1. Inhorn MC, Brown PJ. The anthropology of infectious disease. Annu Rev Anthropol. 1990; 19:89–117.
Article
2. Ortner DJ. Differential diagnosis of skeletal lesions in infectious disease. Pinhasi R, Mays S, editors. editors.Advances in human palaeopathology. Chichester, England: John Wiley & Sons, Ltd;2008. p. 189–214.
Article
3. Molnar E, Palfi G. Probable cases of skeletal infections in the 17th century anthropological series from Bácsalmás (Hungary). Acta Biol Szeged. 1994; 40:117–33.
4. Armelagos GJ, Brown PJ, Turner B. Evolutionary, historical and political economic perspectives on health and disease. Soc Sci Med. 2005; 61:755–65.
Article
5. Harper KN, Zuckerman MK, Harper ML, Kingston JD, Armelagos GJ. The origin and antiquity of syphilis revisited: an appraisal of Old World pre-Columbian evidence for treponemal infection. Am J Phys Anthropol. 2011; 146(Suppl 53):S99–133.
Article
6. Zuckerman MK, Harper KN. Paleoepidemiological and biocultural approaches to ancient disease: the origin and antiquity of syphilis. Zuckerman MK, Martin DL, editors. editors.New directions in biocultural anthropology. New Jersey: John Wiley & Sons;2016. p. 317–35.
Article
7. Monot M, Honore N, Garnier T, Araoz R, Coppee JY, Lacroix C, et al. On the origin of leprosy. Science. 2005; 308:1040–2.
Article
8. Stone AC, Wilbur AK, Buikstra JE, Roberts CA. Tuberculosis and leprosy in perspective. Am J Phys Anthropol. 2009; 140(Suppl 49):S66–94.
Article
9. Suzuki T, Fujita H, Choi JG. New evidence of tuberculosis from prehistoric Korea-Population movement and early evidence of tuberculosis in Far East Asia. Am J Phys Anthropol. 2008; 136:357–60.
10. Mays S. A perspective on human osteoarchaeology in Brit-ain. Int J Osteoarchaeol. 1997; 7:600–4.
Article
11. Mays S. Human osteoarchaeology in the UK 2001–2007: a bibliometric perspective. Int J Osteoarchaeol. 2000; 20:192–204.
Article
12. Ortner DJ, Putschar W. Identification of pathological conditions in human skeletal remains. Washington: Smithsonian Institution Press;1985. p. 130.
13. Spigelman M, Lemma E. The use of the polymerase chain reaction (PCR) to detect mycobacterium tuberculosis in ancient skeletons. Int J Osteoarchaeol. 1993; 3:137–43.
14. Braun M, Pfeiffer S. DNA from mycobacterium tuberculosis complex identified in North American, Pre-Columbian human skeletal remains. J Archaeol Sci. 1998; 25:271–7.
15. Comas I, Coscolla M, Luo T, Borrell S, Holt KE, Kato-Maeda M, et al. Out-of-Africa migration and Neolithic coexpansion of mycobacterium tuberculosis with modern humans. Nat Genet. 2013; 45:1176–82.
Article
16. Ortner DJ. Paleopathology: implications for the history and evolution of tuberculosis. Pálfi G, Dutour O, Deák J, Hutás IS, editors. editors.Tuberculosis: past and present. Hungary: Golden Book Publisher Ltd;1999. p. 255–61.
17. Morse D. Pre-historic tuberculosis in America. Am Rev Respir Dis. 1961; 83:489–504.
18. Morse D. On tuberculosis. Brothwell D, Sandison AT, editors. editors.Diseases in antiquity. Springfield: Charles C. Tho-mas;1967. p. 249–71.
19. Ritchie WA. Paleopathological evidence suggesting preColumbian tuberculosis in New York State. Am J Phys Anthropol. 1952; 10:305–11.
Article
20. Lichtor J, Lichtor A. Paleopathological evidence suggesting pre-Columbian tuberculosis of the spine. J Bone Joint Surg. 1957; 39:1398–9.
Article
21. Holloway KL, Henneberg R, de Barros Lopes M, Henneberg M. Evolution of human tuberculosis: a systematic review and metaanalysis of paleopathological evidence. HOMO-J Comp Hum Biol. 2011; 62:402–58.
Article
22. Salo WL, Aufderheide AC, Buikstra J, Holcomb TA. Iden-tification of mycobacterium tuberculosis DNA in a preColumbian Peruvian mummy. Proceedings of the National Academy of Sciences. 1994; 91:2091–4.
