Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin
Identifieur interne : 001252 ( Istex/Corpus ); précédent : 001251; suivant : 001253Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin
Auteurs :Source :
- Pflügers Archiv [ 0031-6768 ] ; 1986-01-01.
English descriptors
- Teeft :
- Abolishes potassium conductance, Absorption spectra, Abteilung, Acid, Acid load, Acoustical noise, Acth, Action potentials, Activation, Activation curve, Adenosine, Adjacent bins, Aeps, Afferent, Afferent fibers, Agonist, Aldo, Aldosterone, Aldosterone injection, Amiloride, Amino, Amino acid, Amino acids, Ammonium excretion, Amplitude, Amygdala, Anaesthetized, Anaesthetized cats, Anaesthetized dogs, Anesthetized dogs, Angewandte physiologie, Antidromic activation, Antidromic stimulation, Aortic, Aortic pressure, Apical, Apical membrane, Aplysia neurons, Apparent motion, Arterial blood pressure, Atpase, Atpase activity, Atrial, Autonomic innervation, Axon, Axonal membrane excitability, Balanced salt solution, Barium depolarizes, Baroreceptor, Baroreceptor reflex, Basal, Basal amygdala, Basal conditions, Basic research, Basolateral, Basolateral membrane, Bath solution, Bbmv, Beakward section, Behaviour, Bimodal distribution, Binding site, Binding sites, Biochem biophys, Biochemical parameters, Biol, Biomedical experiments, Biophys, Biophysik, Bipolar, Blocker, Blood flow, Blood pressure, Bochum, Body movements, Body weight, Bradykinin, Bradykinine, Branch points, Brief flashes, Buccal ganglia, Buffer value, Bulb neurons, Bulk phase, Burst length, Calcium concentration, Calcium currents, Caloric nystagmus, Cardiac, Cardiac action, Cardiac arrest, Cardiac glycosides, Cardiac hypertrophy, Cardiac output, Cardiac sarcolemma, Catecholamine, Cats anaesthetized, Caudal telencephalon, Ceil membrane, Cell, Cell biol, Cell body layer, Cell membrane, Cell surface, Cervical spine, Channel, Channel activity, Channel conductance, Channel openings, Chemical reagent, Chick embryo, Chloride transport, Chromaffin cells, Chronic hypercapnia, Circadian, Circadian system, Clinical research, Combination treatment, Concentration range, Concomitant decrease, Conditioning pulses, Conductance, Conduction velocity, Contest performance, Continuous stimulation, Contractile, Contractile response, Contractile system, Control conditions, Control experiments, Control group, Control mechanism, Control period, Control values, Conventional microelectrodes, Convergent input, Corium side, Coronary, Coronary artery, Coronary hypoperfusion, Coronary stenosis, Correlated, Cortisol, Crayfish, Creatine phosphate, Csns, Ctal segments, Cultured, Cultured astrocytes, Current density, Current pulses, Cutaneous, Cutaneous afferents, Cutaneous vasodilatation, Cyclic, Data show, Decrease, Deficiency rickets, Deficient rats, Dentate, Dentate gyrus, Depolarization, Depolarized, Depolarizes, Depolarizing, Deutsche, Deutsche forschungsgemeinschaft, Dibutyryl camp, Different cell types, Different mechanisms, Different positions, Different types, Digital filters, Dipa, Direct evidence, Discharge frequency, Discharge rates, Dorsal, Duct, Early latency aeps, Early phase, Earth gravity, Efferent pathway, Eicosanoids, Electrical activity, Electrical properties, Electrical stimulation, Electrode, Electrogenic, Electromagnetic, Electromagnetic fields, Elevation, Embryo, Endocytotic vesicles, Endothelial, Endothelial cells, Energy charge, Energy state, Entry blockers, Epithelial, Epsp, Equilibrium dissociation constants, Erlangen, Evening types, Excitable membranes, Excitatory potentials, Excitatory reaction, Excretion, Experimental conditions, Extensor muscles, External variation, Extracellular, Extracellular calcium, Extracellular potassium concentration, Extracellular space, Fatty acids, Feld, Fen, Fibre, First part, First phase, First rise, Flow distribution, Force responses, Force transients, Forschungsgemeinschaft, Fractional, Fractional loss, Freiburg, Freien, Freien berlin, Frequency range, Frog, Frog kidney, Frog skin, Functional role, Further evidences, Gallbladder, Ganglion, Gene expression, Generation numbers, Giessen, Glioma cells, Global ischemia, Glucose, Glucose utilization, Glutamate, Granule, Grating, Guinea, Habenular nuclei, Hannover, Healthy subjects, Heart muscle, Heart rate, Heart rates, Heidelberg, Helix, Helix pomatia, Hemodynamic, Hemoglobinfree perfused hearts, High affinity, High concentrations, Higher concentrations, Hippocampal slices, Histogram, Hong kong, Hormonal effects, Horseradish peroxidase, Hth7 spheroids, Human hemoglobin, Human muscle, Hydrophobic moiety, Hydrostatic pressure, Hypercapnia, Hyperpolarization, Hypertensive rats, Hypertrophy, Hypoxia, Hypoxic, Important role, Inactivation, Incubation, Indirect evidence, Indirect stimulation, Individual ions, Inflow, Information transfer, Infusion, Inhibitor, Inhibitory, Inhibitory action, Initial length, Inner layer, Inner pylorus, Innervation, Inorganic phosphate, Inst, Institut, Institut ffir physiologie, Intraaxonal camp, Intraaxonal camp concentration, Intracapillary haemoglobin concentration, Intracellular, Intracellular recordings, Intralabyrinthine pressure, Ion, Irreversible inhibition, Ischemia, Ischemic, Ischemic stress, Isoenzyme, Isoenzyme pattern, Isometric, Isometric force, Kardiologie, Kennedyallee, Kidney, Kidney cortex, Kinetics, Klinische physiologie, Lactate, Lactate consumption, Lactate production, Lactic acid, Landes abteilung, Larger channel, Latency, Latency increase, Leaky epithelia, Lidocaine, Lidocaine block, Linear acceleration, Little effect, Load experiments, Local chemical mediators, Local cooling, Lower intestine, Lower values, Luminal, Luminal cell membrane, Luminal membrane, Luminal perfusate, Luminous target, Madin derby, Main source, Mainz, Male adults, Male rats, Marburg, Matrix, Matrix granules, Maximal, Maximum rate, Mechanical stimuli, Medizinische hochschule hannover, Membr biol, Membrane, Membrane currents, Membrane potentials, Membrane properties, Membrane protein, Membrane resistance, Membrane surface, Metabolism, Metoprolol, Mgatp concentration, Microelectrodes, Microflow, Microspheres, Middle latency aeps, Minor role, Mitochondrial, Mitochondrial function, Mitochondrial matrix granules, Mitochondrial section, Mitochondrion, Mitral cell, Mmhg, Modification, Molecular structure, Molecular weight, Molluscan muscles, Mongrel dogs, Mouse kidney, Mucosal, Multicellular spheroids, Muscarinic receptors, Muscle fibres, Muscle reinnervation, Myelinated nerve, Myoballs, Myocardial, Myocardial contractility, Myocardial infarction, Myocardial ischemia, Myocardial oxygen consumption, Myocardium, Myocytes, Myometrial microsomes, Myometrial strips, Myosin, Myosin isoenzyme pattern, Naci, Naunyn arch pharmacol, Neck receptors, Necturus gallbladder, Negative effect, Nerve stimulation, Nerve terminal, Neuenheimer, Neuenheimer feld, Neurite outgrowth, Neurologische klinik, Neuromuscular junction, Neuron, Neuronal, Neuronal plasticity, Neurones, Neurosci lett, Nociceptive activation, Noradrenaline, Normal function, Normal slices, Normal solution, Normal subjects, Normal values, Nystagmus, Oberer eselsberg, Ocular pursuit, Odour, Odour stimulus, Olfactory, Olfactory bulb, Olfactory mucosa, Olfactory tract, Open probability, Open state, Optical recording, Orbital weightlessness, Organic acids, Other cases, Other cells, Other hand, Otolith system, Outer segment, Oxidative energy gain, Oxygen consumption, Oxygen cooperativity, Oxygen deficiency, Oxygen diffusion loss, Oxygen supply, Oxytocin, Parameter, Part account, Pathologische physiologie, Pathway, Peptide, Perfusate, Perfused, Perfusion, Perilymphatic pressure, Periodontal ligament, Peripheral release, Peritubular perfusate, Permanent stream, Permeability, Peroneal nerve, Pfiugers arch, Pflhgers arch, Pflogers arch, Pflugers arch, Pharyngeal nerves, Phosphate chain, Phosphate pattern, Photoreceptors, Physical fitness tests, Physiol, Physiological properties, Physiological substrates, Physiologie, Physiologische chemie, Physiologisches, Physiologisches institut, Physiologisehes institut, Physiology, Pineal, Pineal cells, Pineal gland, Pineal photoreceptor cells, Pineal photoreceptors, Pipette, Plasma adenosine, Plasma cortisol, Plasma membrane, Plateau phase, Platelet, Platelet aggregation, Polysynaptic epsps, Position constancy, Position receptors, Positive deflection, Positive inotropic effect, Positive voltages, Poststenotic, Poststenotic vasoconstriction, Potassium, Potassium channels, Potassium conductance, Potassium excretion, Potential difference, Power spectrum, Preglomerular blood vessels, Preliminary experiments, Preliminary measurements, Present experiments, Present investigation, Present study, Pressure block, Pressure system, Pressure volume, Protective solution, Proton, Proton uptake, Proximal, Proximal tubules, Quantitative analysis, Quick length changes, Quinidine, Quinidine depolarizes, Rachitic piglets, Rana, Rank orders, Rat, Rate constants, Ratzeburger allee, Recent studies, Receptive field, Receptor, Receptor blockade, Recovery times, Rectal gland, Reflection