Your search keyword '"Gostyńska A"' showing total 29 results

1. Phosal® Curcumin-Loaded Nanoemulsions: Effect of Surfactant Concentration on Critical Physicochemical Properties

Author

Joanna Czerniel, Aleksandra Gostyńska, Tomasz Przybylski, and Maciej Stawny

Subjects

Phosal® Curcumin, curcumin, nanoemulsion, co-surfactant, Kolliphor HS15, Pharmacy and materia medica, RS1-441

Abstract

Curcumin is a well-known and widely used substance of natural origin. It has also been found to be helpful in the treatment of liver diseases. Unfortunately, curcumin has very low bioavailability and a sensitivity to external agents. Improving these parameters is the subject of many studies. One way to overcome these problems may be to use Phosal® Curcumin as a source of curcumin and encapsulate this dispersion into a nanoemulsion using different types and concentrations of surfactants and co-surfactants, thus manipulating the physicochemical parameters of the nanoemulsion. The present study aimed to develop curcumin-loaded nanoemulsions for intravenous administration and to investigate the effect of Kolliphor HS15 concentration on their critical quality attributes. Methods: Phosal® Curcumin-loaded nanoemulsions with different concentrations of Kolliphor HS15 were prepared by high-pressure homogenization. The effect of Kolliphor HS15 on emulsion physicochemical properties such as mean droplet diameter (MDD), polydispersity index (PDI), zeta potential (ZP), osmolality (OSM), and pH, as well as encapsulation efficiency (EE) and retention rate (RR) of curcumin, were determined. Mid-term stability studies and short-term stress tests were conducted to evaluate the impact of Kolliphor HS15 on the critical quality attributes of the curcumin-loaded nanoemulsions stored under various conditions. Results: Five nanoemulsions with increasing Kolliphor HS15 concentrations were developed. Their MDD ranged from 85.2 ± 2.0 to 154.5 ± 5.1 nm, with a PDI from 0.18 ± 0.04 to 0.10 ± 0.01 and ZP from −15.6 ± 0.7 to −27.6 ± 3.4 mV. Depending on the concentration of Kolliphor HS15, the EE ranged from 58.42 ± 1.27 to 44.98 ± 0.97%. Conclusions: The studied parameters of the developed nanoemulsions meet the requirements for formulations for intravenous administration. Using the appropriate concentration of Kolliphor HS15 allows for a formulation that presents a protective effect against both curcumin and emulsion degradation.

Published

2024

2. Y-Site Compatibility Studies of Parenteral Nutrition and Other Intravenous Medications in Neonatal and Pediatric Patients: A Review of the Literature Evidence

Author

Aleksandra Gostyńska, Tomasz Przybylski, and Magdalena Ogrodowczyk

Subjects

parenteral nutrition, intravenous drugs, compatibility, pediatric patients, Pharmacy and materia medica, RS1-441

Abstract

Background: Polytherapy in neonatal and pediatric patients requiring parenteral nutrition (PN) administration is a challenging task. Due to limited intravenous access, the Y-site administration of medication with PN admixtures is sometimes inevitable. Aim: This review aims to summarize the evidence on the compatibility of the Y-site of intravenous medications and PN admixtures in neonatal and pediatric settings. Methods: A literature review of the PubMed database was conducted. Articles published between January 1995 and November 2023 concerning the compatibility of intravenous medications in pediatric-dose PN admixtures or with intravenous lipid emulsions only were included. Studies concerning the compatibility/stability of the ingredients of PN admixtures and those concerning unapproved medications were excluded. Based on the methodology used, the quality of the research was assessed. Results: A total of fifteen studies were explored. Among fifty-five different drug substances assessed in the research reviewed, 56% (31/55) were found to be compatible, 13% (7/55) were assigned as incompatible, and for 31% (17/55), the data were ambiguous. None of the studies demonstrated an “A” grade (very high quality), and the grades “B”, “C”, and “D” were assigned to four, six, and five studies, respectively. The compatibility data are presented in two tables, the first concerning the simultaneous administration of medications with 2-in-1 PN formulations (without lipids) and the second, with 3-in-1 formulations (with lipids) and lipid emulsions. Conclusions: This review presents data on compatibilities between intravenously administered medications and PN mixtures intended for neonates and pediatric patients found in the PubMed database. It should be highlighted, however, that this work has some limitations. The clinical decisions on the simultaneous administration of intravenous medication with PN admixtures should be based not only on this review (including assessment of the quality of evidence) but also on manufacturer data, available electronic databases, and incompatibility data for PN admixtures dedicated to adult patients.

