11 PUBH 5137 Occupational Toxicology

Recommended Readings:

1. Environmental Toxicology (University of Minnesota)
2. Toxicology in Occupational and Environmental Setting (PDF)(WILEY-VCH, Germany)
3. Other Recommended Textbook:

• • Gupta, P. K. (2016). Fundamentals of toxicology: essential concepts and applications. Academic Press. (Available Online on CBU Library)

Section 1: General Principles of Toxicology

• Recommended Reading for this section:

  • General Principles of Toxicology (ILO, US)

• Basic Concepts in Toxicology

  • Basic Terminology (ToxTutor, NIH National Library of Medicine)

  • Routes of Entry / Routes of Exposure

    • Toxicology Curriculum for Communities Trainer’s Manual (CDC)
      • Module 2 Lecture Notes
        • Routes of Exposure
          1. Dermal Absorption (Including Eyes)
          2. Inhalation
          3. Ingestion
          4. Other Routes of Exposure
        • Elements for a Pathway of Exposure
        • Types of Exposure (Acute, Chronic, Sub-acute, Sub-chronic)
    • What is Toxicology (International Labour Organization)
      • 1. What is toxicology?
      • 2.1 Routes of Exposure
        • Inhalation
        • Absorption
        • Ingestion, oral
        • Transplacental
        • Intravenous
        • Intramuscular
        • Subcutaneous
        • Intraperitoneal
    • Toxicology in Occupational and Environmental Setting (PDF) (WILEY-VCH, Germany) (Access link in the beginning of this course)
      • Route of Exposure (P.19 – 20)
      • Frequency of Exposure (P.21 – 22)
    • Biological Exposure Index (BEI)
      • Introduction to the Biological Exposure Indices (BEIs) (ACGIH)
    • Module 3: Toxicology – Section 1: Introduction to Occupational Toxicology (University of Cape Town, South Afraica)
      • TOX 1.10: Toxicodynamics-: Classification of toxicity in laboratory experiments

  • Lethal Dose, Lethal concentration

    • Lethal Dose 50 (LD50) and Lethal Concentration (LC50)
      • What is a LD50 and LC50? (CCOHS)
      • Toxicology and Exposure Guidelines (PDF)(University of Nebraska – Lincoln)

• • • • • Dose-Response Terms. (P.3 – 4)
          • Toxic Dose Low (TDLO)
          • Toxic Concentration Low (TCLO)
          • Lethal Dose Low (LDLO)
          • Lethal Dose Fifty (LD50)
          • Lethal Concentration Low (LCLO)
          • Lethal Concentration Fifty (LC50)
        • Limitations of Dose-Response Terms
          (P. 4)
        • TABLE 1 Summary of Dose-Response Terms (P.4)

• • Margins of Safety and Margins of Exposure

    • Definition in:
      • Glossary of Terms Used in Toxicology (2nd Edition) (IUPAC Recommendations 2007)
        • In 1255 (P.104)
    • Determining the Safety of a Drug (ToxTutor. NIH National Library of Medicine)

1. 1. 1. • Margins of Safety (MOS)

• • • Their Differences and Calculations:
      • What Are Margin of Exposure (MOE) and Margin of Safety (MOS) and How to Calculate (ChemSafetyPro.com)
        1. Definition of Margin of Exposure (MOE)
        2. Definition of Margin of Safety (MOS)
        3. Example: MOE/MOS Calculation

  •  Therapeutic index

    • Definition – Therapeutic Index (TI) (Clinical Info, CDC)

• • • Determining the Safety of a Drug (ToxTutor, NIH National Library of Medicine)
      • Therapeutic Index (TI)
    • Therapeutic Index in Pharmacology (Britannica)
    • Applied Pharmacology 5, Therapeutic Index (YouTube Video) (Dr. John Lorimer Campbell)

• • NOAEL and LOAEL (ToxTutor, NIH National Library of Medicine)

