Rafael Rubio
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Rafael Rubiophilosophy Degrees
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Logic
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Rafael Rubiobiology Degrees
Biology
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#1768
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Philosophy Biology
Rafael Rubio's Degrees
- Doctorate Medicine Stanford University
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(Suggest an Edit or Addition)Rafael Rubio's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Release of Adenosine from Ischemic Brain: Effect on Cerebral Vascular Resistance and Incorporation into Cerebral Adenine Nucleotides (1974) (532)
- Regulation of coronary blood flow. (1974) (512)
- Brain adenosine concentration during hypoxia in rats. (1981) (320)
- Release of adenosine by the normal myocardium in dogs and its relationship to the regulation of coronary resistance. (1969) (289)
- Release of adenosine in reactive hyperemia of the dog heart. (1969) (262)
- Increases in Cerebral Interstitial Fluid Adenosine Concentration during Hypoxia, Local Potassium Infusion, and Ischemia (1986) (259)
- Regulatory Function of Adenosine (2011) (216)
- Brain Adenosine Production in the Rat during 60 Seconds of Ischemia (1979) (213)
- Sites of adenosine production in cardiac and skeletal muscle. (1973) (203)
- Role of Adenine Nucleotides, Adenosine, and Inorganic Phosphate in the Regulation of Skeletal Muscle Blood Flow (1971) (198)
- Relationship between adenosine concentration and oxygen supply in rat brain. (1975) (196)
- Changes in Brain Adenosine during Bicuculline‐Induced Seizures in Rats: Effects of Hypoxia and Altered Systemic Blood Pressure (1980) (192)
- Adenosine in the local regulation of blood flow: a brief overview. (1983) (188)
- Adenosine production in the ischemic kidney. (1978) (184)
- Release of adenosine by hypoxic canine lung tissue and its possible role in pulmonary circulation. (1975) (177)
- Adenosine and Adenine Nucleotides as Possible Mediators of Cardiac and Skeletal Muscle Blood Flow Regulation (1971) (169)
- Inhibition of slow action potentials of guinea pig atrial muscle by adenosine: a possible effect on Ca2+ influx. (1975) (165)
- Uptake and metabolism of adenosine by human erythrocyte ghosts. (1972) (161)
- Differential Effects of Adenosine and Nitroglycerin on the Action Potentials of Large and Small Coronary Arteries (1979) (156)
- Relationship between coronary flow and adenosine production and release. (1974) (146)
- Adenine Nucleotide Metabolism in the Heart (1974) (133)
- Adenosine relaxation of isolated vascular smooth muscle. (1976) (132)
- Adenosine stimulates glycolytic flux in isolated perfused rat hearts by A1-adenosine receptors. (1989) (122)
- Atrioventricular Conduction Disturbances during Hypoxia: Possible Role of Adenosine in Rabbit and Guinea Pig Heart (1980) (106)
- 16K-prolactin inhibits activation of endothelial nitric oxide synthase, intracellular calcium mobilization, and endothelium-dependent vasorelaxation. (2004) (106)
- Blood Flow Regulation by Adenosine in Heart, Brain, and Skeletal Muscle (1983) (105)
- The local regulation of cerebral blood flow. (1981) (103)
- Adenosine Formation and Release by Embryonic Chick Neurons and Glia in Cell Culture (1989) (99)
- Adenosine and active hyperemia in dog skeletal muscle. (1976) (95)
- Effects of dipyridamole on myocardial adenosine and active hyperemia. (1984) (94)
- Canine Myocardial Adenosine and Lactate Production, Oxygen Consumption, and Coronary Blood Flow during Stellate Ganglia Stimulation (1979) (92)
- Brain adenosine production in rat during sustained alteration in systemic blood pressure. (1980) (92)
- Myocardial adenosine formation with increased cardiac performance in the dog. (1979) (78)
- Regulation of Coronary Blood Flow (1991) (75)
- Increased Brain Interstitial Fluid Adenosine Concentration during Hypoxia in Newborn Piglet (1987) (74)
