BlasbergR.G.GazendamJ.PatlakC.S.FenstermacherJ.D. (1980) Quantitative autoradiographic studies of brain edema and a comparison of multi-isotope autoradiographic techniques. Adv Neurol28:255–270
2.
FriedmanH.R.BruceC.J.Goldman-RakicP.S. (1987) A sequential double-label 14C and 3H-2-DG technique: Validation by double-dissociation of functional states. Exp Brain Res66:543–554
3.
FurlowT.W.MartinR.M.HarrisonL.E. (1983) Simultaneous measurement of local glucose utilization and blood flow in the rat brain: An autoradiographic method using two tracers labeled with carbon-14. J Cereb Blood Flow Metab3:62–66
4.
GinsbergM.D.SmithD.W.WachtelM.S.Gonzales-CarvajalM.BustoR. (1986) Simultaneous determination of local cerebral glucose utilization and blood flow by carbon-14 double-label autoradiography: Method of procedure and validation studies in the rat. J Cereb Blood Flow Metab6:273–285
5.
GjeddeA.DiemerN.H. (1985) Double-tracer study of the fine regional blood-brain glucose transfer in the rat by computer-assisted autoradiography. J Cereb Blood Flow Metab5:282–289
6.
GoocheeC.RasbandW.SokoloffL. (1980) Computerized densitometry and color coding of 14C deoxyglucose autoradiographs. Ann Neural7:359–370
7.
HakimA.ArrietaM. (1986) Cerebral acidosis in focal ischemia: I. A method for the simultaneous measurement of local cerebral pH with cerebral glucose utilization or cerebral blood flow in the rat. J Cereb Blood Flow Metab6:667–675
8.
HossmannK.A.MiesG.PaschenW.CsibaL.BodschW.RapidJ.R.Le Poncin-LafitteM.TakahishiK. (1985) Multiparametric imaging of blood flow and metabolism after middle cerebral artery occlusion of cats. J Cereb Blood Flow Metab5:97–107
9.
JonesS.C.GreenbergJ.H. (1985) Evaluation of a double-tracer autoradiographic technique for the measurement of both local cerebral glucose metabolism and local cerebral blood flow. J Cereb Blood Flow Metab5:335–337
10.
JuhlerM. (1987) Simultaneous determination of regional cerebral blood flow, glucose metabolism, and pH in acute experimental allergic encephalomyelitis. J Cereb Blood Flow Metab7:578–584
11.
JuhlerM.DiemerN.H. (1987) A method for 14C and 3H double-label autoradiography. J Cereb Blood Flow Metab7:572–577
12.
LearJ.L. (1986) Maximizing precision in quantitative autoradiographic determination of tissue tracer concentration using exposure optimization. J Cereb Blood Flow Metab6:499–504
13.
LearJ.L. (1988) Tc-99m HMPAO as a tracer for local cerebral blood flow: Evaluation using multiple label quantitative digital autoradiography. J Nucl Med (in press)
14.
LearJ.L.AckermannR.F. (1988) Comparison of cerebral glucose metabolic rates measured with fluorodeoxyglucose and glucose labeled in the 1, 2, 3–4, and 6 positions using double label quantitative digital autoradiography. J Cereb Blood Flow Metab8:576–586
15.
LearJ.L.NavarroD. (1987) Autoradiographic comparison of thallium-201 diethyldithiocarbamate, isopropyliodoamphetamine, and iodoantipyrine as cerebral blood flow tracers. J Nucl Med28:481–486
16.
LearJ.L.JonesS.C.GreenbergJ.H.FedoraT.J.ReivichM. (1981) Use of 123I and 14C in a double radionuclide autoradiographic technique for simultaneous measurement of LCBGF and LCMRgl. Stroke12:589–597
17.
LearJ.L.AckermannR.F.KameyamaM.KuhlD.E. (1982) Evaluation of [123I] isopropyliodoamphetamine as a tracer for local cerebral blood flow using direct autoradiographic comparison. J Cereb Blood Flow Metab2:179–185
18.