• Dose Response Relationships

  • Dose and Its Impact on Toxicity (ToxTutor, NIH National Library of Medicine)
  • Dose Response (ToxTutor, NIH National Library of Medicine)
  • Module 3: Toxicology – Section 1: Introduction to Occupational Toxicology (University of Cape Town, South Africa) 
    • TOX 1.9: Toxicodynamics-: Dose-Response Relationships
  • Dose Response Relationship in Toxicology (PDF) (Central Massachusetts Mosquito Control Project, US)
  • Dose Response Calculations
    • Toxicology in Occupational and Environmental Setting (PDF) (WILEY-VCH, Germany) (Access link in the beginning of this course)
      • Please read:
        • Section 1.7 Dose–Response: a Fundamental Issue in Toxicology (P.13 – 15)
          1. Quantal Dose Response Relationship (P.15)
          2. Graded Dose Response Relationship (P.15)
          3. Section 1.7.1. Graphics and Calculations (P.15 – 18)
        • 1.8. Dose-Response Relationships for Cumulative Effects (P.18 – 19)
        • 1.9. Factors Influencing Dose–Response (P.19 -23)
  • Dose Estimates of Toxic Effects (ToxTutor, NIH National Library of Medicine)

• Quiz

Section 2: Mechanisms of Toxicity

• Chapter in Brief

  • Mechanisms of Toxicity (ILO, US)
  • Chapter 5 Occupational Health (PDF) (IHSA.ca)

• Detailed Explanation:

  • Membrane Penetration (Affecting Absorption, Delivery and Disposition of Toxicants)

    • Toxicology in Occupational and Environmental Setting (PDF) (WILEY-VCH, Germany) (Access link in the beginning of this course)
      • Section 2.2 Absorption (P.24)
      • 2.2.1 Membranes (P.24)
      • 2.2.2. Penetration of Membranes by Chemicals (P.25)
        • Diffusion of Chemicals through Membranes. (P.25)
      • 2.2.3. Mechanisms of Transport of Xenobiotics through Membranes (P.26)

  • Absorption

    • Section 10: Absorption (ToxTutor, NIH National Library of Medicine)
    • Toxicology in Occupational and Environmental Setting (PDF) (WILEY-VCH, Germany) (Access link in the beginning of this course)
      • Section 2.2.4 Absorption
        • 2.2.4.1 Dermal Absorption (P.27)
        • 2.2.4.2. Gastrointestinal Absorption (P.30)
        • 2.2.4.3. Absorption of Xenobiotics by the
        • Respiratory System (P.31)

• • • Module 3: Toxicology – Section 1: Introduction to Occupational Toxicology (University of Cape Town, South Africa) 
      • TOX 1.7: Toxicokinetics – Absorption

  • Delivery and Deposition to Target Organs

    • Section 11: Distribution (ToxTutor, NIH National Library of Medicine)
    • Toxicology in Occupational and Environmental Setting (PDF) (WILEY-VCH, Germany) (Access link in the beginning of this course)
      • 2.3 Distribution of Xenobiotics by Body Fluids (P.33)
      • 2.4. Storage of Xenobiotics in Organs and Tissues (P.36)

• • • 11.5: Storage Sites (Chemistry LibreTexts, US)
      • Adipose Tissue
      • Bone
      • Liver and Kidneys
    • Module 3: Toxicology – Section 1: Introduction to Occupational Toxicology (University of Cape Town, South Africa) 
      • TOX 1.8: Toxicokinetics – Distribution, Biotransformation and Excretion

    • In-depth Journal Article

      Adipose Tissue as a Site of Toxin Accumulation (Full Article) (NIH National Library of Medicine)

      • Jackson, E., Shoemaker, R., Larian, N., & Cassis, L. (2017). Adipose Tissue as a Site of Toxin Accumulation. Comprehensive Physiology, 7(4), 1085–1135. https://doi.org/10.1002/cphy.c160038

