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CFSAN Chemical Signal Detection and Management System Presentation to Food Advisory Committee

CFSAN Chemical Signal Detection and Management System Presentation to Food Advisory Committee. Donald Zink, Ph.D. Director, Senior Science Advisor Staff Mary Torrence, Ph.D. Senior Advisor for Research Sept. 23-24, 2013. Charge to the FAC.

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CFSAN Chemical Signal Detection and Management System Presentation to Food Advisory Committee

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  1. CFSAN Chemical Signal Detection and Management System Presentation to Food Advisory Committee Donald Zink, Ph.D. Director, Senior Science Advisor Staff Mary Torrence, Ph.D. Senior Advisor for Research Sept. 23-24, 2013

  2. Charge to the FAC • Provide recommendations to CFSAN on the proposed systematic process for detecting and evaluating emerging chemical hazards in food, food and color additives, dietary supplements, and cosmetics • Recommendations to include: • Evaluate potential data sources and how to use the information and data • Flow of information through CFSAN • Decision criteria for prioritization and action of potential chemical signals

  3. Specific Questions for FAC • Question 1: What are the sources of data and information on chemical hazards that might best identify emerging chemical hazards or newly recognized risks from known chemical hazards? Rank these sources of data or information in order of the expected value in identifying new or emerging chemical hazards. • Question 2: Are the signal definition and the categories of signal types clear, well-defined, and inclusive? Are the definition and categories sufficient to detect potential issues related to chemicals in foods, food and color additives, dietary supplements, and cosmetics? Are there other categories that should be included or others that should be deleted?

  4. Questions Part 2 • Question 3: Once a potential signal is identified, CFSAN recognizes the need for considering and weighting various factors for signal review, prioritization, and subsequent action. What factors and weighting are most critical in moving an identified signal from the Signal Manager through the process to review? What factors and weighting are most critical in prioritizing a signal into particular categories (e.g., “high”)? What factors and weighting are most critical in deciding the follow-up and action on a signal? • Question 4: How should CFSAN conduct ongoing literature searches to capture new and emerging data on chemical hazards in published literature as part of this detection system? What key words would be appropriate to search on? What journals are most valuable for this purpose?

  5. QuestionsPart 3 • Question 5: Are there specific web-based technologies or services which the FAC would recommend for generating effective broad literature searches and monthly reports? How frequently should these searches be done (e.g., monthly or at different frequencies)? • Question 6: Are social media tools available and refined enough to be of use in this area? Should CFSAN take advantage of current contracts with social media or are there other ways to obtain and analyze social media information? Would it be useful for this process?

  6. QuestionsPart 4 • Question 7: How should the various data for the chemical signal detection process be stored and managed? Is the current proposed system adequate for a pilot and for designing a long- term system? How should this repository be structured, who would have access, and how often should it be updated? • Question 8: What skill set should a signal manager have? Should he or she be an information management specialist, or should he or she have expertise in other scientific disciplines (e.g., chemistry, toxicology, epidemiology)? • Question 9: Does the signal review committee composition make sense? How often should it meet? Should there be any other types of committees considered for decision-making or to facilitate communication? Who should be included as members and what types of scientific disciplines should be included?

  7. Chemical Signal System • Goals of the Pilot Process • Identify and evaluate potential emerging chemical hazards in food, food and color additives, dietary supplements, and cosmetics • Provide relevant information on an identified chemical hazard across CFSAN to facilitate active communication and response • Provide a dynamic system to better monitor and respond to emerging chemical hazards

  8. Signal Management System • Core Components • Signal Detection/Identification • Signal Review and/or Prioritization • Signal Action and Management • Signal Implementation and Follow-up

  9. Illustration of the Cycle of Processing Signal Information in the Chemical Signal System

  10. Definition of a Chemical Signal • Any information regarding a potential chemical contaminant hazard or reported adverse reaction in food, dietary supplements, or cosmetics that might be considered a risk or a perceived risk to public health; or • Any use of a chemical or combination of chemicals that may be used in a new way in foods, dietary supplements, cosmetics, food packaging, or processing that could significantly increase exposure; or • Any food, food packaging, dietary supplement, or cosmetic product or ingredients for which economic or supply conditions change substantially, leading to an increased probability of adulteration with chemicals (e.g., economically-motivated adulteration). Adapted from Hauben and Aronson (Drug Safety 2009; 32(2):99-110)

