NIH Public Health Service Document “Healthy People 2010”. Available at: http://www.healthy.gov/healthypeople/. Accessed 31 May 2014.
NIH Budget Proposal for the NIDCR 2006 Lawrence A Tabak DDS, PhD: Presentation to the House Sub-Committee March 9th 2005.
Tabak LA. The revolution in biomedical assessment: the development of salivary diagnostics. J Dent Educ. 2001;65(12):1335–9.
American Dental Association Position Statement on Oral Fluid Diagnostics. Available at: http://www.ada.org/prof/resources/positions/statements/fluid_diagnostics.asp. Accessed 31 May 2014.
International Association of Dental Research [IADR]. http://www.iadr.com/i4a/search.cfm#.UqTeSfRDtrp. Accessed 31 May 2014.
FDI Policy Statement on Salivary Diagnostics, Adopted by the General Assembly, Istanbul, Aug 2013. Accessible at: http://www.fdiworlddental.org/media/31116/salivary_diagnostics-2013.pdf. Accessed 31 May 2014.
Hu S, Li Y, Wang J, Xie Y, Tjon K, Wolinsky L, Loo RRO, Loo JA, Wong DT, et al. Human salivary proteome and transcriptome. J Dent Res. 2006;85:1129–33.
Streckfus CF, Bigler L, Tucci M, Thigpen JT. A Preliminary Study of CA 15-3, c-erbB-2, Epidermal growth factor, Cathepsin D and p53 in saliva of women with breast carcinoma. Cancer Invest. 2000;18(2):101–9.
Streckfus CF, Bigler L. The use of soluble, salivary c-erb-b2 for the detection and post-operative follow-up of breast cancer in women: the results of a five-year translational research study. Adv Dent Res. 2005;18(1):17–24.
Streckfus CF, Bigler L, Dellinger TD, Dai X, Kingman A, Thigpen JT. The presence of soluble c-erbB-2 in saliva and serum of women with breast carcinoma: a preliminary study. Clin Cancer Res. 2000;6(6):2363–70.
Oral Diagnostics Symposium, Lanier Lakes [Atlanta] 2006. Oral-based diagnostics. Ann N Y Acad Sci. 2007;1098.
Boston Business Journal Bioflash, March 18th 2013. Available at: http://www.bizjournals.com/boston/blog/bioflash/2013/03/state-gives-41m-grant-to-build.html. Accessed 31 May 2014.
Malamud, Rodriguez-Chavez IR. Saliva as a diagnostic fluid. Dent Clin North Am. 2011;55(1):159–78.
Punyadeera C, Slowey PD. Chapter 22: Saliva as an emerging biofluid for clinical diagnosis and applications of MEMS/NEMS in salivary diagnostics. In: Subramani K, Ahmed A, Hartsfield JK, Eds. Nanobiomaterials in clinical dentistry. New York: Elsevier; 2013. p. 453–75. ISBN 978-1-4557-3127-5.
Streckfus C, Bigler L. Saliva as a diagnostic fluid. Oral Dis. 2002;8:69–76.
Slowey PD. Commercial saliva collections tools. J Calif Dent. 2013;41(2):97–105.
Malamud D, Tabak LA, editors. Saliva as a diagnostic fluid, vol. 694. New York: Annals of New York Academy of Sciences; 1992.
Samaranayake LP. Saliva tells the body’s health. In: Moss S, editor. The benefits of chewing. 2006. p. 24–35.
Rollins G. Saliva tests: ready to spit? Clinical Laboratory News. 2008;34(8).
Hofman LF. Human saliva as a diagnostic specimen. Am Soc Nutr Sci. 2001;131:1621S–5.
Punyadeera C. An often forgotten, but convenient diagnostic fluid. Clinical Laboratory News. 2013;39(1).
Why Your Saliva May be the Real Reason You Have Digestive Issues. http://taoofmedicine.com/category/mind-body-medicine/. Accessed 31 May 2014.
Mandel ID. A contemporary view of salivary research. Clin Rev Oral Biol Med. 1993;4:599.
Kozaki T, Lee S, Nishimura T, Katsuura T, Yasukouchi A. Effects of saliva collection using cotton swabs on melatonin enzyme immunoassay. J Circadian Rhythms. 2011;9:1.
Gleeson M, Li T-L. The cotton swab method for human saliva collection: effect on measurements of saliva flow rate and concentration of protein, secretory immunoglobulin A, amylase and cortisol. In: Proceedings of the Physiological Society, Human and Exercise Physiology abstracts, University College London. J Physiol. 2003;547P, PC5.
Mohamed R, Campbell J-L, Cooper White J, Dimeski G, Punyadeera C. The impact of saliva collection and processing methods on CRP, IgE and myoglobin immunoassays. Clin Transl Med. 2012;1:19.
Shirtcliff EA, Granger DA, Schwartz E, Curran MJ. Use of salivary biomarkers in behavioral research: cotton-based sample collection methods can interfere with salivary immunoassay results. Psychoneuroendocrinology. 2001;26:165–73.
Frost and Sullivan report: globalization of IVD companies, summarized in Genetic Engineering News. 1 May 2013;33(9). Available at http://www.slideshare.net/FrostandSullivan/the-globalization-of-in-vitro-diagnostics-markets. Accessed 31 May 2014.
http://newsroom.ucla.edu/portal/ucla/ucla-dentistry-receives-5-million246826.aspx. Accessed 31 May 2014.
Mese H, Matsuo R. Salivary secretion, taste and hyposalivation. J Oral Rehabil. 2007;34:711–23.
Wolff A, Davis RL. Universal collector for submandibular and sublingual saliva. US Patent Number 5,050,616.