  • Metabolism and Disposal of Toxicants

    • Overview of Biotransformation, Metabolism and Excretion Module 3: Toxicology – Section 1: Introduction to Occupational Toxicology (University of Cape Town, South Africa) 
      • TOX 1.8: Toxicokinetics – Distribution, Biotransformation and Excretion

    • Biotransformation

      • Section 12: Biotransformation (ToxTutor, NIH National Library of Medicine)
      • Biotransformation
        • Toxicology in Occupational and Environmental Setting (PDF) (WILEY-VCH, Germany) (Access link in the beginning of this course)
          • 2.5. Biotransformation (P.37)
            • 2.5.1. Phase-I and Phase-II Reactions (P.37)
            • 2.5.2. Localization of the Biotransformation Enzymes (P.38)
            • 2.5.3. Role of Biotransformation in Detoxication and Bioactivation (P.38)

• • • • • • • 2.5.4. Phase-I Enzymes and their Reactions (P.39)
            • 2.5.5. Phase-II Biotransformation Enzymes and their Reactions (P.45)

• • • • • • • 2.5.6. Bioactivation of Xenobiotics (P.49)
            • 2.5.7. Factors Modifying Biotransformation and Bioactivation (P.58)

    • Toxicokinetic

      • Toxicology in Occupational and Environmental Setting (PDF) (WILEY-VCH, Germany) (Access link in the beginning of this course)
        • 2.6. Toxicokinetics
        • 2.6.1. Pharmacokinetic Models (P.66)
        • 2.6.2. Physiologically Based Pharmacokinetic Models (P.68)

    • Disposal of Toxicants

      • Section 13: Excretion (ToxTutor, NIH National Library of Medicine)
      • Toxicology in Occupational and Environmental Setting (WILEY-VCH, Germany) (Access link in the beginning of this course)
        • 2.5.8. Elimination of Xenobiotics and Their Metabolites (P.62)
          • 5.8.1. Renal Excretion (P.63)
          • 5.8.2. Hepatic Excretion (P.64)
          • 5.8.3. Xenobiotic Elimination by the Lungs (P.65)

      • Journal Article

        Elimination of persistent toxicants from the human body.

        • Genuis, S. J. (2011). Elimination of persistent toxicants from the human body. Human & experimental toxicology, 30(1), 3-18. https://www.researchgate.net/publication/43183056_Elimination_of_persistent_toxicants_from_the_human_body

  • Reaction with Target Molecules

    • Environmental Toxicology (University of Minnesota)

• • • • Section 4.2. Toxicodynamics & Molecular Interactions
        • 4.2.1. Protein Inactivation
        • 4.2.2. Receptor interaction

• • • • • 4.2.3. Oxidative stress – I.

• • • • • 4.2.3. Oxidative stress – II.
        • 4.2.4. Cytotoxicity: xenobiotic compounds causing cell death
    • Toxicology in Occupational and Environmental Setting (PDF) (WILEY-VCH, Germany) (Access link in the beginning of this course)
      • Mechanisms of Acute and Chronic Toxicity and Mechanisms of Chemical Carcinogenesis
        • 3.1. Biochemical Basis of Toxicology (P.69)
        • 3.2. Receptor-Ligand Interactions (P.70)
        • 3.3. Binding of Xenobiotics to Biomolecules (P.74)
        • 3.4. Perturbation of Calcium Homeostasis by Xenobiotics or their Metabolites (P.77)
        • 3.5. Nonlethal Genetic Alterations in
        • Somatic Cells and Carcinogenesis (P.78)
        • 3.6. DNA Structure and Function (P.79)
        • 3.7. Molecular Mechanisms of Malignant Transformation and Tumor Formation (P.81)
        • 3.8. Mechanisms of Chemically Induced Reproductive and Developmental Toxicity (P.84)
    • Outcomes of Targeted and Non-Targeted Toxicity (Chemistry LibreTexts, US)