spectra, Renal, Renal bbmv, Renal blood flow, Renal sodium excretion, Renal vessels, Repetitive, Repetitive action potentials, Repetitive axonal discharges, Repetitive intrastriatal stimulation, Research laboratories, Respiration, Respiratory rhythm, Response pattern, Results show, Retinal displacement, Retinal rods, Reversal, Reversible ischemia, Right nystagmus, Ringer, Ringer solution, Rise time, Rostral afferents, Routine laboratory tests, Salivary gland nerve, Salt solution, Salt solutions, Same time, Schmidt, Second grating, Second messenger, Secretory activity, Segment, Selective attention, Series resistance, Several days, Severe hypoxia, Severe stenosis, Shunt, Side effects, Sids, Silver impregnation, Similar effect, Similar experiments, Single channel conductance, Single stimuli, Single unit recordings, Single units, Skeletal muscle, Skin resistance, Slice preparation, Slope conductance, Slope conductances, Slow channel, Slow component, Slow fibres, Slow wave, Smaller channel, Smooth muscle, Smooth muscle cell membrane, Smooth muscle cells, Smooth muscle contractions, Smooth muscle tone, Smooth muscles, Snail neurons, Sodium permeability, Somatosensory responses, Space sickness, Spacelab, Spatial frequencies, Spatial resolution, Specific blocker, Spectral sensitivity, Spheroid, Spike, Spinal, Split hydronephrotic kidney, Spns, Spontaneous contractions, Steady state, Stenosis, Stenosis control, Stim, Stimulation, Stimulus, Stimulus response pattern, Stimulus strength, Straight conformation, Stratum radiatum, Strong increase, Structural preservation, Sudden inactivation, Symmetrical solutions, Synaptic, Synaptic activity, Synaptic transmission, Systemphysiologie rheinlanddamm, Tailward section, Target cell, Temperature ranges, Tendon, Tension recovery, Test solution, Test solutions, Test spot, Thin filaments, Threshold elevation, Threshold interval, Time constants, Time course, Tion, Tract cells, Train stimulation, Transepithelial, Transepithelial resistance, Transepithelial voltage, Transient, Transient hyperpolarization, Transition voltage, Transitory uncoupling, Transmembrane gradients, Transmitter release, Transport functions, Tree shrews, Triglycerides rise, Tubular uptake, Tubule, Tyrode solution, Unattended stimuli, Unique mechanism, Univ, Untreated cells, Uptake, Urea, Urea synthesis, Uric acid, Ussing chamber, Vascular, Vascular permeability, Vasoconstriction, Vasodilator, Vast majority, Vdcc, Venous, Venous pressures, Ventricular, Ventricular cells, Ventricular myosin, Verapamil, Vesicle, Vestibular, Vestibular sled, Vestibular system, Voltage, Voltage dependence, Volume density, Wall stress, West germany, White cells, Whole body, Zentrum, Zentrum physiologie.
Url:
DOI: 10.1007/BF02431558
Links to Exploration step
ISTEX:B216FBBD1F5A0843107A6781DC4B7891DED5870FLe document en format XML
<record><TEI wicri:istexFullTextTei="biblStruct"><teiHeader><fileDesc><titleStmt><title xml:lang="en">Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</title></titleStmt><publicationStmt><idno type="wicri:source">ISTEX</idno><idno type="RBID">ISTEX:B216FBBD1F5A0843107A6781DC4B7891DED5870F</idno><date when="1986" year="1986">1986</date><idno type="doi">10.1007/BF02431558</idno><idno type="url">https://api.istex.fr/document/B216FBBD1F5A0843107A6781DC4B7891DED5870F/fulltext/pdf</idno><idno type="wicri:Area/Istex/Corpus">001252</idno><idno type="wicri:explorRef" wicri:stream="Istex" wicri:step="Corpus" wicri:corpus="ISTEX">001252</idno></publicationStmt><sourceDesc><biblStruct><analytic><title level="a" type="main" xml:lang="en">Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</title></analytic><monogr></monogr><series><title level="j">Pflügers Archiv</title><title level="j" type="sub">European Journal of Physiology</title><title level="j" type="abbrev">Pflugers Arch.</title><idno type="ISSN">0031-6768</idno><idno type="eISSN">1432-2013</idno><imprint><publisher>Springer-Verlag</publisher><pubPlace>Berlin/Heidelberg</pubPlace><date type="published" when="1986-01-01">1986-01-01</date><biblScope unit="volume">406</biblScope><biblScope unit="supplement">1</biblScope><biblScope unit="page" from="R1">R1</biblScope><biblScope unit="page" to="R65">R65</biblScope></imprint><idno type="ISSN">0031-6768</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0031-6768</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Abolishes potassium conductance</term><term>Absorption spectra</term><term>Abteilung</term><term>Acid</term><term>Acid load</term><term>Acoustical noise</term><term>Acth</term><term>Action potentials</term><term>Activation</term><term>Activation curve</term><term>Adenosine</term><term>Adjacent bins</term><term>Aeps</term><term>Afferent</term><term>Afferent fibers</term><term>Agonist</term><term>Aldo</term><term>Aldosterone</term><term>Aldosterone injection</term><term>Amiloride</term><term>Amino</term><term>Amino acid</term><term>Amino acids</term><term>Ammonium excretion</term><term>Amplitude</term><term>Amygdala</term><term>Anaesthetized</term><term>Anaesthetized cats</term><term>Anaesthetized dogs</term><term>Anesthetized dogs</term><term>Angewandte physiologie</term><term>Antidromic activation</term><term>Antidromic stimulation</term><term>Aortic</term><term>Aortic pressure</term><term>Apical</term><term>Apical membrane</term><term>Aplysia neurons</term><term>Apparent motion</term><term>Arterial blood pressure</term><term>Atpase</term><term>Atpase activity</term><term>Atrial</term><term>Autonomic innervation</term><term>Axon</term><term>Axonal membrane excitability</term><term>Balanced salt solution</term><term>Barium depolarizes</term><term>Baroreceptor</term><term>Baroreceptor reflex</term><term>Basal</term><term>Basal amygdala</term><term>Basal conditions</term><term>Basic research</term><term>Basolateral</term><term>Basolateral membrane</term><term>Bath solution</term><term>Bbmv</term><term>Beakward section</term><term>Behaviour</term><term>Bimodal distribution</term><term>Binding site</term><term>Binding sites</term><term>Biochem biophys</term><term>Biochemical parameters</term><term>Biol</term><term>Biomedical experiments</term><term>Biophys</term><term>Biophysik</term><term>Bipolar</term><term>Blocker</term><term>Blood flow</term><term>Blood pressure</term><term>Bochum</term><term>Body movements</term><term>Body weight</term><term>Bradykinin</term><term>Bradykinine</term><term>Branch points</term><term>Brief flashes</term><term>Buccal ganglia</term><term>Buffer value</term><term>Bulb neurons</term><term>Bulk phase</term><term>Burst length</term><term>Calcium concentration</term><term>Calcium currents</term><term>Caloric nystagmus</term><term>Cardiac</term><term>Cardiac action</term><term>Cardiac arrest</term><term>Cardiac glycosides</term><term>Cardiac hypertrophy</term><term>Cardiac output</term><term>Cardiac sarcolemma</term><term>Catecholamine</term><term>Cats anaesthetized</term><term>Caudal telencephalon</term><term>Ceil membrane</term><term>Cell</term><term>Cell biol</term><term>Cell body layer</term><term>Cell membrane</term><term>Cell surface</term><term>Cervical spine</term><term>Channel</term><term>Channel activity</term><term>Channel conductance</term><term>Channel openings</term><term>Chemical reagent</term><term>Chick embryo</term><term>Chloride transport</term><term>Chromaffin cells</term><term>Chronic hypercapnia</term><term>Circadian</term><term>Circadian system</term><term>Clinical research</term><term>Combination treatment</term><term>Concentration range</term><term>Concomitant decrease</term><term>Conditioning pulses</term><term>Conductance</term><term>Conduction velocity</term><term>Contest performance</term><term>Continuous stimulation</term><term>Contractile</term><term>Contractile response</term><term>Contractile system</term><term>Control conditions</term><term>Control experiments</term><term>Control group</term><term>Control mechanism</term><term>Control period</term><term>Control values</term><term>Conventional microelectrodes</term><term>Convergent input</term><term>Corium side</term><term>Coronary</term><term>Coronary artery</term><term>Coronary hypoperfusion</term><term>Coronary stenosis</term><term>Correlated</term><term>Cortisol</term><term>Crayfish</term><term>Creatine phosphate</term><term>Csns</term><term>Ctal segments</term><term>Cultured</term><term>Cultured astrocytes</term><term>Current density</term><term>Current pulses</term><term>Cutaneous</term><term>Cutaneous afferents</term><term>Cutaneous vasodilatation</term><term>Cyclic</term><term>Data show</term><term>Decrease</term><term>Deficiency rickets</term><term>Deficient rats</term><term>Dentate</term><term>Dentate gyrus</term><term>Depolarization</term><term>Depolarized</term><term>Depolarizes</term><term>Depolarizing</term><term>Deutsche</term><term>Deutsche forschungsgemeinschaft</term><term>Dibutyryl camp</term><term>Different cell types</term><term>Different mechanisms</term><term>Different positions</term><term>Different types</term><term>Digital filters</term><term>Dipa</term><term>Direct evidence</term><term>Discharge frequency</term><term>Discharge