Following recent theoretical developments of the radiative transfer theory of elastic waves, we propose to use the ratio R of energies of curl and divergence part of the ground displacement to distinguish between the different possible dominant scattering regimes in the lithosphere. A consequence of the diffusion regime is the partitioning of the energy between different vibrational modes, which is independent of time. It results in the stabilization of R. This behavior is not expected if low-order diffraction (such as single scattering) is dominant. We apply our technique to seismograms recorded by a small-aperture seismic array operated during June-August 1997 in Guerrero (Mexico). We estimate the energy ratio R in the coda of 13 earthquakes recorded by the array. We find it to be very stable in the coda window, while the energy level itself changes by several orders of magnitude. The value of R is 7 ע 1, independent of the earthquake location and the magnitude. The observed stabilization of R is a strong indication of the diffusive regime of the seismic coda.
Irradiation impacts on the viability and differentiation capacity of tissue-borne mesenchymal stem cells (MSC), which play a pivotal role in bone regeneration. As a consequence of radiotherapy, bones may develop osteoradionecrosis. When irradiating human bone-derived MSC in vitro with increasing doses, the cells’ self-renewal capabilities were greatly reduced. Mitotically stalled cells were still capable of differentiating into osteoblasts and pre-adipocytes. As a large animal model comparable to the clinical situation, pig mandibles were subjected to fractionized radiation of 2 χ 9 Gy within 1 week. This treatment mimics that of a standardized clinical treatment regimen of head and neck cancer patients irradiated 30 χ 2 Gy. In the pig model, fractures which had been irradiated, showed delayed osseous healing. When isolating MSC at different time points post-irradiation, no significant changes regarding proliferation capacity and osteogenic differentiation potential became apparent. Therefore, pig mandibles were irradiated with a single dose of either 9 or 18 Gy in vivo, and MSC were isolated immediately afterwards. No significant differences between the untreated and 9 Gy irradiated bone with respect to proliferation and osteogenic differentiation were unveiled. Yet, cells isolated from 18 Gy irradiated specimens exhibited a reduced osteogenic differentiation capacity, and during the first 2 weeks proliferation rates were greatly diminished. Thereafter, cells recovered and showed normal proliferation behaviour. These findings imply that MSC can effectively cope with irradiation up to high doses in vivo. This finding should thus be implemented in future therapeutic concepts to protect regenerating tissue from radiation consequences.
Regeneration, tissue remodeling, and organ repair after injury, which rely on the regulated activity of tissue-borne stem cells, become increasingly compromised with advancing age. Mesenchymal stroma cells were isolated from bone of differently aged healthy donors. The rare population of mesenchymal stem cells (MSCs) contained in the primary cell isolates barely declined in number, yet the stem cells displayed diminished long-term proliferation potential relative to the donor age and the expression of vascular cell adhesion molecule-1 (VCAM-1; CD106) was elevated on primary MSCs. In CD106(bright) MSCs, the abundance of a panel of stemness transcription factors remained unchanged. Because the CD106 level could be further enhanced by proinflammatory cytokines, we considered the rate of VCAM-1 expression to be a good reflection of an endogenous inflammatory milieu to which the MSCs are exposed. Treatment of MSCs with increasing doses of interferon-γ exerted no immediate influence on their self-renewal capacity. However, it impacted on the differentiation potential toward the adipogenic or osteogenic lineage. Moderately elevated levels of inflammatory stimuli supported osteoblastogenesis whereas the same treatment reduced adipogenic differentiation in MSCs from young and intermediately aged donors. In MSCs from elderly donors, however, osteoblastogenesis was greatly diminished in an inflammatory environment whereas adipogenic differentiation remained unchanged. Conclusively, moderate levels of inflammatory stimuli are being interpreted by MSCs at a young age as instructive signals for osteoblastogenesis, whereas at old age, an inflammatory milieu may effectively suppress bone remodeling and repair by tissue-borne MSCs while uninterrupted adipogenic differentiation may lead to adipose upgrowth.
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