Xxxxxxx and S. H. Xxxxxxxxx Xxxxxxxxxxxxxx 1937-1966, eds. Xxxx Xxxxxx and Xxxxxx Xxxxxxx (Costa Mesa, Calif: Mazda Publishers, 2009). 1327 Xxx Xxxxxxx, “Remembering Xxxxxx Xxxxx Xxxxxxxxx,” in Iran Nameh: Special Issue on Xxxxxx Xxxxxx Xxxxxxxxx 21, no. 1-2 (2003), 109-11. 1328 Xxxxxxxx Xxx Xxxxxxxx to Mr. Xxxxxxxx, London, 27 May 1940, in TNA: FO 371/25244. 1329 Baggallay to Xxxxxxxx Xxx Xxxxxxxx, 4 July 1940, in Ibid.. 1330 Certificate of Naturalisation, Xxxx Xxxxxxx xxx Xxxxx, 24 January 1947, in TNA: HO 334/201. Figure 24: Xxxxxxxxx’s letter to Xxx Xxxxxxx Xxxx. Source: Taqizadeh’s personnel file, SOAS, London Figure 25: Letter concerning Xxxxxxxxx’s wish to receive monies directly from the Director of the School of Oriental Studies rather than unidentified sources, in order to “silence the curiosity of his friends”.
Xxxxxxx and S. I. Xxxxxxxxxx, On astrophysical solution to ultrahigh-energy cosmic rays, Phys. Rev. D 74 (2006) 043005 [hep-ph/0204357] [INSPIRE]. JCAP08(2015)049 [39] X. Xxxxxx, X.X. Xxxxxxxxxxx and A.M. Xxxxxx, Ensemble fluctuations of the flux and nuclear composition of ultrahigh energy cosmic ray nuclei, Phys. Rev. D 87 (2013) 023004 [arXiv:1209.5427] [INSPIRE]. [40] X. Xxxxxxx, X. Xxxxxxxxxx and X. Xxxxxxx, Ultra high energy cosmic rays: the disappointing model, Astropart. Phys. 34 (2011) 620 [arXiv:0907.5194] [INSPIRE]. [41] X. Xxxxxx, Extragalactic propagation of ultrahigh energy cosmic-rays, Astropart. Phys. 39-40 (2012) 33 [arXiv:1111.3290] [INSPIRE]. [42] X.X. Xxxxxxxx and X. xx Xxxxx, Centaurus A: the one extragalactic source of cosmic rays with energies above the knee, Astrophys. J. 746 (2012) 72 [arXiv:1106.0625] [INSPIRE]. [43] A.M. Xxxxxx, UHECR composition models, Astropart. Phys. 54 (2014) 48 [arXiv:1401.0199] [INSPIRE]. [44] K.-X. Xxxxxxx and X. Xxxxxxxx, Cosmic rays from the ankle to the cutoff, Comptes Rendus Physique 15 (2014) 318 [arXiv:1405.0575] [INSPIRE]. [45] X.X. Xxxxxx, High-energy cosmic rays and the Xxxxxxx-Xxxxxxxx-Kuz’min effect, Rept. Prog. Phys. 77 (2014) 036901 [arXiv:1310.0325] [INSPIRE]. [46] Xxxxxx Xxxxx and Telescope Array collaborations, I.C. Xxxx¸s et al., The energy spectrum of ultra high energy cosmic rays, in Proceedings of the International Symposium XXXXX0000, in preparation, Springdale U.S.A. (2014). A. Aab41, P. Abreu65, M. Aglietta52, X.X. Ahn82, I. Al Samarai28, I.F.M. Albuquerque16, I. Allekotte1, P. Allison87, A. Almela11, 8, X. Xxxxxxx Castillo58, X. Xxxxxxx-Xxx˜iz75, X. Xxxxx Batista40, M. Ambrosio43, A. Aminaei59, L. Anchordoqui81, S. Andringa65, C. Aramo43, X.X. Xxxxxx 72, F. Arqueros72, N. Arsene68, H. Asorey1, 24, P. Assis65, X. Aublin30, M. Ave1, M. Avenier31, G. Avila10, N. Awal85, A.M. Badescu69, K.B. Barber12, X. B¨auml35, C. Baus35, J.J. Beatty87, K.H. Becker34, X.X. Bellido12, C. Berat31, M.E. Bertaina52, X. Bertou1, P.L. Biermann38, P. Billoir30, S.G. Blaess12, X. Blanco65, M. Blanco30, C. Bleve47, H. Blu¨mer35, 36, M. Boh´aˇcov´a26, D. Boncioli51, C. Bonifazi22, N. Borodai63, X. Brack79, I. Brancus66, JCAP08(2015)049 A. Bridgeman36, P. Brogueira65, W.C. Brown80, P. Buchholz41, A. Bueno74, S. Buitink59, M. Buscemi43, X.X. Xxxxxxxxx-Mora56, B. Caccianiga42, X. Caccianiga30, M. Candusso44, L. Caramete67, R. Caruso45, X. Castellina52, G. Cataldi47, L. Cazon65, R. Cester46, A.G. Chavez57, A. Chiavassa52, X.X. ...
