed using 860 nm two-photon excitation and 400 to 450 nm emission. Pixel density and fiber bundle "waviness" analyses were performed on the images. Crosslinking effects were confirmed using thermal denaturation (Tm) temperature. Comparison experiments with riboflavin photochemical crosslinking were done. Therapeutic tissue crosslinking localization studies indicated that crosslinking changes occurred at the site of injection and in adjacent sectors. Second harmonic generation signals revealed large fibrous collagenous bundled structures that displayed various degrees of waviness. Histogram analysis showed a nearly 6-fold signal increase in 400 mM SMG over 40 mM. This corresponded to a ΔTm = 13°C for 400 mM versus ΔTm = 4°C for 40 mM. Waviness analysis indicated increased fiber straightening as a result of SMG CXL. Second harmonic generation signal intensity and fiber bundle waviness is altered by scleral tissue crosslinking using SMG. These changes provide insights into the macromolecular changes that are induced by therapeutic crosslinking technology and may provide a method to evaluate connective tissue protein changes induced by scleral crosslinking therapies.
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ISSN:1552-5783
0146-0404
1552-5783
DOI:10.1167/iovs.16-20241