about
Determination of paclitaxel distribution in solid tumors by nano-particle assisted laser desorption ionization mass spectrometry imaging3D Mass Spectrometry Imaging Reveals a Very Heterogeneous Drug Distribution in Tumors.Surfactant properties and tetrachloroethene (PCE) solubilisation ability of humic acid-like substances extracted from maize plant and from organic wastes: a comparative study.A Nanostructured Matrices Assessment to Study Drug Distribution in Solid Tumor Tissues by Mass Spectrometry Imaging.Bevacizumab-Induced Inhibition of Angiogenesis Promotes a More Homogeneous Intratumoral Distribution of Paclitaxel, Improving the Antitumor Response.Differentiating current and past PCB and PCDD/F sources: The role of a large contaminated soil site in an industrialized city area.Heterogeneity of paclitaxel distribution in different tumor models assessed by MALDI mass spectrometry imaging.Automated online solid-phase extraction-liquid chromatography mass spectrometric analysis of dithianon in water.Evaluation of the PrimeCapture CMV DNA detection plate system for detection of cytomegalovirus in clinical specimens.A new fluorogenic peptide determines proteasome activity in single cells.Source discrimination of drug residues in wastewater: The case of salbutamol.Automated high-speed analysis of selected organic compounds in urban air by on-line isotopic dilution cryofocusing gas chromatography/mass spectrometry.Sources and fate of perfluorinated compounds in the aqueous environment and in drinking water of a highly urbanized and industrialized area in Italy.A novel approach for monitoring tobacco use in local communities by wastewater analysis.Wastewater-based epidemiological evaluation of the effect of air pollution on short-acting beta-agonist consumption for acute asthma treatment.Influence of a municipal solid waste landfill in the surrounding environment: toxicological risk and odor nuisance effects.Odours and volatile organic compounds emitted from municipal solid waste at different stage of decomposition and relationship with biological stability.Characterisation of odorants emissions from landfills by SPME and GC/MS.Physical and chemical characterization of representative samples of recycled rubber from end-of-life tires.Risk assessment for the Italian population of acetaldehyde in alcoholic and non-alcoholic beverages.Persistent toxic substances in Mediterranean aquatic species.Application of 3D Mass Spectrometry Imaging to TKIs.Dynamic measurement of newly formed carbonyl compounds in vapors from electronic cigarettes.A simple headspace gas chromatography/mass spectrometry method for the quantitative determination of the release of the antioxidants butylated hydroxyanisole and butylated hydroxytoluene from chewing gum.Antineoplastic drugs determination by HPLC-HRMS(n) to monitor occupational exposure.High Penetration of Paclitaxel in Abdominal Wall of Rabbits after Hyperthermic Intraperitoneal Administration of Nab-Paclitaxel Compared to Standard Paclitaxel Formulation.Zn- vs Bi-based oxides for o-toluidine photocatalytic treatment under solar light.Determination of tissue levels of a neuroprotectant drug: the cell permeable JNK inhibitor peptide.Impact of conceptus mass on glucose disposal rate in pregnant women.Olfactory and toxic impact of industrial odour emissions.Trace analysis of methanol in rat serum by headspace high resolution gas chromatography/selected ion monitoring.