about
Enzyme Biosensors for Biomedical Applications: Strategies for Safeguarding Analytical Performances in Biological FluidsThe neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine induces apoptosis in mouse nigrostriatal glia. Relevance to nigral neuronal death and striatal neurochemical changes.Melatonin and Vitamin D Interfere with the Adipogenic Fate of Adipose-Derived Stem Cells.123I-ioflupane brain SPECT and 123I-MIBG cardiac planar scintigraphy combined use in uncertain parkinsonian disorders.LRRK2 affects vesicle trafficking, neurotransmitter extracellular level and membrane receptor localization.Neurological morphofunctional differentiation induced by REAC technology in PC12. A neuro protective model for Parkinson's disease.Biotelemetric monitoring of brain neurochemistry in conscious rats using microsensors and biosensorsEstrogen, neuroinflammation and neuroprotection in Parkinson's disease: glia dictates resistance versus vulnerability to neurodegeneration.Hormones are key actors in gene x environment interactions programming the vulnerability to Parkinson's disease: glia as a common final pathway.Region-Specific Dissociation between Cortical Noradrenaline Levels and the Sleep/Wake Cycle.Simultaneous/selective detection of dopamine and ascorbic acid at synthetic zeolite-modified/graphite-epoxy composite macro/quasi-microelectrodesLoss of aromatase cytochrome P450 function as a risk factor for Parkinson's disease?The MPTP mouse model: cues on DA release and neural stem cell restorative role.alpha-Synuclein- and MPTP-generated rodent models of Parkinson's disease and the study of extracellular striatal dopamine dynamics: a microdialysis approach.Real-time monitoring of glucose and phenols intestinal absorption through an integrated Caco-2TC7cells/biosensors telemetric device: Hypoglycemic effect of fruit phytochemicals.Small molecules interacting with α-synuclein: antiaggregating and cytoprotective properties.Development of a biosensor telemetry system for monitoring fermentation in craft breweries.Development of a voltammetric technique for monitoring brain dopamine metabolism: compensation for interference caused by DOPAC electrogenerated during homovanillic acid detection.Ceftriaxone blocks the polymerization of α-synuclein and exerts neuroprotective effects in vitroFurther in-vitro characterization of an implantable biosensor for ethanol monitoring in the brain.Manganese increases L-DOPA auto-oxidation in the striatum of the freely moving rat: potential implications to L-DOPA long-term therapy of Parkinson's disease.Development and characterization of an ascorbate oxidase-based sensor-biosensor system for telemetric detection of AA and antioxidant capacity in fresh orange juice.Detection of postharvest changes of ascorbic acid in fresh-cut melon, kiwi, and pineapple, by using a low cost telemetric system.Simultaneous telemetric monitoring of brain glucose and lactate and motion in freely moving rats.A novel method for the determination of ascorbic acid and antioxidant capacity in Opuntia ficus indica using in vivo microdialysis.Effects of the neurotoxin MPTP and pargyline protection on extracellular energy metabolites and dopamine levels in the striatum of freely moving rats.Role of endogenous melatonin in the oxidative homeostasis of the extracellular striatal compartment: a microdialysis study in PC12 cells in vitro and in the striatum of freely moving rats.Is catalase involved in the effects of systemic and pVTA administration of 4-methylpyrazole on ethanol self-administration?Microdialysis as a New Technique for