about
Differential Gender Effects in the Relationship between Perceived Immune Functioning and Autistic Traits.Exploring Braak's Hypothesis of Parkinson's Disease.Lipoproteins attenuate TLR2 and TLR4 activation by bacteria and bacterial ligands with differences in affinity and kinetics.Embracing Complexity beyond Systems Medicine: A New Approach to Chronic Immune DisordersMental resilience, perceived immune functioning, and health.Breastfeeding is associated with a decreased risk of childhood asthma exacerbations later in life.Best practice for passaging murine embryonic enteric neuronal cell line before differentiation.Early life antibiotic use and the risk of asthma and asthma exacerbations in children.Gut-to-Brain Axis in Autism Spectrum Disorders: Central Role for the Microbiome.The gut-brain axis in Parkinson's disease: Possibilities for food-based therapies.The development of allergic inflammation in a murine house dust mite asthma model is suppressed by synbiotic mixtures of non-digestible oligosaccharides and Bifidobacterium breve M-16V.Galacto-oligosaccharides Protect the Intestinal Barrier by Maintaining the Tight Junction Network and Modulating the Inflammatory Responses after a Challenge with the Mycotoxin Deoxynivalenol in Human Caco-2 Cell Monolayers and B6C3F1 Mice.Transcriptional modulation of pattern recognition receptors in chronic colitis in mice is accompanied with Th1 and Th17 response.Dietary galacto-oligosaccharides prevent airway eosinophilia and hyperresponsiveness in a murine house dust mite-induced asthma model.Promising Effects of Neurorestorative Diets on Motor, Cognitive, and Gastrointestinal Dysfunction after Symptom Development in a Mouse Model of Parkinson's Disease.Deoxynivalenol and Its Modified Forms: Are There Major Differences?Inflammation-induced expression of the alarmin interleukin 33 can be suppressed by galacto-oligosaccharides.Biomarkers of the alcohol hangover state: Ethyl glucuronide (EtG) and ethyl sulfate (EtS).Microbes Tickling Your Tummy: the Importance of the Gut-Brain Axis in Parkinson's Disease.Susceptibility to Alcohol Hangovers: Not Just a Matter of Being Resilient.Postoperative cognitive dysfunction and neuroinflammation; Cardiac surgery and abdominal surgery are not the same.Early-life antibiotic exposure increases the risk of developing allergic symptoms later in life: A meta-analysis.Galectin-9 Produced by Intestinal Epithelial Cells Enhances Aldehyde Dehydrogenase Activity in Dendritic Cells in a PI3K- and p38-Dependent Manner.mTOR plays an important role in cow's milk allergy-associated behavioral and immunological deficits.Gut-brain and brain-gut axis in Parkinson's disease models: Effects of a uridine and fish oil diet.Dietary long chain n-3 polyunsaturated fatty acids prevent impaired social behaviour and normalize brain dopamine levels in food allergic mice.Dietary interventions that reduce mTOR activity rescue autistic-like behavioral deficits in mice.Preface Drug discovery in neurodegenerative disorders: a defeat for pharmacology?Dietary, nondigestible oligosaccharides and Bifidobacterium breve M-16V suppress allergic inflammation in intestine via targeting dendritic cell maturation.The Potential Biomarkers and