Potential Health Risks to DOD Firing-Range Personnel from Recurrent Lead Exposure

Author: Committee on Potential Health Risks from Recurrent Lead Exposure of DOD Firing-Range Personnel
Edition:
Binding: Kindle Edition
ISBN: B00CEK696I
Category: Medical

Potential Health Risks to DOD Firing-Range Personnel from Recurrent Lead Exposure

Lead is a ubiquitous metal in the environment, and its adverse effects on human health are well documented. Download Potential Health Risks to DOD Firing-Range Personnel from Recurrent Lead Exposure medical books for free.
Lead interacts at multiple cellular sites and can alter protein function in part through binding to amino acid sulfhydryl and carboxyl groups on a wide variety of structural and functional proteins. In addition, lead mimics calcium and other divalent cations, and it induces the increased production of cytotoxic reactive oxygen species. Adverse effects associated with lead exposure can be observed in multiple body systems, including the nervous, cardiovascular, renal, hematologic, immunologic, and reproductive systems. Lead exposure is also known to induce adverse developmental effects in utero and in the developing neonate. Lead poses an Get Potential Health Risks to DOD Firing-Range Personnel from Recurrent Lead Exposure our bestseller medical books.

Potential Health Risks to DOD Firing-Range Personnel from Recurrent Lead Exposure Download

Lead interacts at multiple cellular sites and can alter protein function in part through binding to amino acid sulfhydryl and carboxyl groups on a wide variety of structural and functional proteins. In addition, lead mimics calcium and other divalent cations, and it induces the increased production of cytotoxic reactive oxygen species. Adverse effects associated with lead exposure can be observed in multiple body systems, including the nervous, cardiovascular, renal, hematologic, immunologic, and reproductive systems. Lead exposure is also known to induce adverse developmental effects in utero and in the developing neonate ead interacts at multiple cellular sites and can alter protein function in part through binding to amino acid sulfhydryl and carboxyl groups on a wide variety of structural and functional proteins. In addition, lead mimics calcium and other divalent cations, and it induces the increased production of cytotoxic reactive oxygen species. Adverse effects associated with lead exposure can be observed in multiple body systems, including the nervous, cardiovascular, renal, hematologic, immunologic, and reproductive systems. Lead exposure is also known to induce adverse developmental effects in utero and in the developing neonate. Lead poses an

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