Published

2024

3. The Development of Magnolol-Loaded Intravenous Emulsion with Low Hepatotoxic Potential

Author

Aleksandra Gostyńska, Joanna Czerniel, Joanna Kuźmińska, Izabela Żółnowska, Jakub Brzozowski, Violetta Krajka-Kuźniak, and Maciej Stawny

Subjects

magnolol, parenteral nutrition, liver disease, Box–Behnken design, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Intestinal failure-associated liver disease (IFALD) is a severe liver injury occurring due to factors related to intestinal failure and parenteral nutrition administration. Different approaches are studied to reduce the risk or ameliorate the course of IFALD, including providing omega-3 fatty acids instead of soybean oil-based lipid emulsion or administering active compounds that exert a hepatoprotective effect. This study aimed to develop, optimize, and characterize magnolol-loaded intravenous lipid emulsion for parenteral nutrition. The preformulation studies allowed for chosen oils mixture of the highest capacity of magnolol solubilization. Then, magnolol-loaded SMOFlipid was developed using the passive incorporation method. The Box–Behnken design and response surface methodology were used to optimize the entrapment efficiency. The optimal formulation was subjected to short-term stress tests, and its effect on normal human liver cells and erythrocytes was determined using the MTT and hemolysis tests, respectively. The optimized magnolol-loaded SMOFlipid was characterized by the mean droplet diameter of 327.6 ± 2.9 nm with a polydispersity index of 0.12 ± 0.02 and zeta potential of −32.8 ± 1.2 mV. The entrapment efficiency of magnolol was above 98%, and pH and osmolality were sufficient for intravenous administration. The magnolol-loaded SMOFlipid samples showed a significantly lower toxic effect than bare SMOFlipid in the same concentration on THLE-2 cells, and revealed an acceptable hemolytic effect of 8.3%. The developed formulation was characterized by satisfactory stability. The in vitro studies showed the reduced cytotoxic effect of MAG-SMOF applied in high concentrations compared to bare SMOFlipid and the non-hemolytic effect on human blood cells. The magnolol-loaded SMOFlipid is promising for further development of hepatoprotective lipid emulsion for parenteral nutrition.

Published

2023

4. Etoricoxib-Cannabidiol Combo: Potential Role in Glioblastoma Treatment and Development of PLGA-Based Nanoparticles

Author

Joanna Kuźmińska, Agnieszka Sobczak, Aleksandra Majchrzak-Celińska, Izabela Żółnowska, Aleksandra Gostyńska, Barbara Jadach, Violetta Krajka-Kuźniak, Anna Jelińska, and Maciej Stawny

Subjects

etoricoxib, cannabidiol, glioblastoma, PLGA, nanocarriers, drug nanoformulations, Pharmacy and materia medica, RS1-441

Abstract

Background: Glioblastoma (GBM) is the most frequently occurring primary malignant central nervous system tumor, with a poor prognosis and median survival below two years. Administration of a combination of non-steroidal anti-inflammatory drugs and natural compounds that exhibit a curative or prophylactic effect in cancer is a new approach to GBM treatment. This study aimed to investigate the synergistic antitumor activity of etoricoxib (ETO) and cannabidiol (CBD) in a GBM cell line model, and to develop poly(lactic-co-glycolic acid) (PLGA)-based nanoparticles (NPs) for these two substances. Methods: The activity of ETO+CBD was determined using the MTT test, cell-cycle distribution assay, and apoptosis analysis using two GBM cell lines, namely, T98G and U-138 MG. The PLGA-based NPs were developed using the emulsification and solvent evaporation method. Their physicochemical properties, such as shape, size, entrapment efficiency (EE%), in vitro drug release, and quality attributes, were determined using scanning electron microscopy, diffraction light scattering, high-performance liquid chromatography, infrared spectroscopy, and differential scanning calorimetry. Results: The combination of ETO and CBD reduced the viability of cells in a dose-dependent manner and induced apoptosis in both tested GBM cell lines. The developed method allowed for the preparation of ETO+CBD-NPs with a spherical shape, mean particle size (MPS) below 400 nm, zeta potential (ZP) values from −11 to −17.4 mV, polydispersity index (PDI) values in the range from 0.029 to 0.256, and sufficient EE% of both drugs (78.43% for CBD, 10.94% for ETO). Conclusions: The combination of ETO and CBD is a promising adjuvant therapeutic in the treatment of GBM, and the prepared ETO+CBD-NPs exhibit a high potential for further pharmaceutical formulation development.

