The role of the autopsy: 1) Whether the death is ascribable to a natural or unnatural cause and when natural, if cardiac or extra-cardiac;2) The nosology of the cardiac diseases and the mechanism of cardiac death, whe...The role of the autopsy: 1) Whether the death is ascribable to a natural or unnatural cause and when natural, if cardiac or extra-cardiac;2) The nosology of the cardiac diseases and the mechanism of cardiac death, whether arrhythmic or mechanical;3) If the cardiac disease is inherited, screening and counselling of the next of kin is required. About 30% of sudden deaths is ascribable to genetically determined morbid entities, mostly transmissible with the autosomal dominant pattern of inheritance, so that 50% of the first degree relatives are genetically affected (“carriers”) and exposed at risk;4) If toxic or illicit drug abuse was involved.展开更多
Background: Prenatal exposure to illicit substances is responsible for several long-term negative health consequences. It is critical for healthcare professionals to know the extent and scope of prenatal substance exp...Background: Prenatal exposure to illicit substances is responsible for several long-term negative health consequences. It is critical for healthcare professionals to know the extent and scope of prenatal substance exposure in their cases. Several studies exist with mixed results comparing the effectiveness of umbilical cord tissue (UCT) and meconium (MEC) as toxicology specimen types. The specific aim of this study is to compare the use of UCT and MEC regarding the time interval between the birth of the neonate, receipt of the specimen at the laboratory, and the hospital’s receipt of the final toxicology report. Method: The study queried de-identified results of 5358 consecutive UCT and 706 MEC from our laboratory. Results: The mean time from birth to receipt of the specimen at the laboratory for MEC and UCT was 4.5 days ± 2.9 days and 2.8 days ± 1.9 days, respectively. The mean time from birth to final report for MEC was 6.9 days ± 3.8 days, 5.7 days ± 3.3 days, and 8.4 days ± 3.8 days for all MEC specimens, negative MEC, and positive MEC, respectively. The mean time from birth to final report for UCT was 4.3 days ± 2.4 days, 3.5 days ± 2.2 days, and 5.4 days ± 2.2 days for all UCT, negative UCT and positive UCT, respectively. Discussion/Conclusion: Receipt of drug test results of the neonate prior to release from the hospital is critical. This study shows that UCT offers an advantage when results are needed quickly to make informed decisions about the health and well-being of newborns.展开更多
The process of development is intricate and couple-dependent phenomenon.Accordingly,the study of molecular and cellular biology-based developmental toxicology biomarkers increasingly is becoming an important part of r...The process of development is intricate and couple-dependent phenomenon.Accordingly,the study of molecular and cellular biology-based developmental toxicology biomarkers increasingly is becoming an important part of risk assessment and management of chemicals for detection of health outcomes and/or biological endpoint like cytotoxicity,cell death,etc.Since,the evolution of developmental toxicology field a number of tools/markers have been developed or addressed to deal with developmental outcomes,which can ultimately be used for the development of adverse outcome pathways(AOPs)of developmental toxicants.As a result,this paper provides an overview of the current state of developmental toxicology biomarkers and describes the strategies used in the selection and evaluation of such biomarkers in the context of developmental toxicity studies.Here,we discuss about the biological markers that are directly linked to developmental toxicity with respect to future revolutionary perspectives.Additionally,this chapter will address different associated outcomes of developmental exposure by intriguing advance techniques.The discussion focuses on the challenges associated with the development of biomarkers for developmental toxicity and highlights some of the recent advances in this area.Finally,the chapter concludes with a brief discussion of the future prospects for the use of molecular and cellular biology-based developmental toxicity biomarkers.Hope the present state of the art will provide a succinct summary of recent developments of biomarkers of developmental toxicology.展开更多
The natural alkaloids extracted from Chinese herbal medicine have shown high medicinal value in vivo and in vitro, such as bacteriostasis, anti-virus, anti-tumor and anti-inflammation. This paper focuses on matrine an...The natural alkaloids extracted from Chinese herbal medicine have shown high medicinal value in vivo and in vitro, such as bacteriostasis, anti-virus, anti-tumor and anti-inflammation. This paper focuses on matrine and reviews its action mechanism and toxicological action. It is concluded that the medicinal prospect of matrine is very broad, but more basic research and clinical trials are needed for more comprehensive evaluation.展开更多
