Objective To explore the effects of the Otago Exercise Program(OEP)on activities of daily living,muscle strength,balance,and physical function in older adults with sarcopenia,to compare OEP with conventional exercise training,and to provide a basis for clinical rehabilitation programs for older adults with sarcopenia.Methods In this randomized controlled trial,120 older adults clinically diagnosed with sarcopenia were enrolled.The participants were randomly assigned to the OEP intervention group(experimental group)and the conventional exercise intervention group(control group),with 60 in each group.The experimental group underwent 12 weeks of OEP training,three times a week,with each session lasting 45 minutes.The control group underwent conventional exercise training following the same schedule.The Modified Barthel Index was used as the primary outcome measure to assess activities of daily living.Secondary outcome measures included muscle strength,gait stability,dynamic balance,and physical function status,evaluated using grip strength,6-meter walking speed,the Timed Up and Go Test(TUGT),and the Short Physical Performance Battery(SPPB).Results A total of 120 older adults with sarcopenia were included.The mean age of the participants was(80.17±8.48)years.Baseline data before treatment showed no statistically significant differences between the two groups.Both groups completed the treatment within 12 weeks without experiencing any adverse events.The baseline data for the experimental group were as follows,MBI at(67.00±22.76)points,hand grip strength at(15.29±4.94)kg,gait speed at(0.61±0.26)m/s,TUGT time at(15.05±6.74)s,and SPPB score at(6.17±1.40)points,while the corresponding post-intervention findings were as follows,(78.72±15.83)points,(17.67±5.83)kg,(0.77±0.28)m/s,(13.49±6.16)s,and(9.25±1.71)points,respectively.The experimental group showed improvements in all measures from baseline to post-intervention(P＜0.05 for all measures).As for the control group,the baseline data for the corresponding measures were as follows,(67.20±22.12)points,(15.00±5.35)kg,(0.58±0.23)m/s,(17.29±6.90)s,and(6.00±1.24)points,respectively.The post-intervention findings increased to(71.13±20.28)points,(15.47±5.72)kg,(0.64±0.28)m/s,(16.50±6.99)s,and(6.73±1.61)points,respectively,but the changes were not statistically significant(P＞0.05).Furthermore,an intergroup comparison of intervention effects(post-intervention minus preintervention)revealed significant differences in mean changes from baseline.The experimental group demonstrated improvements of(+11.72±6.32)points in modified Barthel Index,(+11.72±6.32)kg in grip strength,(+0.16±0.09)m/s in gait speed,(—1.56±1.32)s in TUGT time,and(—1.56±1.32)points in SPPB score.In contrast,the control group showed smaller changes of(+3.93±5.65)points,(+0.47±1.37)kg,(+0.06±0.07)m/s,(—0.79±1.54)s,and(+0.73±1.12)points,respectively(all P＜0.05).Intergroup comparisons revealed superior outcomes in the experimental group across all measures.Conclusion OEP significantly enhances activities of daily living,improves muscle strength,balance,and physical function in older adults,and is more effective than conventional rehabilitation exercise programs,making it suitable for extensive clinical application.

Objective To observe the efficacy and feasibility of transplanting autologous bone marrow mesenchymal stem cells (BMSCs) via articular cavity on skeletal fluorosis rabbits. Methods A total of 30 rabbits, half male and half female, were divided into control group (n=6) and experimental group (n=24) by random number table method. The two groups of rabbits were given drinking water containing NaF 0 or 300 mg/L, respectively. After 90 days, 24 rabbits were divided into single treatment group, multiple treatment group, spontaneous recovery group and treatment solvent control group (6 rabbits in each group, half male and half female). After isolation, the BMSCs from skeletal fluorosis rabbits were cultured and identified, autologous BMSCs were transplanted into rabbit bodies via articular cavity at once or at three different other times, respectively. After 60 days, femur image was observed through X-ray. Femur bone mineral density was measured with quantitative CT (QCT). Serum alkaline phosphatase (ALP) and osteocalcin (BGP) were also measured using enzyme linked immunosorbent assay (ELISA). Bone fluoride content was determined via the fluorine ion-selective electrode method. Histopathology changes of femur were observed through HE staining and the trabecular area was calculated. Results In the multiple treatment group, patchy high-density images of femur were disappeared and abnormal bone texture was recovered compared with that of before transplantation. Bone density [(536.91 ± 25.51) g/cm3], ALP concentration [(20.06 ± 6.25) U/L], BGP concentration [(1230.01 ± 119.50) μg/L], bone fluoride content [(1442.40 ± 458.54) mg/kg] and trabecular area [(27.81 ± 2.90) Tb.Ar] of the multiple treatment group were lower than those of spontaneous recovery group [(635.11 ± 93.42) g/cm3, (43.08 ± 2.82) U/L, (3207.73 ± 788.80) μg/L, (2557.65 ± 173.90) mg/kg, (38.52 ± 2.81) Tb.Ar], and th e differences were statistically significant (P<0.05). HE staining in the multiple treatment group showed that bone marrow cavity was enlarged, and the number of trabeculae was decreased, accompanied by some new generated, neatly arranged normal trabeculae. But similar results were not observed in the single treatment group. Conclusion After multiple transplantation via articular cavity, autologous BMSCs from skeletal fluorosis rabbits could repair the damaged bone tissue and improve the pathological damage of skeletal fluorosis with osteosclerosis.