Published

2023

5. Honokiol-Loaded Nanoemulsion for Glioblastoma Treatment: Statistical Optimization, Physicochemical Characterization, and an In Vitro Toxicity Assay

Author

Aleksandra Gostyńska, Joanna Czerniel, Joanna Kuźmińska, Jakub Brzozowski, Aleksandra Majchrzak-Celińska, Violetta Krajka-Kuźniak, and Maciej Stawny

Subjects

honokiol, nanoemulsion, glioblastoma, Box-Behnken design, Pharmacy and materia medica, RS1-441

Abstract

Background: Glioblastoma (GBM) is an extremely invasive and heterogenous malignant brain tumor. Despite advances in current anticancer therapy, treatment options for glioblastoma remain limited, and tumor recurrence is inevitable. Therefore, alternative therapies or new active compounds that can be used as adjuvant therapy are needed. This study aimed to develop, optimize, and characterize honokiol-loaded nanoemulsions intended for intravenous administration in glioblastoma therapy. Methods: Honokiol-loaded nanoemulsion was developed by incorporating honokiol into Lipofundin MCT/LCT 20% using a horizontal shaker. The Box–Behnken design, coupled with response surface methodology, was used to optimize the incorporation process. The effect of the developed formulation on glioblastoma cell viability was determined using the MTT test. Long-term and short-term stress tests were performed to evaluate the effect of honokiol on the stability of the oil-in-water system and the effect of different stress factors on the stability of honokiol, respectively. Its physicochemical properties, such as MDD, PDI, ZP, OSM, pH, and loading efficiency (LE%), were determined. Results: The optimized honokiol-loaded nanoemulsion was characterized by an MDD of 201.4 (0.7) nm with a PDI of 0.07 (0.02) and a ZP of −28.5 (0.9) mV. The LE% of honokiol was above 95%, and pH and OSM were sufficient for intravenous administration. The developed formulation was characterized by good stability and a satisfactory toxicity effect of the glioblastoma cell lines. Conclusions: The honokiol-loaded nanoemulsion is a promising pharmaceutical formulation for further development in the adjuvant therapy of glioblastoma.

Published

2023

6. Y-Site Compatibility Studies of Ketoprofen with Parenteral Nutrition Admixtures for Central and Peripheral Administration

Author

Katarzyna Dettlaff, Aleksandra Gostyńska, Natalia Ziółkowska, and Maciej Stawny

Subjects

ketoprofen, parenteral nutrition, drug compatibility, Y-site, size of lipid droplets, intravenous administration, Pharmacy and materia medica, RS1-441

Abstract

Ketoprofen (KTF) is often used in hospital wards, especially in its intravenous form. According to the literature review, the compatibility of ketoprofen with parenteral nutrition (PN) admixtures has not yet been investigated. For this reason, we aimed to provide data contributing to physical compatibility to ensure the safe co-administration of these medications. In this study, we examined the compatibility of KTF with eight selected commercial PN admixtures intended for central (Lipoflex Special, Omegaflex Special, Kabiven, SmofKabiven) and peripheral (Lipoflex peri, Omegaflex peri, Kabiven Peripheral, Olimel Peri N4E) administration. The KTF solution for infusion was combined in three different volume ratios with studied PN admixtures reflecting the conditions in clinical practice. The evaluation of undesirable physical destabilization of oil-in-water system or precipitate formation involved the visual inspection and the determination of mean droplet diameter, zeta potential, pH, and turbidity changes. The results of compatibility of KTF with eight commercial PN admixtures showed that three of them: Kabiven, SmofKabiven, and Kabiven Peripheral, are incompatible with KTF and should not be concomitantly administered.

Published

2022

7. Overview of Allelopathic Potential of Lemna minor L. Obtained from a Shallow Eutrophic Lake

Author

Julia Gostyńska, Radosław Pankiewicz, Zdzisława Romanowska-Duda, and Beata Messyasz

Subjects

duckweed, pleustophytes, macroalgae, allelopathy, competition, polyphenols, Organic chemistry, QD241-441

Abstract

Allelopathy is an interaction that releases allelochemicals (chemicals that act allelopathically) from plants into the environment that can limit or stimulate the development, reproduction, and survival of target organisms and alter the environment. Lemna minor L. contains chemicals that are allelopathic, such as phenolic acids. Chemical compounds contained in L. minor may have a significant impact on the development and the rate of multiplication and lead to stronger competition, which may enhance the allelopathic potential. Allelopathic potential may exist between L. minor and C. glomerata (L) Kütz. because they occupy a similar space in the aquatic ecosystem, have a similar preference for the amount of light, and compete for similar habitat resources. L. minor and C. glomerata can form dense populations on the water surface. Allelopathy can be seen as a wish to dominate one of the plants in the aquatic ecosystem. By creating a place for the development of extensive mats, an interspecific interaction is created and one of the species achieves competitive success. It is most effective as a result of the release of chemicals by macrophytes into the aquatic environment. Therefore, allelopathy plays a significant role in the formation, stabilization, and dynamics of the structure of plant communities.