The application of omics technologies,including genomics,transcriptomics,proteomics and metabolomics,has the potential to revolutionize toxicology by providing a more comprehensive understanding of the molecular mecha...The application of omics technologies,including genomics,transcriptomics,proteomics and metabolomics,has the potential to revolutionize toxicology by providing a more comprehensive understanding of the molecular mechanisms of toxicity,identifying potential biomarkers of exposure or effect,and enabling personalized risk assessments for individuals.Each omics approach has its own challenges,including data analysis and interpretation,but the integration of multiple omics approaches can provide a more comprehensive understanding of toxicity.The use of omics technologies for personalized risk assessments can inform targeted interventions and improve public health outcomes.While challenges remain,the potential benefits of omics technologies in toxicology make it an exciting area of research for the future.展开更多
煤矿固体废弃物是煤炭开采、洗选和利用过程中产生的一种工业固体废弃物。我国煤矿固体废弃物虽然利用率逐年上升,但现阶段的堆存量仍然很大,它不仅侵占土地资源,还会造成严重的环境污染。本文通过系统检索知网、Web of Science和Google...煤矿固体废弃物是煤炭开采、洗选和利用过程中产生的一种工业固体废弃物。我国煤矿固体废弃物虽然利用率逐年上升,但现阶段的堆存量仍然很大,它不仅侵占土地资源,还会造成严重的环境污染。本文通过系统检索知网、Web of Science和Google Scholar数据库,收集了2014—2024年间关于煤矿固体废弃物理化特征及生态环境影响方面的研究文献,综合分析发现,煤矿固体废弃物对环境的影响主要表现在:①煤矿固体废弃物在堆存过程中产生的多环芳烃、SO_(2)等气体和细颗粒物,会对大气产生污染;②煤矿固体废弃物中的重金属在淋滤过程中会污染周围地下水;③煤矿固体废弃物中的Cd、Cr、Hg等重金属元素会通过风化、浸出等过程向周围土壤迁移释放,造成严重的重金属污染。基于安全、环保、监测等相关规定,结合目前综合利用和处理现状,提出了今后煤矿固体废弃物的研究重点。展开更多
Advanced glycation end-products (AGEs) are products of non-enzymatic glycation of proteins, lipids or nucleic acids and other macromolecules. To be spe- cific, Nε-(carboxymethyl)-Iysine (CML) is one of the most...Advanced glycation end-products (AGEs) are products of non-enzymatic glycation of proteins, lipids or nucleic acids and other macromolecules. To be spe- cific, Nε-(carboxymethyl)-Iysine (CML) is one of the most important components of AGEs, which is wildly distributed in the body and can be formed in vivo or in food processing and heating processes. Previous studies have shown that CML is a ma- jor immunological epitope in AGEs and plays an important role in diabetes and its complications, as well as in the development and progression of aging. This review summarized recent advances in major source, toxicological hazard and control mea- sures of CML.展开更多
文摘The role of the autopsy: 1) Whether the death is ascribable to a natural or unnatural cause and when natural, if cardiac or extra-cardiac;2) The nosology of the cardiac diseases and the mechanism of cardiac death, whether arrhythmic or mechanical;3) If the cardiac disease is inherited, screening and counselling of the next of kin is required. About 30% of sudden deaths is ascribable to genetically determined morbid entities, mostly transmissible with the autosomal dominant pattern of inheritance, so that 50% of the first degree relatives are genetically affected (“carriers”) and exposed at risk;4) If toxic or illicit drug abuse was involved.
文摘Background: Prenatal exposure to illicit substances is responsible for several long-term negative health consequences. It is critical for healthcare professionals to know the extent and scope of prenatal substance exposure in their cases. Several studies exist with mixed results comparing the effectiveness of umbilical cord tissue (UCT) and meconium (MEC) as toxicology specimen types. The specific aim of this study is to compare the use of UCT and MEC regarding the time interval between the birth of the neonate, receipt of the specimen at the laboratory, and the hospital’s receipt of the final toxicology report. Method: The study queried de-identified results of 5358 consecutive UCT and 706 MEC from our laboratory. Results: The mean time from birth to receipt of the specimen at the laboratory for MEC and UCT was 4.5 days ± 2.9 days and 2.8 days ± 1.9 days, respectively. The mean time from birth to final report for MEC was 6.9 days ± 3.8 days, 5.7 days ± 3.3 days, and 8.4 days ± 3.8 days for all MEC specimens, negative MEC, and positive MEC, respectively. The mean time from birth to final report for UCT was 4.3 days ± 2.4 days, 3.5 days ± 2.2 days, and 5.4 days ± 2.2 days for all UCT, negative UCT and positive UCT, respectively. Discussion/Conclusion: Receipt of drug test results of the neonate prior to release from the hospital is critical. This study shows that UCT offers an advantage when results are needed quickly to make informed decisions about the health and well-being of newborns.