- Effect of adenosine on calcium uptake by intact and cultured vascular smooth muscle. (1982) (71)
- Extraction of adenine nucleotides from cultured endothelial cells. (1986) (66)
- Possible Role of Nitric Oxide in Catecholamine Secretion by Chromaffin Cells in the Presence and Absence of Cultured Endothelial Cells (1994) (63)
- An orderly lattice of axial tubules which interconnect adjacent transverse tubules in guinea-pig ventricular myocardium. (1971) (61)
- Adenosine and coronary blood flow in conscious dogs during normal physiological stimuli. (1982) (59)
- Increased adenosine formation by rat myocardium with acute aortic constriction. (1978) (59)
- Consistent Parallel Relationships among Myocardial Oxygen Consumption, Coronary Blood Flow, and Pericardial Infusate Adenosine Concentration with Various Interventions and β‐Blockade in the Dog (1983) (58)
- Changes in adenosine and glycogen phosphorylase activity during the cardiac cycle. (1980) (54)
- Incorporation and turnover of adenosine-U- 14 C in perfused guinea pig myocardium. (1972) (54)
- Cerebral blood flow and interstitial fluid adenosine during hemorrhagic hypotension. (1988) (49)
- Effects of arginine vasopressin in the heart are mediated by specific intravascular endothelial receptors. (2000) (49)
- Coronary occlusion and embolization: effect on blood flow in adjacent arteries. (1966) (48)
- Effect of dipyridamole on myocardial adenosine metabolism and coronary flow in hypoxia and reactive hyperemia in the isolated perfused guinea pig heart. (1976) (48)
- Ultrastructural changes produced by hypertonicity in cat cardiac muscle. (1971) (45)
- The Effect of Local Infusion of Adenosine and Adenosine Analogues on Local Cerebral Blood Flow (1989) (43)
- Localization of purine and pyrimidine nucleoside phosphorylases in heart, kidney, and liver. (1980) (43)
- Effect of Aminophylline on Myocardial Reactive Hyperemia 1 (1972) (42)
- Measurements of coronary plasma and pericardial infusate adenosine concentrations during exercise in conscious dog: relationship to myocardial oxygen consumption and coronary blood flow. (1983) (40)
- Interstitial Fluid Adenosine and Sagittal Sinus Blood Flow during Bicuculline-Seizures in Newborn Piglets (1987) (40)
- Incorporation of adenosine and its metabolites into brain nucleotides. (1980) (38)
- Comparison of the adenine nucleotide metabolism of dog atrial and ventricular myocardium. (1975) (37)
- Cardiac glycoside stimulation of inward Ca++ current in vascular smooth muscle of canine coronary artery. (1979) (37)
- Inosine incorporation into myocardial nucleotides. (1972) (37)
- Estimates of left ventricular interstitial fluid adenosine during catecholamine stimulation. (1988) (34)
- Interstitial adenosine in guinea pig hearts: an index obtained by epicardial disks. (1990) (34)
- Acute coronary occlusion: early changes that induce coronary dilatation and the development of collateral circulation. (1969) (34)
- The tubular systems of myocardial cells: ultrastructure and possible function. (1974) (33)
- Functional role of intravascular coronary endothelial adenosine receptors. (1992) (32)
- Regulation of glycolytic flux by coronary flow in guinea pig heart. Role of vascular endothelial cell glycocalyx. (1991) (32)
- Brain Interstitial Adenosine and Sagittal Sinus Blood Flow during Systemic Hypotension in Piglet (1988) (31)
- Differential distribution of purine metabolizing enzymes between glia and neurons. (1994) (30)
- Adenosine stimulates glucose uptake in the isolated rat heart. (1988) (29)
- Adenosine metabolism in cultured chick-embryo heart cells. (1975) (28)
- Adenosine release during early and sustained exercise of canine skeletal muscle. (1980) (27)
- Uptake of adenosine by dispersed chich embryonic cardiac cells. (1975) (27)
- Role of the endothelial glycocalyx in dromotropic, inotropic, and arrythmogenic effects of coronary flow. (2000) (27)