• • • • Covalent Binding

• • • • Electron Transfer

• • • • Lipid Peroxidation
      • NonTarget Toxicity
      • Knowledge Check
    • Neoantigen Formation
      • Definition of Neoantigen (NIH National Cancer Institute, US)
      • 1.3 Outcomes of Targeted and Non-Targeted Toxicity (Chemistry LibreTexts, US)

      • Journal Article

        Tumor neoantigens: from basic research to clinical applications

        • Jiang, T., Shi, T., Zhang, H., Hu, J., Song, Y., Wei, J., … & Zhou, C. (2019). Tumor neoantigens: from basic research to clinical applications. Journal of hematology & oncology, 12(1), 1-13. https://jhoonline.biomedcentral.com/articles/10.1186/s13045-019-0787-5

• • • Factors Affecting Toxicity
      • Toxicology and Exposure Guidelines (PDF) (University of Nebraska – Lincoln) (P.5 – 7)

• • • • • Duration and Frequency of Exposure (P.5)
        • Route of Exposure (P.6)

• • • • • Interspecies Variation (P.6)

• • • • • Intraspecies Variations (P.6)
        • Environmental Factors (P.6)
        • Chemical Combinations (P.6)

• Quiz

Section 3: Toxic Responses and Symptoms of Selected Chemicals

• Common Effects Caused by Toxicants:

• • Adaptation (ToxTutor, NIH National Library of Medicine)

  • Cell Damage

    • Cell Damage and Tissue Repair (ToxTutor, NIH National Library of Medicine)
      • Toxic Damage to Cells and Tissues
      • Necrosis
      • Apoptosis
      • Cell Repair
        • Cell Regeneration
        • Metaplasia (Different Types of Fibrosis)
  • Environmental Toxicology (University of Minnesota)
    • Section 4.2. Toxicodynamics & Molecular Interactions
      • 2.4. Cytotoxicity: xenobiotic compounds causing cell death

  • Fibrosis

    • ournal Aricles

      • Fibrosis: ultimate and proximate causes (Full Article) (The Journal of clinical investigation)
        • Thannickal, V. J., Zhou, Y., Gaggar, A., & Duncan, S. R. (2014). Fibrosis: ultimate and proximate causes. The Journal of clinical investigation, 124(11), 4673-4677. https://www.jci.org/articles/view/74368
      • Representing the Process of Inflammation as Key Events in Adverse Outcome Pathways (Full Article) (Toxicological Sciences)
        • Villeneuve, D. L., Landesmann, B., Allavena, P., Ashley, N., Bal-Price, A., Corsini, E., … & Tschudi-Monnet, F. (2018). Representing the process of inflammation as key events in adverse outcome pathways. Toxicological sciences, 163(2), 346-352. https://academic.oup.com/toxsci/article/163/2/346/4904563
      • Cellular Mechanisms of Tissue Fibrosis. 1. Common and organ-specific mechanisms associated with tissue fibrosis (Full Article) (American Journal of Physiology-Cell Physiology)
        • Zeisberg, M., & Kalluri, R. (2013). Cellular mechanisms of tissue fibrosis. 1. Common and organ-specific mechanisms associated with tissue fibrosis. American Journal of Physiology-Cell Physiology, 304(3), C216-C225. https://journals.physiology.org/doi/full/10.1152/ajpcell.00328.2012

  • Cellular Disrepair and Cellular dysfunction – The Basics of Oncogenesis

    • Biology (OpenTextBC, Ca)

• • • • 6.3 Cancer and the Cell Cycle
    • Genetic Toxicology (ILO, US)

    • Journal Article

      Cell Death Mechanisms and Their Implications in Toxicology (Full Article)(Toxicololgical Sciences)