Published

2022

8. The Development of Magnolol-Loaded Intravenous Emulsion with Low Hepatotoxic Potential

Author

Gostyńska, Aleksandra, primary, Czerniel, Joanna, additional, Kuźmińska, Joanna, additional, Żółnowska, Izabela, additional, Brzozowski, Jakub, additional, Krajka-Kuźniak, Violetta, additional, and Stawny, Maciej, additional

Published

2023

9. Etoricoxib-Cannabidiol Combo: Potential Role in Glioblastoma Treatment and Development of PLGA-Based Nanoparticles

Author

Kuźmińska, Joanna, primary, Sobczak, Agnieszka, additional, Majchrzak-Celińska, Aleksandra, additional, Żółnowska, Izabela, additional, Gostyńska, Aleksandra, additional, Jadach, Barbara, additional, Krajka-Kuźniak, Violetta, additional, Jelińska, Anna, additional, and Stawny, Maciej, additional

Published

2023

10. All-in-One Pediatric Parenteral Nutrition Admixtures with an Extended Shelf Life—Insight in Correlations between Composition and Physicochemical Parameters

Author

Aleksandra Gostyńska, Joanna Starkowska, Paulina Sobierajska, Anna Jelińska, and Maciej Stawny

Subjects

parenteral nutrition, parenteral amino acid solution, lipid emulsion, stability, Pharmacy and materia medica, RS1-441

Abstract

The administration of three-in-one parenteral nutrition (PN) admixtures to pediatric patients requires special consideration, specifically concerning quality and physicochemical stability. The introduction of a new parenteral amino acid solution into the market prompted us to evaluate Aminoplasmal Paed-based PN admixtures’ stability. The study aimed to determine the physicochemical parameters of the chosen variations of PN admixtures and search for a correlation between its composition and those parameters. One hundred and sixty-eight variations of PN admixtures intended for patients weighing from 10 to 25 kg and aged from 1 to 12 years and differing in the quantitative composition of electrolytes were selected for the study. The samples were prepared using each of the four intravenous lipid emulsions dedicated to pediatric patients: Intralipid 20%, Clinoleic 20%, Lipidem 20%, and Smoflipid 20%. The stability of the PN admixtures was assessed by visual inspection and determination of pH, osmolality, zeta potential, and hydrodynamic mean droplet diameter (MDD) immediately upon preparation and after seven days of storage at the temperature of 5 ± 1 °C with light protection. Pearson’s correlation was used to quantify the relationships between selected ingredients of the PN admixtures and the physicochemical parameters. The PN admixtures were characterized by pH ranging from 5.91 to 7.04, osmolality ranging from 1238 to 1678 mOsm/kg, and zeta potential ranging from −41.3 to −2.16 mV. The changes in pH and osmolality after seven days of storage did not exceed 0.2 and 4.4%, respectively. The homogeneity of the PN admixtures was confirmed by determining the polydispersity index, which ranged from 0.06 to 0.2. The MDD of the studied formulas ranged from 235 to 395 nm and from 233 to 365 nm immediately upon preparation and after the storage period, respectively. Correlations between selected components of the PN admixtures and some physicochemical parameters were found. All Aminoplasmal Paed 10%-based PN admixtures were characterized by appropriate physicochemical quality to be administered via the central veins, both immediately upon preparation and after seven days of storage at the temperature of 5 ± 1 °C with light protection. The applied electrolyte concentrations ranges and types of lipid emulsions in the selected macronutrient quantitative compositions allowed the PN admixtures to remain stable for seven days within the specified limits.

Published

2021

11. Stability and Compatibility Aspects of Drugs: The Case of Selected Cephalosporins

Author

Szymon Tomczak, Aleksandra Gostyńska, Malwina Nadolna, Karolina Reisner, Marta Orlando, Anna Jelińska, and Maciej Stawny

Subjects

compatibility, stability, cephalosporins, parenteral nutrition, Therapeutics. Pharmacology, RM1-950

Abstract

Intravenous drug incompatibilities are a common cause of medical errors, contributing to ineffective therapy and even life-threatening events. The co-administration of drugs must always be supported by studies confirming compatibility and thus guarantee the therapy’s safety. Particular attention should be paid to the possible incompatibilities or degradation of intravenous cephalosporins in different infusion regimens since the administration of drugs with inadequate quality may cause treatment failure. Therefore, an appropriate stability test should be performed. The study aimed to present various aspects of the stability and compatibility of five cephalosporins: cefepime (CFE), cefuroxime (CFU), ceftriaxone (CFX), ceftazidime (CFZ), and cefazoline (CFL). The degradation studies in parenteral infusion fluids and PN admixtures were conducted for CFE and CFU. The interactions between CFX or CFZ and PN admixtures, as well as the compatibility of CFL with five commercial parenteral nutrition (PN) admixtures, were investigated. The content of CFX and CFZ in PN admixture after 24 h was >90%. CFL administered simultaneously with PN admixture by the same infusion set using Y-site was compatible only with Nutriflex Lipid Special. CFE and CFU were stable in all tested infusion fluids for a minimum of 48 h and decomposed in PN admixtures during storage.

