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Fred M. Henretig, MD Section of Clinical Toxicology Division of Emergency Medicine

Lead Poisoning: Clinical Effects- A pediatric emergency medicine perspective 2018 Regional New York State Lead Conference The Children’s Hospital at Montefiore Medical Center November 2, 2018. Fred M. Henretig, MD Section of Clinical Toxicology Division of Emergency Medicine

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Fred M. Henretig, MD Section of Clinical Toxicology Division of Emergency Medicine

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  1. Lead Poisoning: Clinical Effects-A pediatric emergency medicine perspective2018 Regional New York State Lead ConferenceThe Children’s Hospital at Montefiore Medical CenterNovember 2, 2018 Fred M. Henretig, MD Section of Clinical Toxicology Division of Emergency Medicine Children’s Hospital of Philadelphia

  2. Overview • Review of background and pathophysiology of lead toxicity • Pediatric exposures • Adult exposures • Treatment considerations • ED issues • Questions

  3. Lead: Sources, Uses • silvery gray, soft metal, AW 207 • widely distributed, most abundant ore is galena ( PbS) • very malleable, good for water-proofing and electrical / radiation shielding • one of first metals used by human society • today most widely-used non-ferrous metal, global production 9,000,000 tons/yr

  4. Lead uses - 2 • Electric batteries: • metallic lead (grid) and lead oxide ( paste) = ~2/3 of annual US usage • recycled batteries large source of occupational lead exposure • Other • alloys: printing, solder, radiation / electrical shielding • ammunition • lead compounds in paint, glazes, pvc plastics, crystal glass • TEL in gasoline

  5. Lead and plumbism: ancient history • Lead-based paints and artifacts from 40,000-6,000 BC • Romans used it extensively, esp in pipes, cooking utensils, ceramic glazes, and “sapa”- grape syrup simmered in lead vessels • Pliny: beware the dangers of inhaled lead fumes from smelting • perhaps: caused the fall of the Roman empire!

  6. Lead: 18th century • Industrial revolution led to marked increase in use and recognized toxicity • Ben Franklin, 1763 “Dry gripes” - abdominal colic “Dangles - wrist drop Observed among tinkers, painters, and typesetters.

  7. Lead: 19th century Charles Dickens 1863 The Uncommercial Traveler

  8. Lead Poisoning: Dickens Dickens describes a hunched-over mill worker… “And tis the lead, sur.” “The what?” “The lead, sur. Sure, tis the lead mills, where the woman gets took on at eighteen pence a day, sur…and her constitooshun is lead-poisoned, bad as can be, sur; and her brain is coming out her ear and it hurts dreadful…”

  9. Lead: late 19th-20th century Recognition of children at risk… Turner AJ , 1897 Childhood poisoning linked to lead based paint in Australia. Byers and Lord, 1943 Childhood plumbism often assoc’d with severe neuro sequelae Needleman HL , 1979 Deficit in intellectual function observed even among asymptomatic children with hi tooth lead vs low lead

  10. Lead poisoning today - 1 • Kids- wide concern re subtle neurocognitive effects from low-level environmental exposure • lead paint in/around old homes • toys from China! • air ( mostly 3rd world) • leaded gasoline • proximity to lead smelters, etc

  11. Lead poisoning today - 2 • Children: rare case reports of symptomatic plumbism • US: usually, lead paint exposure • Pica • House dust in home, soil • US: sometimes exotic source, eg, swallowed lead object • 3rd world: above, + air/water/food, + occupational / home exposures

  12. Lead poisoning today - 3 • Adults: • Occ’l symptomatic cases from occ/ rec exposures • More and more: are some “diseases of aging” exacerbated, by occult plumbism? • Hypertension • Renal failure • CV disease • Cataracts • Dementia

  13. Adult lead exposures • Lead refining, smelting, etc • Battery production, reclamation • Painting, construction, metal cutting/welding, etc • Shipwrecking • Firing range work or hobby • Artists, home remodelers, target shooting • Retained bullets, etc • Many misc exotic sources! • Residual childhood exposure

  14. Lead: toxicology - 1 • Absorption via GI ( esp kids) and inhalation (esp adults) primarily; transplacental • Distribution to blood; soft tissues ( most of toxic effects); and bone ( 75% in kids, 90% in adults) • Elimination: very slow, 65% renal, 35% hepatic: T 1/2 for blood 1-10 mos, bone 10-20 yrs!

