ライフサイエンスコーパス: abattoir

1 icted from samples taken conveniently in the abattoir.

2 rotary EOMs were obtained fresh from a local abattoir.

3 Porcine knees were obtained from an abattoir.

4 ous was obtained from eyes delivered from an abattoir.

5 bovine articular cartilage obtained from the abattoir.

6 tered or from one of three different English abattoirs.

7 eated bovine eyes were obtained from a local abattoir 4 hours after death.

8 for the first time at livestock markets and abattoirs across Cameroon to assess the opportunities fo

9 eliable in the challenging conditions of the abattoir and during kidney transportation and can detect

10 present study, we obtained adult worms from abattoirs and characterized each worm on the basis of th

11 udy has demonstrated that livestock markets, abattoirs and trucks could be targeted for the introduct

12 a portable NIRS could be used in commercial abattoirs as a tool to support the control of official q

13 ed at Bamenda, Ngaoundere, Garoua and Maroua abattoirs between 2012-2013.

14 Abattoir-derived bovine oocytes and embryos were incubat

15 Embryos were produced using abattoir-derived ovaries and Y-sorted semen from two Ang

16 from exposed mice, patients, and unaffected abattoir employees were analyzed for clinically pertinen

17 d environmental sources (eg, poultry houses, abattoirs, feed mills, water) from 2012 to 2014 in compl

18 tudies were conducted using gelatin-embedded abattoir-fresh porcine eyes suspended within clear acryl

19 ll ocular impact responses were studied with abattoir-fresh porcine eyes.

20 examined in a cross-sectional study at four abattoirs in Cameroon.

21 cal syndrome affected workers from two swine abattoirs in Minnesota and Indiana who had occupational

22 tially high onward movements, for example to abattoirs, livestock holding grounds, or other markets,

23 lood in the same study subjects at Al Bawadi abattoir of Al Ain city, in the United Arab Emirates, UA

24 I 0.8-13.1); and workers in cattle/sheep/pig abattoirs (OR = 2.8, 95% CI 0.8-9.5).

25 pplications for analysis of carcasses on the abattoir processing line.

26 from livestock and poultry on farms, meat at abattoirs, raw materials at feed mills, animal feed, and

27 n the Bamenda, Ngaoundere, Garoua and Maroua abattoirs respectively.

28 (15.2-28.4) and 13.1% (7.7-20.4) in the four abattoirs respectively.

29 ation on the use and practices of market and abattoir sites.

30 separated from deer, sheep, pig, and cattle abattoir-sourced blood.

31 ere sourced from Scotland's largest red meat abattoir throughout 2013 and 2014.

32 nd subcutaneous fat samples) at a commercial abattoir, using a handheld micro electro mechanical syst

33 rom deer, sheep and pig blood, obtained from abattoirs, was hydrolysed using protease preparations fr

34 omposting procedures in environment-friendly abattoir waste management and agricultural practices thr

35 Porcine kidneys retrieved from an abattoir were subjected to 30 min of warm ischemia, foll

36 s) originating either from one farm plus the abattoir where cattle from that farm were slaughtered or

37 All patients from two abattoirs who presented or were referred to the Mayo Cli

38 be transported long distances to markets and abattoirs, with varying levels of control and biosecurit

39 ormed on esophagi (n = 16) obtained from the abattoir within 4-6 h of 1-month-old lambs.

40 e human isolate recovered from a wound in an abattoir worker.

41 uals in all professions tested seropositive, abattoir workers (10 of 97; 10.3%) were significantly mo

42 ons were high in both slaughtered camels and abattoir workers although its DNA was not detected in th

43 urnetti infections in slaughtered camels and abattoir workers as well as to detect C. burnetii DNA in

44 of outbreaks in infected birds, with ostrich abattoir workers at highest risk.

45 s used to test 393 slaughtered camels and 86 abattoir workers for C. burnetii antibodies between Marc

46 terinarians, farmworkers, and laboratory and abattoir workers involved in 2 AI outbreaks in the Weste

47 with the seroprevalence of C. burnetii while abattoir workers of African origin were more likely to b

48 ratio, OR = 3.70; 95% CI: 1.05, 13.60) than abattoir workers of south Asian origin.

49 , we tested serum samples from shepherds and abattoir workers with occupational exposure to camels.

50 ti DNA in clotted blood of 366 camels and 86 abattoir workers.

51 ected in clotted blood samples of camels and abattoir workers.

52 nd 24.4% (95% CI: 15.1, 37.3%) in camels and abattoir workers.