| Nome |
# |
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Curcumin Containing PEGylated Solid Lipid Nanoparticles for Systemic Administration: A Preliminary Study, file dfe4d22c-db80-bb0a-e053-d805fe0a78d9
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41
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Protocatechuic acid, a simple plant secondary metabolite, induced apoptosis by promoting oxidative stress through ho-1 downregulation and p21 upregulation in colon cancer cells, file dfe4d22e-b129-bb0a-e053-d805fe0a78d9
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34
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Assessment of the Technological Properties of Idebenone and Tocopheryl Acetate Co-Loaded Lipid Nanoparticles, file dfe4d22e-64c7-bb0a-e053-d805fe0a78d9
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10
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In Vitro Skin Permeation of Idebenone from Lipid Nanoparticles Containing Chemical Penetration Enhancers, file dfe4d22e-7eb0-bb0a-e053-d805fe0a78d9
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10
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Calorimetric evaluation of glycyrrhetic acid (Ga)-and stearyl glycyrrhetinate (sg)-loaded solid lipid nanoparticle interactions with a model biomembrane, file dfe4d22e-89bc-bb0a-e053-d805fe0a78d9
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10
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Interaction of acyclovir and its squalenoyl-acyclovir prodrug with DMPC in monolayers at the air/water interface, file dfe4d227-11d3-bb0a-e053-d805fe0a78d9
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9
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Squalenoyl prodrug of paclitaxel: synthesis and evaluation of its incorporation in phospholipid bilayers, file dfe4d227-3528-bb0a-e053-d805fe0a78d9
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8
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Naringenin Release to Biomembrane Models by Incorporation into Nanoparticles. Experimental Evidence Using Differential Scanning Calorimetry, file dfe4d22e-9ee1-bb0a-e053-d805fe0a78d9
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8
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Effect of Protocatechuic Acid Ethyl Ester on Biomembrane Models: Multilamellar Vesicles and Monolayers, file dfe4d22e-cf86-bb0a-e053-d805fe0a78d9
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8
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Ethyl Protocatechuate Encapsulation in Solid Lipid Nanoparticles: Assessment of Pharmacotechnical Parameters and Preliminary In Vitro Evaluation for Colorectal Cancer Treatment, file f58859dc-41f2-469d-bc53-f8003fe00939
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8
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Characterization and Interaction with Biomembrane Model of Benzo[k,l]xanthene Lignan Loaded Solid Lipid Nanoparticles, file f638f1a0-c7ab-4255-a6c9-b84ae8382c7d
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8
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Lipophilic prodrug of paclitaxel: Interaction with a dimyristoylphosphatidylcholine monolayer, file dfe4d226-ff7e-bb0a-e053-d805fe0a78d9
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7
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Anomalous interaction of tri-acyl ester derivatives of uridine nucleoside with a l-α-dimyristoylphosphatidylcholine biomembrane model: a differential scanning calorimetry study, file dfe4d229-9ef9-bb0a-e053-d805fe0a78d9
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7
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Design of Nanotechnological Carriers for Ocular Delivery of Mangiferin: Preformulation Study, file dfe4d22e-7544-bb0a-e053-d805fe0a78d9
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7
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A Langmuir-Blodgett Study of the Interaction between Amphotericin B and Lipids of Histoplasma capsulatum, file dfe4d22e-df42-bb0a-e053-d805fe0a78d9
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7
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Benzo[k,l]xanthene Lignan Loaded Solid Lipid Nanoparticles for Topical Application: A preliminary Study, file 01ffc005-09c5-4cc0-937d-8d16cc9f18a7
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6
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Interaction of Lipophilic Cytarabine Derivatives with Biomembrane Model at the Air/Water Interface, file d24861e1-2775-4b6b-959e-6ac86d7e6f1d
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6
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Antifungal activity of bis-azasqualenes, inhibitors of oxidosqualene cyclase, file dfe4d226-f9af-bb0a-e053-d805fe0a78d9
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6
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Mechanisms of antibacterial action of three monoterpenes, file dfe4d227-34c3-bb0a-e053-d805fe0a78d9
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6
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Synthesis and Biological Evaluation of a New Polymeric
Conjugate and Nanocarrier with Osteotropic Properties, file dfe4d227-a090-bb0a-e053-d805fe0a78d9
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5
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Synthesis and interaction of sterol-uridine conjugate with DMPCliposomes studied by differential scanning calorimetry, file dfe4d228-e8fb-bb0a-e053-d805fe0a78d9
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5
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Solid lipid nanoparticles as carriers for the synthetic opioid lp2: Characterization and in vitro release, file dfe4d22e-ba3d-bb0a-e053-d805fe0a78d9