Article
23. Arriaza BT, Salo WL, Aufderheide AC, Holcomb TA. Pre-Columbian tuberculosis in Northern Chile: molecular and skeletal evidence. Am J Phys Anthropol. 1995; 98:37–45.
Article
24. Bos KI, Harkins KM, Herbig A, Coscolla M, Weber N, Comas I, et al. Pre-Columbian mycobacterial genomes reveal seals as a source of New World human tuberculosis. Nature. 2014; 514:494–7.
Article
25. Suzuki T. Paleopathological study on infectious disease in Japan. Ortner DJ, Aufderheide AC, editors. editors.Human paleo-pathology: current syntheses and future options. Washington DC: Smithsonian Institution Press;1991. p. 128–39.
26. Pechenkina EA, Benfer RA Jr, Ma X. Diet and health in the Neolithic of the Wei and Middle Yellow River Basins, Northern China. In: Cohen MN, Crane-Kramer GNM, edi-tors. Ancient health: skeletal indicators of agricultural and economic intensification. Gainesville: University of Florida Press;2007. p. 255–72.
27. Suzuki T, Inoue T. Earliest evidence of spinal tuberculosis from the aneolithic Yayoi period in Japan. Int J Osteoar-chaeol. 2007; 17:392–402.
Article
28. Blau S, Yagodin V. Osteoarchaeological evidence for leprosy from Western Central Asia. Am J Phys Anthropol. 2005; 126:150–8.
Article
29. Tayles N, Buckley HR. Leprosy and tuberculosis in Iron Age southeast Asia? Am J Phys Anthropol. 2004; 125:239–56.
Article
30. Robbins G, Tripathy VM, Misra VN, Mohanty RK, Shinde VS, Gray KM, et al. Ancient skeletal evidence for leprosy in India (2000 BC). PLoS One. 2009; 4:e5669.
Article
31. Taylor GM, Blau S, Mays S, Monot M, Lee OYC, Minnikin DE, et al. Mycobacterium leprae genotype amplified from an archaeological case of lepromatous leprosy in Central Asia. J Archaeol Sci. 2009; 36:2408–14.
Article
32. Suzuki K, Takigawa W, Tanigawa K, Nakamura K, Ishido Y, Kawashima A, et al. Detection of Mycobacterium leprae DNA from archaeological skeletal remains in Japan using whole genome amplification and polymerase chain reaction. PLoS One. 2010; 5:e12422.
Article
33. Barnes I, Thomas MG. Evaluating bacterial pathogen DNA preservation in museum osteological collections. Proceedings of the Royal Society of London B: Biological Sciences. 2006; 273:645–53.
Article
34. Bouwman AS, Brown TA. The limits of biomolecular pal-aeopathology: ancient DNA cannot be used to study vene-real syphilis. J Archaeol Sci. 2005; 32:703–13.
Article
35. Kolman CJ, Centurion-Lara A, Lukehart SA, Owsley DW, Tuross N. Identification of Treponema pallidum subspecies pallidum in a 200-year-old skeletal specimen. J Infect Dis. 1999; 180:2060–3.
36. Mark L, Gulyas-Fekete G, Marcsik A, Molnar E, Palfi G. Analysis of ancient mycolic acids by using MALDI TOF MS: response to “Essentials in the use of mycolic acid biomarkers for tuberculosis detection” by Minnikin et al., 2010. J Archaeol Sci. 2011; 38:1111–8.
37. Roberts CA, Millard AR, Nowell GM, Gröcke DR, Macpherson CG, Pearson DG, et al. Isotopic tracing of the impact of mobility on infectious disease: the origin of people with treponematosis buried in Hull, England, in the late medieval period. Am J Phys Anthropol. 2013; 150:273–85.
Article
38. Guichón RA, Buikstra JE, Stone AC, Harkins KM, Suby JA, Massone M, et al. Pre-Columbian tuberculosis in Tierra del Fuego? Discussion of the paleopathological and molecular evidence. Int J Paleopathol. 2015; 11:92–101.
Article
39. Crespo FA, Klaes CK, Switala AE, DeWitte SN. Do leprosy and tuberculosis generate a systemic inflammatory shift? Setting the ground for a new dialogue between experimental immunology and bioarchaeology. Am J Phys Anthropol. 2017; 162:143–56.
Article