      • Sten Orrenius, Pierluigi Nicotera, Boris Zhivotovsky, Cell Death Mechanisms and Their Implications in Toxicology, Toxicological Sciences, Volume 119, Issue 1, January 2011, Pages 3–19, https://doi.org/10.1093/toxsci/kfq268

1. • Target Organ Toxicity (ILO, US)

• Toxic responses of

  • Nervous Systems

    • Neurotoxicity (ToxTutor, NIH National Library of Medicine)
    • Environmental Toxicology (University of Minnesota)
      • Section 4.2. Toxicodynamics & Molecular Interactions
        • 2.5. Neurotoxicity
        • 2.11. Toxicity mechanism of metals
        • 2.12 Metal tolerance

    • Journal Article

      Metals and Neurotoxicology (Full Article) (The Journal of Nutrition)

      • Robert O. Wright, Andrea Baccarelli, Metals and Neurotoxicology, The Journal of Nutrition, Volume 137, Issue 12, December 2007, Pages 2809–2813, https://doi.org/10.1093/jn/137.12.2809
    • Opioid Induced Neurotoxicity (Including Fentanyl) (PDF) (Pharmacists Manitoba)
    • Organic Solvent Neurotoxicity (NIOSH)

  • Immune system

    • Immunotoxicology (ILO, US)
    • Environmental Toxicology (University of Minnesota)
      • 4.2.10. Immunotoxicity

    • Journal Article

      Toxicology of environmentally persistent chlorinated organic compounds (Full Articel)(PDF)

      • Hanberg, A. (1996). Toxicology of environmentally persistent chlorinated organic compounds. Pure and applied chemistry, 68(9), 1791-1799. https://publications.iupac.org/pac/1996/pdf/6809×1791.pdf
        • Immunological Effects (P.1797)

• • • Toxicological Profile for Benzene (PDF) (ATSDR, CDC) 
      • Immunological and Lymphoreticular Effects (P.8)

• • Blood and Endocrine

    • Blood Toxicity

      • Hemolytic anemia caused by chemicals and toxins (MedlinePlua, NIH National Library of Medicine)
      • Note On Liver And Blood In Relation To Occupational Hazards (University of Cape Town, South Afraica)

      • Journal Article

        Chemical toxicity of red cells (Full Article) (PDF)

        • Piomelli, S. (1981). Chemical toxicity of red cells. Environmental health perspectives, 39, 65-70. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1568731/pdf/envhper00466-0067.pdf
      • Facts About Benzene (CDC)
        •  Long-term health effects of exposure to benzene

    • Disruption to Endocrine System

      • Environmental Toxicology (University of Minnesota)
        • 4.2.8. Endocrine disruption
      • Endocrine Disruptors (NIH, National Institute of Environmental Health Science)

• • Liver and Kidney (heavy metals, solvents)

    • Liver

      • Toxic responses of the liver (ResearchGate) (Full Article)

• • • • First Pass Effect (NIH, National Library of Medicine)
        • Herman, T. F., & Santos, C. (2019). First pass effect. Herman StatPearls https://www.ncbi.nlm.nih.gov/books/NBK551679/

    • Kidney

      • Journal Article

        • Kidney Pathophysiology, Toxicology, and Drug-Induced Injury in Drug Development (Full Article) (International Journal of Toxicology)
          • Radi, Z. A. (2019). Kidney pathophysiology, toxicology, and drug-induced injury in drug development. International journal of toxicology, 38(3), 215-227. https://journals.sagepub.com/doi/10.1177/1091581819831701
        • Effects of environmental chemicals on kidney metabolism and function (Full Article) (Kidney International)
          • Kluwe, W. M., & HooK, J. B. (1980). Effects of environmental chemicals on kidney metabolism and function. Kidney international, 18(5), 648-655. https://www.sciencedirect.com/science/article/pii/S0085253815323954