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5
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Assessment of Pharmaco-Technological Parameters of Solid Lipid Nanoparticles as Carriers for Sinapic Acid, file 33d7cdbd-5cca-4839-8d4b-e29506485c6d
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4
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Characterization of Lipophilic Gemcitabine Prodrug-Liposomal Membrane Interaction by Differential Scanning Calorimetry, file dfe4d227-0eba-bb0a-e053-d805fe0a78d9
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4
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Differential scanning calorimetry approach to investigate the transfer of the multitarget opioid analgesic LP1 to biomembrane model, file dfe4d227-27ba-bb0a-e053-d805fe0a78d9
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4
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Calorimetry and Langmuir–Blodgett studies on the interaction of a lipophilic prodrug of LHRH with biomembrane models, file dfe4d227-29ec-bb0a-e053-d805fe0a78d9
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4
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Idebenone loaded solid lipid nanoparticles interact with biomembrane models: calorimetric evidence, file dfe4d227-82dd-bb0a-e053-d805fe0a78d9
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4
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Lipid nanocarriers containing a levodopa prodrug with potential antiparkinsonian activity, file dfe4d228-a818-bb0a-e053-d805fe0a78d9
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4
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Interaction of new sigma ligands with biomembrane models evaluated by differential scanning calorimetry and Langmuir-Blodgett studies, file dfe4d22e-a07e-bb0a-e053-d805fe0a78d9
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4
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Correction: Santonocito et al. Astaxanthin-Loaded Stealth Lipid Nanoparticles (AST-SSLN) as Potential Carriers for the Treatment of Alzheimer’s Disease: Formulation Development and Optimization. Nanomaterials 2021, 11, 391, file 7ce6ab6a-d64b-4991-9aaa-38743f609183
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3
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Differential scanning calorimetry studies on sunscreen loaded solid lipid nanoparticles prepared by the phase inversion temperature method, file dfe4d227-0b9f-bb0a-e053-d805fe0a78d9
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3
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Effect of resveratrol-related stilbenoids on biomembrane models, file dfe4d227-c030-bb0a-e053-d805fe0a78d9
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3
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Lipid Bilayers, file dfe4d229-100b-bb0a-e053-d805fe0a78d9
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3
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Assessment of Pharmaco-Technological Parameters of Solid Lipid Nanoparticles as Carriers for Sinapic Acid, file 329766d3-106d-4e73-92e2-fa03aaf74774
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2
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Lipid Nanoparticles Loading Steroidal Alkaloids of Tomatoes Affect Neuroblastoma Cell Viability in an In Vitro Model, file 8a922435-493e-4338-b6da-0c0bf0fb6588
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2
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Antimutagenic and antioxidant activities of some bioflavours from wine, file dfe4d227-029d-bb0a-e053-d805fe0a78d9
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2
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Calorimetric evaluation of interaction and absorption of polychlorinated
biphenyls by biomembrane models, file dfe4d227-04a6-bb0a-e053-d805fe0a78d9
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2
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Calorimetric evidence of interaction of brominated flame retardants with membrane model, file dfe4d227-1809-bb0a-e053-d805fe0a78d9
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2
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Effect of composition on the in vitro activity of fusogenic liposomes loaded with vancomycin against gram-negative bacteria., file dfe4d227-1848-bb0a-e053-d805fe0a78d9
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2
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Structure Effect on the Interaction of Phenylurea Herbicides with Model Biomembrane as an Environmental Mobility Parameter, file dfe4d227-1a57-bb0a-e053-d805fe0a78d9
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2
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Calorimetric evaluation of interaction and absorption of polychlorinated
biphenyls by biomembrane models, file dfe4d227-918a-bb0a-e053-d805fe0a78d9
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2
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null, file dfe4d228-391c-bb0a-e053-d805fe0a78d9
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2
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DSC studies on the interaction of lipophilic cytarabine prodrugs with DMPC multilamellar vesicles, file dfe4d229-db38-bb0a-e053-d805fe0a78d9
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2
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Sinapic Acid Release at the Cell Level by Incorporation into Nanoparticles: Experimental Evidence Using Biomembrane Models, file dfe4d22e-d4d9-bb0a-e053-d805fe0a78d9
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2