Published

2021

12. Toward Safe Pharmacotherapy: The Interplay between Meropenem and Parenteral Nutrition Admixtures

Author

Aleksandra Gostyńska, Ludwika Piwowarczyk, Malwina Nadolna, Anna Jelińska, Katarzyna Dettlaff, Magdalena Ogrodowczyk, Maria Popielarz-Brzezińska, and Maciej Stawny

Subjects

safe pharmacotherapy, meropenem, Y-site administration, parenteral nutrition, drug compatibility, Therapeutics. Pharmacology, RM1-950

Abstract

Simultaneous administration of parenteral nutrition (PN) admixtures with intravenous antibiotics is a common clinical problem. Coadministration of drugs incompatible with PN admixture may affect its stability, especially in the context of lipid droplet size, which is a crucial parameter for patient safety. In the present study, we investigate the in vitro compatibility of meropenem (Meropenem 1000, MPM) with five commercial PN admixtures used worldwide: Kabiven, Olimel N9E, Nutriflex Lipid Special, Nutriflex Omega Special, and SmofKabiven. The appropriate volumetric ratios, reflecting their clinical practice ratios, were used to prepare the MPM–PN admixture samples. Physicochemical properties of MPM–PN admixtures samples were determined upon preparation and after four hours of storage. The pH changes for all MPM–PN admixtures samples did not exceed the assumed level of acceptability and ranged from 6.41 to 7.42. After four hours of storage, the osmolarity changes were ±3%, except MPM–Olimel N9E samples, for which differences from 7% to 11% were observed. The adopted level of acceptability of changes in zeta potential after four hours of storage (±3 mV) was met for MPM–Kabiven, MPM–Nutriflex Lipid Special, and MPM–Nutriflex Omega Special. The mean droplet diameter for all samples was below 500 nm. However, only in the case of Nutriflex Lipid Special and Nutriflex Omega Special, the addition of MPM did not cause the formation of the second fraction of lipid droplets. The coadministration of MPM via Y-site with Kabiven, Olimel N9E, and Smofkabiven should be avoided due to osmolarity fluctuations (MPM–Olimel), significant differences in zeta potential (MPM–Olimel, MPM–Smofkabiven), and the presence of the second fraction of lipid droplets >1000 nm (MPM–Kabiven, MPM–Olimel, and MPM–Smofkabiven). The assumed acceptance criteria for MPM compatibility of MPM with PN admixtures were met only for Nutriflex Lipid Special and Nutriflex Omega Special in 1:1, 2:1, and 4:1 volume ratios.

Published

2021

13. Honokiol-Loaded Nanoemulsion for Glioblastoma Treatment: Statistical Optimization, Physicochemical Characterization, and an In Vitro Toxicity Assay

Author

Gostyńska, Aleksandra, primary, Czerniel, Joanna, additional, Kuźmińska, Joanna, additional, Brzozowski, Jakub, additional, Majchrzak-Celińska, Aleksandra, additional, Krajka-Kuźniak, Violetta, additional, and Stawny, Maciej, additional

Published

2023

14. Safe Practice of Y-Site Drug Administration: The Case of Colistin and Parenteral Nutrition

Author

Maciej Stawny, Aleksandra Gostyńska, Malwina Nadolna, and Anna Jelińska

Subjects

medical errors, parenteral nutrition, y-site administration, drug interaction, colistin, Pharmacy and materia medica, RS1-441

Abstract

A serious problem in everyday clinical practice is the co-administration of drugs using the same infusion line. Potential complications of co-administration of incompatible drugs include precipitation in the infusion line or central venous catheter leading to its occlusion. Administration of precipitate and large lipid droplets into the venous system may lead to the embolization of capillaries and local or systemic inflammatory reactions, with the consequences of venous thrombosis, chronic venous insufficiency, and even pulmonary embolism. The co-administration of drugs must always be confirmed and clearly defined. The study aimed to determine the interaction between colistin (COL) in the dose used during intermittent hemodialysis and five different ready-to-use PN admixtures (PN) (Kabiven, Smofkabiven, Olimel N9E, Nutriflex Lipid Special, and Nutriflex Omega Special). COL-PN compatibilities were tested by comparing physicochemical properties (pH, zeta potential, lipid emulsion particle size) of COL and PN at three time points: immediately after sample preparation, after ten minutes, and after four hours. No changes in the visual inspection were observed. Both PN without COL and COL-PN samples remained white, homogeneous oil-in-water emulsions with no signs of phase separation, precipitation, or color change. There were no significant changes in pH, and the mean droplet diameter remained below the acceptance limit of 500 nm. The zeta potential and osmolality of COL-PN samples ranged from −21.4 to −7.22 mV and from 567 to 1304 mOsm/kg, respectively. The COL does not influence the physical stability of studied PN admixtures. The co-infusion of COL with Kabiven, Nutriflex Lipid Special, Olimel N9E, Nutriflex Omega Special, and Smofkabiven is possible in the dose used during intermittent hemodialysis.