- Release of adenosine from pig aortic endothelial cells during hypoxia and metabolic inhibition. (1988) (26)
- Production, metabolism and possible functions of adenosine in brain tissue in situ. (1978) (26)
- Differential Distribution of Purine Metabolizing Enzymes Between Glia and Neurons (1994) (26)
- The role of adenosine in the regulation of coronary blood flow in newborn lambs. (1985) (25)
- Release of adenosine and lack of release of ATP from contracting skeletal muscle (1975) (24)
- Electromechanical uncoupling of frog skeletal muscle by possible change in sarcoplasmic reticulum content. (1973) (24)
- The prolactin family hormones regulate vascular tone through NO and prostacyclin production in isolated rat aortic rings (2015) (24)
- Implications of the coronary vascular endothelium as mediator of the vasodilatory and dromotropic actions of adenosine. (1993) (22)
- Release of Purines from Postsynaptic Structures of Amphibian Ganglia (1988) (21)
- Sharp discontinuity in sarcomere lengths across intercalated disks of fibrillating cat hearts. (1970) (21)
- Blockade of Ca2+ dependent rat atrial slow action potentials by adenosine and lanthanum (1979) (20)
- Intracellular adenosine formation and its carrier-mediated release in cultured embryonic chick heart cells. (1988) (20)
- Coronary flow-induced inotropism is modulated by binding of dextrans to the endothelial luminal surface. (2003) (20)
- Sole activation of three luminal adenosine receptor subtypes in different parts of coronary vasculature. (2003) (19)
- Restoration of slow responses in hypoxic heart muscle by alkaline pH. (1979) (19)
- Inositol Phospholipid Metabolism During and Following Synaptic Activation: Role of Adenosine (1989) (19)
- Uptake and release of adenosine by cultured rat aortic smooth muscle. (1986) (18)
- Transmural distribution of myocardial adenosine content during coronary constriction. (1979) (18)
- Adenosine in the Local Regulation of Blood Flow: Some Controversies (1987) (18)
- Effect of lanthanum on isoproterenol-induced activation of myocardial phosphorylase. (1973) (17)
- Coronary flow stimulates auricular-ventricular transmission in the isolated perfused guinea pig heart. (1995) (16)
- Tubular systems of Limulus myocardial cells investigated by use of electron-opaque tracers and hypertonicity. (1972) (16)
- Adenine nucleotide metabolism during cardiac hypertrophy and ischemia in rats. (1975) (16)
- Coculture of Astroglial and Vascular Endothelial Cells as Apposing Layers Enhances the Transcellular Transport of Hypoxanthine (1995) (15)
- Intravascular adenosine: the endothelial mediators of its negative dromotropic effects. (1999) (14)
- Luminal endothelial lectins with affinity for N-acetylglucosamine determine flow-induced cardiac and vascular paracrine-dependent responses. (2010) (13)
- Time‐dependent effects of theophylline on myocardial reactive hyperaemias in the anaesthetized dog (1990) (13)
- Measurement of Femtomolar Concentrations of Adenosine (1986) (13)
- A Critique on the Use of Adenosine Deaminase to Test the Adenosine Hypothesis: Disregarded Implicit Assumptions (1987) (12)
- Heterogeneity and sampling volume dependence of epicardial adenosine concentrations. (1992) (11)
- Adenosine and metabolic regulation of coronary blood flow in dogs with renal hypertension. (1983) (11)
- G protein-coupled receptors mediate coronary flow- and agonist-induced responses via lectin-oligosaccharide interactions. (2014) (11)
- Pharmacological differentiation between large and small coronary vessels. (1984) (11)
- Mechanisms of Action of Adenosine on Vascular Smooth Muscle and Cardiac Cells (1983) (10)
- Restoration of inward slow current in hypoxic heart muscle by alkaline pH (1978) (10)
- Effects of Acute and Chronic Hypoxia on Coronary Blood Flow1 (1970) (10)
- [3H]Sucrose compartments in frog skeletal muscle relative to sarcoplasmic reticulum. (1978) (10)
- Endothelium-mediated negative dromotropic effects of intravascular acetylcholine. (1998) (9)
