1 Analysis of Raman spectra (Fig  3) revealed that the resolvable

1 Analysis of Raman spectra (Fig. 3) revealed that the resolvable

mineral factor was of a carbonated apatite almost identical to what was reported by Tarnowski et al. [22] (PO 4 3− ν1, 959 cm−1; PO 4 3− NU7441 mouse ν4, 580 cm−1; CO 3 2− ν1, 1,072 cm−1), and the matrix factor was of a collagenous protein (amide I, 1,666 cm−1; amide III, 1,242 and 1,269 cm−1; CH2 wag, 1,450 cm−1; hydroxyproline, 855 and 878 cm−1; proline, 919 cm−1; HPO 4 2− , 1,005 cm−1; data not shown). While mineral properties such as the crystallinity were unchanged in all groups throughout the 16-week experiment, the cortical mineral to matrix ratio measured by PO 4 3− ν1/amide I was selleck inhibitor significantly lower, and Hypro/Pro ratio was significantly higher only in OVX-K at 8 weeks than the OVX controls. At 16 weeks, the PO 4 3− ν1/amide I ratio significantly increased in K to WO alone, revealing the decreased collagenous matrix by the MK-4 withdrawal. Hypro/Pro ratio was all similar at 16 weeks. Fig. 3 Analysis of femur diaphyseal cortex by confocal laser Raman microspectroscopy. PO 4 3− ν1 at 959 cm−1 was used as a mineral parameter and CUDC-907 in vitro the amide I at 1,666 cm−1, and hydroxyproline

(Hypro) at 855 and 878 cm−1 and proline (Pro) at 919 cm−1 were used as matrix parameters. The spectral band intensity by peak area, height for the Hypro/Pro ratio, or the band width for crystallinity was collected at each band as described in the “Materials and methods” section. The values are compared among 8- and 16-week samples, respectively, and between 8- and 16-week samples as in Fig. 2. Except for the Hypro/Pro ratio, which was based on the Fischer’s LSD test, statistical analysis used was the same as in Fig. 2 Changes in the trabecular architecture The effects of K to R on the distal metaphyseal (Fig. 2a) and the distal epiphyseal trabeculi (Table 2 and Fig. 4 ) were also quite significant. In Tables 1 and 2, the structural parameters by micro-CT analysis are summarized. In comparison to the OVX controls, sham group showed significant differences in

the BV, BS, BV/TV, Tb.Th, Tb.N, and FD (larger) and Tb.Sp (smaller) at 8 weeks. All three 8-week treatment groups, OVX-R, K, and R/K, showed significant difference from the OVX group in many parameters (Table 1). Of note, the concomitant administration, OVX-R/K, was no more effective than the OVX-K new or OVX-R monotherapy. The effect of 16-week treatment with MK-4 and/or risedronate was as follows. Both K to R and K to WO groups showed significantly better BV, BS, BV/TV, Tb.N, and Tb.Sp values in comparison to the OVX group (p < 0.01 in K to R). Figure 2a also shows that K to R and R to K groups were higher in the metaphyseal total BMD and BMC, while BMC values were also higher in the R to WO and R/K to WO. Risedronate raised metaphyseal total BMC by more than 50% in K to R during the later 8 weeks.

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