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A Thermodynamic Study on the Interaction between RH-23
Peptide and DMPC-Based Biomembrane Models, file 5c972f01-0302-4d3e-8692-b11384e3a6c9
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1
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Development of Solid Lipid Nanoparticles as Dry Powder: Characterization and Formulation Considerations, file b3c1f6f3-af1b-4549-a2b0-7625255c66bc
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1
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Nanostructured Lipid Carriers Aimed to the Ocular Delivery of Mangiferin: In Vitro Evidence, file d087746d-c6ff-48f6-8eb4-264ccdd94847
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1
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Synthesis of n-squalenoyl cytarabine and evaluation of its affinity with
phospholipid bilayers and monolayers, file dfe4d226-f42f-bb0a-e053-d805fe0a78d9
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1
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Role of lipophilic medium in the absorption of polycyclic aromatic compounds by biomembranes, file dfe4d226-f4de-bb0a-e053-d805fe0a78d9
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1
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Characterization of indomethacin loaded lipid nanoparticles by differential scanning calorimetry, file dfe4d226-fcd4-bb0a-e053-d805fe0a78d9
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1
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Conjugation of squalene to acyclovir improves the affinity for biomembrane models, file dfe4d226-fd4e-bb0a-e053-d805fe0a78d9
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1
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α‑Hexylcinnamaldehyde Inhibits the Genotoxicity of Environmental Pollutants in the Bacterial Reverse Mutation Assay., file dfe4d226-fe8c-bb0a-e053-d805fe0a78d9
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1
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Interaction of β-caryophyllene and β-caryophyllene oxide with phospholipid bilayers: Differential scanning calorimetry study., file dfe4d226-fe8d-bb0a-e053-d805fe0a78d9
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1
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DSC investigation of the effect ofthe new sigma ligand PPCC on DMPC lipid membrane, file dfe4d227-01cf-bb0a-e053-d805fe0a78d9
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1
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Differential Scanning Calorimetry as a Tool to Investigate the Transfer of
Anticancer Drugs to Biomembrane Model, file dfe4d227-029c-bb0a-e053-d805fe0a78d9
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1
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From nanoemulsions to nanostructured lipid carriers: A relevant development in dermal delivery of drugs and cosmetics, file dfe4d227-0547-bb0a-e053-d805fe0a78d9
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1
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DSC evidence of the interaction and absorption of
3,4-Secoisopimar-4(18),7,15-trien-3-oic acid by biomembrane model, file dfe4d227-07ae-bb0a-e053-d805fe0a78d9
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1
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Development, Characterization, and In Vitro and In Vivo Evaluation of Benzocaine- and Lidocaine-Loaded Nanostructrured Lipid Carriers, file dfe4d227-0987-bb0a-e053-d805fe0a78d9
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1
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Evaluation of the Interaction of Coumarins with Biomembrane Models Studied by Differential Scanning Calorimetry and Langmuir-Blodgett Techniques, file dfe4d227-0ba0-bb0a-e053-d805fe0a78d9
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1
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Simple Interpretative Model for the Anomalous Behavior of the Excess
Surface Area in Mixed Systems with Large Composition Fluctuations:
A Theoretical Analysis and an Experimental Investigation of Mixed
Phospholipid/Omega-3 Fatty Acid Langmuir-Blodgett Films, file dfe4d227-0de9-bb0a-e053-d805fe0a78d9
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1
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Calorimetric evaluation of the interaction and absorption of eicosapentaenoic acid by biomembrane models, file dfe4d227-0edd-bb0a-e053-d805fe0a78d9
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1
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Enhancement of gemcitabine affinity for biomembranes by conjugation with squalene: differential scanning calorimetry and Langmuir-Blodgett studies using biomembrane models, file dfe4d227-1448-bb0a-e053-d805fe0a78d9
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1
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Evaluation of percutaneous absorption of the repellent diethyltoluamide and the sunscreen ethylexyl p-methoxycinnamate-loaded solid lipid nanoparticles: an in-vitro study, file dfe4d227-166a-bb0a-e053-d805fe0a78d9
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1
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Enhancement of drug affinity for cell membranes by conjugation with lipoamino acids II. Experimental and computational evidence using biomembrane models, file dfe4d227-17fe-bb0a-e053-d805fe0a78d9
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1
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Interaction of α-hexylcinnamaldehyde with a biomembrane model: a possible MDR reversal mechanism., file dfe4d227-180a-bb0a-e053-d805fe0a78d9
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1