rates</term><term>Dorsal</term><term>Duct</term><term>Early latency aeps</term><term>Early phase</term><term>Earth gravity</term><term>Efferent pathway</term><term>Eicosanoids</term><term>Electrical activity</term><term>Electrical properties</term><term>Electrical stimulation</term><term>Electrode</term><term>Electrogenic</term><term>Electromagnetic</term><term>Electromagnetic fields</term><term>Elevation</term><term>Embryo</term><term>Endocytotic vesicles</term><term>Endothelial</term><term>Endothelial cells</term><term>Energy charge</term><term>Energy state</term><term>Entry blockers</term><term>Epithelial</term><term>Epsp</term><term>Equilibrium dissociation constants</term><term>Erlangen</term><term>Evening types</term><term>Excitable membranes</term><term>Excitatory potentials</term><term>Excitatory reaction</term><term>Excretion</term><term>Experimental conditions</term><term>Extensor muscles</term><term>External variation</term><term>Extracellular</term><term>Extracellular calcium</term><term>Extracellular potassium concentration</term><term>Extracellular space</term><term>Fatty acids</term><term>Feld</term><term>Fen</term><term>Fibre</term><term>First part</term><term>First phase</term><term>First rise</term><term>Flow distribution</term><term>Force responses</term><term>Force transients</term><term>Forschungsgemeinschaft</term><term>Fractional</term><term>Fractional loss</term><term>Freiburg</term><term>Freien</term><term>Freien berlin</term><term>Frequency range</term><term>Frog</term><term>Frog kidney</term><term>Frog skin</term><term>Functional role</term><term>Further evidences</term><term>Gallbladder</term><term>Ganglion</term><term>Gene expression</term><term>Generation numbers</term><term>Giessen</term><term>Glioma cells</term><term>Global ischemia</term><term>Glucose</term><term>Glucose utilization</term><term>Glutamate</term><term>Granule</term><term>Grating</term><term>Guinea</term><term>Habenular nuclei</term><term>Hannover</term><term>Healthy subjects</term><term>Heart muscle</term><term>Heart rate</term><term>Heart rates</term><term>Heidelberg</term><term>Helix</term><term>Helix pomatia</term><term>Hemodynamic</term><term>Hemoglobinfree perfused hearts</term><term>High affinity</term><term>High concentrations</term><term>Higher concentrations</term><term>Hippocampal slices</term><term>Histogram</term><term>Hong kong</term><term>Hormonal effects</term><term>Horseradish peroxidase</term><term>Hth7 spheroids</term><term>Human hemoglobin</term><term>Human muscle</term><term>Hydrophobic moiety</term><term>Hydrostatic pressure</term><term>Hypercapnia</term><term>Hyperpolarization</term><term>Hypertensive rats</term><term>Hypertrophy</term><term>Hypoxia</term><term>Hypoxic</term><term>Important role</term><term>Inactivation</term><term>Incubation</term><term>Indirect evidence</term><term>Indirect stimulation</term><term>Individual ions</term><term>Inflow</term><term>Information transfer</term><term>Infusion</term><term>Inhibitor</term><term>Inhibitory</term><term>Inhibitory action</term><term>Initial length</term><term>Inner layer</term><term>Inner pylorus</term><term>Innervation</term><term>Inorganic phosphate</term><term>Inst</term><term>Institut</term><term>Institut ffir physiologie</term><term>Intraaxonal camp</term><term>Intraaxonal camp concentration</term><term>Intracapillary haemoglobin concentration</term><term>Intracellular</term><term>Intracellular recordings</term><term>Intralabyrinthine pressure</term><term>Ion</term><term>Irreversible inhibition</term><term>Ischemia</term><term>Ischemic</term><term>Ischemic stress</term><term>Isoenzyme</term><term>Isoenzyme pattern</term><term>Isometric</term><term>Isometric force</term><term>Kardiologie</term><term>Kennedyallee</term><term>Kidney</term><term>Kidney cortex</term><term>Kinetics</term><term>Klinische physiologie</term><term>Lactate</term><term>Lactate consumption</term><term>Lactate production</term><term>Lactic acid</term><term>Landes abteilung</term><term>Larger channel</term><term>Latency</term><term>Latency increase</term><term>Leaky epithelia</term><term>Lidocaine</term><term>Lidocaine block</term><term>Linear acceleration</term><term>Little effect</term><term>Load experiments</term><term>Local chemical mediators</term><term>Local cooling</term><term>Lower intestine</term><term>Lower values</term><term>Luminal</term><term>Luminal cell membrane</term><term>Luminal membrane</term><term>Luminal perfusate</term><term>Luminous target</term><term>Madin derby</term><term>Main source</term><term>Mainz</term><term>Male adults</term><term>Male rats</term><term>Marburg</term><term>Matrix</term><term>Matrix granules</term><term>Maximal</term><term>Maximum rate</term><term>Mechanical stimuli</term><term>Medizinische hochschule hannover</term><term>Membr biol</term><term>Membrane</term><term>Membrane currents</term><term>Membrane potentials</term><term>Membrane properties</term><term>Membrane protein</term><term>Membrane resistance</term><term>Membrane surface</term><term>Metabolism</term><term>Metoprolol</term><term>Mgatp concentration</term><term>Microelectrodes</term><term>Microflow</term><term>Microspheres</term><term>Middle latency aeps</term><term>Minor role</term><term>Mitochondrial</term><term>Mitochondrial function</term><term>Mitochondrial matrix granules</term><term>Mitochondrial section</term><term>Mitochondrion</term><term>Mitral cell</term><term>Mmhg</term><term>Modification</term><term>Molecular structure</term><term>Molecular weight</term><term>Molluscan muscles</term><term>Mongrel dogs</term><term>Mouse kidney</term><term>Mucosal</term><term>Multicellular spheroids</term><term>Muscarinic receptors</term><term>Muscle fibres</term><term>Muscle reinnervation</term><term>Myelinated nerve</term><term>Myoballs</term><term>Myocardial</term><term>Myocardial contractility</term><term>Myocardial infarction</term><term>Myocardial ischemia</term><term>Myocardial oxygen consumption</term><term>Myocardium</term><term>Myocytes</term><term>Myometrial microsomes</term><term>Myometrial strips</term><term>Myosin</term><term>Myosin isoenzyme pattern</term><term>Naci</term><term>Naunyn arch pharmacol</term><term>Neck receptors</term><term>Necturus gallbladder</term><term>Negative effect</term><term>Nerve stimulation</term><term>Nerve terminal</term><term>Neuenheimer</term><term>Neuenheimer feld</term><term>Neurite outgrowth</term><term>Neurologische klinik</term><term>Neuromuscular junction</term><term>Neuron</term><term>Neuronal</term><term>Neuronal plasticity</term><term>Neurones</term><term>Neurosci lett</term><term>Nociceptive activation</term><term>Noradrenaline</term><term>Normal function</term><term>Normal slices</term><term>Normal solution</term><term>Normal subjects</term><term>Normal values</term><term>Nystagmus</term><term>Oberer eselsberg</term><term>Ocular pursuit</term><term>Odour</term><term>Odour stimulus</term><term>Olfactory</term><term>Olfactory bulb</term><term>Olfactory mucosa</term><term>Olfactory tract</term><term>Open probability</term><term>Open state</term><term>Optical recording</term><term>Orbital weightlessness</term><term>Organic acids</term><term>Other cases</term><term>Other cells</term><term>Other hand</term><term>Otolith system</term><term>Outer segment</term><term>Oxidative energy gain</term><term>Oxygen consumption</term><term>Oxygen cooperativity</term><term>Oxygen deficiency</term><term>Oxygen diffusion loss</term><term>Oxygen supply</term><term>Oxytocin</term><term>Parameter</term><term>Part account</term><term>Pathologische physiologie</term><term>Pathway</term><term>Peptide</term><term>Perfusate</term><term>Perfused</term><term>Perfusion</term><term>Perilymphatic pressure</term><term>Periodontal ligament</term><term>Peripheral release</term><term>Peritubular perfusate</term><term>Permanent stream</term><term>Permeability</term><term>Peroneal nerve</term><term>Pfiugers arch</term><term>Pflhgers arch</term><term>Pflogers arch</term><term>Pflugers arch</term><term>Pharyngeal nerves</term><term>Phosphate chain</term><term>Phosphate pattern</term><term>Photoreceptors</term><term>Physical fitness tests</term><term>Physiol</term><term>Physiological properties</term><term>Physiological substrates</term><term>Physiologie</term><term>Physiologische chemie</term><term>Physiologisches</term><term>Physiologisches institut</term><term>Physiologisehes institut</term><term>Physiology</term><term>Pineal</term><term>Pineal cells</term><term>Pineal gland</term><term>Pineal photoreceptor cells</term><term>Pineal photoreceptors</term><term>Pipette</term><term>Plasma adenosine</term><term>Plasma cortisol</term><term>Plasma membrane</term><term>Plateau phase</term><term>Platelet</term><term>Platelet aggregation</term><term>Polysynaptic epsps</term><term>Position constancy</term><term>Position receptors</term><term>Positive deflection</term><term>Positive inotropic effect</term><term>Positive voltages</term><term>Poststenotic</term><term>Poststenotic vasoconstriction</term><term>Potassium</term><term>Potassium channels</term><term>Potassium conductance</term><term>Potassium