Hemodynamic, ventilatory, and biochemical responses of panic patients and normal controls with sodium lactate infusion and spontaneous panic attacks. Gaffney FA, Fenton BJ, Lane LD, Lake CR (1988) Arch Gen Psychiatry 45: 53-60 Evidence that the brain of the conscious dog is insulin sensitive. Davis SN, Colburn C, Dobbins R, Nadeau S, Neal D, Williams P, Cherrington AD (1995) J Clin Invest 95: 593-602 Comparison of the time courses of insulin and the portal signal on hepatic glucose and glycogen metabolism in the conscious dog. Pagliassotti MJ, Holste LC, Moore MC, Neal DW, Cherrington AD (1996) J Clin Invest 97: 81-91 Effect of prior exercise on the partitioning of an intestinal glucose load between splanchnic bed and skeletal muscle. Hamilton KS, Gibbons FK, Bracy DP, Lacy DB, Cherrington AD, Wasserman DH (1996) J Clin Invest 98: 125-35 Intraportal glucose delivery enhances the effects of hepatic glucose load on net hepatic glucose uptake in vivo. Myers SR, Biggers DW, Neal DW, Cherrington AD (1991) J Clin Invest 88: 158-67 Effect of glucose, independent of changes in insulin and glucagon secretion, on alanine metabolism in the conscious dog. Shulman GI, Lacy WW, Liljenquist JE, Keller U, Williams PE, Cherrington AD (1980) J Clin Invest 65: 496-505 Role of insulin in the intermediary metabolism of the activated thymic-derived lymphocyte. Helderman JH (1981) J Clin Invest 67: 1636-42 Effect of glucagon on glucose production during insulin deficiency in the dog. Cherrington AD, Lacy WW, Chiasson JL (1978) J Clin Invest 62: 664-77 Intraportal glucose delivery alters the relationship between net hepatic glucose uptake and the insulin concentration. Myers SR, McGuinness OP, Neal DW, Cherrington AD (1991) J Clin Invest 87: 930-9 Sources of carbon for hepatic glycogen synthesis in the conscious dog. Moore MC, Cherrington AD, Cline G, Pagliassotti MJ, Jones EM, Neal DW, Badet C, Shulman GI (1991) J Clin Invest 88: 578-87 Combined 1H and 31P nuclear magnetic resonance spectroscopic studies of bicuculline-induced seizures in vivo. Petroff OA, Prichard JW, Ogino T, Avison M, Alger JR, Shulman RG (1986) Ann Neurol 20: 185-93 Cyclin-dependent kinase inhibitor p27(Kip1) is required for mouse mammary gland morphogenesis and function. Muraoka RS, Lenferink AE, Simpson J, Brantley DM, Roebuck LR, Yakes FM, Arteaga CL (2001) J Cell Biol 153: 917-32 PASADENA hyperpolarized 13C phospholactate. Shchepin RV, Coffey AM, Waddell KW, Chekmenev EY (2012) J Am Chem Soc 134: 3957-60 Lactate rise detected by 1H NMR in human visual cortex during physiologic stimulation. Prichard J, Rothman D, Novotny E, Petroff O, Kuwabara T, Avison M, Howseman A, Hanstock C, Shulman R (1991) Proc Natl Acad Sci U S A 88: 5829-31 1H homonuclear editing of rat brain using semiselective pulses. Hetherington HP, Avison MJ, Shulman RG (1985) Proc Natl Acad Sci U S A 82: 3115-8 F18-fluorodeoxyglucose positron emission tomography in the context of other imaging techniques and prognostic factors in multiple myeloma. Bartel TB, Haessler J, Brown TL, Shaughnessy JD, van Rhee F, Anaissie E, Alpe T, Angtuaco E, Walker R, Epstein J, Crowley J, Barlogie B (2009) Blood 114: 2068-76 Matrilysin (matrix metalloproteinase-7) selects for apoptosis-resistant mammary cells in vivo. Vargo-Gogola T, Fingleton B, Crawford HC, Matrisian LM (2002) Cancer Res 62: 5559-63 Membrane glycoprotein differences between normal lactating mammary tissue and the R3230 AC mammary tumor. Shin BC, Ebner KE, Hudson BG, Carraway KL (1975) Cancer Res 35: 1135-40 Increased susceptibility to erythrocyte C5b-9 deposition and complement-mediated lysis in chronic renal failure. Himmelfarb J, McMonagle E, Holbrook D, Hakim R (1999) Kidney Int 55: 659-66 Portal serotonin infusion and glucose disposal in conscious dogs. Moore MC, Geho WB, Lautz M, Farmer B, Neal DW, Cherrington AD (2004) Diabetes 53: 14-20 Relationship between decrements in glucose level and metabolic response to hypoglycemia in absence of counterregulatory hormones in the conscious dog. Connolly CC, Adkins-Marshall BA, Neal DW, Pugh W, Jaspan JB, Cherrington AD (1992) Diabetes 41: 1308-19 