Xxxxxxx and S. Ixxx Xxxxxx entitled "Solvent-assisted lithographic process using photosensitive sol-gel derived glass for depositing ridge waveguides on silicon" as more particularly described in a patent application therefor filed in the Canadian Patent Office on October 10, 1997 under No. 2,218,273 and in the U.S. Patent and Trademark Office on October 10, 1997 under No.08/948,511 as well as all improvements referred to in section 5.1 and all patent applications which may be filed in relation thereto in the Territory and all patents which may issue therefrom and any continuation, extension, division, revalidation , reissue or other combination or renewal of same;
Xxxxxxx and S. Kadena.] [[TMCC] The Directors and Principal Executive Officers of the Issuer are Mxxx X. Xxxxxxx, Sxxxx Xxxxx, Rxx Xxx, Pxxx Xxxxx, Axxx Xxxxx, Mxx Xxxx, Axxxxxx Xxxxxxxx, Jxxxx X. Xxxxx III and Rxxxxx Xxxxxx.] The Issuer’s auditors are [TMF: Ernst & Young Accountants LLP, Amsterdam, The Netherlands]/[TCCI: PricewaterhouseCoopers LLP, Toronto, Canada]/[TFA: PricewaterhouseCoopers, Sydney, NSW, Australia]/[TMCC: PricewaterhouseCoopers LLP, Dallas, Texas, United States]. [[TMF] The selected historical key financial information presented below for the financial years ended 31 March 2020 and 31 March 2019 has been extracted without material adjustment from the audited financial statements in the Annual Financial Report of TMF for the financial year ended 31 March 2020, prepared in accordance with International Financial Reporting Standards as adopted by the European Union [and for the six months ended 30 September 2020 has been extracted without material adjustment from the unaudited condensed interim financial statements in the Half-Yearly Financial Report for the six months ended 30 September 2020 prepared in accordance with International Accounting Standard (IAS) 34] etc.] [[TCCI] The selected historical key financial information presented below for the financial years ended 31 March 2020 and 31 March 2019 has been extracted without material adjustment from the audited financial statements in the Annual Financial Report of TCCI for the financial year ended 31 March 2020, prepared in accordance with International Financial Reporting Standards [and for the six months ended 30 September 2020 has been extracted without material adjustment from the unaudited condensed interim financial statements in the Half-Yearly Financial Report for the six [[TFA] The selected historical key financial information presented below for the financial years ended 31 March 2020 and 31 March 2019 has been extracted without material adjustment from the audited consolidated financial statements in the Annual Financial Report of TFA for the financial year ended 31 March 2020 [and for the six months ended 30 September 2020 has been extracted without material adjustment from the unaudited condensed consolidated financial statements in the Half-Yearly Financial Report for the six months ended 30 September 2020], prepared in accordance with Australian Accounting Standards and Interpretations issued by the Australian Accounting Standards Board as well as the Australian Corporations Act and...
Xxxxxxx and S. P. xxxxxxx: June 1, 1980 through May 31,1983: 10% of their time for each academic year and summer. June 1, 1983 through May 31, 1984: S* of their time for the academic year and half summer.
Xxxxxxx and S. Xxxx Xxxxxxx have entered into a Master Separation Agreement (the “Master Separation Agreement”), pursuant to which, among other things, the Executive and the Company have agreed that the Executive shall resign from his employment with the Company and each of subsidiaries and affiliates, and from the Boards of the Directors of the Company and each of its subsidiaries and affiliates, on the terms and conditions set forth in this Agreement.
Xxxxxxx and S. Teo (2015). The New Zealand Aged Care Workforce Survey 2014. Future of Work Programme. Auckland, New Zealand Work Research Institute. Xxxxxxxxx, R. (2017). 17. Evaluating long-term care policies: Challenges and advancements.
Xxxxxxx and S. Xxxxx Xxxxxxx shall have paid to the Company all amounts due and owing under the Amended and Restated Promissory Note, dated July 15, 1996, in the original principal amount of $1,100,000.00.