excretion</term><term>Potential difference</term><term>Power spectrum</term><term>Preglomerular blood vessels</term><term>Preliminary experiments</term><term>Preliminary measurements</term><term>Present experiments</term><term>Present investigation</term><term>Present study</term><term>Pressure block</term><term>Pressure system</term><term>Pressure volume</term><term>Protective solution</term><term>Proton</term><term>Proton uptake</term><term>Proximal</term><term>Proximal tubules</term><term>Quantitative analysis</term><term>Quick length changes</term><term>Quinidine</term><term>Quinidine depolarizes</term><term>Rachitic piglets</term><term>Rana</term><term>Rank orders</term><term>Rat</term><term>Rate constants</term><term>Ratzeburger allee</term><term>Recent studies</term><term>Receptive field</term><term>Receptor</term><term>Receptor blockade</term><term>Recovery times</term><term>Rectal gland</term><term>Reflection spectra</term><term>Renal</term><term>Renal bbmv</term><term>Renal blood flow</term><term>Renal sodium excretion</term><term>Renal vessels</term><term>Repetitive</term><term>Repetitive action potentials</term><term>Repetitive axonal discharges</term><term>Repetitive intrastriatal stimulation</term><term>Research laboratories</term><term>Respiration</term><term>Respiratory rhythm</term><term>Response pattern</term><term>Results show</term><term>Retinal displacement</term><term>Retinal rods</term><term>Reversal</term><term>Reversible ischemia</term><term>Right nystagmus</term><term>Ringer</term><term>Ringer solution</term><term>Rise time</term><term>Rostral afferents</term><term>Routine laboratory tests</term><term>Salivary gland nerve</term><term>Salt solution</term><term>Salt solutions</term><term>Same time</term><term>Schmidt</term><term>Second grating</term><term>Second messenger</term><term>Secretory activity</term><term>Segment</term><term>Selective attention</term><term>Series resistance</term><term>Several days</term><term>Severe hypoxia</term><term>Severe stenosis</term><term>Shunt</term><term>Side effects</term><term>Sids</term><term>Silver impregnation</term><term>Similar effect</term><term>Similar experiments</term><term>Single channel conductance</term><term>Single stimuli</term><term>Single unit recordings</term><term>Single units</term><term>Skeletal muscle</term><term>Skin resistance</term><term>Slice preparation</term><term>Slope conductance</term><term>Slope conductances</term><term>Slow channel</term><term>Slow component</term><term>Slow fibres</term><term>Slow wave</term><term>Smaller channel</term><term>Smooth muscle</term><term>Smooth muscle cell membrane</term><term>Smooth muscle cells</term><term>Smooth muscle contractions</term><term>Smooth muscle tone</term><term>Smooth muscles</term><term>Snail neurons</term><term>Sodium permeability</term><term>Somatosensory responses</term><term>Space sickness</term><term>Spacelab</term><term>Spatial frequencies</term><term>Spatial resolution</term><term>Specific blocker</term><term>Spectral sensitivity</term><term>Spheroid</term><term>Spike</term><term>Spinal</term><term>Split hydronephrotic kidney</term><term>Spns</term><term>Spontaneous contractions</term><term>Steady state</term><term>Stenosis</term><term>Stenosis control</term><term>Stim</term><term>Stimulation</term><term>Stimulus</term><term>Stimulus response pattern</term><term>Stimulus strength</term><term>Straight conformation</term><term>Stratum radiatum</term><term>Strong increase</term><term>Structural preservation</term><term>Sudden inactivation</term><term>Symmetrical solutions</term><term>Synaptic</term><term>Synaptic activity</term><term>Synaptic transmission</term><term>Systemphysiologie rheinlanddamm</term><term>Tailward section</term><term>Target cell</term><term>Temperature ranges</term><term>Tendon</term><term>Tension recovery</term><term>Test solution</term><term>Test solutions</term><term>Test spot</term><term>Thin filaments</term><term>Threshold elevation</term><term>Threshold interval</term><term>Time constants</term><term>Time course</term><term>Tion</term><term>Tract cells</term><term>Train stimulation</term><term>Transepithelial</term><term>Transepithelial resistance</term><term>Transepithelial voltage</term><term>Transient</term><term>Transient hyperpolarization</term><term>Transition voltage</term><term>Transitory uncoupling</term><term>Transmembrane gradients</term><term>Transmitter release</term><term>Transport functions</term><term>Tree shrews</term><term>Triglycerides rise</term><term>Tubular uptake</term><term>Tubule</term><term>Tyrode solution</term><term>Unattended stimuli</term><term>Unique mechanism</term><term>Univ</term><term>Untreated cells</term><term>Uptake</term><term>Urea</term><term>Urea synthesis</term><term>Uric acid</term><term>Ussing chamber</term><term>Vascular</term><term>Vascular permeability</term><term>Vasoconstriction</term><term>Vasodilator</term><term>Vast majority</term><term>Vdcc</term><term>Venous</term><term>Venous pressures</term><term>Ventricular</term><term>Ventricular cells</term><term>Ventricular myosin</term><term>Verapamil</term><term>Vesicle</term><term>Vestibular</term><term>Vestibular sled</term><term>Vestibular system</term><term>Voltage</term><term>Voltage dependence</term><term>Volume density</term><term>Wall stress</term><term>West germany</term><term>White cells</term><term>Whole body</term><term>Zentrum</term><term>Zentrum physiologie</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader></TEI><istex><corpusName>springer</corpusName><keywords><teeft><json:string>physiologisches</json:string><json:string>ischemia</json:string><json:string>receptor</json:string><json:string>conductance</json:string><json:string>physiologie</json:string><json:string>fibre</json:string><json:string>extracellular</json:string><json:string>depolarization</json:string><json:string>physiol</json:string><json:string>hypoxia</json:string><json:string>intracellular</json:string><json:string>physiologisches institut</json:string><json:string>latency</json:string><json:string>perfused</json:string><json:string>neuron</json:string><json:string>hyperpolarization</json:string><json:string>basal</json:string><json:string>spns</json:string><json:string>cardiac</json:string><json:string>present study</json:string><json:string>cell membrane</json:string><json:string>dipa</json:string><json:string>pathway</json:string><json:string>apical</json:string><json:string>blocker</json:string><json:string>olfactory</json:string><json:string>adenosine</json:string><json:string>atpase</json:string><json:string>vesicle</json:string><json:string>pineal</json:string><json:string>tubule</json:string><json:string>pipette</json:string><json:string>institut</json:string><json:string>nystagmus</json:string><json:string>glucose</json:string><json:string>univ</json:string><json:string>neurones</json:string><json:string>renal</json:string><json:string>forschungsgemeinschaft</json:string><json:string>mmhg</json:string><json:string>synaptic</json:string><json:string>zentrum</json:string><json:string>hypoxic</json:string><json:string>vestibular</json:string><json:string>anaesthetized</json:string><json:string>csns</json:string><json:string>heart rate</json:string><json:string>deutsche forschungsgemeinschaft</json:string><json:string>inst</json:string><json:string>vasoconstriction</json:string><json:string>naci</json:string><json:string>time course</json:string><json:string>membrane</json:string><json:string>quinidine</json:string><json:string>blood flow</json:string><json:string>biol</json:string><json:string>permeability</json:string><json:string>mainz</json:string><json:string>platelet</json:string><json:string>feld</json:string><json:string>microspheres</json:string><json:string>cutaneous</json:string><json:string>oxytocin</json:string><json:string>bochum</json:string><json:string>ischemic</json:string><json:string>aeps</json:string><json:string>agonist</json:string><json:string>blood pressure</json:string><json:string>hannover</json:string><json:string>tion</json:string><json:string>venous</json:string><json:string>myoballs</json:string><json:string>abteilung</json:string><json:string>deutsche</json:string><json:string>frog</json:string><json:string>eicosanoids</json:string><json:string>verapamil</json:string><json:string>stenosis</json:string><json:string>ganglion</json:string><json:string>innervation</json:string><json:string>glutamate</json:string><json:string>aldosterone</json:string><json:string>contractile</json:string><json:string>other hand</json:string><json:string>tendon</json:string><json:string>mitochondrion</json:string><json:string>mitochondrial</json:string><json:string>axon</json:string><json:string>results show</json:string><json:string>spheroid</json:string><json:string>kardiologie</json:string><json:string>bradykinine</json:string><json:string>neuenheimer</json:string><json:string>depolarized</json:string><json:string>kinetics</json:string><json:string>myocardial