Similar dose responsiveness of hepatic glycogenolysis and gluconeogenesis to glucagon in vivo. Stevenson RW, Steiner KE, Davis MA, Hendrick GK, Williams PE, Lacy WW, Brown L, Donahue P, Lacy DB, Cherrington AD (1987) Diabetes 36: 382-9 The role of fatty acids in mediating the effects of peripheral insulin on hepatic glucose production in the conscious dog. Sindelar DK, Chu CA, Rohlie M, Neal DW, Swift LL, Cherrington AD (1997) Diabetes 46: 187-96 Insulin is required for the liver to respond to intraportal glucose delivery in the conscious dog. Pagliassotti MJ, Moore MC, Neal DW, Cherrington AD (1992) Diabetes 41: 1247-56 Regulation of ketogenesis by epinephrine and norepinephrine in the overnight-fasted, conscious dog. Steiner KE, Fuchs H, Williams PE, Stevenson RW, Cherrington AD, Alberti KG (1985) Diabetes 34: 425-32 Regulation of glucose uptake and metabolism by working muscle. An in vivo analysis. Zinker BA, Lacy DB, Bracy D, Jacobs J, Wasserman DH (1993) Diabetes 42: 956-65 Effects of insulin deficiency or excess on hepatic gluconeogenic flux during glycogenolytic inhibition in the conscious dog. Edgerton DS, Cardin S, Pan C, Neal D, Farmer B, Converse M, Cherrington AD (2002) Diabetes 51: 3151-62 Small increases in insulin inhibit hepatic glucose production solely caused by an effect on glycogen metabolism. Edgerton DS, Cardin S, Emshwiller M, Neal D, Chandramouli V, Schumann WC, Landau BR, Rossetti L, Cherrington AD (2001) Diabetes 50: 1872-82 Interaction between insulin and glucose-delivery route in regulation of net hepatic glucose uptake in conscious dogs. Adkins-Marshall BA, Myers SR, Hendrick GK, Williams PE, Triebwasser K, Floyd B, Cherrington AD (1990) Diabetes 39: 87-95 Suppression of endogenous glucose production by mild hyperinsulinemia during exercise is determined predominantly by portal venous insulin. Camacho RC, Pencek RR, Lacy DB, James FD, Wasserman DH (2004) Diabetes 53: 285-93 Contribution of the liver and extrasplanchnic tissues to the hypoglycemic action of dichloroacetate in the conscious dog. Diamond MP, Suhrer JH, Williams PE, Lacy WW, Cherrington AD (1982) Diabetes 31: 326-32 Effects of an acute increase in epinephrine and cortisol on carbohydrate metabolism during insulin deficiency. Goldstein RE, Abumrad NN, Lacy DB, Wasserman DH, Cherrington AD (1995) Diabetes 44: 672-81 Small amounts of fructose markedly augment net hepatic glucose uptake in the conscious dog. Shiota M, Galassetti P, Monohan M, Neal DW, Cherrington AD (1998) Diabetes 47: 867-73 Differential time course of glucagon's effect on glycogenolysis and gluconeogenesis in the conscious dog. Cherrington AD, Williams PE, Shulman GI, Lacy WW (1981) Diabetes 30: 180-7 Magnitude of negative arterial-portal glucose gradient alters net hepatic glucose balance in conscious dogs. Pagliassotti MJ, Myers SR, Moore MC, Neal DW, Cherrington AD (1991) Diabetes 40: 1659-68 Exercise-induced changes in insulin and glucagon are not required for enhanced hepatic glucose uptake after exercise but influence the fate of glucose within the liver. Pencek RR, James FD, Lacy DB, Jabbour K, Williams PE, Fueger PT, Wasserman DH (2004) Diabetes 53: 3041-7 Exercise-induced fall in insulin and increase in fat metabolism during prolonged muscular work. Wasserman DH, Lacy DB, Goldstein RE, Williams PE, Cherrington AD (1989) Diabetes 38: 484-90 Relative importance of first- and second-phase insulin secretion in glucose homeostasis in conscious dog. II. Effects on gluconeogenesis. Steiner KE, Mouton SM, Williams PE, Lacy WW, Cherrington AD (1986) Diabetes 35: 776-84 Lactate dehydrogenase B: a metabolic marker of response to neoadjuvant chemotherapy in breast cancer. Dennison JB, Molina JR, Mitra S, González-Angulo AM, Balko JM, Kuba MG, Sanders ME, Pinto JA, Gómez HL, Arteaga CL, Brown RE, Mills GB (2013) Clin Cancer Res 19: 3703-13 Acute fructose administration improves oral glucose tolerance in adults with type 2 diabetes. Moore MC, Davis SN, Mann SL, Cherrington AD (2001) Diabetes Care 24: 1882-7
Hints: (1) double-click or double-tap to navigate to a node. (2) Grab a node and move it to arrange the graph.