[Cancer of the breast and the receptor status]Perfuorooctane Sulfonate (PFOS), Perfluorooctanoic Acid (PFOA), Brominated Dioxins (PBDDs) and Furans (PBDFs) in Wild and Farmed Organisms at Different Trophic Levels in the Mediterranean SeaAn evaluation of fetal glucogenesis in intrauterine growth-retarded pregnanciesEvaluating the dispersion of toxic odour emissions from complex sourcesPhase I and clinical pharmacological evaluation of aphidicolin glycinateDrug interaction between cyclosporin A and nizatidine in Sprague-Dawley ratsSerum methanol concentrations in rats and in men after a single dose of aspartamePurification and analysis of drug residues in urine samples by on-line immunoaffinity chromatography/high-performance liquid chromatography/continuous-flow fast atom bombardment mass spectrometryMass spectrometric identification and analysis of some aphidicolin metabolites in cancer patients
P50
Q28535605-3DDBA247-D298-45DA-AB43-4F1E3D8015C3Q30828511-F98FAC71-72C6-47DD-A881-9761DE64FA00Q33521554-DCD99849-4CF2-44D6-A293-CED6CC6A8D86Q33553411-47EED19E-7C75-42F7-975D-E14173397724Q35818315-D7F0922C-5C51-477B-9105-A8B447BA527AQ36259139-8AAFF6E8-2783-4C08-8540-3E53444A63BAQ37522770-4EDCB993-A48E-45C6-A397-61ABB70F6C29Q39156892-9124EA43-AA1A-4A1C-9E47-9C2B03BD4666Q39451138-9DC77EFB-6AF3-4594-B117-DB80518B894AQ39649696-7B81BC8A-E09A-4928-8F92-0759644AEA8EQ39750453-85BD77C3-22FC-4F7A-A798-C0F852C65FEAQ40150120-D34DAB63-D105-4FCE-A964-B4F60061B0CCQ40204631-07EBCC85-C70C-49AE-BFE3-1D56D8B5366DQ40207006-6B7E24A0-E63E-4206-B4BA-A17BD439B2FAQ40709916-48ED7E62-AFBA-49C3-9C49-D0D610F6D2CFQ43315240-80C3A002-FD3A-44E1-A53B-D73D78DBE61AQ43326374-B749321F-95FF-4BAB-81A8-FB9EE87EF5F6Q43361025-DF4BE1E0-A388-4FD9-977B-BA5F81A4DA60Q43363887-F28C7332-9388-4E4F-9674-EC7ABD487BF4Q46624053-03833D38-F779-4266-97FA-829DC1F72D2CQ46866947-E4AA7B35-A662-4A68-ABBF-BAF79C1D6D69Q47662962-CC7ED155-1762-4F2F-A607-A638EF6E1FF4Q47978802-F2B2A75C-7106-4820-8CA6-3F18BF1AC207Q48121091-6D03D4F7-1CE6-405C-8BFA-848CCB5DE191Q48179474-C282632C-522B-4B03-8908-DE1AE3E35B07Q48182234-449A2011-511B-4453-94BF-B9AED88AAEC1Q48277520-FF72CF45-85E2-4A7F-81AA-75C237DF23E1Q48782705-25124DF0-6404-46A5-B3B6-2D31D5F98935Q51601125-D260BD6D-C358-4F82-82D9-9FDBCD51C1C2Q53266601-53175D2D-C914-4A9F-8CFE-8122506896EDQ54001866-5007CC97-7C19-4DFC-8294-3CB848CBE655Q54276820-443D542A-C294-45D6-A88E-C81A7BBC10FBQ58717661-D285C6CB-0543-4E9E-AE91-5F704E042137Q61850472-3DA07A4D-28BE-4357-8673-94AC19ADD522Q62796444-5BF04ADA-5AED-482A-81AA-6CBDF4B76F97Q67965039-04A41C6F-EA5B-475B-B973-3B31768F5C31Q68172354-E383CE70-9322-4887-B69A-32D4A94E7082Q70030077-4A95AE6D-3A5B-4FF8-AF45-31E0D561F7AAQ72604392-9DB85CB8-2E29-4861-A6BD-E9A655312CA2Q72826713-5F39F212-53BD-4A9C-BFF0-BCE8EE56F4AB
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Enrico Davoli
@ast
Enrico Davoli
@en
Enrico Davoli
@es
Enrico Davoli
@nl
Enrico Davoli
@sl
type
label
Enrico Davoli
@ast
Enrico Davoli
@en
Enrico Davoli
@es
Enrico Davoli
@nl
Enrico Davoli
@sl
prefLabel
Enrico Davoli
@ast
Enrico Davoli
@en
Enrico Davoli
@es
Enrico Davoli
@nl
Enrico Davoli
@sl
P106
P21
P31
P496
0000-0003-0933-1351
P569
2000-01-01T00:00:00Z