ischemia</json:string><json:string>luminal</json:string><json:string>myocytes</json:string><json:string>granule</json:string><json:string>catecholamine</json:string><json:string>isometric</json:string><json:string>perfusate</json:string><json:string>hypercapnia</json:string><json:string>depolarizing</json:string><json:string>vasodilator</json:string><json:string>transepithelial</json:string><json:string>depolarizes</json:string><json:string>heidelberg</json:string><json:string>myosin</json:string><json:string>erlangen</json:string><json:string>freiburg</json:string><json:string>microelectrodes</json:string><json:string>west germany</json:string><json:string>freien</json:string><json:string>aortic</json:string><json:string>cyclic</json:string><json:string>ventricular</json:string><json:string>odour</json:string><json:string>hemodynamic</json:string><json:string>electrogenic</json:string><json:string>bbmv</json:string><json:string>rana</json:string><json:string>noradrenaline</json:string><json:string>amygdala</json:string><json:string>giessen</json:string><json:string>isoenzyme</json:string><json:string>dorsal</json:string><json:string>fen</json:string><json:string>ringer</json:string><json:string>kennedyallee</json:string><json:string>marburg</json:string><json:string>atrial</json:string><json:string>circadian</json:string><json:string>epsp</json:string><json:string>cardiac output</json:string><json:string>helix</json:string><json:string>bipolar</json:string><json:string>epithelial</json:string><json:string>dentate</json:string><json:string>poststenotic</json:string><json:string>cortisol</json:string><json:string>histogram</json:string><json:string>crayfish</json:string><json:string>biophysik</json:string><json:string>mucosal</json:string><json:string>sids</json:string><json:string>spacelab</json:string><json:string>stim</json:string><json:string>spinal</json:string><json:string>metoprolol</json:string><json:string>basolateral</json:string><json:string>lidocaine</json:string><json:string>amiloride</json:string><json:string>olfactory mucosa</json:string><json:string>microflow</json:string><json:string>vdcc</json:string><json:string>biophys</json:string><json:string>smooth muscle</json:string><json:string>electromagnetic</json:string><json:string>photoreceptors</json:string><json:string>inactivation</json:string><json:string>excretion</json:string><json:string>afferent</json:string><json:string>neuronal</json:string><json:string>electrical stimulation</json:string><json:string>zentrum physiologie</json:string><json:string>atpase activity</json:string><json:string>fatty acids</json:string><json:string>action potentials</json:string><json:string>same time</json:string><json:string>neuenheimer feld</json:string><json:string>plasma cortisol</json:string><json:string>perfusion</json:string><json:string>myocardial</json:string><json:string>infusion</json:string><json:string>shunt</json:string><json:string>endothelial cells</json:string><json:string>snail neurons</json:string><json:string>lactate consumption</json:string><json:string>oberer eselsberg</json:string><json:string>apical membrane</json:string><json:string>maximum rate</json:string><json:string>high affinity</json:string><json:string>reflection spectra</json:string><json:string>time constants</json:string><json:string>present experiments</json:string><json:string>electromagnetic fields</json:string><json:string>embryo</json:string><json:string>repetitive</json:string><json:string>lactate</json:string><json:string>physiology</json:string><json:string>myocardium</json:string><json:string>acth</json:string><json:string>endothelial</json:string><json:string>membrane potentials</json:string><json:string>oxygen supply</json:string><json:string>pfiugers arch</json:string><json:string>cell biol</json:string><json:string>early phase</json:string><json:string>stratum radiatum</json:string><json:string>single units</json:string><json:string>right nystagmus</json:string><json:string>endocytotic vesicles</json:string><json:string>inner pylorus</json:string><json:string>olfactory tract</json:string><json:string>olfactory bulb</json:string><json:string>synaptic transmission</json:string><json:string>potassium conductance</json:string><json:string>volume density</json:string><json:string>caloric nystagmus</json:string><json:string>intracellular recordings</json:string><json:string>experimental conditions</json:string><json:string>amino acids</json:string><json:string>electrical activity</json:string><json:string>mouse kidney</json:string><json:string>phosphate chain</json:string><json:string>voltage dependence</json:string><json:string>severe stenosis</json:string><json:string>renal bbmv</json:string><json:string>control conditions</json:string><json:string>uric acid</json:string><json:string>isometric force</json:string><json:string>pflugers arch</json:string><json:string>test spot</json:string><json:string>retinal displacement</json:string><json:string>conduction velocity</json:string><json:string>pflogers arch</json:string><json:string>helix pomatia</json:string><json:string>extracellular potassium concentration</json:string><json:string>gallbladder</json:string><json:string>duct</json:string><json:string>grating</json:string><json:string>bradykinin</json:string><json:string>amino</json:string><json:string>spike</json:string><json:string>stimulation</json:string><json:string>kidney</json:string><json:string>inhibitor</json:string><json:string>baroreceptor</json:string><json:string>aldo</json:string><json:string>urea</json:string><json:string>fractional</json:string><json:string>peptide</json:string><json:string>matrix</json:string><json:string>schmidt</json:string><json:string>rat</json:string><json:string>amplitude</json:string><json:string>horseradish peroxidase</json:string><json:string>control values</json:string><json:string>power spectrum</json:string><json:string>test solutions</json:string><json:string>calcium currents</json:string><json:string>bulb neurons</json:string><json:string>current density</json:string><json:string>middle latency aeps</json:string><json:string>rise time</json:string><json:string>threshold interval</json:string><json:string>pineal photoreceptors</json:string><json:string>hydrophobic moiety</json:string><json:string>freien berlin</json:string><json:string>spatial frequencies</json:string><json:string>open state</json:string><json:string>transitory uncoupling</json:string><json:string>rate constants</json:string><json:string>concentration range</json:string><json:string>high concentrations</json:string><json:string>ctal segments</json:string><json:string>extracellular space</json:string><json:string>otolith system</json:string><json:string>muscle fibres</json:string><json:string>reversible ischemia</json:string><json:string>luminal perfusate</json:string><json:string>skeletal muscle</json:string><json:string>renal blood flow</json:string><json:string>corium side</json:string><json:string>matrix granules</json:string><json:string>contest performance</json:string><json:string>cardiac arrest</json:string><json:string>unattended stimuli</json:string><json:string>selective attention</json:string><json:string>pressure block</json:string><json:string>receptive field</json:string><json:string>coronary artery</json:string><json:string>neurologische klinik</json:string><json:string>lactate production</json:string><json:string>burst length</json:string><json:string>control period</json:string><json:string>receptor blockade</json:string><json:string>contractile response</json:string><json:string>ringer solution</json:string><json:string>plateau phase</json:string><json:string>cardiac hypertrophy</json:string><json:string>discharge rates</json:string><json:string>oxygen consumption</json:string><json:string>larger channel</json:string><json:string>isoenzyme pattern</json:string><json:string>body weight</json:string><json:string>activation curve</json:string><json:string>membrane properties</json:string><json:string>single channel conductance</json:string><json:string>evening types</json:string><json:string>contractile system</json:string><json:string>structural preservation</json:string><json:string>severe hypoxia</json:string><json:string>control mechanism</json:string><json:string>intracapillary haemoglobin concentration</json:string><json:string>heart rates</json:string><json:string>open probability</json:string><json:string>poststenotic vasoconstriction</json:string><json:string>normal solution</json:string><json:string>plasma membrane</json:string><json:string>rectal gland</json:string><json:string>myometrial strips</json:string><json:string>response pattern</json:string><json:string>smooth muscles</json:string><json:string>male rats</json:string><json:string>anaesthetized cats</json:string><json:string>rachitic piglets</json:string><json:string>anaesthetized dogs</json:string><json:string>molecular weight</json:string><json:string>bulk phase</json:string><json:string>perilymphatic pressure</json:string><json:string>barium depolarizes</json:string><json:string>proximal tubules</json:string><json:string>necturus gallbladder</json:string><json:string>mitral cell</json:string><json:string>quantitative analysis</json:string><json:string>luminal