Immunological Effects of Tumor-Derived Exosomes in Lung Cancer.Specific probiotic dietary supplementation leads to different effects during remission and relapse in murine chronic colitis.Corrigendum “Transcriptional modulation of pattern recognition receptors in chronic colitis in mice is accompanied with Th1 and Th17 response” [Biochem. Biophys. Rep. 12 (2017) 29–39].Susceptibility to Alcohol Hangovers: The Association with Self-Reported Immune Status.Psychological co-morbidities in COPD: Targeting systemic inflammation, a benefit for both?The Combination Therapy of Dietary Galacto-Oligosaccharides With Budesonide Reduces Pulmonary Th2 Driving Mediators and Mast Cell Degranulation in a Murine Model of House Dust Mite Induced AsthmaThe Association of Insomnia, Perceived Immune Functioning, and Irritable Bowel Syndrome ComplaintsAdditive Effects of Levodopa and a Neurorestorative Diet in a Mouse Model of Parkinson's DiseaseThe Gut-Immune-Brain Axis in Autism Spectrum Disorders; A Focus on Amino AcidsRisk and Protective Environmental Factors Associated with Autism Spectrum Disorder: Evidence-Based Principles and RecommendationsRole of TLR4 in the gut-brain axis in Parkinson's disease: a translational study from men to mice
P50
Q33616282-2DF522B0-1832-4E74-80DD-44EE6ADC2E45Q34552244-43CA2A03-874D-4495-B374-F6E64242AE43Q36177405-A20D1598-9287-4DAA-ADD2-7BEDD1AA1D6EQ37492026-036AF681-FD36-4B94-A60A-D40316599DC6Q37722690-DA6B2B6A-9841-47CA-A7A8-FFD2BECFE140Q38654019-35E1C356-5FF6-4313-B8BE-DA6A7E17F854Q38791427-317B02F2-7E6F-448F-A41E-AA9A013938FDQ38830160-60455BDB-4997-45A2-B3C0-D4B45BDF4A4CQ38993891-0D7D790D-EDFE-409A-9D0D-A6AEF403BB99Q39333259-29A7E9D4-BED3-402D-AD41-986591F1FBD8Q39846853-D9DFC825-194D-494A-B4D9-49D124D3911BQ40895257-2C299FD3-665A-4D7E-953A-EBC056493F22Q41682028-FF586990-2FC8-4871-AC82-CE56878748E3Q41810665-4D91075E-3D99-41A2-B48B-4A8DBA4D99B2Q41916365-419D1C79-74BB-440C-8062-B67E50700920Q42082243-58FA79F0-6C01-406F-A1E8-96F99A6BEE2DQ42700847-3253DDEE-A5E8-4D6B-B622-2FC588CFAFE5Q42703637-D21263B7-C618-4005-BC64-9BE6196C501AQ47138962-031134C2-7B1C-4F45-BB83-C71D6F43556CQ47357631-BE5E875F-9B9E-4E0F-BEFA-61220052867CQ47591661-E39AFE73-E7A3-4605-89DC-C31AA24C5E70Q47665836-56BAA76F-EE12-48A2-8459-64EC6E867543Q48007777-7D430781-1421-4554-8C1B-C63EE7945151Q48152503-8BADA10C-0799-4E24-B6E8-BEFBD5FE0852Q48271913-645C6D2A-0299-4BFF-866E-D02D6FA6D8A0Q48438622-A9375BA0-5D4B-4866-A07C-CDB332FF2A07Q48507121-AE05EB5C-9078-4EB6-8ACF-D90BF163D92AQ49837175-BC209191-5904-477D-8540-D35400CD35A0Q51007518-65ED30C6-85E6-485C-A6F0-E69E2F69D5F3Q52714409-DAB600AD-0041-4306-A9A9-4E68B13EB241Q52897367-69F5ED44-3ED7-48FF-89AC-2FB7237D2319Q55519818-3512F36E-D5F2-46BA-BF26-FE44EF3B3DD6Q55686966-28B7A402-04C8-45C5-9065-96B256111505Q58562353-983E95AB-4C04-4682-90D5-F7C9DAB34C40Q58572662-F62B713F-F316-4091-81C9-04AC7DB963A6Q58704290-08EAE239-03D7-4463-A1A2-FB427D1B3185Q58801455-AD343FAC-AB5B-418C-8B07-DD6140CB278AQ64108070-FF7CF78D-F079-49CA-A04E-5E4DD1ADBE5BQ64244994-893E451B-4A4C-4D2B-B449-EEE804382F47Q64787911-423AE0F5-B90A-4663-875D-8F38A8343334
P50
description
investigador
@es
researcher
@en
name
A D Kraneveld
@en
type
label
A D Kraneveld
@en
prefLabel
A D Kraneveld
@en
P108
P31
P496
0000-0001-9819-383X