RossR.The pathogenesis of atherosclerosis. A perspective for the 1990s. Nature1993;362:801–809.
2.
DaviesH.Atherogenesis and the coronary arteries of childhood. Int J Cardiol1990;28:283–291.
3.
HaustMD. Atherosclerosis in childhood. Perspect Pediatr Pathol1978;4:155–216.
4.
BarkerDJP.Fetal origins of coronary heart disease. BMJ1995;311:171–174.
5.
RobertsonJH. The significance of intimal thickening in the arteries of the newborn. Arch Dis Child1960;35:588–590.
6.
VlodaverZ, KahnHA, NeufeldHN. The coronary arteries in early life in three different ethnic groups. Circulation1969;39:541–550.
7.
VelicanD, VelicanC.Study of fibrous plaques occurring in the coronary arteries of children. Atherosclerosis1979;33:201–205.
8.
DockW.The predilection of atherosclerosis for the coronary arteries. JAMA1946;131:875–878.
9.
YaterWM. Coronary disease in men eighteen to 39 years of age. Am Heart J1948;36:683–722.
10.
EnosWF, HolmesRH, BeyerJC. Coronary disease among United States soldiers killed in action in Korea. JAMA1953;152:1090–1093.
11.
StaryHC. Macrophages, macrophage foam cells, and eccentric intimal thickening in the coronary arteries of young children. Atherosclerosis1987;64:91–108.
12.
StaryHC. Macrophage foam cells in the coronary artery intima of human infants. Ann NY Acad Sci1985;454:5–8.
13.
StaryHC. Evolution and progression of atherosclerotic lesions in coronary arteries of children and young adults. Arteriosclerosis1989;9 (Suppl 1):I19–32.
14.
StaryHC. The sequence of cell and matrix changes in atherosclerotic lesions of coronary arteries in the first forty years of life. Eur Heart J1990;II Suppl E:3–19.
15.
PesonenE, KaprioJ, MartimoP, RuismakiA.Topography of intimal thickening in the left coronary artery of children compared with the topography of atherosclerosis. Coron Art Dis1996;7:459–465.
16.
StehbensWE. Lipids and atherosclerosis: an impossible causal relationship. Am Clin Lab1997;16:18–20.
17.
DaviesH, Al-TikritiS.Coronary arterial pathology in the transplanted heart. Int J Cardiol1989;25:99–117.
18.
DaviesH, VerneyGI, EnglishT.The coronary arteries of the transplanted human heart; studies of the development of disease based on serial angiography. Int J Cardiol1991;32:35–49.
GeerJC, HaustMD. Smooth muscle cells in atherosclerosis. Monogr Athroscler1972;2:1–140.
21.
MullerDW, EllisSG, TopolEJ. Experimental models of coronary artery restenosis. J Am Coll Cardiol1992;19:418–432.
22.
BolandeRP, LeistikowEA, WartmanFSIII, LouisTM. The development of preatherosclerotic coronary artery lesions in perinatal piglets. Biol Neonate1996;69:109–118.
23.
HirvonenJ, Yla-HerttualaS, LaaksonenH, . Coronary intimal thickenings in Finnish children who died violently. Acta Paediatr Scand1985;318 (Suppl):221–224.
24.
FrenchJ, JenningsMA, FloreyHW. Morphological studies on atherosclerosis in swine. Ann NY Acad Sci1965;127:780–799.
25.
RobertsonJH. Sress zone in foetal arteries. J Clin Pathol1960;13:133–139.
MacDonaldAA, LlanosAJ, HeymannMA, RudolphAM. Cardiovascular responsiveness of the pig fetus to auto-nomic blockade. Pflugers Arch1981;390:262–264.
28.
SingerDB. Histology of the coronary arteries in congenital heart disease. Bull Cardiovasc Res Center1964;2:106–111.
29.
OppenheimerEH, EsterlyJR. Cardiac lesions in hypertensive infants and children. Arch Pathol1967;84:318–325.
30.
HagnevikK, FaxeliusG, IrestedtL, LagercrantzH, LundellB, PerssonB.Catecholamine surge and metabolic adaptation in the newborn after vaginal delivery and cesarean section. Acta Paediatr Scand1984;73:602–609.
31.
LagercrantzH, BistolettiP.Catecholamine release in the newborn infant at birth. Pediatr Res77;11:889–893.
32.
PadburyJF, MartinezAM. Sympathoadrenal system activity at birth: integration of postnatal adaptation. Semin Perinatol1988;12:163–172.
33.
SlotkinTA, SeidlerFJ. Adrenomedullary catecholamine release in the fetus and newborn. Secretory mechanisms and their role in stress and survival. J Dev Physiol1988;10:1–16.
34.
HervonenA.Development of catecholamine-storing cells in human fetal paraganglia and adrenal medulla. Acta Physiol Scand Suppl1971;368:1–94.
35.
BolandeRP, LeistikowEA, WartmanFSIII, LouisTM. The effects of acute norepinephrine-induced hypertension on the coronary arteries of newborn piglets. Exp Mol Pathol1996;63:87–100.
36.
LeistikowEA, BolandeRP, WartmanFSIII, LouisTM. Congenital coronary lesions show norepinephrine-induced hypertension effects independent of thrombosis and lipids [abstract]. Pediatr Res1996;39 Suppl 2:32A.
LeistikowEA. Is coronary heart disease initiated perinatally? Semin Thromb Hemost1998;25:139–143.
39.
BenigniA, GregoriniG, FruscaT, . Effect of low-dose aspirin on fetal and maternal generation of thromboxane by platelets in women at risk for pregnancy-induced hypertension. N Engl J Med1989;321:357–362.
40.
LucasMJ, LevenoKJ, CunninghamFG. A comparison of magnesium sulfate with phenytoin for the prevention of eclampsia. N Engl J Med1995;333:201–205.
