Lead Poisoning at an Indoor Firing Range Michael Kinzer, MD, MPH Public Health - Seattle & King County EIS Field Assignments Branch “I would rather forage for food at a toxic waste dump than shoot regularly at an indoor firing range.” —Massad Ayoob The Call • November 30, 2012 • Washington State Department of Labor & Industries (L&I) requests support from Public Health – Seattle & King County (PHSKC) • An unknown number of workers at an indoor gun range had elevated blood lead levels (BLLs) • Some as high as 48 μg/dL Outline - Lead in ammunition - Lead poisoning - The investigation - Conclusions Lead - Soft, malleable metal - Widespread - Easy to extract - Easy to work with Lead ore Uses for Lead tit Pam Lead in Ammunition • Projectile (bullet) • Elemental lead • Primer Projectile • Lead styphnate Cartridge case • Lead azide Powder • Lead peroxide • Lead nitrite Primer From Ammunition to the Environment Photo: Niels Noordhoek From Ammunition to the Environment Photo: Niels Noordhoek From Ammunition to the Environment Photo: Niels Noordhoek From Ammunition to the Environment Photo: Niels Noordhoek Firing Range Layout LN ?11qu mail/{W Pojlh?ahj ?31:ij 1 I 1,7. 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(#33 i From the Environment to You Shooters • Inhaled directly during shooting • Ingested from unwashed hands • Ingested from contaminated game meat Non-shooters • Take-home lead on shooters’ clothes or skin • Contaminated game meat • Working in contaminated areas Lead Toxicity Neurological, cardiovascular, renal, reproductive, immunological, gastrointestinal systems Symptoms • Numbness/tingling • Muscle weakness • Headache • Memory loss • Insomnia • Mood changes • Cramps, nausea/vomiting Diagnosis & Treatment Diagnosis • Blood lead level (BLL) in μg/dL • Toxicity with levels ≥5 μg/dL Treatment • Removal from lead exposure • Chelation Your Examples There are no regulations to protect the shooting public at any of the nation’s 16,000 to 18,000 indoor gun ranges. Yes, the health department in Seattle decided to act. Do you have other examples of taking action without clear regulatory authority? Type your examples in the chat box. Firing Range • Indoor firing range • 8 bays, 24 lanes • Sand bullet trap • Jacketed ammo • Historical lead safety issues • BLLs as high as 83 μg/dL 1 bay, 3 shooting lanes Remodeling Operations September 2012 • Sand removal and lead recovery • Construction of second floor range begun Contaminated sand in parking lot Methods Environmental evaluations Environmental Evaluation • L&I • Inspection, follow-up • PHSKC Environmental Health • Surface wipes, interviews • Contractors & range owner • IH consultants • Sampling • Surface (μg/m2) • Air (μg/m3) • Personal breathing zone (PBZ) (μg/m3) Blood Lead Levels • All directly or indirectly exposed individuals • Sources • Employers • Clinics • Laboratories • State and local blood lead registries Interviews • Informal discussions with range owner and construction employers • Standardized phone interviews with workers • Demographics, household members • Extent of exposure • Lead safety • Blood lead testing • Health status • Any other lead exposures Environmental Evaluation • L&I • High surface and air levels in off-limits and public areas • Range air limits exceeded after 30 minutes exposure • Inappropriate ventilation • Inadequate lead safety behaviors • PHSKC Environmental Health • High surface lead levels • Contamination beyond worksite Environmental Evaluation • Contractors • High surface and air levels early in construction • Surface contamination in vehicles, homes, hotel rooms • Range owner • Poor ventilation in some lanes – closed • Contamination in men’s restroom – closed • Closed range for three days, hired contractor to clean • Improved ventilation system, but… • Volunteer shooters with high levels during shooting • Public surfaces still contaminated Blood Lead Levels 160 140 120 μg/dl 100 80 60 40 20 0 8-Sep 28-Sep 18-Oct 7-Nov 27-Nov Range Employee 17-Dec 6-Jan Blood Lead Levels 160 140 120 μg/dl 100 80 60 40 20 0 8-Sep 28-Sep 18-Oct 7-Nov Range Employee 27-Nov 17-Dec Construction Worker 6-Jan Blood Lead Levels 160 140 120 μg/dl 100 80 60 40 20 0 8-Sep 28-Sep 18-Oct 7-Nov Range Employee 27-Nov 17-Dec Construction Worker 6-Jan Blood Lead Levels 160 140 120 μg/dl 100 80 60 40 20 0 8-Sep 28-Sep 18-Oct 7-Nov Range Employee 27-Nov 17-Dec Construction Worker 6-Jan Blood Lead Levels 160 140 120 μg/dl 100 80 60 40 20 0 8-Sep 28-Sep 18-Oct 7-Nov Range Employee 27-Nov 17-Dec Construction Worker 6-Jan Range Employee