  11. Examples of Categories of Types of Signals • Adverse reactions suspected to arise from an unknown chemical in the food supply, dietary supplements, or cosmetics • Known chemical that is or may be related to a newly reported adverse reaction or event • Known chemicals that are receiving new or increased attention in the media, in legislative bodies, by other major international governmental entities, or from a toxicological or risk assessment perspective • Commodity that has undergone significant economic or supply changes and is vulnerable to adulteration by a chemical, or such changes would expose the public to a new chemical or toxin hazard • New and emerging biotoxins from marine or fungal sources (e.g., new types of mycotoxins, new marine toxins)

  12. Data Sources of Signals • Will evolve over time and include various types of information and data • Divided into external and internal sources for the management process • The key element is CFSAN personnel

  13. External Sources • Literature searches (e.g., Reuters) • Information on grant funding, like NIH’s RePORTER • Toxicology Data Network (TOXNET)(e.g., Integrated Risk Information System, IRIS) • Agency for Toxic Substances and Disease Registry (ATSDR-CDC) • Other government agencies (e.g., USDA, EPA) • International agencies and associations • Contracts for social media data mining and evaluation of economically-motivated adulteration risk

  14. Internal Sources • Total Diet Study • Reportable Food Registry • Compliance and Office of Regulatory Affairs-based systems • Market Data (e.g. Mintel, Gladson) • Cosmetic Ingredient Review • CFSAN Working Groups

  15. Signal Manager • Focal point for the system • Receives all signals either through internal data form (Traction) or external report • Responsible for initial triage of reports, synthesis and analysis for further action • Coordinates and tracks all communications, reports, and activities • Leads the Signal Review Team and completion of all recommended actions

  16. Signal Documentation • Signal Entry Form Template • Available and Posted on Traction • Traction is FDA software than can be customized for CFSAN • Designated signal system page • Signal Report available at all times and to everyone

  17. Signal Review Team • Core members should be experienced staff from each relevant office who have the ability to make decisions and assign other work. • Core members will work with the Signal Manager to prioritize signals, interpret data, recommend additional experts, complete or assign additional research or assignments by the appropriate office, and develop and share action plans.

  18. Signal Review Team • Receive the signal-related information from the Signal Manager and meet monthly or as needed. • Meetings will include a presentation of the chemical or commodity in question, the review of relevant materials, and recommended action (e.g., further evaluation, no actions needed, or suggestions for intervention(s)).

  19. Signal Prioritization • Why? Limited resources, and a lot of “noise” • How? • Low, Medium, High • Within 2 meetings the Signal Review Team will decide • Keep signal at low, or raise to medium or high • Does CFSAN need additional research or data? • Escalate to high according to defined decision criteria

  20. Prioritization and Action • Decision Tree or Flow chart of prioritizing criteria or factors • For example: • Reports from several of data sources • Product consumed in large quantities or by susceptible populations

  21. Signal Action and Implementation • Signal Management Team is composed of management-level staff from each relevant office. • Management Team will provide recommendations for actions and implementation. • Team can facilitate briefings, if needed, to CFSAN Management Council.

  22. CFSAN’s Signal Management System

  23. Initial Steps for Pilot • Communicate with all CFSAN offices about the purpose and goals of the system. • Evaluate the use of Traction for CFSAN and customize for chemical signal detection. • Hire Signal Managers and adequately train them. Provide training for CFSAN staff. • Identify qualified members to serve on the Signal Review Team and the Signal Management Team. • Continue to develop other current CFSAN data management and analysis tools, e.g., artificial neural networking (Appendix D).

  24. Expected Outcomes • Development and implementation of a systematic chemical signals management process that is transparent, effective, and science-based. • More rapid identification by CFSAN of chemicals in foods, food and color additives, dietary supplements, and cosmetics that may pose new or significantly increased risks to the public. • Improved communication flow throughout CFSAN on chemical signals. • The system will facilitate data-gathering in an effective process to better detect chemical signals by CFSAN.

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