https://www.selleckchem.com/products/hs-173.html Osteopathic manipulative treatment (OMT) is frequently offered to people with nonspecific low back pain (LBP) but never compared with sham OMT for reducing LBP-specific activity limitations. To compare the efficacy of standard OMT vs sham OMT for reducing LBP-specific activity limitations at 3 months in persons with nonspecific subacute or chronic LBP. This prospective, parallel-group, single-blind, single-center, sham-controlled randomized clinical trial recruited participants with nonspecific subacute or chronic LBP from a tertiary care center in France starting February 17, 2014, with follow-up completed on October 23, 2017. Participants were randomly allocated to interventions in a 11 ratio. Data were analyzed from March 22, 2018, to December 5, 2018. Six sessions (1 every 2 weeks) of standard OMT or sham OMT delivered by nonphysician, nonphysiotherapist osteopathic practitioners. The primary end point was mean reduction in LBP-specific activity limitations at 3 months as measured by the self-adeffect on LBP-specific activity limitations vs sham OMT. However, the clinical relevance of this effect is questionable. ClinicalTrials.gov Identifier NCT02034864. ClinicalTrials.gov Identifier NCT02034864.The human sodium iodide symporter (hNIS) can be linked to the downstream of radiation-sensitive early growth response protein1 (Egr1) promoter, and activated by the Egr1 following 131I treatment. However, the rapid outflow of 131I restricted the radiotherapy effect. To overcome this barrier, ultrasmall gold nanoclusters (usAuNCs) were used to enhance the radiotherapy efficacy of Egr1-hNIS for its radiation sensitization. In this work, we prepared "cell bomb" BMSCs carrying both GSH@AuNCs and Egr1-hNIS. We found that the "cell bomb" can target TNBC tumor and reach a maximum 131I concentration 9 h following 131I injection. Colony formation assay revealed that 131I, 131I combined with GSH@AuNCs could independently inhibit 39