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Like \citet{Ragan_2014}, Wang et al. (2015) search for large-scale filaments and establish their relationship to Galactic structure after the fact. Rather than searching for filaments elongated along the Galactic plane, Wang et al. (2015) search for the longest, coldest, and densest filaments (aspect ratio >>10) in Hi-GAL images, within the longitude range of $15^\circ < l < 56^\circ$. Filaments were initially identified using Hi-GAL 350 and 500 $\mu\rm{m}$ emission. Temperature and column density maps were created for each candidate, and those which exhibited systematically lower temperatures with respect to the background were selected. As in our study, \citet{Wang_2014} confirmed velocity contiguity by extracting a \textit{p-v} slice along the curvature of each filament.   Wang et al. (2015) highlight nine filaments as their most prominent, with one of the nine being Nessie. Only one of their filaments (Filament 6, or BC\_011.13-0.12, the "snake") overlaps with our sample. Seven other Wang et al. (2015) filaments fail one or more of our bone criteria. G24, G26, and G47 lie between 39-62 pc above the physical Galactic midplane (outside our $\pm 20$ pc criterion), while G28 and G65 have aspect ratios of around 19:1 and 38:1 (less than our 50:1 minimum aspect ratio criterion). Additionally, G29 and G49 are not largely continuous mid-infrared extinction features, violating our criterion 1. This is not surprising, as the \citet{Wang_2014} study was designed to identify filaments emitting at longer Hi-GAL wavelengths, which are not necessarily seen in absorption at mid-infrared wavelengths. In future studies, \citet{Wang_2014} plan to extend their search to the entire Galactic plane. Despite differences in methodology, there should be some degree of overlap between the Wang et al. (2015) sample catalog  and our bones sample, catalog,  and these, along with the \citet{Ragan_2014} sample, catalog,  are expected to be highly complementary of eachother. each other.  An in-depth analysis of the other nine bone candidates can be found in the appendix.