In questa sezione sono disponibili le Pubblicazioni Scientifiche Open Access consultabili e scaricabili, volte alla divulgazione della lipidomica di membrana cellulare, come metodo di applicazione, scientificamente validato e efficace, nelle diverse specialità sanitarie.


Pironi L. et al
Functional lipidomics in patients on home parenteral nutrition: Effect of lipid emulsions Observational Study.
(2017) J Gastroenterol July 7; 23(25): 4604-4614

Ferreri C. et al
Fatty Acids in Membranes as Homeostatic, Metabolic and Nutritional Biomarkers: Recent Advancements in Analytics and Diagnostics
(2017) Diagnostics 7, 1;

Giacometti G. et al.
High predictive values of RBC membrane-based diagnostics by biophotonics in an integrated approach for Autism Spectrum Disorders .
(2017) Scientific Reports 7-9854

Sansone A. et al.
Hexadecenoic Fatty Acid Isomers in Human Blood Lipids and Their Relevance for the Interpretation of Lipidomic Profiles.
(2016) PLoS ONE 11(4): e0152378.

Chryssostomos Chatgilialoglu*, Carla Ferreri, Michele Melchiorre, Anna Sansone, and Armida Torreggiani
Lipid Geometrical Isomerism: From Chemistry to Biology and Diagnostics Chem.
Rev., 2014, 114 (1), pp 255–284

Anthony F. Domenichiello et al.
Whole body synthesis rates of docosahexaenoic acid (DHA) from α-linolenic acid are greater than brain DHA accretion and uptake rates in adult rats.
(2014) The Journal of Lipid Research, 55, 62-74

Jie Liu  et al.
Monounsaturated fatty acids generated via stearoyl CoA desaturase-1 are endogenous inhibitors of fatty acid amide hydrolase.
(2013) PNAS 1-6

Alessandro Ghezzo et al.
Oxidative Stress and Erythrocyte Membrane Alterations in Children with Autism: Correlation with Clinical Features.
(2013) PLOSone. 8 (6), e66418- e66418

Carla Ferreri and Chryssostomos Chatgilialoglu.
Role of fatty acid-based functional lipidomics in the development of molecular diagnostic tools.
(2012) Expert Rev. Mol. Diagn. 12 (7), 767–780

Abbott S.K.
Fatty acid composition of membrane bilayers: Importance of diet polyunsaturated fat balance.
(2012) Biochimica et Biophysica Acta 1818 1309–1317

Andrew D. Watson.
Lipidomics: a global approach to lipid analysis in biological systems.
(2006) Journal of Lipid Research 47, 2101-2111

Paresh Dandona et al.
Metabolic SyndromeA Comprehensive Perspective Based on Interactions Between Obesity, Diabetes, and Inflammation.
(2005) Circulation. 111, 1448-1454

Per ulteriori approfondimenti:


Takeshi Harayama and Howard Riezman.
Understanding the diversity of membrane lipid composition.
(2018) Nature Reviews Molecular Cell Biology volume 19, pages 281–296

Röhrig F., Schulze A..
The multifaceted roles of fatty acid synthesis in cancer
Nature Reviews Cancer 16, 732–749 (2016) doi:10.1038/nrc.2016.89

Bridget M. Kuehn.
FDA Moves to Further Reduce Trans Fat in Food.
(2013) JAMA 310 (22)

Chiara Viviani Anselmi, Carla Ferreri et al.
Fatty acid percentage in erythrocyte membranes of atrial flutter/fibrillation patients and controls.
(2010) J Interv Card Electrophysiol 27, 95–99

Carla Ferreri and Chryssostomos Chatgilialoglu.
Membrane lipidomics and geometry of unsaturated fatty acids: from biometic models to biological consequences.
(2009) Lipidomics, Methods in Molecular Biology 579, 391-411

Sabrina Florent-Béchard et al.
The essential role of lipids in Alzheimer’s disease.
(2009) Biochimie 91, 804–809

William S. Harris and Clemens von Schacky.
The Omega-3 Index: a new risk factor for death from coronary heart disease?
(2004) Preventive Medicine 39, 212– 220