    • Heavy Metals

      • Journal Articles

        • The Accumulative Effect of Heavy Metals on Liver and Kidney Functions
          • Al-Rikabi, Z. G. K., Al-Saffar, M. A., & Abbas, A. H. (2021). The accumulative effect of heavy metals on liver and kidney functions. Medico Legal Update, 21(1), 1114-1119.
            • P.1114
        • Kidney and heavy metals – The role of environmental exposure (Review) (PDF)(Molecular Medicine Reports)
          • Lentini, P., Zanoli, L., Granata, A., Signorelli, S. S., Castellino, P., & Dell’Aquila, R. (2017). Kidney and heavy metals-The role of environmental exposure. Molecular medicine reports, 15(5), 3413-3419. https://www.spandidos-publications.com/mmr/15/5/3413

• • Respiratory System (Asbestos, Talc, Fibre Glass, Silica)

    • The Respiratory System and Its Response to Harmful Substances (PDF)(Princeton University)
    • Environmental Lung Diseases (Merk Manual Consumer Version)
      • Overview of Environmental Lung Diseases
      • Asbestosis
      • Asbestos-Related Pleural Disease
      • Silicosis
    • Asbestos – Health Effects (CCOHS)
    • Talc (Government of Canada)
    • Talcum Powder and Cancer (American Cancer Society)
    • Fibrous Glass (NIOSH)
    • Silicosis (CCOHS)

    • Journal Article

      Responses of the lung to toxic injury (Full Article) (Pubmed Central)

      • Witschi H. (1990). Responses of the lung to toxic injury. Environmental health perspectives, 85, 5–13. https://doi.org/10.1289/ehp.85-1568332

  • Cardiovascular System, (steroids, solvents, cocaine)

    • Cardiac Toxicity (Virginia Cancer Institute, US)

• • • Journal Articles

      • Toxic Mechanisms of the Heart: A Review (Full Article)
        • Combs, A. B., & Acosta, D. (1990). Toxic mechanisms of the heart: a review. Toxicologic Pathology, 18(4a), 583-596. https://journals.sagepub.com/doi/pdf/10.1177/019262339001804a08
      • Key Characteristics of Cardiovascular Toxicants (Full Article)
        • Lind, L., Araujo, J. A., Barchowsky, A., Belcher, S., Berridge, B. R., Chiamvimonvat, N., … & Smith, M. T. (2021). Key characteristics of cardiovascular toxicants. Environmental health perspectives, 129(9), 095001. https://ehp.niehs.nih.gov/doi/10.1289/EHP9321
    • Steroids
      • Anabolic Steroids (MSD Manual Consumer Version)

      • Journal Article

        Cardiac effects of anabolic steroid (Full Article)

        • Payne, J. R., Kotwinski, P. J., & Montgomery, H. E. (2004). Cardiac effects of anabolic steroids. Heart, 90(5), 473-475. https://heart.bmj.com/content/90/5/473

• • • Cocaine (MSD Manual Consumer Version)

• • • Journal Article

      Combined cardiac effects of cocaine and the anabolic steroid, nandrolone, in the rat (Full Article)

      • Phillis, B. D., Irvine, R. J., & Kennedy, J. A. (2000). Combined cardiac effects of cocaine and the anabolic steroid, nandrolone, in the rat. European journal of pharmacology, 398(2), 263-272. https://pubmed.ncbi.nlm.nih.gov/10854839/

• • Skin and reproductive system

    • Skin Toxicity

      • Skin Exposures and Effects (NIOSH)

• • • • Journal Article

        Association of occupational exposures with cardiovascular disease among US Hispanics/Latino (Full Article)

        • Bulka, C. M., Daviglus, M. L., Persky, V. W., Durazo-Arvizu, R. A., Lash, J. P., Elfassy, T., … & Argos, M. (2019). Association of occupational exposures with cardiovascular disease among US Hispanics/Latinos. Heart, 105(6), 439-448. https://heart.bmj.com/content/105/6/439