membrane</json:string><json:string>kidney cortex</json:string><json:string>membr biol</json:string><json:string>phosphate pattern</json:string><json:string>important role</json:string><json:string>strong increase</json:string><json:string>oxygen cooperativity</json:string><json:string>uptake</json:string><json:string>transient</json:string><json:string>inhibitory</json:string><json:string>maximal</json:string><json:string>proximal</json:string><json:string>electrode</json:string><json:string>potassium</json:string><json:string>acid</json:string><json:string>vascular</json:string><json:string>proton</json:string><json:string>elevation</json:string><json:string>respiration</json:string><json:string>hypertrophy</json:string><json:string>incubation</json:string><json:string>stimulus</json:string><json:string>guinea</json:string><json:string>intralabyrinthine pressure</json:string><json:string>vestibular system</json:string><json:string>first rise</json:string><json:string>first part</json:string><json:string>permanent stream</json:string><json:string>secretory activity</json:string><json:string>excitatory reaction</json:string><json:string>adjacent bins</json:string><json:string>slow wave</json:string><json:string>current pulses</json:string><json:string>buffer value</json:string><json:string>positive voltages</json:string><json:string>silver impregnation</json:string><json:string>lidocaine block</json:string><json:string>stimulus strength</json:string><json:string>cats anaesthetized</json:string><json:string>mechanical stimuli</json:string><json:string>latency increase</json:string><json:string>rank orders</json:string><json:string>hong kong</json:string><json:string>tract cells</json:string><json:string>sodium permeability</json:string><json:string>other cases</json:string><json:string>convergent input</json:string><json:string>periodontal ligament</json:string><json:string>angewandte physiologie</json:string><json:string>basic research</json:string><json:string>tree shrews</json:string><json:string>circadian system</json:string><json:string>energy state</json:string><json:string>different mechanisms</json:string><json:string>respiratory rhythm</json:string><json:string>load experiments</json:string><json:string>vestibular sled</json:string><json:string>cutaneous vasodilatation</json:string><json:string>orbital weightlessness</json:string><json:string>myocardial contractility</json:string><json:string>peripheral release</json:string><json:string>routine laboratory tests</json:string><json:string>skin resistance</json:string><json:string>autonomic innervation</json:string><json:string>rostral afferents</json:string><json:string>frog skin</json:string><json:string>oxidative energy gain</json:string><json:string>pineal gland</json:string><json:string>habenular nuclei</json:string><json:string>electrical properties</json:string><json:string>pineal cells</json:string><json:string>discharge frequency</json:string><json:string>tailward section</json:string><json:string>similar experiments</json:string><json:string>slow channel</json:string><json:string>basal amygdala</json:string><json:string>acoustical noise</json:string><json:string>research laboratories</json:string><json:string>different positions</json:string><json:string>venous pressures</json:string><json:string>baroreceptor reflex</json:string><json:string>present investigation</json:string><json:string>train stimulation</json:string><json:string>nociceptive activation</json:string><json:string>male adults</json:string><json:string>cutaneous afferents</json:string><json:string>polysynaptic epsps</json:string><json:string>several days</json:string><json:string>normal subjects</json:string><json:string>vast majority</json:string><json:string>cardiac sarcolemma</json:string><json:string>body movements</json:string><json:string>normal function</json:string><json:string>oxygen deficiency</json:string><json:string>physical fitness tests</json:string><json:string>earth gravity</json:string><json:string>minor role</json:string><json:string>sudden inactivation</json:string><json:string>buccal ganglia</json:string><json:string>chronic hypercapnia</json:string><json:string>bimodal distribution</json:string><json:string>part account</json:string><json:string>frequency range</json:string><json:string>repetitive action potentials</json:string><json:string>axonal membrane excitability</json:string><json:string>cardiac action</json:string><json:string>intraaxonal camp concentration</json:string><json:string>repetitive axonal discharges</json:string><json:string>test solution</json:string><json:string>intraaxonal camp</json:string><json:string>pharyngeal nerves</json:string><json:string>neurite outgrowth</json:string><json:string>salivary gland nerve</json:string><json:string>transmembrane gradients</json:string><json:string>untreated cells</json:string><json:string>biomedical experiments</json:string><json:string>chemical reagent</json:string><json:string>physiologische chemie</json:string><json:string>luminal cell membrane</json:string><json:string>myelinated nerve</json:string><json:string>preliminary experiments</json:string><json:string>transition voltage</json:string><json:string>heart muscle</json:string><json:string>balanced salt solution</json:string><json:string>membrane resistance</json:string><json:string>muscle reinnervation</json:string><json:string>antidromic stimulation</json:string><json:string>neuronal plasticity</json:string><json:string>peroneal nerve</json:string><json:string>whole body</json:string><json:string>extensor muscles</json:string><json:string>indirect stimulation</json:string><json:string>position receptors</json:string><json:string>membrane currents</json:string><json:string>human muscle</json:string><json:string>functional role</json:string><json:string>normal slices</json:string><json:string>neuromuscular junction</json:string><json:string>force responses</json:string><json:string>initial length</json:string><json:string>individual ions</json:string><json:string>amino acid</json:string><json:string>force transients</json:string><json:string>cervical spine</json:string><json:string>hippocampal slices</json:string><json:string>positive inotropic effect</json:string><json:string>inorganic phosphate</json:string><json:string>positive deflection</json:string><json:string>slow fibres</json:string><json:string>different cell types</json:string><json:string>chick embryo</json:string><json:string>landes abteilung</json:string><json:string>energy charge</json:string><json:string>slope conductance</json:string><json:string>slope conductances</json:string><json:string>symmetrical solutions</json:string><json:string>excitable membranes</json:string><json:string>neurosci lett</json:string><json:string>myocardial infarction</json:string><json:string>inner layer</json:string><json:string>chromaffin cells</json:string><json:string>mitochondrial matrix granules</json:string><json:string>global ischemia</json:string><json:string>biochemical parameters</json:string><json:string>other cells</json:string><json:string>afferent fibers</json:string><json:string>mitochondrial section</json:string><json:string>information transfer</json:string><json:string>creatine phosphate</json:string><json:string>first phase</json:string><json:string>entry blockers</json:string><json:string>local chemical mediators</json:string><json:string>institut ffir physiologie</json:string><json:string>recent studies</json:string><json:string>membrane surface</json:string><json:string>dentate gyrus</json:string><json:string>antidromic activation</json:string><json:string>anesthetized dogs</json:string><json:string>nerve stimulation</json:string><json:string>little effect</json:string><json:string>stenosis control</json:string><json:string>cell body layer</json:string><json:string>binding sites</json:string><json:string>pressure volume</json:string><json:string>naunyn arch pharmacol</json:string><json:string>indirect evidence</json:string><json:string>direct evidence</json:string><json:string>equilibrium dissociation constants</json:string><json:string>hormonal effects</json:string><json:string>optical recording</json:string><json:string>data show</json:string><json:string>platelet aggregation</json:string><json:string>myosin isoenzyme pattern</json:string><json:string>muscarinic receptors</json:string><json:string>slice preparation</json:string><json:string>repetitive intrastriatal stimulation</json:string><json:string>myocardial oxygen consumption</json:string><json:string>smooth muscle tone</json:string><json:string>hypertensive rats</json:string><json:string>transmitter release</json:string><json:string>wall stress</json:string><json:string>slow component</json:string><json:string>excitatory potentials</json:string><json:string>ventricular myosin</json:string><json:string>triglycerides rise</json:string><json:string>digital filters</json:string><json:string>synaptic activity</json:string><json:string>neck receptors</json:string><json:string>cultured astrocytes</json:string><json:string>different types</json:string><json:string>absorption