Interviews • 39/42 range employees • None had other significant occupational or home lead exposures • Highest BLLs • Supervising shooters • Cleaning the range • Removing and sifting the sand • Longer hours • Lack of support by management for personal protective equipment (PPE) Contractor Interviews • 100/117 workers interviewed • Highest BLLs: longer hours, metal workers, demolition, cleaning • 75% without lead safety training • 55% without any respirator use on-site • Non-occupational lead exposures • Hunting, fishing • Home remodeling • Car repair • No indoor shooters Public Exposure • Many single males among workers • Household members • Of range employees – all BLL <5 µg/dL • Of construction workers – 6 with BLL >5 µg/dL • 9 construction workers stayed in a hotel • Public notice • Pamphlets sent to workers • Posted lead hazard warnings at range • Print, web, and television news • One frequent shooter had BLL 12.9 µg/dL “Gun range under fire over lead in blood of workers” — Seattle Times, 13FEB2013 “Inexcusable Exposure: Unprotected Workers, Toxic Lead At Gun Range” — Lynne Peeples, Huffington Post, 20FEB2013 “Gun range workers claim they were poisoned by lead” — King 5 News, Seattle, 12FEB2013 Clinical Impact • Symptoms with >10 µg/dL • 11/20 range employees • 14/26 construction workers • Headache, muscle/joint pain, irritability, insomnia, fatigue, abdominal cramps, vomiting, constipation, loss of appetite, dizziness • Decreasing BLL after removal from work • None needed chelation • None hospitalized Limitations • Lack of authority to compel cooperation • Possible bias from 60% response • Only 6–13% response among household members • Did not have historical BLL data • Historical versus current lead exposure Conclusions • Largest reported occupational lead exposure at an indoor gun range • Both construction workers and range employees were exposed to disturbed lead dust without adequate PPE or lead safety training • Number affected was likely higher Discussion • Occupational lead safety standards should have been enforced by both range management and contracting employers • OSHA occupational lead standards date from 1978 • Medical removal at ≥50 µg/dL • No protective standards for firing range customers Worker Recommendations • Update worker protection standards • Lower environmental lead limits • Increase frequency of testing • Remove from exposure lower blood lead levels • Require medical monitoring of indoor firing range employees Perpetual Investigation Machine Before we can close you down we have to know it’s not safe Give us your data, or we will close you down. To know it’s not safe we have to have your data Public Recommendations • Increase awareness of lead hazards among shooters • Ensure “best practices” • Lead-free ammunition • Solid bullet traps • Cleaning and testing of air and surfaces • Routine blood lead testing • Medical removal at 10 µg/dL • No hand-to-mouth on the range • Cleaning skin and clothes Public Recommendations • Specify environmental lead levels to keep BLL <5 µg/dL • Integrated Exposure Uptake Biokinetic Model (IEUBK) • Predict BLLs from inhalation and hand-to-mouth exposures • Discourage use of indoor ranges by children and women of child-bearing age Marketing to Women and Children IS Marketing to Women and Children “Texas Gun Range to Host Birthday Parties for Children” —ABC News, June 8th, 2012 Public Health Opportunities • Educate contractors on the lead hazards expected with firing range construction sites • Educate range operators and shooters who consider lead exposure as “normal” • Incorporate lead exposure controls into firing range permits • Develop in-house testing capability • Secure stable funding for lead registries • Detection • Inspection • Enforcement Acknowledgements Public Health – Seattle & King County Washington State Dept. of Labor & Industry Ngozi Oleru, Steve Whittaker, Ryan Kellogg, Jeff Duchin, Jenny Lloyd, Ronit Gourarie, Lauri Serafin, Megan Jones, Eileen Benoliel, Rachel Brucker, Krista Rietberg, Shelly McKiernan, Michelle Dulaney, Ruby Lopez, Carsten Thomsen, Chris Skilton, Linda Van Hooser, Kieko Ii, Ashley Kolberg, Dennis Worsham, Stella Chao, Chrissy Russillo, Michael Loehr, Nicole Thomsen, Hilary Karasz, William Perry, Gail Summers, David Fleming, Kathryn Ross, Carina Elsenboss, Anne Eide, Della Morris Todd Schoonover, Venetia Runnion, Gina Colby Washington State Dept. of Health Rad Cunningham, Glen Patrick CDC/ATSDR Karen Larson, Ric Robinson, Mary Jean Brown USHW Clyde Wilson, Erika Figueroa The findings and conclusions in