LearJ.L.AckermannR.KameyamaM.CarsonR.PhelpsM. (1984) Multiple-radionuclide autoradiography in evaluation of cerebral function. J Cereb Blood Flow Metab4:264–269
19.
LearJ.L.MidoK.PlotnickJ.MuthR. (1986) High-performance digital image analyzer for quantitative autoradiography. J Cereb Blood Flow Metab6:625–629
20.
LivingstonM.S.HubelD.H. (1981) Effects of sleep and arousal on the processing of visual information in the cat. Nature291:554–561
21.
LockwoodA.H.PeekK.E.BerridgeM.S.BogueL.YapE. (1987) Simultaneous double isotope autoradiographic measurement of local cerebral glucose metabolic rate and acid-base status in rat brain. Metab Brain Dis2:47–60
22.
MiesG.NiebuhrI.HossmanK.A. (1981) Simultaneous measurement of blood flow and glucose metabolism by autoradiographic techniques. Stroke12:581–588
23.
MiesG.BodschW.PaschenW.HossmannK.A. (1986) Triple-tracer autoradiography of cerebral blood flow, glucose utilization, and protein synthesis in rat brain. J Cereb Blood Flow Metab6:59–70
24.
NedergaardM.GjeddeA.DiemerN.H. (1986) Focal ischemia in the rat brain: Autoradiographic determination of cerebral glucose utilization, glucose content, and blood flow. J Cereb Blood Flow Metab6:414–424
25.
ObrenovitchT.P.ClaytonC.B.StrongJ.A. (1987) A double-radionuclide autoradiographic method using N-isopropyl-iodoamphetamine for sequential measurements of local cerebral blood flow. J Cereb Blood Flow Metab7:356–365
26.
OldsJ.L.FreyK.A.EhrenkauferR.L.AgranoffB.W. (1985) A sequential double-label autoradiographic method that quantifies altered rates of regional glucose metabolism. Brain Res361:217–224
27.
RammP.KulickJ.StrykerM.FrostB. (1984) Video and scanning microdensitometer-based imaging systems in autoradiographic densitometry. J Neurosci Meth11:89–100
28.
RediesC.DiksicM.EvansA.C.GjeddeA.YamamotoY.L. (1987) Double label autoradiographic deoxyglucose method for sequential measurement of regional cerebral glucose utilization. Neuroscience22:601–619
29.
SakoK.DiksicM.KatoA.YamamotoL.Y.FeindelW. (1984a) Evaluation of [18F]-4-fluoroantipyrine as a new blood flow tracer for multiradionuclide autoradiography. J Cereb Blood Flow Metab4:259–263
30.
SakoK.KatoA.DiksicM.YamamotoL.Y. (1984b) Use of shortlived 18F and long-lived 14C in double tracer autoradiography for simultaneous measurement of LCBF and LCGU. Stroke15:896–900
31.
SakuradaO.KennedyC.JehleJ.BrownJ.CarbinG.SokoloffL. (1978) Measurement of local cerebral blood flow with iodo(14C)antipyrine. Am J Physiol234:H59–H66
32.
SokoloffL.ReivichM.KennedyC.Des RosiersM.PatlakC.PettigrewK.SakuradaO.ShinoharaM. (1977) The [14C]deoxyglucose method of local cerebral glucose utilization: Theory, procedure, and normal values in the conscious and anesthetized albino rat. J Neurochem28:897–916
33.
SomP.YonekaraY.OsterM.A.PelletteriM.L.FowlerJ.S.MacGregorR.R.RussellJ.A.G.WolfA.P.FandI.McNallyW.P.BrillA.B. (1983) Quantitative autoradiography with radiopharmaceuticals, part 2: Applications in radiopharmaceutical research: Concise communication. J Nucl Med24:238–244
34.
WebsterW.R.ServierJ.MartinR.HartleyE. (1983) Tonographic bands produced by tones commenced long after 2-deoxyglucose injection. Neurosci Let40:281–286