spectra</json:string><json:string>gene expression</json:string><json:string>molecular structure</json:string><json:string>channel openings</json:string><json:string>membrane protein</json:string><json:string>straight conformation</json:string><json:string>white cells</json:string><json:string>coronary stenosis</json:string><json:string>mgatp concentration</json:string><json:string>quick length changes</json:string><json:string>oxygen diffusion loss</json:string><json:string>hemoglobinfree perfused hearts</json:string><json:string>linear acceleration</json:string><json:string>aortic pressure</json:string><json:string>external variation</json:string><json:string>similar effect</json:string><json:string>specific blocker</json:string><json:string>tyrode solution</json:string><json:string>position constancy</json:string><json:string>smooth muscle contractions</json:string><json:string>spontaneous contractions</json:string><json:string>inhibitory action</json:string><json:string>ocular pursuit</json:string><json:string>mongrel dogs</json:string><json:string>salt solution</json:string><json:string>cardiac glycosides</json:string><json:string>smooth muscle cells</json:string><json:string>calcium concentration</json:string><json:string>higher concentrations</json:string><json:string>biochem biophys</json:string><json:string>ventricular cells</json:string><json:string>negative effect</json:string><json:string>apparent motion</json:string><json:string>tension recovery</json:string><json:string>normal values</json:string><json:string>further evidences</json:string><json:string>molluscan muscles</json:string><json:string>thin filaments</json:string><json:string>control experiments</json:string><json:string>steady state</json:string><json:string>conditioning pulses</json:string><json:string>main source</json:string><json:string>fractional loss</json:string><json:string>myometrial microsomes</json:string><json:string>threshold elevation</json:string><json:string>basal conditions</json:string><json:string>combination treatment</json:string><json:string>split hydronephrotic kidney</json:string><json:string>second grating</json:string><json:string>arterial blood pressure</json:string><json:string>deficient rats</json:string><json:string>space sickness</json:string><json:string>flow distribution</json:string><json:string>glucose utilization</json:string><json:string>concomitant decrease</json:string><json:string>smooth muscle cell membrane</json:string><json:string>branch points</json:string><json:string>generation numbers</json:string><json:string>systemphysiologie rheinlanddamm</json:string><json:string>spectral sensitivity</json:string><json:string>temperature ranges</json:string><json:string>pflhgers arch</json:string><json:string>multicellular spheroids</json:string><json:string>hth7 spheroids</json:string><json:string>renal vessels</json:string><json:string>preglomerular blood vessels</json:string><json:string>coronary hypoperfusion</json:string><json:string>spatial resolution</json:string><json:string>control group</json:string><json:string>target cell</json:string><json:string>madin derby</json:string><json:string>potential difference</json:string><json:string>conventional microelectrodes</json:string><json:string>transient hyperpolarization</json:string><json:string>nerve terminal</json:string><json:string>pineal photoreceptor cells</json:string><json:string>ceil membrane</json:string><json:string>brief flashes</json:string><json:string>extracellular calcium</json:string><json:string>potassium channels</json:string><json:string>recovery times</json:string><json:string>physiologisehes institut</json:string><json:string>abolishes potassium conductance</json:string><json:string>quinidine depolarizes</json:string><json:string>leaky epithelia</json:string><json:string>clinical research</json:string><json:string>early latency aeps</json:string><json:string>hydrostatic pressure</json:string><json:string>acid load</json:string><json:string>pathologische physiologie</json:string><json:string>somatosensory responses</json:string><json:string>klinische physiologie</json:string><json:string>caudal telencephalon</json:string><json:string>dibutyryl camp</json:string><json:string>preliminary measurements</json:string><json:string>physiological properties</json:string><json:string>retinal rods</json:string><json:string>cell surface</json:string><json:string>salt solutions</json:string><json:string>ussing chamber</json:string><json:string>chloride transport</json:string><json:string>lower intestine</json:string><json:string>aldosterone injection</json:string><json:string>deficiency rickets</json:string><json:string>healthy subjects</json:string><json:string>organic acids</json:string><json:string>lactic acid</json:string><json:string>vascular permeability</json:string><json:string>unique mechanism</json:string><json:string>local cooling</json:string><json:string>luminous target</json:string><json:string>beakward section</json:string><json:string>smaller channel</json:string><json:string>lower values</json:string><json:string>peritubular perfusate</json:string><json:string>basolateral membrane</json:string><json:string>channel activity</json:string><json:string>outer segment</json:string><json:string>series resistance</json:string><json:string>glioma cells</json:string><json:string>aplysia neurons</json:string><json:string>renal sodium excretion</json:string><json:string>tubular uptake</json:string><json:string>ischemic stress</json:string><json:string>potassium excretion</json:string><json:string>ratzeburger allee</json:string><json:string>protective solution</json:string><json:string>transport functions</json:string><json:string>second messenger</json:string><json:string>physiological substrates</json:string><json:string>mitochondrial function</json:string><json:string>bath solution</json:string><json:string>frog kidney</json:string><json:string>single stimuli</json:string><json:string>urea synthesis</json:string><json:string>ammonium excretion</json:string><json:string>transepithelial voltage</json:string><json:string>transepithelial resistance</json:string><json:string>odour stimulus</json:string><json:string>binding site</json:string><json:string>stimulus response pattern</json:string><json:string>irreversible inhibition</json:string><json:string>efferent pathway</json:string><json:string>proton uptake</json:string><json:string>channel conductance</json:string><json:string>plasma adenosine</json:string><json:string>single unit recordings</json:string><json:string>continuous stimulation</json:string><json:string>human hemoglobin</json:string><json:string>side effects</json:string><json:string>medizinische hochschule hannover</json:string><json:string>pressure system</json:string><json:string>activation</json:string><json:string>reversal</json:string><json:string>metabolism</json:string><json:string>parameter</json:string><json:string>cell</json:string><json:string>behaviour</json:string><json:string>decrease</json:string><json:string>inflow</json:string><json:string>cultured</json:string><json:string>voltage</json:string><json:string>coronary</json:string><json:string>correlated</json:string><json:string>ion</json:string><json:string>modification</json:string><json:string>channel</json:string><json:string>segment</json:string></teeft></keywords><articleId><json:string>BF02431558</json:string><json:string>Art1</json:string></articleId><language><json:string>eng</json:string></language><originalGenre><json:string>Abstract</json:string></originalGenre><qualityIndicators><score>5.012</score><pdfWordCount>117768</pdfWordCount><pdfCharCount>398503</pdfCharCount><pdfVersion>1.3</pdfVersion><pdfPageCount>65</pdfPageCount><pdfPageSize>597.28 x 785 pts</pdfPageSize><refBibsNative>false</refBibsNative><abstractWordCount>1</abstractWordCount><abstractCharCount>0</abstractCharCount><keywordCount>0</keywordCount></qualityIndicators><title>Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</title><corporate><json:item><name>Organizers, Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</name></json:item></corporate><genre><json:string>abstract</json:string></genre><host><title>Pflügers Archiv</title><language><json:string>unknown</json:string></language><publicationDate>1986</publicationDate><copyrightDate>1986</copyrightDate><issn><json:string>0031-6768</json:string></issn><eissn><json:string>1432-2013</json:string></eissn><journalId><json:string>424</json:string></journalId><volume>406</volume><pages><first>R1</first><last>R65</last></pages><genre><json:string>journal</json:string></genre><subject><json:item><value>Human Physiology</value></json:item></subject></host><categories><wos><json:string>science</json:string><json:string>physiology</json:string></wos><scienceMetrix><json:string>health sciences</json:string><json:string>biomedical