Liquid Lipids Act as Polymorphic Modifiers of Tristearin-Based Formulations Produced by Melting Technologies

Bertoni, Serena; Passerini, Nadia; Albertini, Beatrice

doi:10.3390/pharmaceutics13071089

Cited by 20 publications

(20 citation statements)

References 61 publications

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“…In the case of DPCl2, after 6 months of storage at room temperature, the main thermal event detected was related to the melting of the β-polymorph, indicating that the conversion into the stable crystalline form. The conversion of the α-form of Dynasan 118-based MPs to the stable one is reported to be extremely slow and to take several months [33]. The presence of cetylstearyl alcohol, PEG and Cremophor EL might have accelerated the polymorphic transformation, as previously observed in other studies focused on the addition of liquid lipids [33] and some solid emulsifiers [38] to tristearin.…”

Section: Thermal and Chemical Properties Of B-mpsmentioning

confidence: 70%

“…The conversion of the α-form of Dynasan 118-based MPs to the stable one is reported to be extremely slow and to take several months [33]. The presence of cetylstearyl alcohol, PEG and Cremophor EL might have accelerated the polymorphic transformation, as previously observed in other studies focused on the addition of liquid lipids [33] and some solid emulsifiers [38] to tristearin. In the case of CCPl1, the main endotherm at about 70 • C did not show significant differences after 6 months of storage.…”

Section: Thermal and Chemical Properties Of B-mpsmentioning

confidence: 70%

“…The thermal profile of DCPl2 (Figure 5A) was characterized by three unresolved events: one endothermic peak at 59 • C, one exothermic event at 64 • C and a second endothermic peak at 72 • C. This profile was similar to those obtained from the second heating of the main lipid component, Dynasan 118, which showed an exothermic event (69 • C) placed between two endothermic peaks (65 and 76 • C). This behavior, typical of triglycerides, is related to the melting of the metastable α-polymorph, its solidification into the stable polymorph during the scan, followed by melting of the stable β-form [33]. Rapid crystallization has been reported to promote crystallization in the α-form [34].…”

Section: Thermal and Chemical Properties Of B-mpsmentioning

confidence: 99%

“…Here, the addition of a hydrophobic surfactant (e.g., cetylstearyl alcohol) and the presence of liquid hydrophilic cores in the b-MPs can be responsible for the enhanced dye release with respect to the simple matrix systems. It has been previously observed that the introduction of lipid additives either solid (stearic acid, cetyl alcohol, or cetyl esters) [46] or liquid [33] lead to increased drug release from spray congealed microparticles. Moreover, results showed that the introduction of small amounts (5-10% w/w) of Cremophor EL in the hydrophilic phase led to a significant modification of the release profiles.…”

Section: Drug Release From B-mpsmentioning

confidence: 99%

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Solvent-Free Fabrication of Biphasic Lipid-Based Microparticles with Tunable Structure

et al. 2021

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Lipid-based biphasic microparticles are generally produced by long and complex techniques based on double emulsions. In this study, spray congealing was used as a solvent-free fabrication method with improved processability to transform water-in-oil non-aqueous emulsions into spherical solid lipid-based particles with a biphasic structure (b-MPs). Emulsions were prepared by melt emulsification using different compositions of lipids (Dynasan®118 and Compritol®888 ATO), surfactants (Cetylstearyl alcohol and Span®60) and hydrophilic carriers (PEGs, Gelucire®48/16 and Poloxamer 188). First, pseudo-ternary phase diagrams were constructed to identify the area corresponding to each emulsion type (coarse emulsion or microemulsion). The hydrophobicity of the lipid mostly affected the interfacial tension, and thus the microstructure of the emulsion. Emulsions were then processed by spray congealing and the obtained b-MPs were characterized in terms of thermal and chemical properties (by DSC and FT-IR), external and internal morphology (by SEM, CLSM and Raman mapping). Solid free-flowing spherical particles (main size range 200–355 µm) with different architectures were successfully produced: microemulsions led to the formation of particles with a homogeneous internal structure, while coarse emulsions generated “multicores-shell” particles consisting of variable size hydrophilic cores evenly distributed within the crystalline lipid phase. Depending on their composition and structure, b-MPs could achieve various release profiles, representing a more versatile system than microparticles based on a single lipid phase. The formulation and technological strategy proposed, provides a feasible and cost-effective way of fabricating b-MPs with tunable internal structure and release behavior.

