Cellular and molecular toxicity of lead in bone.

Pounds, Joel G.; Long, Gregory J.; Rosen, John F.

doi:10.1289/ehp.919117

Cited by 290 publications

(144 citation statements)

References 125 publications

(93 reference statements)

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“…Lowlevel exposure to lead rarely causes a unique disease or pathological lesion, but contributes to loss of organ function (Pounds et al, 1991). The effects of lead may result from two processes: (1) influences on the endocrine organs that synthesize or produce hormones affecting bone growth and (2) altered bone cell functions, such as cell division, enzyme function, or malfunction of the calcium messenger system.…”

Section: Discussionmentioning

confidence: 99%

Relationship between low blood lead levels and growth in children of white-collar civil servants in Korea

Min¹,

Min²,

Cho³

et al. 2008

International Journal of Hygiene and Environmental Health

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Section: Discussionmentioning

confidence: 99%

Relationship between low blood lead levels and growth in children of white-collar civil servants in Korea

Min¹,

Min²,

Cho³

et al. 2008

International Journal of Hygiene and Environmental Health

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“…Limited data on bone graft supplements and osteotoxicity of lead should not be taken to mean that there are no published data. Population-based studies, animal studies, and cellular studies have found evidence of problematic effects of lead at the levels reported in a proportion of specimens in both screened and unscreened groups of specimens in this study [5,6,12,18,20]. Understanding the role of screening for higher concentrations of lead composition incommercially available bone graft materials and potential benefits with regard to reduced nonunion or pseudoarthrosis requires further study.…”

Section: Discussionmentioning

confidence: 79%

“…Lead has been shown to have deleterious effects on bone formation and cellular remodeling at concentrations as low as 2 parts per million [6,18,20]. In children, exposure results in impairment in skeletal development, reduced chest circumference, diminished stature, and can be assessed with blood tests for markers of bone turnover in this population [5,6,[10][11][12].…”

Section: Discussionmentioning

confidence: 99%

“…In children, exposure results in impairment in skeletal development, reduced chest circumference, diminished stature, and can be assessed with blood tests for markers of bone turnover in this population [5,6,[10][11][12]. The mechanism and toxicology of lead in bone formation, resorption, and healingis well known being mediated by impairment of the cellular pathways regulating osteoblast and osteoclast function [3,4,6,8,15,16,18,20,22]. Presumably the levels of lead in allografts mirror the level of lead in bone in the general population; however, the degree to which processing might decrease this and the frequency with which potentially osteotoxic levels appear in bone grafts have not been studied.…”

Section: Discussionmentioning

confidence: 99%

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Allogeneic and Autogenous Bone Grafts Are Affected by Historical Donor Environmental Exposure

Behrend

Carmouche

Millhouse

et al. 2016

Clinical Orthopaedics &Amp; Related Research

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Background Bone graft materials are routinely evaluated for infectious agents; however, data regarding contamination of bone graft from environmental exposure of the donors to osteotoxic substances such as lead are not routinely available. In animal models, stored lead in bone has been shown to impair fracture healing and osteocyte function. In clinical studies, lead is linked to skeletal disease at relatively low concentrations. Presumably the levels of lead in allografts mirror the level of lead in bone in the population; however, the degree to which processing might decrease this and the frequency with which potentially osteotoxic levels appear in bone grafts have not been studied. Questions/purposes (1) Does processing of donor bone for allografts result in lower concentrations of lead in commercial allograft when compared with autologous bone graft; and (2) what proportion of bone grafts contain potentially osteotoxic levels of lead from[2.0 to 20.0 lg/g corresponding to environmental exposure? Methods Allograft from commercial sources and autologous bone graft materials were examined for lead content using ICP-atomic absorption spectrophotometric analysis. We analyzed bone graft specimens from 42 donors, including 26 corticocancellous tibial specimens from commercially available bone graft materials and 16 autograft corticocancellous tibial specimens. Lead levels were determined for the cortical (n = 42) and cancellous (n = 42) portions of each specimen. For quality control, all instru-

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“…Previous studies in animals have shown that bone lead levels significantly affect bone healing [3]. Several authors have shown the adverse effects of lead on bone formation and resorption by demonstrating its impact on osteoblast and osteoclast activity [6,14,17,20,26,27]. One such study investigated the response bone lead levels exhibited on tibial fractures treated with intramedullary fixation in mice [3].…”

Section: Discussionmentioning

confidence: 99%

Retained Bullet Removal in Civilian Pelvis and Extremity Gunshot Injuries: A Systematic Review

Riehl

Sassoon

Connolly

et al. 2013

Clinical Orthopaedics &Amp; Related Research

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Background Although gunshot injuries are relatively common, there is little consensus about whether retained bullets or bullet fragments should be removed routinely or only in selected circumstances. Questions/purposes We performed a systematic review of the literature to answer the following questions: (1) Is bullet and/or bullet fragment removal from gunshot injuries to the pelvis or extremities routinely indicated? And, if not, (2) what are the selected indications for removal of bullets and/or bullet fragments? Methods A search of the English-language literature on the topic of gunshot injury and bullet removal was performed using the National Library of Medicine and MEDLINE 1 and supplemented by hand searching of bibliographies of included references. Studies were included if they provided clinical data on one or both of our study questions; included studies were evaluated using the levels of evidence rubric. Most studies on the subject were expert opinion (Level V evidence), and these were excluded; one Level III study and seven Level IV studies were included.Results No studies provided a rationale for routine bullet removal in all cases. The studies identified bullet fragment removal as indicated acutely for those located within a joint, the palm, or the sole. Chronic infection, persistent pain at the bullet site, and lead intoxication were reported as late indications for bullet removal. Conclusions The evidence base for making clinical recommendations on the topic of bullet and bullet fragment removal after gunshot injury is weak. Level I and II evidence is needed to determine the indications for bullet removal after gunshot injury.

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Cellular and molecular toxicity of lead in bone.

Cited by 290 publications

References 125 publications

Relationship between low blood lead levels and growth in children of white-collar civil servants in Korea

Relationship between low blood lead levels and growth in children of white-collar civil servants in Korea

Allogeneic and Autogenous Bone Grafts Are Affected by Historical Donor Environmental Exposure

Retained Bullet Removal in Civilian Pelvis and Extremity Gunshot Injuries: A Systematic Review

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