research</json:string><json:string>physiology</json:string></scienceMetrix></categories><publicationDate>1986</publicationDate><copyrightDate>1986</copyrightDate><doi><json:string>10.1007/BF02431558</json:string></doi><id>B216FBBD1F5A0843107A6781DC4B7891DED5870F</id><score>1</score><fulltext><json:item><extension>pdf</extension><original>true</original><mimetype>application/pdf</mimetype><uri>https://api.istex.fr/document/B216FBBD1F5A0843107A6781DC4B7891DED5870F/fulltext/pdf</uri></json:item><json:item><extension>zip</extension><original>false</original><mimetype>application/zip</mimetype><uri>https://api.istex.fr/document/B216FBBD1F5A0843107A6781DC4B7891DED5870F/fulltext/zip</uri></json:item><istex:fulltextTEI uri="https://api.istex.fr/document/B216FBBD1F5A0843107A6781DC4B7891DED5870F/fulltext/tei"><teiHeader><fileDesc><titleStmt><title level="a" type="main" xml:lang="en">Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</title></titleStmt><publicationStmt><authority>ISTEX</authority><publisher>Springer-Verlag</publisher><pubPlace>Berlin/Heidelberg</pubPlace><availability><p>Springer-Verlag, 1986</p></availability><date>1986</date></publicationStmt><notesStmt><note>Deutsche Physiologische Gesellschaft</note></notesStmt><sourceDesc><biblStruct type="inbook"><analytic><title level="a" type="main" xml:lang="en">Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</title><author><orgName>Organizers, Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</orgName></author><idno type="istex">B216FBBD1F5A0843107A6781DC4B7891DED5870F</idno><idno type="DOI">10.1007/BF02431558</idno><idno type="ArticleID">BF02431558</idno><idno type="ArticleID">Art1</idno></analytic><monogr><title level="j">Pflügers Archiv</title><title level="j" type="sub">European Journal of Physiology</title><title level="j" type="abbrev">Pflugers Arch.</title><idno type="pISSN">0031-6768</idno><idno type="eISSN">1432-2013</idno><idno type="journal-ID">true</idno><idno type="issue-article-count">1</idno><idno type="volume-issue-count">6</idno><imprint><publisher>Springer-Verlag</publisher><pubPlace>Berlin/Heidelberg</pubPlace><date type="published" when="1986-01-01"></date><biblScope unit="volume">406</biblScope><biblScope unit="supplement">1</biblScope><biblScope unit="page" from="R1">R1</biblScope><biblScope unit="page" to="R65">R65</biblScope></imprint></monogr></biblStruct></sourceDesc></fileDesc><profileDesc><creation><date>1986</date></creation><langUsage><language ident="en">en</language></langUsage><textClass><keywords scheme="Journal Subject"><list><head>Biomedicine</head><item><term>Human Physiology</term></item></list></keywords></textClass></profileDesc><revisionDesc><change when="1986-01-01">Published</change></revisionDesc></teiHeader></istex:fulltextTEI><json:item><extension>txt</extension><original>false</original><mimetype>text/plain</mimetype><uri>https://api.istex.fr/document/B216FBBD1F5A0843107A6781DC4B7891DED5870F/fulltext/txt</uri></json:item></fulltext><metadata><istex:metadataXml wicri:clean="Springer, Publisher found" wicri:toSee="no header"><istex:xmlDeclaration>version="1.0" encoding="UTF-8"</istex:xmlDeclaration><istex:docType PUBLIC="-//Springer-Verlag//DTD A++ V2.4//EN" URI="http://devel.springer.de/A++/V2.4/DTD/A++V2.4.dtd" name="istex:docType"></istex:docType><istex:document><Publisher><PublisherInfo><PublisherName>Springer-Verlag</PublisherName><PublisherLocation>Berlin/Heidelberg</PublisherLocation></PublisherInfo><Journal><JournalInfo JournalProductType="ArchiveJournal" NumberingStyle="Unnumbered"><JournalID>424</JournalID><JournalPrintISSN>0031-6768</JournalPrintISSN><JournalElectronicISSN>1432-2013</JournalElectronicISSN><JournalTitle>Pflügers Archiv</JournalTitle><JournalSubTitle>European Journal of Physiology</JournalSubTitle><JournalAbbreviatedTitle>Pflugers Arch.</JournalAbbreviatedTitle><JournalSubjectGroup><JournalSubject Type="Primary">Biomedicine</JournalSubject><JournalSubject Type="Secondary">Human Physiology</JournalSubject></JournalSubjectGroup></JournalInfo><Volume><VolumeInfo VolumeType="Regular" TocLevels="0"><VolumeIDStart>406</VolumeIDStart><VolumeIDEnd>406</VolumeIDEnd><VolumeIssueCount>6</VolumeIssueCount></VolumeInfo><Issue IssueType="Supplement"><IssueInfo TocLevels="0"><IssueIDStart>1</IssueIDStart><IssueIDEnd>1</IssueIDEnd><IssueArticleCount>1</IssueArticleCount><IssueHistory><CoverDate><DateString>1986</DateString><Year>1986</Year><Month>1</Month></CoverDate></IssueHistory><IssueCopyright><CopyrightHolderName>Springer-Verlag</CopyrightHolderName><CopyrightYear>1986</CopyrightYear></IssueCopyright></IssueInfo><Article ID="Art1"><ArticleInfo Language="En" ArticleType="Abstract" NumberingStyle="Unnumbered" TocLevels="0" ContainsESM="No"><ArticleID>BF02431558</ArticleID><ArticleDOI>10.1007/BF02431558</ArticleDOI><ArticleSequenceNumber>1</ArticleSequenceNumber><ArticleTitle Language="En">Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</ArticleTitle><ArticleCategory>Deutsche Physiologische Gesellschaft</ArticleCategory><ArticleFirstPage>R1</ArticleFirstPage><ArticleLastPage>R65</ArticleLastPage><ArticleHistory><RegistrationDate><Year>2006</Year><Month>5</Month><Day>19</Day></RegistrationDate></ArticleHistory><ArticleCopyright><CopyrightHolderName>Springer-Verlag</CopyrightHolderName><CopyrightYear>1986</CopyrightYear></ArticleCopyright><ArticleGrants Type="Regular"><MetadataGrant Grant="OpenAccess"></MetadataGrant><AbstractGrant Grant="OpenAccess"></AbstractGrant><BodyPDFGrant Grant="Restricted"></BodyPDFGrant><BodyHTMLGrant Grant="Restricted"></BodyHTMLGrant><BibliographyGrant Grant="Restricted"></BibliographyGrant><ESMGrant Grant="Restricted"></ESMGrant></ArticleGrants><ArticleContext><JournalID>424</JournalID><VolumeIDStart>406</VolumeIDStart><VolumeIDEnd>406</VolumeIDEnd><IssueIDStart>1</IssueIDStart><IssueIDEnd>1</IssueIDEnd></ArticleContext></ArticleInfo><ArticleHeader><AuthorGroup><InstitutionalAuthor><InstitutionalAuthorName>Organizers, Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</InstitutionalAuthorName></InstitutionalAuthor></AuthorGroup></ArticleHeader><NoBody></NoBody></Article></Issue></Volume></Journal></Publisher></istex:document></istex:metadataXml><mods version="3.6"><titleInfo lang="en"><title>Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</title></titleInfo><titleInfo type="alternative" contentType="CDATA" lang="en"><title>Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</title></titleInfo><name type="corporate"><namePart>Organizers, Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin</namePart></name><typeOfResource>text</typeOfResource><genre type="abstract" displayLabel="Abstract"></genre><originInfo><publisher>Springer-Verlag</publisher><place><placeTerm type="text">Berlin/Heidelberg</placeTerm></place><dateIssued encoding="w3cdtf">1986-01-01</dateIssued><copyrightDate encoding="w3cdtf">1986</copyrightDate></originInfo><language><languageTerm type="code" authority="rfc3066">en</languageTerm><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><physicalDescription><internetMediaType>text/html</internetMediaType></physicalDescription><note>Deutsche Physiologische Gesellschaft</note><relatedItem type="host"><titleInfo><title>Pflügers Archiv</title><subTitle>European Journal of Physiology</subTitle></titleInfo><titleInfo type="abbreviated"><title>Pflugers Arch.</title></titleInfo><genre type="journal" displayLabel="Archive Journal"></genre><originInfo><dateIssued encoding="w3cdtf">1986-01-01</dateIssued><copyrightDate encoding="w3cdtf">1986</copyrightDate></originInfo><subject><genre>Biomedicine</genre><topic>Human Physiology</topic></subject><identifier type="ISSN">0031-6768</identifier><identifier type="eISSN">1432-2013</identifier><identifier type="JournalID">424</identifier><identifier type="IssueArticleCount">1</identifier><identifier type="VolumeIssueCount">6</identifier><part><date>1986</date><detail type="volume"><number>406</number><caption>vol.</caption></detail><detail type="supplement"><number>1</number><caption>suppl. </caption></detail><extent unit="pages"><start>R1</start><end>R65</end></extent></part><recordInfo><recordOrigin>Springer-Verlag, 1986</recordOrigin></recordInfo></relatedItem><identifier type="istex">B216FBBD1F5A0843107A6781DC4B7891DED5870F</identifier><identifier type="DOI">10.1007/BF02431558</identifier><identifier type="ArticleID">BF02431558</identifier><identifier type="ArticleID">Art1</identifier><accessCondition type="use and reproduction" contentType="copyright">Springer-Verlag, 1986</accessCondition><recordInfo><recordContentSource>SPRINGER</recordContentSource><recordOrigin>Springer-Verlag, 1986</recordOrigin></recordInfo></mods></metadata><author></author><serie></serie></istex></record>Pour manipuler ce document sous Unix (Dilib)
EXPLOR_STEP=$WICRI_ROOT/Wicri/Sarre/explor/MusicSarreV3/Data/Istex/Corpus
HfdSelect -h $EXPLOR_STEP/biblio.hfd -nk 001252 | SxmlIndent | more
Ou
HfdSelect -h $EXPLOR_AREA/Data/Istex/Corpus/biblio.hfd -nk 001252 | SxmlIndent | more
Pour mettre un lien sur cette page dans le réseau Wicri
{{Explor lien
|wiki= Wicri/Sarre
|area= MusicSarreV3
|flux= Istex
|étape= Corpus
|type= RBID
|clé= ISTEX:B216FBBD1F5A0843107A6781DC4B7891DED5870F
|texte= Abstracts of the 63rd Meeting (Spring Meeting) March 18–21, 1986, Berlin
}}
| This area was generated with Dilib version V0.6.33. |  |