ライフサイエンスコーパス: ear infection

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1 to cause both nasal colonization and middle ear infection.

2 isolate is required during chinchilla middle ear infection.

3 roinflammatory molecules derived from middle ear infection.

4 esponses were detected following intradermal ear infection.

5 is the most frequent microbe causing middle ear infection.

6 type mice after Leishmania major intradermal ear infection.

7 ous infections (P < .0001), except recurrent ear infections.

8 in animal models of colonization and middle ear infections.

9 biofilms during human and chinchilla middle ear infections.

10 hearing impairment associated with recurrent ear infections.

11 iratory tract illnesses (sore throat, 34.3%; ear infection, 26.2%; and colds or flu, 19.2%) and for p

12 cavity in the absence of any signs of acute ear infection and occurs most frequently in children wit

13 sence of older siblings, daycare attendance, ear infections) and breastfeeding.

14 hilus influenzae, a major pathogen of middle ear infection, and upregulate a monocyte-attracting chem

15 patients: the first, a patient with chronic ear infections, and the second, a patient with a chronic

16 pportunistic pathogen that frequently causes ear infections, bronchitis, pneumonia, and exacerbations

17 mately induced a similar magnitude of middle ear infection by both phase variants.

18 xin derived from bacteria involved in middle ear infection can contribute to the hyperplastic respons

19 ctive hearing loss associated with childhood ear infections can produce long-lasting deficits in audi

20 uenza/pneumonia, sinus infections, recurrent ear infections, chickenpox, and urinary tract infections

21 Children commonly have recurrent ear infections, delayed motor milestones, and eventually

22 Studies in the chinchilla model of middle ear infection demonstrated that VP1 is a virulence deter

23 results indicate the utility of intradermal ear infection for both induction and understanding of th

24 ome subjects, who are predisposed to chronic ear infections, had reduced UTX expression in immune cel

25 ted cases had signs and symptoms of external ear infection, including drainage of pus or blood for at

26 tion is highly prevalent in children, middle ear infection-induced inner ear inflammation can impact

27 erstand the molecular pathogenesis of middle ear infection-induced inner ear inflammation.

28 (gastrointestinal illness, sinus infections, ear infections, infected wounds).

29 Because middle ear infection is highly prevalent in children, middle ea

30 A virus exacerbation of experimental middle ear infection is independent of the pneumococcal phase.

31 s that is not explained by concurrent middle ear infections is another characteristic of CMV-related

32 Otitis media (OM), a middle-ear infection, is the most common childhood illness trea

33 gnificant attenuation in a chinchilla middle ear infection model and a minor attenuation in a mouse p

34 iaB mutant was attenuated in a gerbil middle ear infection model system, as well as in a rat pulmonar

35 Here, using a murine ear infection model, we found that, during infection wit

36 uring leprosy we have developed an M. leprae ear infection model.

37 y tract infections, tonsillectomy, childhood ear infections, myringotomy, measles, hepatitis A, rheum

38 a major cause of bacterial pneumonia, middle ear infection (otitis media), sepsis, and meningitis.

39 The most common adverse event was minor ear infections, which was experienced by one patient in

40 nity, this disease is prolonged after middle ear infection with nontypeable Haemophilus influenzae (N

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