  15. Lead: toxicology - 2 • Gen: strong affinity for many biologic ligands, esp -SH groups, w/ consequent effects on structural and enzymatic proteins • Similar to Ca++ and interferes in many Ca-mediated intracellular and 2nd messenger systems

  16. Lead: toxicology - 3 • CNS • Acute encephalopathy w/ neuronal damage, cerebral edema • Subtle neurocognitive effects prob related to neurotransmitter dysfunction and mild morphologic changes in developing brain • Also: protein kinase stim, altered neuronal cell adhesion • PNS • Demyelination and axonal degeneration • Primarily motor nerves

  17. Lead toxicology - 4 • Hematologic • heme synth pathway inhib, elev EP, microcytic anemia; increased hemolysis • Renal • nephropathy w/ Fanconi syndrome • hypertension in adults • “saturnine” gout • Reproductive: dec’d fertility, m and f • GI: anorexia, N/V, constip, pain ( lead colic) • Endocrine:dec thyroid, adrenopit • Immunologic: dec’d cellular imm markers

  18. Heme synthesis inhibition

  19. Case presentation-1 • 3 y.o. boy to ED in status epilepticus • Required several doses diazepam, then ETT • VS p ETT: T 38.3, HR 120, BP 84/53 • Atraumatic, card, pulm, abd exam neg • Neuro: obtunded, interm w/drawal to pain vs ext posturing, pupils 3mm, sluggish, nl fundi, inc DTRs w/ ankle clonus

  20. Case presentation-2 • Labs: • CBC- wbc 11,300 plt 473,000, hgb 6.6, basophilic stippling noted • Chem’s ~ wnl exc sl inc glu, ALT, AST • CSF- 3 wbc, prot 96 • Xray of abd, wrist done, and head CT

  21. Case presentation-3

  22. Case presentation-4 • BLL 220 • Further rx with phenytoin, phenobarb, midaz and pentobarb infusions for persistant sx activity • Chelation w/ BAL and CaNa2EDTA • PICU 23 days, then transfer to a chronic rehab unit • Marked hypotonia, chorea, dec’d hearing and vision, severe cerebral/cerebellar atrophy

  23. Case presentation-5 Follow-up mri day 22

  24. Clinical presentation: children-1 • Severe ( usually BLL > 100) • CNS: encephalopathy w/ coma, sx’s, papilledema, Cr N palsies, inc’d ICP • GI: pernicious vom’g often prodromal • Heme: pallor (anemia)

  25. Clinical presentation: children-2 • Mild/Mod (BLL ~ 70-100) • CNS: irritable, lethargy, dec’d play • GI: occ’l vomiting, constipation, abd pain • Asymptomatic ( BLL ~ 10-70) • impaired cognition, behavior • possible subtle impaired fine-motor coord, hearing, growth

  26. Exceptions to the rule… BLL ~200 !

  27. Low-level lead in kids-1 • BLLs 10-44 intensively studied • Most appear asympt to parents, MDs • Cross-sectional studies find strong asssoc’s of inc’g BLL w/ dec’g IQ or similar markers of cog function1 • Maybe even effect at 0-10, esp in very young2 • Lead has no physiologic role! 1Needleman NEJM 19792Canfield NEJM 2003

  28. Low-level lead in kids-2 • Always some doubt re confounding variables, but most authorities believe there is some causality likely • Unfortunately, little data to suggest benefit of chelation rx, tho reduced exposure and enrichment activity may be helpful

  29. Low-level lead: Rogan et al Rogan et al. NEJM 2001 * Background Low lead levels do injure developing brain. Objective To see if DMSA improves cognitive functioning among young children with moderate blood lead levels. * Disclosure: ( CHOP and FH ) participated…

  30. Lead: Rogan Study-2 Methods Randomized, double-blinded, placebo control 780 children, age 1-3, 4 clinical centers BLL 20-44 g/dL Home environment remediated Up to three 26-day courses of DMSA Neurocognitive testing over 36 months