Extracting Phenolic Compounds from Extra Virgin Olive Oil.Development and characterization of an implantable biosensor for telemetric monitoring of ethanol in the brain of freely moving rats.Effect of naloxone on morphine-induced changes in striatal dopamine metabolism and glutamate, ascorbic acid and uric acid release in freely moving rats.Synthesis of magnolol and honokiol derivatives and their effect against hepatocarcinoma cells.Brain microdialysis in freely moving animals.Dual asymmetric-flow microdialysis for in vivo monitoring of brain neurochemicals.Hydroxylated biphenyls as tyrosinase inhibitor: A spectrophotometric and electrochemical study.Low electro-synthesis potentials improve permselectivity of polymerized natural phenols in biosensor applications.Enzyme-Based Electrochemical Biosensor for Therapeutic Drug Monitoring of Anticancer Drug Irinotecan.Electropolymerized phenol derivatives as permselective polymers for biosensor applications.The role of molecular breast imaging in predicting complete tumor response to treatment and residual tumor extent following neoadjuvant therapy.Simultaneous amperometric detection of ascorbic acid and antioxidant capacity in orange, blueberry and kiwi juice, by a telemetric system coupled with a fullerene- or nanotubes-modified ascorbate subtractive biosensor
P50
Q26744194-5BA14136-F360-4F2C-A6F6-DC3085702216Q33183865-9B127BC4-EE60-48B7-8962-1578F212DA70Q33755017-57C2BB90-56B7-48CB-A488-36CC542CF166Q33760571-473E2B1D-A85F-4B59-8F7E-C607D15641C7Q35027709-56681883-9891-422D-A82B-6B591A1EF5BCQ35608823-E3604507-CEC4-458C-9EF3-D6D43CC90FFAQ35948371-A0056B2B-1EE6-460A-AB1F-2D84F1C57F03Q36335614-9E08FCC4-3222-47CE-A1E0-7F79784F398AQ36363520-0C88505A-13FF-47BB-AE7F-CBBC0E152B8CQ36369748-987453A8-D6E3-4F2F-A47C-2AFF400C45BCQ37024309-AAE772B7-076A-4177-A663-269560C447E7Q37026102-8566EA40-36E8-4A5C-8240-2D776CA7694BQ37200054-6BD02535-99B5-4D86-BF30-8C8BD57333E2Q37762567-5BB36564-23D4-4F4B-BB29-E68AD848E54FQ38752167-BCCF2CFF-FEC3-4F94-B3FB-2106E634BBB7Q39156104-4E32BFFD-4957-436E-BB4E-617870C55E8BQ39309385-A37612FA-DF6B-462B-B8C7-B5CD4CA424BCQ39985979-93152904-D173-4DA7-AABC-06040C7B789FQ41877125-0DE62722-4DD9-4216-B31F-3F22F82AA20BQ42072187-6A5DECEB-1DC5-4A07-93D7-200DF8380555Q43264695-7014B0BC-64E6-4A47-BDD1-ADBAA0DD409AQ43492781-26D2AE0C-FD52-47C2-BB87-23B9D22C6926Q43511147-465472A2-64B7-495A-8ACB-3363E88C009EQ44798059-7400F653-0133-4ABA-BBD0-38AB6CAFFD49Q44958870-0A82455B-5C8B-4D03-8291-9B1804F6818AQ45151284-98C23D73-E520-44E6-B69F-30C095AD158DQ46737743-8F0C87A2-0C16-480A-B27C-F73523861065Q48137084-282711AF-E66D-422A-9F6F-EEC0AA5117E2Q48249617-EA8D8A61-BEA6-44C0-B88B-BFDAB1C2C01CQ48431526-98BF8A27-4EC6-489F-9BE4-CAA6B54B5A6FQ48446971-910327AB-680D-435A-9F43-129F7573B7C5Q48508092-044C0E60-375F-4A15-B52D-FECBEF920A8DQ48639450-346C76F7-5E35-4936-977D-6DFBC69898BDQ48930915-29DE4F33-DE07-48FA-84A3-89B135C0757EQ50991599-19F312AF-D86B-4C54-89E1-91ACF4ABDCAFQ51067563-C82ABEBD-C1F7-4C5C-BF58-844655C5CC11Q52320726-08C992C1-6806-47AF-91ED-A2DB0F8B6B3DQ53549160-E8AADA61-84F9-4B2D-A760-8F93BC74636AQ55346981-CF1C1D2E-8F6A-4BA3-87A3-F0326FA69F1CQ57762478-5ECF9F35-CB35-444F-9521-507FD05634C6
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Pier Andrea Serra
@ast
Pier Andrea Serra
@en
Pier Andrea Serra
@es
Pier Andrea Serra
@nl
type
label
Pier Andrea Serra
@ast
Pier Andrea Serra
@en
Pier Andrea Serra
@es
Pier Andrea Serra
@nl
altLabel
Pier Andrea SERRA
@en
prefLabel
Pier Andrea Serra
@ast
Pier Andrea Serra
@en
Pier Andrea Serra
@es
Pier Andrea Serra
@nl
P106
P1153
7103267919
P2456
P31
P496
0000-0003-2401-5146