Part, Chapter, Paragraph
1 I, 2. 2 | steadily growing number of humans into contact with pathogens
2 II, 5. 1. 1| have similar effects in humans.~Developmental disorders~
3 II, 6. 3. 4| also occasionally infected humans. The threat of avian influenza,
4 II, 6. 3. 4| form is poorly adapted to humans, and therefore, the human
5 II, 6. 3. 5| not transmissible between humans. There is an effective vaccine
6 II, 6. 3. 6| fever occur worldwide and humans are the only reservoir for
7 II, 6. 3. 6| with the only reservoir in humans. Transmission occurs directly
8 II, 6. 3. 6| goat, swine and cattle. Humans become infected by direct
9 II, 6. 3. 6| to prevent the disease in humans include controlling and
10 II, 6. 3. 6| bacterium Vibrio cholerae. Humans are the only important reservoir,
11 II, 6. 3. 6| is asymptomatic in most humans, but can be life-threatening
12 II, 6. 3. 6| host of T. gondii is cats. Humans are usually infected through
13 II, 6. 3. 6| very common infection in humans and animals, the reported
14 II, 6. 3. 6| contaminated surface waters and humans. Infection occurs after
15 II, 6. 3. 6| large and small animals. Humans can be infected from other
16 II, 6. 3. 6| the tapeworm Echinococcus. Humans are infected through close
17 II, 6. 3. 7| Russia. Transmission to humans occurs through the inhalation
18 II, 6. 3. 7| birds and some wild animals. Humans are usually infected by
19 II, 6. 3. 7| and may reach 20% or more. Humans acquire the disease by occupational
20 II, 6. 3. 7| infected animals. Infection in humans may follow direct or indirect
21 II, 6. 3. 7| southern and eastern Europe. Humans become infected directly
22 II, 6. 3. 7| susceptible animals and humans at occupational risk is
23 II, 6. 3. 7| causing encephalitis in humans. WNV is maintained in a
24 II, 6. 3. 7| wild birds and mosquitoes. Humans are mainly infected through
25 II, 6. 3. 7| Plasmodium, and is transmitted to humans by mosquitoes. During the
26 II, 6. 3. 7| the Americas and Africa. Humans are infected with Dengue
27 II, 6. 3. 7| reservoir of lassa virus; humans become infected through
28 II, 6. 3. 7| virus is transmitted to humans through the bites of ticks.
29 II, 6. 4. 2| SARS, avian influenza in humans and other major communicable
30 II, 8. 2. 3| frequent sensory deficit in humans. It affects more than 250
31 III, 10. 3. 2| serious health problems in humans (Ravindra et al, 2004).
32 III, 10. 3. 2| regarding their effects on humans.~ ~However, many fundamental
33 III, 10. 3. 2| similar between animals and humans. Therefore, wild animals
34 III, 10. 3. 2| have also been reported in humans when body burdens of POPs
35 III, 10. 3. 2| endocrine disruption in humans is at present far more a
36 III, 10. 3. 2| main exposure route for humans is food (especially seafood);
37 III, 10. 3. 2| neurodevelopmental toxicant for humans. Recent studies on the effects
38 III, 10. 3. 2| on the effects of lead in humans suggest that a ‘safe’ exposure
39 III, 10. 3. 2| octa-derivatives taken up by biota and humans (not yet seen in the graph). (
40 III, 10. 3. 3| also occasionally infected humans. The threat of avian influenza
41 III, 10. 3. 3| transmissible from animals to humans. The infection can be acquired
42 III, 10. 3. 3| contaminated foodstuff. In humans, the gravity of these diseases
43 III, 10. 3. 3| is asymptomatic in most humans, but can be life-threatening
44 III, 10. 3. 3| profuse and watery diarrhoea; humans can be infected from other
45 III, 10. 3. 3| the tapeworm Echinococcus. Humans are infected through close
46 III, 10. 4. 2| that can be transmitted to humans mainly through food (i.e.
47 III, 10. 4. 2| reporting of zoonoses in humans. This information is now
48 III, 10. 4. 2| zoonoses (Table 10.4.2.2). In humans, the severity of these diseases
49 III, 10. 4. 2| listeriosis, can be transmitted to humans through contaminated food.
50 III, 10. 4. 2| which can be transferred to humans via foodstuffs. There are
51 III, 10. 4. 2| transmissible from animals to humans. The infection can be acquired
52 III, 10. 4. 2| contaminated foodstuff. In humans, the severity of these diseases
53 III, 10. 4. 2| information on zoonoses cases in humans was acquired from the European
54 III, 10. 4. 2| reported zoonotic disease in humans within the EU. Reported
55 III, 10. 4. 2| pose a particular risk to humans, as therapeutic options
56 III, 10. 4. 2| an important zoonosis in humans due to the severity of the
57 III, 10. 4. 2| echinococcosis, was low in humans, but relevant due to severity
58 III, 10. 4. 2| rabies cases reported in humans, the increased reporting
59 III, 10. 4. 2| was found to transmit to humans and cause a new type of
60 III, 10. 4. 2| Possible health effects~(in humans, or in experimental animals)~ ~
61 III, 10. 4. 2| reasons to doubt this risk in humans, in principle, it cannot
62 III, 10. 4. 2| contracting cancer is in humans after the intake of acrylamide-containing
63 III, 10. 4. 2| main exposure route for humans is food (especially seafood).~ ~
64 III, 10. 4. 2| Possible health effects~(in humans, or in experimental animals)~ ~
65 III, 10. 4. 2| direct evidence of benefit to humans (based on human data, primarily
66 III, 10. 4. 2| to pose a serious risk to humans or animals either directly
67 III, 10. 4. 3| cause of severe pneumonia in humans. Legionella bacteria can
68 III, 10. 4. 5| exposure of the receptors (e.g. humans or animals). Therefore,
69 III, 10. 4. 5| resources and the exposure of humans via drinking water from
70 III, 10. 5. 1| modify the environment, humans started to actively create
71 III, 10. 5. 1| for severe pneumonia in humans (legionellosis) due to the
72 IV, 11. 5. 4| organ transplantation of humans organs by organized criminal