Published

2020

15. Y-Site Compatibility Studies of Ketoprofen with Parenteral Nutrition Admixtures for Central and Peripheral Administration

Author

Dettlaff, Katarzyna, primary, Gostyńska, Aleksandra, additional, Ziółkowska, Natalia, additional, and Stawny, Maciej, additional

Published

2022

16. The Interactions between Ciprofloxacin and Parenteral Nutrition Admixtures

Author

Aleksandra Gostyńska, Maciej Stawny, Katarzyna Dettlaff, and Anna Jelińska

Subjects

ciprofloxacin, parenteral nutrition, zeta potential, compatibility, drug interactions, Pharmacy and materia medica, RS1-441

Abstract

Background: Co-infusion of parenteral nutrition (PN) and other drugs increases the risk of the interaction between drug and PN admixtures that can cause embolization of small blood vessels, resulting in potentially fatal consequences, including pulmonary embolism, or liver and retina vascular damage. The present study aimed to determine the compatibility between ciprofloxacin (CF) and eighteen compounded PN admixtures in order to assess the possibility of their co-administration via Y-sites. Methods: CF and PN admixtures were mixed at two volume ratios (1:1 and 2:1) and potential interactions were examined using visual inspection, and measurements of pH, osmolality particle size, and zeta potential. The analyses were conducted immediately after sample preparation and after four hours of storage. Results: The compatibility tests showed that the addition of the CF to the PN admixtures did not cause any color change or sign of destabilization in the fat emulsion. However, precipitation was observed in formulations containing higher CF concentrations and, in the case of lower CF concentrations, in formulations containing magnesium and calcium ions at a molar ratio of 2:1. Conclusions: The administration of CF and PN admixtures via the Y-site should be avoided or performed only with PN admixtures for which compatibility has been confirmed and the CF concentration in samples is 1 mg/mL at a molar ratio of magnesium to calcium ions of 1:1.

Published

2019

17. Overview of Allelopathic Potential of Lemna minor L. Obtained from a Shallow Eutrophic Lake

Author

Gostyńska, Julia, primary, Pankiewicz, Radosław, additional, Romanowska-Duda, Zdzisława, additional, and Messyasz, Beata, additional

Published

2022

18. All-in-One Pediatric Parenteral Nutrition Admixtures with an Extended Shelf Life—Insight in Correlations between Composition and Physicochemical Parameters

Author

Gostyńska, Aleksandra, primary, Starkowska, Joanna, additional, Sobierajska, Paulina, additional, Jelińska, Anna, additional, and Stawny, Maciej, additional

Published

2021

19. Stability and Compatibility Aspects of Drugs: The Case of Selected Cephalosporins

Author

Tomczak, Szymon, primary, Gostyńska, Aleksandra, additional, Nadolna, Malwina, additional, Reisner, Karolina, additional, Orlando, Marta, additional, Jelińska, Anna, additional, and Stawny, Maciej, additional

Published

2021

20. Toward Safe Pharmacotherapy: The Interplay between Meropenem and Parenteral Nutrition Admixtures

Author

Gostyńska, Aleksandra, primary, Piwowarczyk, Ludwika, additional, Nadolna, Malwina, additional, Jelińska, Anna, additional, Dettlaff, Katarzyna, additional, Ogrodowczyk, Magdalena, additional, Popielarz-Brzezińska, Maria, additional, and Stawny, Maciej, additional

Published

2021

21. Safe Practice of Y-Site Drug Administration: The Case of Colistin and Parenteral Nutrition

Author

Stawny, Maciej, primary, Gostyńska, Aleksandra, additional, Nadolna, Malwina, additional, and Jelińska, Anna, additional

Published

2020

22. Effect of Lipid Emulsion on Stability of Ampicillin in Total Parenteral Nutrition

Author

Aleksandra Gostyńska, Magdalena Ogrodowczyk, Maciej Stawny, Eliza Główka, Anna Jelińska, and Katarzyna Dettlaff

Subjects

0301 basic medicine, Fat Emulsions, Intravenous, physicochemical stability, lcsh:TX341-641, 030226 pharmacology & pharmacy, Article, 03 medical and health sciences, 0302 clinical medicine, Drug Stability, Dynamic light scattering, Ampicillin, medicine, Zeta potential, 030109 nutrition & dietetics, Nutrition and Dietetics, Chromatography, Chemistry, Critically ill, Anti-Bacterial Agents, Formulation stability, Parenteral nutrition, ampicillin, Lipid emulsion, Parenteral Nutrition, Total, Composition (visual arts), total parenteral nutrition, lcsh:Nutrition. Foods and food supply, lipid emulsion, Food Science, medicine.drug