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Section: Thermal and Chemical Properties Of B-mpsmentioning

confidence: 70%

Section: Thermal and Chemical Properties Of B-mpsmentioning

confidence: 70%

Section: Thermal and Chemical Properties Of B-mpsmentioning

confidence: 99%

Section: Drug Release From B-mpsmentioning

confidence: 99%

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Solvent-Free Fabrication of Biphasic Lipid-Based Microparticles with Tunable Structure

et al. 2021

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“…The API diffusion from the Compritol matrix is mainly driven by time-dependent changes in the porous structure as a function of polymorphic transformation from high-to low-energy states. 13 A similar trend in lipids was also reported by Bertoni et al 14 The findings were also found to be in accordance with the published literature from our group. 15 Considerable information is available regarding the thermodynamics, polymorphism, and characterization of individual fat systems.…”

Section: Introductionmentioning

confidence: 99%

Phase Behavior of Drug–Lipid–Surfactant Ternary Systems toward Understanding the Annealing-Induced Change

et al. 2021

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The present study systematically investigates the effect of annealing conditions and the Kolliphor P 407 content on the physicochemical and structural properties of Compritol (glyceryl behenate) and ternary systems prepared via melt cooling (Kolliphor P 407, Compritol, and a hydrophilic API) representing solid–lipid formulations. The physical properties of Compritol and the ternary systems with varying ratios of Compritol and Kolliphor P 407 were characterized using differential scanning calorimetry (DSC), small- and wide-angle X-ray scattering (SWAXS) and infrared (IR) spectroscopy, and hot-stage microscopy (HSM), before and after annealing. The change in the chemical profiles of different Compritol components as a function of annealing was evaluated using 1H NMR spectroscopy. While no change in the polymorphic form of API and Kolliphor P 407 occurred during annealing, a systematic conversion of the α- to β-form was observed in the case of Compritol. Furthermore, the polymorphic transformation of Compritol was found to be dependent on the Kolliphor P 407 content. As per the Flory–Huggins mixing theory, higher miscibility was observed in the case of monobehenin–Kolliphor P 407, monobehenin–dibehenin, and dibehenin–tribehenin binary mixtures. The miscibility of Kolliphor P 407 with monobehenin and 1,2-dibehenin was confirmed by 1H NMR analysis. The observed higher miscibility of Kolliphor P 407 with monobehenin and 1,2-dibehenin is proposed as the trigger for the physical separation from the 1,3-diglyceride and triglycerides during melt solidification of the formulations. The phase separation is postulated as the mechanism underlying the formation of a stable β-polymorphic form (a native form of 1,3-diglyceride) of Compritol upon annealing. This finding is expected to have an important implication for developing stable solid–lipid–surfactant-based drug formulations.

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Polymorphic phase transitions in triglycerides and their mixtures studied by SAXS/WAXS techniques: In bulk and in emulsions

Cholakova,

Denkov

2024

Advances in Colloid and Interface Science

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Liquid Lipids Act as Polymorphic Modifiers of Tristearin-Based Formulations Produced by Melting Technologies

Cited by 20 publications

References 61 publications

Solvent-Free Fabrication of Biphasic Lipid-Based Microparticles with Tunable Structure

Solvent-Free Fabrication of Biphasic Lipid-Based Microparticles with Tunable Structure

Phase Behavior of Drug–Lipid–Surfactant Ternary Systems toward Understanding the Annealing-Induced Change

Polymorphic phase transitions in triglycerides and their mixtures studied by SAXS/WAXS techniques: In bulk and in emulsions

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