- Involvement of endothelial Man and Gal-binding lectins in sensing the flow in coronary arteries. (2008) (9)
- Two dissimilar AT(1) agonists distinctively activate AT(1) receptors located on the luminal membrane of coronary endothelium. (2009) (9)
- Challenges to the Adenosine Hypothesis for the Regulation of Coronary Blood Flow (1973) (9)
- Factors Influencing Coronary Resistance in the Ischemic Heart (1969) (8)
- Changes in brain adenosine during bicuculline-induced seizures: effect of altered arterial oxygen tensions. (1979) (8)
- Effect of Adenosine on Contraction of Vascular Smooth Muscle (1976) (8)
- Formation of adenosine nucleotide derivatives in isolated hog carotid artery strips. (1977) (8)
- Enzymatic hydrolysis of luminal coronary glycosidic structures uncovers their role in sensing coronary flow. (2005) (8)
- Penetration of horseradish peroxidase into the terminal cisternae of frog skeletal muscle fibers and blockade of caffeine contracture by Ca++ depletion (2004) (8)
- Adenosine and the acid-base state of vascular smooth muscle. (1981) (7)
- Intracoronary angiotensin II causes inotropic and vascular effects via different paracrine mechanisms. (2004) (7)
- Calcium-dependent atrial slow action potentials generated with phosphatidic acid or phospholipaseD (1984) (7)
- Candida glabrata binds to glycosylated and lectinic receptors on the coronary endothelial luminal membrane and inhibits flow sense and cardiac responses to agonists. (2016) (7)
- Circulatory effects of tissue oxygen tension sensors. (1977) (6)
- Molecular weight of different angiotensin II polymers directly determines: density of endothelial membrane AT1 receptors and coronary vasoconstriction. (2013) (6)
- Functional implications of sole and selective activation of intravascular coronary endothelial hormonal receptors. (2000) (6)
- Growth of aortic vascular smooth muscle cells in lowered oxygen tension (2004) (6)
- Role of Adenosine, Adenosine Triphosphate and Inorganic Phosphate in Resistance Vessel Vasodilatation (1978) (6)
- Effect of chronic denervation on pharmacological responsiveness of coronary vessels. (1985) (6)
- Cardiac Ischemia and Ischemia/Reperfusion Cause Wide Proteolysis of the Coronary Endothelial Luminal Membrane: Possible Dysfunctions (2011) (4)
- Regulatory function of adenosine : proceedings of the International Symposium on Adenosine, Charlottesville, Virginia, June 7-11, 1982 (1983) (4)
- Mannose polymer induces vasodilation through a luminal mannose receptor in rat mesenteric arteries. (2008) (4)
- Effect of Detergents and Homogenization on Adenosine Kinase and Adenosine Deaminase of Human Erythrocyte Ghosts 1 (1972) (4)
- The coronary endothelium behaves as a functional diffusion barrier for intravascular Angiotensin II. (2013) (4)
- Mechanism of adenosine formation and release in cultured embryonic chick heart cells (1988) (3)
- Adenosine: sites of release in the nervous system and control of phosphatidylinositol turnover. (1987) (3)
- Intracellular adenosine in isolated rat liver cells (2004) (3)
- Potentiation of slow action potentials with theophylline or "micro" adenosine deaminase. (1983) (3)
- Entrance of colloidal ThO2 tracer into the T tubules and longitudinal tubules of the guinea pig heart (2004) (3)
- Adenosine (ADO) released during orthodromic stimulation of the frog sympathetic ganglion inhibits phosphatidylinositol turnover (PI) associated with synaptic transmission (1986) (2)
- Common Denominators in the Regulation of Blood Flow in Heart and Brain (1977) (2)
- Phosphatidylinositol turnover (PI) during synaptic activation results from the release of a stimulatory and in inhibitory agonist (1986) (2)
- Penetration of horseradish peroxidase into the terminal cisternae of frog skeletal muscle fibers and blockade of caffeine contracture by Ca++ depletion (2004) (2)
- Response of Large and Small Coronary Arteries to Adenosine, Nitroglycerin, Cardiac Glycosides, and Calcium Antagonists (1980) (2)