Abstract

Background: Ampicillin (AMP) is frequently administered parenterally in critically ill patients with meningitis or endocarditis. Many of them require parallel infusion of total parenteral nutrition (TPN) admixtures. The aim of the study was to determine the physicochemical stability of AMP in TPN admixtures. Methods: AMP was added to two formulations of TPN admixtures differing in the lipid emulsion (Lipofundin&reg, MCT/LCT 20% or LIPIDem&reg, ). Samples were stored at 4 &plusmn, 1 &deg, C with light protection, and at 25 &plusmn, C with and without light protection to assess the impact of temperature and light on formulation stability. Every 24 h the pH, zeta potential, mean droplet diameter (MDD) of a lipid emulsion, and AMP concentration using HPLC method were determined. The assessment of stability and compatibility of TPN admixtures with vitamins and trace elements was carried out immediately after preparation and after 24 h of storage. Results: The addition of AMP as well as vitamins and trace elements to the TPN admixtures did not affect their physical stability. An increase in the pH value of approx. 0.6 and reduction of zeta potential were observed. The MDD of the lipid emulsions was below the limit of 500 nm (dynamic light scattering (DLS) method) and no fat droplets greater than 525 nm were observed (light diffraction (LD) method). The content of AMP after the first 24 h was within the acceptable limit of 90% for TPN admixtures stored at 4 &plusmn, C and 25 &plusmn, C with light protection. Conclusions: The results showed that co-administration of AMP in the same bag with TPN admixture at the tested dose is possible when used ex tempore and with light protection.

Published

2019

23. Toward Safe Pharmacotherapy: The Interplay between Meropenem and Parenteral Nutrition Admixtures

Author

Magdalena Ogrodowczyk, Maciej Stawny, Katarzyna Dettlaff, Ludwika Piwowarczyk, Maria Popielarz-Brzezińska, Aleksandra Gostyńska, Malwina Nadolna, and Anna Jelińska

Subjects

0301 basic medicine, Microbiology (medical), parenteral nutrition, Context (language use), Y-site administration, Ph changes, Biochemistry, Microbiology, Meropenem, Article, 03 medical and health sciences, 0302 clinical medicine, Pharmacotherapy, meropenem, Lipid droplet, Zeta potential, medicine, Pharmacology (medical), 030212 general & internal medicine, Food science, General Pharmacology, Toxicology and Pharmaceutics, 030109 nutrition & dietetics, safe pharmacotherapy, Chemistry, lcsh:RM1-950, drug compatibility, Clinical Practice, lcsh:Therapeutics. Pharmacology, Infectious Diseases, Parenteral nutrition, medicine.drug

Abstract

Simultaneous administration of parenteral nutrition (PN) admixtures with intravenous antibiotics is a common clinical problem. Coadministration of drugs incompatible with PN admixture may affect its stability, especially in the context of lipid droplet size, which is a crucial parameter for patient safety. In the present study, we investigate the in vitro compatibility of meropenem (Meropenem 1000, MPM) with five commercial PN admixtures used worldwide: Kabiven, Olimel N9E, Nutriflex Lipid Special, Nutriflex Omega Special, and SmofKabiven. The appropriate volumetric ratios, reflecting their clinical practice ratios, were used to prepare the MPM–PN admixture samples. Physicochemical properties of MPM–PN admixtures samples were determined upon preparation and after four hours of storage. The pH changes for all MPM–PN admixtures samples did not exceed the assumed level of acceptability and ranged from 6.41 to 7.42. After four hours of storage, the osmolarity changes were ±3%, except MPM–Olimel N9E samples, for which differences from 7% to 11% were observed. The adopted level of acceptability of changes in zeta potential after four hours of storage (±3 mV) was met for MPM–Kabiven, MPM–Nutriflex Lipid Special, and MPM–Nutriflex Omega Special. The mean droplet diameter for all samples was below 500 nm. However, only in the case of Nutriflex Lipid Special and Nutriflex Omega Special, the addition of MPM did not cause the formation of the second fraction of lipid droplets. The coadministration of MPM via Y-site with Kabiven, Olimel N9E, and Smofkabiven should be avoided due to osmolarity fluctuations (MPM–Olimel), significant differences in zeta potential (MPM–Olimel, MPM–Smofkabiven), and the presence of the second fraction of lipid droplets &gt, 1000 nm (MPM–Kabiven, MPM–Olimel, and MPM–Smofkabiven). The assumed acceptance criteria for MPM compatibility of MPM with PN admixtures were met only for Nutriflex Lipid Special and Nutriflex Omega Special in 1:1, 2:1, and 4:1 volume ratios.