文摘The process of development is intricate and couple-dependent phenomenon.Accordingly,the study of molecular and cellular biology-based developmental toxicology biomarkers increasingly is becoming an important part of risk assessment and management of chemicals for detection of health outcomes and/or biological endpoint like cytotoxicity,cell death,etc.Since,the evolution of developmental toxicology field a number of tools/markers have been developed or addressed to deal with developmental outcomes,which can ultimately be used for the development of adverse outcome pathways(AOPs)of developmental toxicants.As a result,this paper provides an overview of the current state of developmental toxicology biomarkers and describes the strategies used in the selection and evaluation of such biomarkers in the context of developmental toxicity studies.Here,we discuss about the biological markers that are directly linked to developmental toxicity with respect to future revolutionary perspectives.Additionally,this chapter will address different associated outcomes of developmental exposure by intriguing advance techniques.The discussion focuses on the challenges associated with the development of biomarkers for developmental toxicity and highlights some of the recent advances in this area.Finally,the chapter concludes with a brief discussion of the future prospects for the use of molecular and cellular biology-based developmental toxicity biomarkers.Hope the present state of the art will provide a succinct summary of recent developments of biomarkers of developmental toxicology.
文摘The natural alkaloids extracted from Chinese herbal medicine have shown high medicinal value in vivo and in vitro, such as bacteriostasis, anti-virus, anti-tumor and anti-inflammation. This paper focuses on matrine and reviews its action mechanism and toxicological action. It is concluded that the medicinal prospect of matrine is very broad, but more basic research and clinical trials are needed for more comprehensive evaluation.
文摘The application of omics technologies,including genomics,transcriptomics,proteomics and metabolomics,has the potential to revolutionize toxicology by providing a more comprehensive understanding of the molecular mechanisms of toxicity,identifying potential biomarkers of exposure or effect,and enabling personalized risk assessments for individuals.Each omics approach has its own challenges,including data analysis and interpretation,but the integration of multiple omics approaches can provide a more comprehensive understanding of toxicity.The use of omics technologies for personalized risk assessments can inform targeted interventions and improve public health outcomes.While challenges remain,the potential benefits of omics technologies in toxicology make it an exciting area of research for the future.
文摘煤矿固体废弃物是煤炭开采、洗选和利用过程中产生的一种工业固体废弃物。我国煤矿固体废弃物虽然利用率逐年上升,但现阶段的堆存量仍然很大,它不仅侵占土地资源,还会造成严重的环境污染。本文通过系统检索知网、Web of Science和Google Scholar数据库,收集了2014—2024年间关于煤矿固体废弃物理化特征及生态环境影响方面的研究文献,综合分析发现,煤矿固体废弃物对环境的影响主要表现在:①煤矿固体废弃物在堆存过程中产生的多环芳烃、SO_(2)等气体和细颗粒物,会对大气产生污染;②煤矿固体废弃物中的重金属在淋滤过程中会污染周围地下水;③煤矿固体废弃物中的Cd、Cr、Hg等重金属元素会通过风化、浸出等过程向周围土壤迁移释放,造成严重的重金属污染。基于安全、环保、监测等相关规定,结合目前综合利用和处理现状,提出了今后煤矿固体废弃物的研究重点。
基金Supported by "Twelfth Five-Year" National Science and Technology Support Project of China(2012BAK01B03)National 863 Plan(2013AA102202)~~
文摘Advanced glycation end-products (AGEs) are products of non-enzymatic glycation of proteins, lipids or nucleic acids and other macromolecules. To be spe- cific, Nε-(carboxymethyl)-Iysine (CML) is one of the most important components of AGEs, which is wildly distributed in the body and can be formed in vivo or in food processing and heating processes. Previous studies have shown that CML is a ma- jor immunological epitope in AGEs and plays an important role in diabetes and its complications, as well as in the development and progression of aging. This review summarized recent advances in major source, toxicological hazard and control mea- sures of CML.