ライフサイエンスコーパス: lead poisoning

1 r appropriate flushing procedures to prevent lead poisoning.

2 e in need of emergency chelation therapy for lead poisoning.

3 s either familial or can be acquired through lead poisoning.

4 een addressed to the prevention of childhood lead poisoning.

5 ilinogen synthase (PBGS) is a main target in lead poisoning.

6 ith differential susceptibility of humans to lead poisoning.

7 ron is routinely prescribed in children with lead poisoning.

8 , and breastfed infants are also at risk for lead poisoning.

9 ly to have >/= 1 child < 5 years of age with lead poisoning (68% vs. 50%, p = 0.17) or death followin

10 elation died during the period studied, with lead poisoning a primary factor in six deaths.

11 subclinical disease; the fact that childhood lead poisoning affected mostly families that were politi

12 sociated with reduced PBGS activity, such as lead poisoning and ALAD porphyria, the latter of which i

13 Childhood lead poisoning and lead contamination were widespread in

14 the brink of extinction, in part, because of lead poisoning, and lead poisoning remains a significant

15 phrenia, post-traumatic stress disorder, and lead poisoning--conditions characterized by impoverished

16 llages with suspected or confirmed childhood lead poisoning continued to be identified in Zamfara Sta

17 rtisanal mining may combine to cause similar lead poisoning disasters elsewhere globally.

18 vironmental remediation to address childhood lead poisoning epidemic due to artisanal gold mining in

19 e two surveyed villages were caused by acute lead poisoning from gold ore-processing activities.

20 s at risk, and examine potential for similar lead poisoning globally.

21 We investigated the extent of childhood lead poisoning [>/= 1 child with a blood lead level (BLL

22 s given to children with iron deficiency and lead poisoning have been demonstrated to improve develop

23 s Sans Frontieres (MSF) discovered extensive lead poisoning impacting several thousand children in ru

24 agent for the treatment of severe childhood lead poisoning in a resource-limited setting.

25 children (R(2) = 0.68) and the incidence of lead poisoning in children under age 1.3 years (R(2) = 0

26 -based ammunition is the principle source of lead poisoning in condors.

27 ities are using local policy tools to reduce lead poisoning in high-risk areas, but little is known a

28 made in reducing the incidence of childhood lead poisoning in the United States in the past three de

29 bled to investigate children's deaths due to lead poisoning in villages in northwestern Nigeria.

30 esponses addressed an unprecedented epidemic lead poisoning in Zamfara State, northern Nigeria.

31 or death in the previous year from suspected lead poisoning included the age of the child, the mother

32 recommended frequently to reduce the risk of lead poisoning, its role in preventing lead absorption h

33 lopmental toxicity associated with childhood lead poisoning may be attributable to interactions of Pb

34 The odds of childhood lead poisoning or lead contamination was 3.5 times as hi

35 2010, Medecins Sans Frontieres discovered a lead poisoning outbreak linked to artisanal gold process

36 During May-June 2010, a childhood lead poisoning outbreak related to gold ore processing w

37 was to determine the cause of the childhood lead poisoning outbreak, investigate risk factors for ch

38 Rochester experience may inform future local lead poisoning prevention policies in other communities.

39 The long history of lead poisoning provides many lessons about the process b

40 the elimination or substantial reduction of lead poisoning rates.

41 ion, in part, because of lead poisoning, and lead poisoning remains a significant threat today.

42 ts have reduced lead exposure significantly, lead poisoning remains the most common environmental hea

43 matic activity due to genetic aberrations or lead poisoning results in a mild to moderate nonspherocy

44 in blood lead in iron-replete children with lead poisoning secondary to iron supplements have not be

45 Iron deficiency and lead poisoning share common environmental risk factors a

46 hese factors, the use of iron supplements in lead poisoning should be individualized, and the supplem

47 ies in a new strategy to eliminate childhood lead poisoning should further prevention efforts.

48 The present study used an animal model of lead poisoning to examine the extent to which different