TsuchiyaK. In: FribergLNordbergGFVoukVB, eds. Handbook on the Toxicology of Metals. Amsterdam: Elsevier/North Holland Biomedical Press, 1979; pp. 451–84.
2.
BarltropD. In: BrownSS, ed. Clinical Chemistry and Chemical Toxicology of Metals. Amsterdam: Elsevier/North Holland, 1977; pp. 167–77.
3.
RatcliffeJM. Lead in Man and the Environment. Chichester: Ellis Horwood Ltd, 1981.
4.
HarrisonRMLaxenDP. Lead Pollution, Causes and Control. London/New York: Chapman Hall, 1981.
5.
ChisolmJJJrO'HaraDM. Lead Absorption in Children. Baltimore: Urban and Schwarzenberg, 1982.
6.
SinghalRLThomasJA, eds. Lead Toxicity. Baltimore: Urban and Schwarzenberg, 1980.
7.
Lead and Health. The report of a DHSS Working Party on lead in the environment. London: HMSO, 1980.
8.
FuJS Lin. Children and lead—new findings and concerns. New Engl J Med.1982; 307: 615–16.
9.
Lead in petrol and elsewhere. Lancet.1983; i: 1337–8.
10.
Lead in petrol: again. Br Med J1982; 284: 1506.
11.
Royal Commission on Environmental Pollution. Chairman TRE Southwood, 9th Report: Lead in the Environment. London: HMSO, 1983.
12.
DavidO. Behavioural and cognitive disorders associated with lead intoxication. In: AlexanderPE, ed. Electrolytes and Neuropsychiatric Disorders. Lancaster: MTP Press Ltd, 1981; 121–42.
13.
RutterMRussell-JonesR, eds. Lead versus Health: Sources and Effects of Low Level Lead Exposure. Chichester: John Wiley, 1983.
14.
McIntoshMJMooreMRGoldbergA. Studies of lead and cadmium exposure in Glasgow, UK. Ecology of Disease1983; 1: 177–84.
15.
CampbellBDBairdAW. Lead poisoning in a group of demolition workers. Br J Ind Med.1977; 34: 298.
16.
IrwigIMHarrisonWORocksP, Lead and morbidity: a dose-response relationship. Lancet.1978; ii: 4–6.
17.
Health and Safety Commission. Control of Lead at Work. London: HMSO, 1980.
18.
MalcolmDBarnettHAE. A mortality study of lead workers 1925–76. Br J Ind Med.1982; 39: 404–10.
19.
ShannonHSWilliamsMKKingE. Sickness absence of lead workers and controls. Br J Ind Med.1976; 33: 236–42.
20.
BakerELLandriganPJBarbourAG, Occupational lead poisoning in the United States: Clinical and biochemical findings related to blood lead levels. Br J Ind Med.1979; 36: 314.
21.
HernbergSTolaS. The battle against occupational lead poisoning in Finland. Scand J Work Environ and Health1979; 5: 336–44.
22.
World Health Organisation. Environmental Health Criteria 3. Lead. Geneva: WHO, 1977.
23.
MahaffeyKRAnnestJLRobertsJ, National estimates of blood lead levels: United States, 1976–1980: Association with selected demographic and socioeconomic factors. N Engl J Med.1982; 307: 573–9.
24.
ErnhartCBLandaBSchellNB. Subclinical levels of lead and developmental deficit—a multivariate follow up reassessment. Pediatrics1981; 67: 911–19.
25.
ErnhartCBLandaBSchellNB. Lead levels and intelligence. Pediatrics1981; 68: 903–5.
26.
NeedlemanHLGunnoeCELevitonA, Deficits in psychological and classroom performance of children with elevated dentine levels. N Engl J Med.1979; 300: 689–94.
27.
DelvesHTClaytonBECarmichaelA, An appraisal of the analytical significance of tooth lead measurements as possible indices of environmental exposure of children to lead. Ann Clin BioChem.1982; 19: 329–37.
28.
KacewSSinghalRL. Aspects of molecular mechanisms underlying the biochemical toxicity of lead. In: SinghalRLThomasJA, eds, Lead Toxicity. Baltimore: Urban and Scharwzenberg, 1980; 43–78.
29.
MooreMRMeredithPAGoldbergA. Lead and haem biosynthesis. In: SinghalRLThomasJA, eds, Lead Toxicity. Baltimore: Urban and Scharwzenberg, 1980; 79–118.
30.
PiomelliS. Free erythrocyte porphyrins in the detection of undue absorption of Pb and of Fe deficiency. Clin Chem.1977; 23: 264–9.
31.
MeredithPAMooreMR. An evaluation of the use of haem biosynthetic parameters in the detection of industrial and environmental lead exposure: Erythrocyte and amino laevulinate dehydratase and blood protoporphyrin concentrations. Biochemical Society Transactions, 578th Meeting, Galway, 1979; 7: 39–41.
32.
BushBDoranDRJacksonKW. Evaluation of erythrocyte protoporphyrin and zinc protoporphyrin as microsampling procedures for lead poisoning detection. Ann Clin BioChem.1982; 19: 71–6.
33.
BrowneRCEllisRWWeightmanD. Interlaboratory variation in measurement of blood lead levels. Lancet.1974; ii: 112–13.
34.
DelvesHT. Analytical techniques for blood lead measurements. J Anal Toxicol1977; 1: 262–4.
35.
VahterM, ed. Assessment of Human Exposure to Lead and Cadmium through Biological Monitoring. Global Environmental Monitoring System (GEMS). Stockholm: National Swedish Institute of Environmental Medicine and Department of Environmental Hygiene, Karolinska Institute, 1982.
36.
BooneJHearnTLewisS. Comparison of interlaboratory results from blood lead with results from a definitive method. Clin Chem.1979; 25: 389–93.
37.
OttawayJM. A revolutionary development in graphite furnace atomic absorption. Atomic Spectroscopy1982; 3: 89–92.
38.
SthapitPROttawayJMFellGS. Determination of lead in blood by flame atomic fluorescence spectrometry. The Analyst1983; 108: 235–43.
39.
DelvesHT. Analytical Quality Control. In: Pollution Report No. 10, Appendix B. Department of Environment, UK, 1981.