this report are those of the authors and do not necessarily represent the official position of the Centers for Disease Control and Prevention. Reducing Occupational Lead Exposures in Industries Where Lead Is Used Gerry Croteau Research Industrial Hygienist University of Washington Basic Lead Exposure Reduction Approach 1° Airborne emission control Substitution/elimination/reduction Limit aerosolization Capture at source Limit re-entrainment 2° Housekeeping Focus efforts near source Disposal: limit exposure Protective clothing 3° Personal hygiene Use practices to limit oral intake Leave work lead-free Lead Standard* Must comply based on air monitoring (8-hour time weighted average) Action level 30 μg/m3 Permissible exposure limit 50 μg/m3 *Division of Occupational Safety & Health and Occupational Safety & Health Administration Regulatory Elements • • • • • • • • Exposure monitoring (2 or 4 times annually) Engineering control and work practices Respiratory protection Protective work clothing Housekeeping Hygiene facilities and practices Medical surveillance (blood lead level monitoring) Worker training Exposure Control Hierarchy Engineering controls • Material substitution • Ventilation • Noise controls Administrative controls • Job rotation • Change in work practices • Housekeeping Personal protective equipment • Head, hand, body, foot protection • Respiratory protection Assessing Lead Exposure Personal air sampling • Worker’s breathing zone • Monitored for 8-hour workshift Surface samples • Not regulatory requirement • Housing & Urban Development 200 μg/ft2 guideline Blood lead level (BLL) • Every 6 months • BLL >40 μg/dL; every 2 months • Removal at 60 μg/dL; BLL monthly Assessing Surface Lead Levels in Vietnam Using Hand Held X-ray Spectrometer 'nr "Illa Substitution Elimination . . f' .7 I I I . Lead-free ammunition Substitution Example • Galvanize welds in marine setting • Pb (35-55%), Sn (2025%) and Zn (15-25%) • Exposure levels: 21-35 μg Pb/m3 air (> 30 μg/m3 AL) • Company apprised of regulatory compliance effort • Alternative Pb-free product put in use Preparation (grinding & heating) Application (rubbing stick or wire brush) Reducing Lead Dust Generation • Example: cleaning floors with a vacuum instead of sweeping • Observe and understand process • Monitor airborne lead levels to identify factors that affect generation Melting Lead • Melting point: 621°F; • Boiling point: 3164°F • Lead vapors  cool  fume (“tiny” particles) • Melt lead at low temp, prevent vapor generation Leaded brass casting ~ 2,500°F 230 μg Pb/m3 air Lead part casting ~ 700°F 30 μg Pb/m3 air Urban Lead Mining Operation • • • • Lead & poly encased communication cables Pulled from underground vaults Cut into segments Loaded for shipment to China Urban Lead Mining Operation u; 1.. farExam .- I . i. Exposure Monitoring Results • Personal exposure: 67 to 153 μg Pb/m3 air • Exposure thought to be from cutting • Air samples collected for different tasks: poly & lead cable, different cutting devices • 135 μg/m3 cutting lead cable 108 μg/m3 cutting poly cable • Lead deposited on floor from dragging lead cable Recommendation: modify operation to eliminate cable dragging on floor Ventilation • Suction to capture contaminant • Most effective if captured at source (local exhaust ventilation) Welding LEV system Gun Range Ventilation • Source capture not possible • General (or dilution) ventilation • Sophisticated push/pull system needed Gun Range Ventilation Air pushed • Non-turbulent flow • Evenly distributed Smoke pulled at end of building • 15% > than push • Disposal? Battery Manufacturing Pasting Grid stacking manual PbO/H2SO4 paste applied to lead grids automatic (less lead released to workplace Housekeeping • Clean surfaces of fugitive lead emissions • Lead body burden perhaps largely from ingestion • Clean without re-entraining lead dust Personal Hygiene • Limit skin contact with protective clothing • Provide clean & dirty change rooms and showers • Eliminate possibility of taking lead home Worker Training • Worker understands hazard and how to reduce exposure • Essential elements • • • • • Health effects Operations that result in exposure Medical surveillance, ventilation controls Housekeeping and hygiene practices to limit oral intake Potential for taking lead home Summary • Lead exposure and associated blood lead levels minimized through diligent practices • Control, housekeeping, and personal hygiene • Respiratory exposure relatively easy to control • Oral ingestion exposure route requires great diligence and attention