Wolff A, Begleiter A, Moskona D. A novel system of human submandibular and sublingual saliva collection. J Dent Res. 1997;76(11):1782–6.
Morales I, Dominguez P, López RO. Devices for saliva collection from the major salivary glands. Results in normal subjects. Rev Med Chil. 1998;126(5):538–47.
Morales I, Urzūa-Orellana B, Aguilera S, Dominguez P, López RO. Patterns and variability of in electrophoretic polypeptide profiles of human saliva in a healthy population. J Physiol Biochem. 2006;62(3):179–88.
Morales I, Urzūa-Orellana B, Dominguez P, Retamales P. Available at: http://www.captura.uchile.cl/bitstream/handle/2250/7027/MoralesB_Irene.pdf?sequence=1. Accessed 31 May 2014.
Hanning S, Motio L, Medlicott NJ, Swindells S. A device for the collection of submandibular saliva. N Z Dent J. 2012;108(1):4–8.
Bauman R, DeBoer J. A modification of the altered cast technique. J Prosthet Dent. 1982;47:212–3.
Nederfors T, Dahlöf C. A modified device for collection and flow rate measurement of submandibular and sublingual saliva. Eur J Oral Sci. 1993;101(4):210–4.
Block P, Brotman SA. A method of submaxillary saliva without cannulization. N Y State Dent J. 1962;28:116–9.
Wong DT. Salivary diagnostics. Ames: Wiley-Blackwell; 2008. ISBN 978-0-8138-1333-2.
Jiang J, Park NJ, Hu S, Wong DT. A universal pre-analytic solution for concurrent stabilization of salivary proteins, RNA and DNA at ambient temperature. Arch Oral Biol. 2009;54:268–73.
Park NJ, Yu T, Nabili V, Brinkman BMN, Henry S, Wang J, Wong DT. RNAprotect saliva: an optimal room temperature stabilization reagent for the salivary transcriptome. Clin Chem. 2006;52(12):2303–4.
Kurth A. Potential biohazard risk from infectious tissue and culture cells preserved with RNAlater™. Clin Chem. 2007;53(7):1389–90.
http://www.invitek.de/products_and_service/products. Accessed 31 May 2014.
http://www.norgenbiotek.com/display-product.php?ID=385. Accessed 31 May 2014.
http://www.salimetrics.com/articles/print/collecting-and-handling-saliva-for-dna-samples. Accessed 31 May 2014.
Thomadaki K, Helmerhorst EJ, Tian N, Sun X, Siqueira WL, Walt DR, Oppenheim FG. Whole-saliva proteolysis and its impact on salivary diagnostics. J Dent Res. 2011;90(11):1325–30.
Xiao H, Wong DT. Proteomic analysis of microvesicles in human saliva by gel electrophoresis with liquid chromatography-mass spectrometry. Anal Chim Acta. 2012;722:63–9.
Esser D, Alvarez-Llamas G, Dr Vries MP, Weening D, Vonk RJ, Roelofsen H. Sample stability and protein composition of saliva: implications for its use as a diagnostic fluid. Biomark Insights. 2008;3:25–37.
Warrener L, Slibinskas R, Chua KB, Brown KE, Nigatu W, Sasnauskas K, Samuel D, Brown D. A point-of-care test for measles diagnosis: detection of measles-specific IgM antibodies and viral nucleic acid. Bull World Health Organ. 2011;89:675–82.
Punyadeera C, Domeski G, Kostner K, Beyerlein P, Cooper-White J. One-step homogeneous C-reactive protein assay for saliva. J Immunol Methods. 2011;373:19–25.
Lane J, Flint J, Danks C. The development of a rapid diagnostic test for cortisol in the saliva of pigs. Report for the UK Government Department of the Environment Food and Rural Affairs [DEFRA]; London, England: 2010.
NIH Awarded Grant [NCCAM, 2R44AT006634-04]. VerOFy®, a new tool to improve productivity and reduce costs for stress research. Oasis Diagnostics Corporation, Aug 2013.
Weigum SE, Floriano PN, Cristodoulides N, McDevitt JT. Toward the development of a lab-on-a-chip dual function leucocyte and C-reactive protein analysis method for the assessment of inflammation and cardiac risk. Lab-on-a-Chip. 2007;7:995–1003.
Stevens RC, Soelberg SD, Near S, Furlong CE. Detection of cortisol in saliva with a flow-filtered, portable surface resonance biosensor system. Anal Chem. 2008;80(17):6747–51.
Moore C, Kelley-Baker T, Lacey J. Field testing of the Alere DDS2 mobile test system for drugs in oral fluid. J Anal Toxicol. 2013;37:305–7.
Molecular Diagnostics Market Report 2009 Research and Markets Limited Report. Available at: http://www.researchandmarkets.com/product/65f2db/molecular_diagnostics_markets. Accessed 31 May 2014.
Kalorama Information Market Report: World Molecular Diagnostics Market Update. Available at: http://www.kalroamainformation.com/Molecular-Diagnostics-Month-7969379/. Accessed 31 May 2014.
Gallo A, Tandon M, Alevizos I, Illie GG. The majority of microRNAs detectable in serum and saliva is concentrated in exosomes. PLoS One. 2012;7(3):e30679. www.Plosone.org.
Bahlo M, Stankovich J, Danoy P, Hickey PF, Taylor BV, Browning SR, et al. Saliva-derived DNA performs well in large-scale, high-density, single-nucleotide polymorphism microarray studies. Cancer Epidemiol Biomarkers Prev. 2010;19:794–8.
Abraham JE, Maranian MJ, Spiteri I, Russell R, Ingle S, Luccarini C, et al. Saliva samples are a viable alternative to blood samples as a source of DNA for high throughput genotyping. BMC Genomics. 2012;5(19):1–6.