Xxxxxxx and S japonicum). They spend their adult lives as a mated pair. These mated pairs produce hundreds of eggs per day (approximately 400 for S. mansoni), some of which are excreted with host wastes (Xxxx, 2005). When these eggs are excreted in fresh water, miracidia hatch and xxxxxx into a host snail. After asexual replication cercariae are released from the snail and seek out a mammal definitive host, commonly a human. Water contacts such as bathing, washing clothes, collecting water for cooking, getting a drink, fishing, sailing, farming canal irrigated lands, and brick making could put one at risk of infection. After piercing the skin cercariae migrate to the vascular system and eventually the heart and lungs where they form mating pairs and migrate to their final location. Mated pairs have a lifespan of up to 30 years within the host if not treated (Jordan, 1985), but average only three to ten years depending on the species (Gryseels et al., 2006, p 1106). In endemic areas, infections lasting one third to one half of the total lifetime of the host are typical (Satayathum et al., 2006). Adult schistosomes avoid elimination by the immune system by continually replacing their outer tegument exposing a series of different combinations of surface carbohydrates, host antigens, and host antibodies (Xxxxxxx and Xxxxxx, 2005, p 238). In contrast, schistosome eggs induce a pronounced immune response which they rely on to move the eggs from the vascular system to the lumen where they can be excreted by the host (Xxxxxxxx et al., 1985; Xxxxxx, 1987). The process is imperfect and less than half of all eggs released are excreted; the rest become trapped within the host (Xxxx 2005). These eggs induce the pathology associated with schistosomiasis. The lifecycle of schistosomes and its prerequisite host environments restricts the transmission of schistosomiasis not only to areas with fresh water that provide adequate environments for appropriate snail hosts, but also to areas with waters that have been relatively recently contaminated by mammal host wastes. The prevalence and intensity of schistosomiasis infection is directly related to exposure to contaminated water and therefore (re)infection. Schistosomiasis is generally over dispersed with a few heavily infected individuals carrying the majority of the parasites (Gryseels et al., 2006). As little as one exposure to water containing cercariae per year is sufficient to maintain infection transmission. The most significant det...
Xxxxxxx and S japonicum infections blockages can eventually lead to portal hypertension and hepatosplenomegaly in severe cases (Xxxxxxx and Xxxxxx, 2005, p 257). Fibrotic hepatic schistosomiasis can lead to potentially fatal gastro-esophageal bleeding (Gryseels et al., 2006). Chronic intestinal schistosomiasis is characterized by abdominal pain, loss of appetite, and diarrhea (Vennervald and Xxxxx, 2004). Ectopic infection of the female genitals can lead to infertility from scar tissue formation in the ovaries and fallopian tubes (Xxxx, 2005; Gryseels et al., 2006). In addition to directly resulting in pathology, schistosomiasis can bias immune responses which can reduce the ability to effectively respond to other pathogens and may contribute indirectly to a much wider range of ailments than generally attributed to it (Xxxxxx and XxxXxxxxx, 2002; King and Xxxxxxxxxxx-Xxx, 2008). While severe disease is focused in heavily infected individuals, intensity of infection is not always correlated with severity of disease (Xxxxxx and XxxXxxxxx, 2002). The severity of schistosomal disease is modulated by the immune response of the individual to infection (Xxxxxxx et al., 2000; Xxxx et al., 2004; Xxxxxxxx et al., 2006). The nature of this response is modulated by the sex, age, and development of resistance to infection the individual has attained (Xxxxxxx et al., 1992; Xxxxxxxxxxx, 1993; Xxxxxxx et al., 2000; Xxxxxx et al., 2001; Xxxxxxxx et al., 2003; Xxxxx, 2004; Xxxxx et al., 2004). Individuals seem to be predisposed to a maximum infection intensity and generally reach but do not exceed this limit (Gryseels, 1994). Those living in endemic areas appear to develop resistance to re-infection after years of exposure. This resistance has been assumed to be due to the buildup of immunity after a lifetime of exposure to various schistosomal antigens (Xxxxxxxxxxx, 1993; Olds, 2006) but is still contested. A number of different methods have been used to research schistosomiasis in archaeologic populations. Xxxxxx (1921) identified Schistosoma haematobium eggs in the kidney of an Egyptian mummy through histological examination of rehydrated tissues. This was the first recorded diagnosis of a parasitic infection in an archaeological specimen. Since then, a variety of techniques have been utilized in paleoparasitological investigations to identify schistosomiasis infections including rehydration and microscopic examination of coprolite samples and latrine sediments, computer imaging, quan...
