References

References

Bermudez, E., J. B. Mangum, B. A. Wong, B. Asgharian, P. M. Hext, D. B. Warheit and J. I. Everitt (2004). "Pulmonary responses of mice, rats, and hamsters to subchronic inhalation of ultrafine titanium dioxide particles." Toxicological Sciences 77(2): 347-357.

Hedwig M Braakhuis, Margriet VDZ Park, Ilse Gosens, Wim H De Jong and Flemming R Cassee

Physicochemical characteristics of nanomaterials that affect pulmonary inflammation. Particle and Fibre Toxicology 2014, 11:18

Delmaar, J.E., M.V.D.Z. Park, J.G.M. van Engelen, 2005.ConsExpo, Consumer Exposure and Uptake Models. Program Manuel. Bilthoven, The Netherlands: National Institute for Public Health and the Environment (RIVMNational Institute for Public Health and the Environment ). RIVM Report no. 320104004

Delmaar JE, Bremmer HJ (2010). The ConsExpo spray model - Modelling and experimental validation of the inhalation exposure of consumers to aerosols from spray cans and trigger sprays. RIVM Report 320104005

ICRP 66, (1994) Human Respiratory Tract Model for Radiological Protection.

ICRP, 2015. Occupational Intakes of Radionuclides: Part 1. ICRP Publication 130. Ann. ICRP 44(2).

MPPD model. https://www.ara.com.  Accessed 30-09-2019.

Morrow PE. (1988). Possible Mechanisms to Explain Dust Overloading of the Lungs. Fund. Appl. Tox. 10: 369-384.

National Institute of Standards and Technology Information Technology Laboratory . (2012) "NIST/SEMATECH e-Handbook of Statistical Methods 1.3.6.6.17. Beta Distribution". April 2012. Accessed 16/10/2019.