• • • Reproductive Toxicity

      • Environmental Toxicology (University of Minnesota)
        • 2.9. Developmental toxicity
      • Carcinogens, Mutagens, Teratogens  and Reproductive Toxins  (PDF)(WHMIS Quick Facts)

  • Environmental Estrogen

    • Endocrine Disruptor (Britannica)

• • • Journal Article

      Effects of Polychlorinated Biphenyls on Estrogen Receptor-β Expression in the Anteroventral Periventricular Nucleus (Full Article) (PDF)

      • Salama, J., Chakraborty, T. R., Ng, L., & Gore, A. C. (2003). Effects of polychlorinated biphenyls on estrogen receptor-beta expression in the anteroventral periventricular nucleus. Environmental health perspectives, 111(10), 1278-1282. https://cfpub.epa.gov/ncer_abstracts/index.cfm/fuseaction/display.files/fileID/13439

Section 4: Common Occupational Toxicants

• Most Commonly Occurring Toxicants in Occupational Settings

  • Workplace safety – hazardous substances (Better Health Channel, Au)

• • • Common hazardous substances
    • Possible side effects of exposure to hazardous substances

• • • Labels and Safety Data Sheets for hazardous substances

• • • Reducing exposure to hazardous substances
    • Hazardous substances – written records
    • Professional advice about hazardous substances

• • • Medical help for exposure to hazardous substances
  • Common Toxic Exposures in the Workplace (WorkplaceFairness.org)

• • • Benzene
    • Asbestos

• • • Silica

• Common Health Effects and Symptoms of Common Occupational Intoxication

  • Corrosives (Dermal Exposure)
    • Case Definition: Caustic or Corrosive Agents (NIOSH)
      1. Case Definition: Hydrofluoric Acid
      2. Case Definition: Caustic or Corrosive Agents
  • Lead
    • Health Problems Caused by Lead (NIOSH) 
  • Benzene
    • Facts About Benzene (NIOSH)
  • Pesticides – Health Effects (CCOHS)
  • Silica
    • Silicosis (NHS, UK)
  • Asbestosis (NHS, UK)
  • Welding – Fumes and Gases (CCOHS)

• Review of the toxicology of natural chemicals

  • Natural toxins in food (WHO)

• • Natural Toxins (Government of Canada)

Section 5: Scientific Research Principles

• The Logic and the Basic Principles of Scientific Based Research (National Educational Research Policy and Priorities Board (PDF) (ED/OERI, Washington, DC)
• Critical Thinking in Academic Research (Pressbook)
• Choosing & Using Sources: A Guide to Academic Research (Pressbook)

Section 6: Occupational Toxicants Identification

• Identifying the Workplace Agents

  • In Brief

    • Chemical Safety in the Workplace (PDF) (Labour Department, HK)
      • Identifying Chemical Hazards (P.3)
    • Chemical Hazards (PDF)(Government of Alberta)
      • Section J Identifying Chemical Hazards (P.50)
        • WHMIS
        • Consumer Chemicals
        • Transportation Labelling

• • Detailed Journals:

    • Occupational Hazards Identification and Their Risk Assessment During the Construction of Head Race Tunnel in Middle Bhotekoshi Hydroelectric Project (Full Article) (PDF)
      • Lama, C., Sah, D. P., & Mishra, A. K. (2019). Occupational Hazards Identification and Their Risk Assessment during the Construction of Head Race Tunnel in Middle Bhotekoshi Hydroelectric Project. International Journal of Research-Granthaalayah, 7(3), 227-248.
    • A knowledge graph method for hazardous chemical management: Ontology design and entity identification (Full Article)
      • Zheng, X., Wang, B., Zhao, Y., Mao, S., & Tang, Y. (2021). A knowledge graph method for hazardous chemical management: Ontology design and entity identification. Neurocomputing, 430, 104-111. 