  31. Lead: Rogan Study-3 Results - I 90% drug compliance by parental report 76% drug compliance by pill count Lead Levels  11 g/dL at 1 week with DMSA  4.5 g/dL at 6 months with DMSA  2.7 g/dL at 1 year with DMSA

  32. Lead: Rogan Study-4 Blood Lead Level over Time

  33. Lead: Rogan Study-5 Results - II No differences noted in... WPPSI-R Wechsler Preschool and Primary Scales of Intelligence NEPSY Developmental Neuropsychological Assessment CPRS-R Conners’ Parent Rating Scale

  34. Lead: Rogan Study-6 Treatment Effect on Neuro Testing

  35. Lead: Rogan Conclusions DMSA did not improve neuro testing among children with moderate plumbism. DMSA was associated with a small reduction in linear growth.

  36. Lead: Rogan Criticisms Study Flaws Little BLL reduction at 6 mos; none at 1 yr. No EP data (marker of soft tissue effect). Mean maternal IQ = 80. Only DMSA studied. Only one dosing regimen.

  37. Low-level lead in kids-Summary • Lead is a neurotoxin, even at low levels. • Childhood lead burden has  over 30 yrs. • Still, too many children remain lead poisoned. • Lack evidence that chelation can prevent or reverse neuro injury. Pediatricians and parents must advocate for the environment. Keep the Lead Out is better than Get the Lead Out!

  38. Case presentation-2 • A 50-something man presents with gen’d sx, after prodrome of being confused for several days • Postictally is agitated and combative • Occ. Hx: he scavenges bullets at Phila shooting ranges, has hx of prior rx for lead toxicity some yrs before • After a few days of BAL and EDTA has quite a tale to tell…

  39. Clinical Presentation: adults-1 • Severe (BLL usually > 150) • CNS: encephalopathy • PNS: wrist drop, foot drop • GI: colic, “lead lines” • Heme: pallor ( anemia) • Renal: nephropathy

  40. Clinical Presentation: adults-2 • Moderate • CNS: headache, memory loss, dec’d libido, insomnia • GI: abd pain, anorexia, constipation, met taste, “lead lines” • Renal: hypertension, mild nephropathy • Misc: mild anemia, arthralgias, myalgias, weakness • Mild • CNS: tiredness, moody, etc • Misc: ? Impaired repro, hypertension

  41. Treatment guidelines-kids • Ssx or BLL > 70: BAL (im) and Ca Na2EDTA (iv) • BLL 45-69: DMSA (po) or Ca Na2EDTA (iv) • BLL 10-44: close follow-up, consider DMSA in some • All: reduce exposure as much as possible! • Consider GI decon prn

  42. Before WBI After WBI

  43. Treatment guidelines-adults • Generally, chelation reserved for symptomatic pts, or “very high” BLLs (>70-100) • BAL and Ca Na2EDTA for encephalopathy • DMSA for mild ssx, or hi BLL w/o ssx • Controversy: value of chelation in pregnancy re fetal protection; in gen’l, rx as for non-pregnant woman; rarely, might consider induction of labor. • Also: reduce exposure as possible; must not allow chelation to substitute for worksite contamination correction, avoidance…

  44. Special ED Considerations • Could it be lead encephalopathy? • Kids: • Age 1-5 • Pica • Suspicious prodrome? • Old house, other exposure source? • Stat labs: micro anemia, baso stippling, inc’d EP, abn’l u/a, xray wrists, axr • Adults • Occupational hx of note • PMH • Stat labs: micro anemia, baso stippling, inc’d EP, abn’l u/a • “Stat” BLL ( usually 1-2 days in Phila…) • Exposure reduction, consider empiric rx, pursue ddx

  45. Unusual challenge of exposure reduction!

  46. An old problem… 1874 Boston Medical and Surgical Journal, aka…?

  47. Retained bullets, shot, etc • Usually benign in subcut, muscle • Problematic when bathed by acidic body fluids, eg, serosal, synovial, CSF • Risk also related to particle size/ total lead surface area and intercurrent illness, acidosis, infection, etc. • Chelation unlikely to reduce body burden significantly unless bullet(s) can be removed; surgery may warrant perioperative chelation? (Dr Haroz ??)

  48. Another challenge: “macro-pica” Beware swallowed lead foreign bodies, can lead to very high BLLs within 1-2 weeks of ingestion, faster if in fine particles…

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