Abstract
In this study, we investigated the validity of photoacoustic (PA) measurement for monitoring granulation tissue and hence adhesion of grafted artificial dermis (AD). A 2.5 cm x 2.5 cm, 3-mm-thick AD composed of an atelocollagen sponge sheet and a silicone film was grafted on a full-thickness open wound in rat dorsal skin. The grafted AD was irradiated with low-energy, 532-nm nanosecond laser pulses to photoacoustically excite blood in neovascularities, and the PA signals induced were measured using a piezoelectric transducer as a function of postgrafting time. The PA signals were compared with results of laser Doppler imaging and histological analysis. We found a significant correlation between the depths of the first or shallowest PA signal peaks and the depths of granulation tissues estimated from histology with hematoxylin & eosin staining (R=0.951, p<0.05). There was also a significant correlation between the amplitudes of the first PA signal peaks and densities of CD31-positive cells evaluated from histology with immunohistochemical staining (R=0.859, p<0.05). With laser Doppler imaging, no clear perfusion signals were observed, which is attributable to a high light scattering loss in ADs. These findings suggest the validity of PA measurement for monitoring the adhesion of grafted ADs.
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