• • Occupational Hazards in Various Workplaces:

    • Hazards in Health Care Workplaces (PDF) (University of Saskatchewan College of Medicine)
    • Manufacturing Industry Hazards (Ohsrep.org, Au)
    • Retail Sales and Service – General (CCOHS)
    • Office work: Safety basics (Worksafe Victoria, Au)
    • Teachers (CCOHS)

• Quiz

Section 7: Workplace Health Surveillance

• Workplace Health Surveillance

  • Occupational Health Surveillance (Full Article)
    • Lele D. V. (2018). OCcupational Health Surveillance. Indian journal of occupational and environmental medicine, 22(3), 117–120. https://doi.org/10.4103/ijoem.IJOEM_251_18

• • • • Missing the Diagnosis
      • Health Surveillance

• • • • Exposure Monitoring

• • • • When is Health Surveillance Needed?
      • Statutory Health Surveillance
      • Occupational Health Surveillance is not a General Check-Up

• • • • The Sentinel Health Event Approach
      • Clinical and Physiological Assessments

• • • • Molecular Biomarkers as Indicators of Susceptibility
  • Surveillance in Occupational Health (Full Article)
    • Koh, D., & Aw, T. C. (2003). Surveillance in occupational health. Occupational and environmental medicine, 60(9), 705-710. https://oem.bmj.com/content/60/9/705
  • Medical Surveillance in Work-Site Safety and Health Programs (Full Article)
    • Wesdock, J. C., & Sokas, R. (2000). Medical surveillance in work-site safety and health programs. American Family Physician, 61(9), 2785-2790. https://www.aafp.org/pubs/afp/issues/2000/0501/p2785.html

• • • • Primary Prevention in the Workplace
      • Medical Screening and Surveillance

• • • • Developing a Medical Surveillance Plan
        1. Hazard Assessment
        2. Employee Eligibility Determination
        3. Screening Activities
        4. Biological Monitoring

• • • • Communicating Results
      • Program Quality
      • Generic Safety and Health Programs and Medical Surveillance
  • Case studies on Occupational Issues.
    • Lessons Learned – Solutions for Workplace Safety and Health (PDF) (University of Massachusetts Lowell)

• • • • Floor finishers, lacquer sealers, and fires
      • When my job breaks my back
      • The poison that smells like butter
      • Injuries are not accidents
      • Regulating methylene chloride
      • Safe food from safe workplaces
      • Conclusions
  • Report: Health and Safety Workplace Case Studies (PDF) (Healthrose Reasearch, NZ)
    • Note: This report is viewing on company level

• Quiz

• Control Exposures to Acceptable levels

  • Legislative Control:

    • Handling and Labelling of Hazardous Chemical – WHMIS

      • Workplace Hazardous Materials Information System (WHMIS)
      • WHMIS 2015 – General (CCOHS)
      • WHMIS 1988 to WHMIS 2015 – Making the transition (Ontario)
      • Canada Legislation and Standards

1. 1. 1. 1. 1. Federal / National
            2. Provincial
            3. Territorial

• • • Employer’s Responsibility in OHS

      • Federal Law:
        • Duties of Employers
          • Canada Labour Code, Part II, R.S.C. 1985, c. L-2
            • Subsections 125(1)(t) and (u), Specific duties of employer

    • Legislation Mandate to Ensure OHS

      • Federal:
        • Canada Occupational Health and Safety Regulations (SOR/86-304) Part X Hazardous Substances
      • Provincial Law:
        • Nova Scotia Workplace Health and Safety Regulations, N.S. Reg. 52/2013 Part 2 Occupational Health

  • Exposure of Control refers to:

    • Hierarchy of Controls (CDC)
    • Best Practices and Guideline such as:
      • Chemical Hazards (PDF)(Government of Alberta)

  • Chemical Exposure Limit refer to:

    • OSHA Occupational Chemical Database
    • NIOSH Pocket Guide to Chemical Hazards