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The effect of poly(D,L-lactide-co-glycolide)-alendronate conjugate nanoparticles on human osteoclast precursors., file dfe4d227-1847-bb0a-e053-d805fe0a78d9
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1
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Interaction of resveratrol and its trimethyl and triacetyl derivatives with biomembrane models studied by Differential Scanning Calorimetry, file dfe4d227-187b-bb0a-e053-d805fe0a78d9
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1
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Interaction between PEG lipid and DSPE/DSPC phospholipids: An insight of PEGylation degree and kinetics of de-PEGylation, file dfe4d227-28b9-bb0a-e053-d805fe0a78d9
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1
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Sustained Zero-Order Release of Intact Ultra-Stable
Drug-Loaded Liposomes from an Implantable Nanochannel
Delivery System, file dfe4d227-2f4d-bb0a-e053-d805fe0a78d9
|
1
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Sustained Zero-Order Release of Intact Ultra-Stable
Drug-Loaded Liposomes from an Implantable Nanochannel
Delivery System, file dfe4d227-2f4e-bb0a-e053-d805fe0a78d9
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1
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Biocompatibility of poly(D,L-lactide-co-glycolide) nanoparticles conjugated with alendronate, file dfe4d227-37da-bb0a-e053-d805fe0a78d9
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1
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β-cyclodextrins influence on E-3,5,4’-trimethoxystilbene absorption across
biological membrane model: A differential scanning calorimetry evidence, file dfe4d227-4093-bb0a-e053-d805fe0a78d9
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1
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Differential scanning calorimetry evidence of the enhancement of β-sitosterol absorption across biological membranes mediated by β -cyclodextrins, file dfe4d227-493a-bb0a-e053-d805fe0a78d9
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1
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Structure influence on biophenols solubility in model biomembranes detected by differential scanning calorimetry, file dfe4d227-82d5-bb0a-e053-d805fe0a78d9
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1
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Idebenone loaded solid lipid nanoparticles: Calorimetric studies on surfactant and drug loading effects, file dfe4d227-8b5c-bb0a-e053-d805fe0a78d9
|
1
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Absorption of nitro-polycyclic aromatic hydrocarbons by biomembrane models: effect of the medium lipophilicity, file dfe4d227-98d3-bb0a-e053-d805fe0a78d9
|
1
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Interaction of naproxen amphiphilic derivatives with biomembrane models evaluated by differential scanning calorimetry and Langmuir-Blodgett studies, file dfe4d227-9967-bb0a-e053-d805fe0a78d9
|
1
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Calorimetric approach of the interaction and absorption of polycyclic aromatic hydrocarbons with model membranes, file dfe4d227-a415-bb0a-e053-d805fe0a78d9
|
1
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Effect of variation in the chain length and number in modulating the interaction of an immunogenic lipopeptide with biomembrane models, file dfe4d227-aaf5-bb0a-e053-d805fe0a78d9
|
1
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Eudragit as controlled release system for anti-inflammatory drugs - A comparison between DSC and dialysis experiments, file dfe4d227-ac32-bb0a-e053-d805fe0a78d9
|
1
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Anticlastogenic effect in human lymphocytes by the sodium salt of 3,4-secoisopimar-4(18),7,15-trien-3-oic acid, file dfe4d227-b0be-bb0a-e053-d805fe0a78d9
|
1
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Interaction of resveratrol analogues with biomembrane models: a calorimetric study on structural variations effects, file dfe4d227-b12a-bb0a-e053-d805fe0a78d9
|
1
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|
Interaction of four monoterpenes contained in essential oils with model membranes: Implications for their antibacterial activity, file dfe4d227-b256-bb0a-e053-d805fe0a78d9
|
1
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Absorption of omega-3 fatty acids by biomembrane models studied by differential scanning calorimetry, file dfe4d227-b29f-bb0a-e053-d805fe0a78d9
|
1
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Differential scanning calorimetry study on drug release from an inulin-based hydrogel and its interaction with a biomembrane model: pH and loading effect, file dfe4d227-bd0f-bb0a-e053-d805fe0a78d9
|
1
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Amphiphilic naproxen prodrugs: differential scanning calorimetry study on their interaction with phospholipid bilayers, file dfe4d228-391e-bb0a-e053-d805fe0a78d9
|
1
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General experimental set-up of liposomal systems for DSC., file dfe4d228-fd5f-bb0a-e053-d805fe0a78d9
|
1
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Differential Scanning Calorimetry Analyses of Idebenone-Loaded Solid Lipid Nanoparticles Interactions with a Model of Bio-Membrane: A Comparison with In Vitro Skin Permeation Data, file dfe4d229-9efb-bb0a-e053-d805fe0a78d9
|
1
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Interaction of limonene, terpineol, and 1,8 cineol with a model of biomembrane: A DSC study, file dfe4d22e-5cf3-bb0a-e053-d805fe0a78d9
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1
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| Totale |
328 |