- Endothelial Luminal Membrane-Glycocalyx: Functionalities in Health and Disease (2017) (2)
- Effects of prolactin and vasoinhibins on nitric oxide synthase activity in coronary endothelial cells and vessels in isolated perfused guinea pig hearts (2008) (2)
- The interstitial fluid adenosine concentration during altered cardiac metabolism in the dog. (1987) (1)
- Local regulation of coronary blood flow (1983) (1)
- Comments on "Pericardial superfusion to measure cardiac interstitial adenosine concentration". (1983) (1)
- Kidney and cardiovascular regulation (1983) (0)
- Different glycosidic probes upon binding to coronary endothelial lectins selectively modulate cardiac contractility and A‐V node conduction (2007) (0)
- Coronary Blood Flow in Myocardial Stress with Catecholamine Administration in the Dog (1987) (0)
- Role of endothelial integrins in flow transduction: A review and a novel experimental approach (2006) (0)
- ACTIVATION AND INTERNALIZATION OF CORONARY ENDOTHELIAL LUMINAL MEMBRANE (CELM) AT1 RECEPTOR CAN BE DISSOCIATED (2008) (0)
- Myocardial stress with catecholamine administration and coronary blood flow (1986) (0)
- Adenosine Production in the lschemic Kidney (1978) (0)
- Regional differences in transmembrane action potential (AP) in guinea pig heart during global ischemia (1980) (0)
- Activation and internalization of luminal coronary endothelial AT1 receptor can be dissociated (2007) (0)
- Cytosolic and membrane 5' nucleotidase in soleus and gracilis muscles (1985) (0)
- Different glycosidic probes upon binding to coronary endothelial luminal lectins allow the isolation of these proteins (2007) (0)
- N‐acetyl Glucosamine probe upon binding to endothelial lectins selectively modulate flow‐induced; cardiac contractility, A‐V delay and vascular smooth muscle tone (2009) (0)
- Adenosine associated with dispersed hepatocytes (1981) (0)
- [Biological significance of the endogenous secretion of insulin in response to breakfast in diabetic children]. (1987) (0)
- C14 Regulation of cardiac glycolysis by adenosine (1992) (0)
- Insulin Release, Ca2+ Fluxes and Calmodulin Content of Pancreatic Islets in Aging Rats (1986) (0)
- Changes in brain metabolites during the first 60 seconds of ischemia: adenosine production during hypotension. (1978) (0)
- C23 Hypoxanthine transport across a cellular bilayer made up of cultured glial-endothelial cells: “An artificial blood-brain barrier” (1992) (0)
- Luminal endothelial lectins with affinity for N‐Acetylgucosamine determine flow‐induced cardiac and vascular paracrine responses (2010) (0)
- THE CORONARY ENDOTHELIUM AS A FUNCTIONAL AND PHYSICAL BARRIER FOR ENDOCRINE ANGIOTENSIN II (2010) (0)
- [Sympathetic nervous system and response of the coronary artery to some drugs]. (1983) (0)
- Changes in protein profile composition of coronary luminal membrane induced by ischemia and ischemia/reperfusion (2010) (0)
- Interstitial adenosine: The measurement, the interpretation (1992) (0)
- Study on Cardiac Ischemia and Ischemia/Reperfusion Cause Wide Proteolysis of the Coronary Endothelial Luminal Membrane: An Approach to Possible Dysfunctions (2021) (0)
- content during coronary constriction Transmural distribution of myocardial adenosine (2016) (0)
- Platelet Release andThromboxane Synthesis inSymptomatic Coronary ArteryDisease (1982) (0)
- Flow enhances the agonist-induced responses of the bradykinin receptor (B2) because of its lectinic nature: Role of its oligosaccharide environment (2017) (0)
- Luminal coronary endothelial AT1 mediates vascular and inotropic responses induced by intravasculary confined Ang II (2007) (0)
- C24 Differential distribution of purine degradative pathways between glial and neuronal cells in culture (1992) (0)
- Candida glabrata prevents flow‐dependent cardiac effects through lectinic interaction with coronary endothelial luminal membrane receptors (696.8) (2014) (0)
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Rafael Rubio is affiliated with the following schools:
