Your search keyword '"von Bonsdorff-Nikander A"' showing total 12 results

1. A comparison of the effect of medium- vs. long-chain triglycerides on the in vitro solubilization of cholesterol and/or phytosterol into mixed micelles

Author

von Bonsdorff-Nikander, Anna, Christiansen, Leena, Huikko, Laura, Lampi, Anna-Maija, Piironen, Vieno, Yliruusi, Jouko, and Kaukonen, Ann Marie

Published

2005

2. Physical stability of a microcrystalline β-sitosterol suspension in oil

Author

von Bonsdorff-Nikander, Anna, Karjalainen, Milja, Rantanen, Jukka, Christiansen, Leena, and Yliruusi, Jouko

Published

2003

3. Physical changes of β-sitosterol crystals in oily suspensions during heating

Author

von Bonsdorff-Nikander, Anna, Lievonen, Satu, Christiansen, Leena, Karjalainen, Milja, Rantanen, Jukka, and Yliruusi, Jouko

Published

2005

4. Optimizing the crystal size and habit of β-sitosterol in suspension

Author

von Bonsdorff-Nikander, Anna, Rantanen, Jukka, Christiansen, Leena, and Yliruusi, Jouko

Published

2003

5. Physical changes of β-sitosterol crystals in oily suspensions during heating

Author

Milja Karjalainen, Jouko Yliruusi, Jukka Rantanen, Leena Christiansen, Anna von Bonsdorff-Nikander, and Satu M. Lievonen

Subjects

Hot Temperature, Materials science, Chemical Phenomena, Pharmaceutical Science, Aquatic Science, Article, law.invention, Differential scanning calorimetry, Suspensions, law, Drug Discovery, medicine, Dehydration, Crystallization, Thermal analysis, Ecology, Evolution, Behavior and Systematics, Ecology, Chemistry, Physical, Recrystallization (metallurgy), General Medicine, Dynamic mechanical analysis, medicine.disease, Sitosterols, Crystallography, Microcrystalline, Chemical engineering, lipids (amino acids, peptides, and proteins), Particle size, Oils, Agronomy and Crop Science

Abstract

The aim of this research was to describe the thermal behavior of beta-sitosterol crystals in oil-suspensions with a focus on the role of water during heating. The suspensions were prepared by recrystallization in order to achieve a microcrystalline particle size. The structural changes together with the mechanical properties of the suspensions during heating were studied by using variable temperature X-ray powder diffractometry (VT-XRPD), differential scanning calorimetry (DSC), and dynamic mechanical analysis (DMA). Hydrated beta-sitosterol crystals in an oil-suspension dehydrated, despite the composition of the suspensions, at low temperatures. At high beta-sitosterol concentration, the monohydrate crystal form changed partially to a hemihydrated form, and when only a small amount of water was initially incorporated, the hemihydrate crystal form dehydrated to a mostly anhydrate crystal form. The released water, which was immiscible in the surrounding oil, caused the recrystallization of hydrated beta-sitosterol during cooling. This procedure indicated a reversible dehydration process. Structural and thermal analysis of beta-sitosterol crystals in suspensions, together with mechanical analysis made it possible to understand various physical changes during heating.

Published

2005

6. Studies on a Cholesterol-Lowering Microcrystalline Phytosterol suspension in Oil

Author

von Bonsdorff-Nikander, Anna, University of Helsinki, Faculty of Pharmacy, Helsingin yliopisto, farmasian tiedekunta, and Helsingfors universitet, farmaceutiska fakulteten

Published

2005

7. Physical changes of beta-sitosterol crystals in oily suspensions during heating

Author

von Bonsdorff-Nikander, Anna, Lievonen, Satu, Christiansen, Leena, Karjalainen, Milja, Rantanen, Jukka, Yliruusi, Jouko, von Bonsdorff-Nikander, Anna, Lievonen, Satu, Christiansen, Leena, Karjalainen, Milja, Rantanen, Jukka, and Yliruusi, Jouko

Abstract

The aim of this research was to describe the thermal behavior of beta-sitosterol crystals in oil-suspensions with a focus on the role of water during heating. The suspensions were prepared by recrystallization in order to achieve a microcrystalline particle size. The structural changes together with the mechanical properties of the suspensions during heating were studied by using variable temperature X-ray powder diffractometry (VT-XRPD), differential scanning calorimetry (DSC), and dynamic mechanical analysis (DMA). Hydrated beta-sitosterol crystals in an oil-suspension dehydrated, despite the composition of the suspensions, at low temperatures. At high beta-sitosterol concentration, the monohydrate crystal form changed partially to a hemihydrated form, and when only a small amount of water was initially incorporated, the hemihydrate crystal form dehydrated to a mostly anhydrate crystal form. The released water, which was immiscible in the surrounding oil, caused the recrystallization of hydrated beta-sitosterol during cooling. This procedure indicated a reversible dehydration process. Structural and thermal analysis of beta-sitosterol crystals in suspensions, together with mechanical analysis made it possible to understand various physical changes during heating.

Published

2005

8. Optimizing the crystal size and habit of beta-sitosterol in suspension

Author

von Bonsdorff-Nikander, Anna, Rantanen, Jukka, Christiansen, Leena, Yliruusi, Jouko, von Bonsdorff-Nikander, Anna, Rantanen, Jukka, Christiansen, Leena, and Yliruusi, Jouko

Abstract

The aim of this work was to survey how processing parameters affect the crystal growth of beta-sitosterol in suspension. The process variables studied were the cooling temperature, stirring time and stirring rate during recrystallization. In addition, we investigated the effect a commonly used surfactant, polysorbate 80, has on crystal size distribution and the polymorphic form. This study describes the optimization of the crystallization process, with the object of preparing crystals as small as possible. Particle size distribution and habit were analyzed using optical microscopy, and the crystal structure was analyzed using X-ray diffractometry. The cooling temperature had a remarkable influence on the crystal size. Crystals with a median crystal length of approximately 23 microm were achieved with a low cooling temperature (<10 degrees C); however, a fairly large number of crystals over 50 microm appeared. Higher cooling temperatures (>30 degrees C) caused notable crystal growth both in length and width. Rapid (250 rpm), continuous stirring until the suspensions had cooled to room temperature created small, less than 50 micro m long (median <20 microm), needle-shaped crystals. The addition of surfactant slightly reduced the size of the initially large crystals. Both hemihydrate and monohydrate crystal forms occurred throughout, regardless of the processing parameters. By using an optimized process, it was possible to obtain a microcrystalline suspension, with a smooth texture.

Published

2003

9. Physical stability of a microcrystalline beta-sitosterol suspension in oil

Author

von Bonsdorff-Nikander, Anna, Karjalainen, Milja, Rantanen, Jukka, Christiansen, Leena, Yliruusi, Jouko, von Bonsdorff-Nikander, Anna, Karjalainen, Milja, Rantanen, Jukka, Christiansen, Leena, and Yliruusi, Jouko

Abstract

Sterols have been shown to reduce plasma cholesterol by blocking the absorption of cholesterol from the gut. The physical properties of crystalline plant sterols limit their use in foods. A coarse-grained structure can be avoided by recrystallisation, a method that affords a reduction in the particle size. A previous work described how to produce a microcrystalline beta-sitosterol suspension. The present study deals with the stability of that suspension. Recrystallisation was carried out by two different methods; one based on rapid the other based on slow cooling, whereby six different compositions were made containing 5-30% of beta-sitosterol and secondly either 5 or 20% water was added. The particle size and habit were evaluated during a 16 weeks storage period (+4 or -19 degrees C) by way of optical microscopy. The crystal structure and degree of crystallinity was analysed by X-ray diffraction. Suspensions can, in most cases, be stored for 16 weeks without any changes to the size and habit. The only evidence of crystal growth came from a suspension with a low sterol concentration at a temperature of +4 degrees C. This is due to the dissolution-diffusion process which is affected by temperature and viscosity. Suspensions containing higher amounts of sterol remained stable, if stored at +4 or -19 degrees C, for 16 weeks. The suspensions included both hemihydrous and monohydrous beta-sitosterol crystals. Suspensions containing less sterol showed greater amounts of monohydrated crystals. This illustrates more water penetration into the crystals. A higher sterol concentration led to a larger number of smaller crystals creating reflections similar to hemihydrated crystals.

Published

2003

10. Physical stability of a microcrystalline beta-sitosterol suspension in oil

Author

Milja Karjalainen, Jouko Yliruusi, Leena Christiansen, Anna von Bonsdorff-Nikander, and Jukka Rantanen

Subjects

Time Factors, 030309 nutrition & dietetics, Pharmaceutical Science, Crystal growth, Soil, 03 medical and health sciences, Crystallinity, 0404 agricultural biotechnology, Drug Stability, Suspensions, X-Ray Diffraction, Crystal habit, Dissolution, Hypolipidemic Agents, 0303 health sciences, Chromatography, Viscosity, Chemistry, Phytosterols, Water, 04 agricultural and veterinary sciences, Penetration (firestop), Sitosterols, 040401 food science, Sterol, Cholesterol, Microcrystalline, Chemical engineering, lipids (amino acids, peptides, and proteins), Particle size

Abstract

Sterols have been shown to reduce plasma cholesterol by blocking the absorption of cholesterol from the gut. The physical properties of crystalline plant sterols limit their use in foods. A coarse-grained structure can be avoided by recrystallisation, a method that affords a reduction in the particle size. A previous work described how to produce a microcrystalline beta-sitosterol suspension. The present study deals with the stability of that suspension. Recrystallisation was carried out by two different methods; one based on rapid the other based on slow cooling, whereby six different compositions were made containing 5-30% of beta-sitosterol and secondly either 5 or 20% water was added. The particle size and habit were evaluated during a 16 weeks storage period (+4 or -19 degrees C) by way of optical microscopy. The crystal structure and degree of crystallinity was analysed by X-ray diffraction. Suspensions can, in most cases, be stored for 16 weeks without any changes to the size and habit. The only evidence of crystal growth came from a suspension with a low sterol concentration at a temperature of +4 degrees C. This is due to the dissolution-diffusion process which is affected by temperature and viscosity. Suspensions containing higher amounts of sterol remained stable, if stored at +4 or -19 degrees C, for 16 weeks. The suspensions included both hemihydrous and monohydrous beta-sitosterol crystals. Suspensions containing less sterol showed greater amounts of monohydrated crystals. This illustrates more water penetration into the crystals. A higher sterol concentration led to a larger number of smaller crystals creating reflections similar to hemihydrated crystals.

11. A comparison of the effect of medium- vs. long-chain triglycerides on the in vitro solubilization of cholesterol and/or phytosterol into mixed micelles

Author

Anna-Maija Lampi, Ann Marie Kaukonen, Anna von Bonsdorff-Nikander, Jouko Yliruusi, Laura Huikko, Leena Christiansen, and Vieno Piironen

Subjects

Chromatography, Chemistry, Clinical chemistry, Cholesterol, Phytosterol, Organic Chemistry, Phytosterols, Cell Biology, Biochemistry, Micelle, Sterol, chemistry.chemical_compound, Solubility, Intestinal cholesterol absorption, Lipolysis, lipids (amino acids, peptides, and proteins), Micelles, Triglycerides, Lipidology

Abstract

Despite clinical evidence of the cholesterol-lowering effects of phytosterols, the exact mechanisms involved are still unclear. Displacement of cholesterol by phytosterols from mixed micelles, which is due to their greater hydrophobicity, is one of the hypotheses for the lumenal effects contributing to the reduction of intestinal cholesterol absorption. In this study a dynamic in vitro lipolysis method was used to examine the solubilization behavior of cholesterol and/or phytosterols during lipolysis to probe the efficacy of cholesterol displacement from mixed micelles by phytosterols. The effects of lipid chain length on sterol solubilization were studied by using microcrystalline suspensions containing 17% phytosterol or cholesterol, formulated in long-chain TG (LCT) and medium-chain TG (MCT). When digesting cholesterol-suspended in LCT, the entire cholesterol dose was incorporated into the micellar phase. For the cholesterol formulation suspended in MCT, 50.3% of the initial dose was recovered in the micelles. Under the respective conditions, we observed lower solubilization of phytosterols than of cholesterol (roughly fourfold). Only 25% of the initial phytosterol dose was solubilized from suspensions formulated with LCT, and 13% was solubilized from MCT formulations. Co-administration of phytosterol and cholesterol suspensions showed a significant reduction of cholesterol solubilization, particularly when dosed in MCT, with approximately 25% of the cholesterol dose solubilized. Insignificant amounts of cholesterol were displaced by phytosterols when cholesterol was presolubilized in the mixed micelles. The results show that, compared with LCT, mixed micelles containing MCT lipolysis products have a reduced solubilizing capacity for cholesterol, which adds to the effectiveness of the phytosterols in displacing cholesterol. This suggests potential benefits of using medium chain length lipids in cholesterol-lowering phytosterol products.

12. Physical stability of a microcrystalline beta-sitosterol suspension in oil.

Author

von Bonsdorff-Nikander A, Karjalainen M, Rantanen J, Christiansen L, and Yliruusi J

Subjects

Cholesterol chemistry, Drug Stability, Soil, Suspensions, Time Factors, Viscosity, Water, X-Ray Diffraction, Cholesterol analogs & derivatives, Hypolipidemic Agents chemistry, Phytosterols, Sitosterols chemistry

Abstract

Sterols have been shown to reduce plasma cholesterol by blocking the absorption of cholesterol from the gut. The physical properties of crystalline plant sterols limit their use in foods. A coarse-grained structure can be avoided by recrystallisation, a method that affords a reduction in the particle size. A previous work described how to produce a microcrystalline beta-sitosterol suspension. The present study deals with the stability of that suspension. Recrystallisation was carried out by two different methods; one based on rapid the other based on slow cooling, whereby six different compositions were made containing 5-30% of beta-sitosterol and secondly either 5 or 20% water was added. The particle size and habit were evaluated during a 16 weeks storage period (+4 or -19 degrees C) by way of optical microscopy. The crystal structure and degree of crystallinity was analysed by X-ray diffraction. Suspensions can, in most cases, be stored for 16 weeks without any changes to the size and habit. The only evidence of crystal growth came from a suspension with a low sterol concentration at a temperature of +4 degrees C. This is due to the dissolution-diffusion process which is affected by temperature and viscosity. Suspensions containing higher amounts of sterol remained stable, if stored at +4 or -19 degrees C, for 16 weeks. The suspensions included both hemihydrous and monohydrous beta-sitosterol crystals. Suspensions containing less sterol showed greater amounts of monohydrated crystals. This illustrates more water penetration into the crystals. A higher sterol concentration led to a larger number of smaller crystals creating reflections similar to hemihydrated crystals.

Published

2003