@misc{mcelwee_boggess_olivry_oliver_whiting_tobin_bystryn_king_sundberg_1998, title={Comparison of alopecia areata in human and nonhuman mammalian species}, volume={66}, ISSN={["1423-0291"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-0031981917&partnerID=MN8TOARS}, DOI={10.1159/000028002}, abstractNote={Alopecia areata (AA) is a nonscarring form of inflammatory hair loss in humans. AA-like hair loss has also been observed in other species. In recent years the Dundee experimental bald rat and the C3H/HeJ mouse have been put forward as models for human AA. AA in all species presents with a wide range of clinical features from focal, locally extensive, diffuse hair loss, to near universal alopecia. Histologically, all species have dystrophic anagen stage hair follicles associated with a peri- and intrafollicular inflammatory cell infiltrate. Autoantibodies directed against anagen stage hair follicle structures are a consistent finding. Observations on AA pathogenesis suggest nonhuman species can provide excellent models for the human disease. Ultimately, animal models will be used to determine the genetic basis of AA, potential endogenous and/or environmental trigger(s), mechanism(s) of disease initiation and progression, and allow rapid evaluation of new and improved disease treatments.}, number={2}, journal={PATHOBIOLOGY}, author={McElwee, KJ and Boggess, D and Olivry, T and Oliver, RF and Whiting, D and Tobin, DJ and Bystryn, JC and King, LE and Sundberg, JP}, year={1998}, pages={90–107} }
 @article{hummer_graham_ravoori_king_rogers_1997, title={Classifying unlighted roadways based on night to total accident ratios}, volume={26}, ISSN={["0099-4480"]}, DOI={10.1080/00994480.1997.10748190}, number={2}, journal={JOURNAL OF THE ILLUMINATING ENGINEERING SOCIETY}, author={Hummer, JE and Graham, JR and Ravoori, SB and King, LE and Rogers, MD}, year={1997}, pages={49-+} }
 @article{mershon_king_1975, title={INTENSITY AND REVERBERATION AS FACTORS IN AUDITORY-PERCEPTION OF EGOCENTRIC DISTANCE}, volume={18}, ISSN={["0031-5117"]}, DOI={10.3758/BF03204113}, abstractNote={Both auditory intensity and reverberation have previously been shown to be sufficient to produce systematically varying judgments of perceived distance when several values of the variable are presented repeatedly to the same observer. Such studies do not, however, indicate clearly whether these cues are functioning in an absolute or in a relative manner. An absolute cue to auditory distance would require that two groups presented with different values of the variable in question should report different values of perceived distance. Two experiments are reported in which intensity variation and reverberation are examined. The results showed that auditory intensity differences over a range of 20 dB did not serve as an absolute cue to auditory distance, but could serve as a strong cue to changes in such distance. A comparison of data obtained in a normally reverberatory setting (Experiment 1) and an anechoic chamber (Experiment 2) indicated that the state of reverberation could serve as an absolute cue, with greater reverberation being associated with greater perceived distances. Some of the results were discussed in terms of the possibility that the specific distance tendency (a concept developed to handle some phenomena in visual space perception) might have applicability to the study of auditory perceived distance as well.}, number={6}, journal={PERCEPTION & PSYCHOPHYSICS}, author={MERSHON, DH and KING, LE}, year={1975}, pages={409–415} }