Published

2021

24. The Interactions between Ciprofloxacin and Parenteral Nutrition Admixtures

Author

Gostyńska, Aleksandra, primary, Stawny, Maciej, additional, Dettlaff, Katarzyna, additional, and Jelińska, Anna, additional

Published

2019

25. Development, Validation, and Stability Assessment Application of RP-HPLC-DAD Method for Quantification of Ampicillin in Total Parenteral Nutrition Admixtures

Author

Stawny, Maciej, primary, Gostyńska, Aleksandra, additional, Dettlaff, Katarzyna, additional, Jelińska, Anna, additional, Kościelniak, Marta, additional, and Ogrodowczyk, Magdalena, additional

Published

2019

26. Clinical Nutrition of Critically Ill Patients in the Context of the Latest ESPEN Guidelines

Author

Gostyńska, Aleksandra, primary, Stawny, Maciej, additional, Dettlaff, Katarzyna, additional, and Jelińska, Anna, additional

Published

2019

27. Effect of Lipid Emulsion on Stability of Ampicillin in Total Parenteral Nutrition

Author

Stawny, Maciej, primary, Gostyńska, Aleksandra, additional, Dettlaff, Katarzyna, additional, Jelińska, Anna, additional, Główka, Eliza, additional, and Ogrodowczyk, Magdalena, additional

Published

2019

28. Development, Validation, and Stability Assessment Application of RP-HPLC-DAD Method for Quantification of Ampicillin in Total Parenteral Nutrition Admixtures

Author

Marta Kościelniak, Katarzyna Dettlaff, Maciej Stawny, Aleksandra Gostyńska, Anna Jelińska, and Magdalena Ogrodowczyk

Subjects

0301 basic medicine, Microbiology (medical), HPLC-DAD, Biochemistry, Microbiology, High-performance liquid chromatography, Article, Stability assessment, 03 medical and health sciences, 0302 clinical medicine, Ampicillin, Intensive care, medicine, Pharmacology (medical), 030212 general & internal medicine, General Pharmacology, Toxicology and Pharmaceutics, validation, 030109 nutrition & dietetics, Chromatography, Chemistry, Capacity factor, Infectious Diseases, Parenteral nutrition, ampicillin, total parenteral nutrition, Theoretical plate, Quantitative analysis (chemistry), medicine.drug

Abstract

Background: The administration of total parenteral nutrition (TPN) is a common procedure in intensive care units, where the concomitant use of other intravenous medication is frequently needed. One of the particularly dangerous complications for neurosurgical patients is meningitis, for which high doses of ampicillin (AMP) are used. In such cases, the addition of AMP to TPN admixtures would be a desirable procedure. Thus, the AMP determination method in TPN admixture was developed and validated. Methods: An isocratic HPLC analysis was performed on a LiChrospher C18 end-capped column (250 mm, 4.6 mm, 5 &micro, m) with a C18 pre-column (LiChrospher 100, 4 mm, 5 &micro, m). The flow rate was 1.0 mL min&minus, 1 and the detection wavelength was 230 nm. System suitability parameters, such as capacity factor, numbers of the theoretical plate, asymmetry factor, as well as validation parameters, including method precision, accuracy, linearity, selectivity, and robustness, were set up. Results: The method was shown to be linear, precise, accurate, specific, and robust, and it can be used for the quantitative analysis of AMP in TPN admixtures. Conclusions: The degradation of AMP in the TPN admixtures occurred according to first order kinetics. The degradation rate was high and dependent on the composition of the mixture and the storage conditions (t0.5 varied from 142.44 h to 300.45 h).

Published

2019

29. Clinical Nutrition of Critically Ill Patients in the Context of the Latest ESPEN Guidelines

Author

Aleksandra Gostyńska, Maciej Stawny, Katarzyna Dettlaff, and Anna Jelińska

Subjects

0301 basic medicine, Parenteral Nutrition, medicine.medical_specialty, Critical Care, Critical Illness, Context (language use), Clinical nutrition, 03 medical and health sciences, Enteral Nutrition, 0302 clinical medicine, Intensive care, Intervention (counseling), Humans, Medicine, 030212 general & internal medicine, Amino acid content, Intensive care medicine, Societies, Medical, intensive care, Discussion, 030109 nutrition & dietetics, Energy demand, business.industry, Critically ill, Calorimetry, Indirect, General Medicine, Europe, Intensive Care Units, Parenteral nutrition, Practice Guidelines as Topic, Dietary Proteins, immunomodulatory nutrition, business

Abstract

The group of patients most frequently in need of nutritional support are intensive care patients. This year (i.e., 2019), new European Society for Clinical Nutrition and Metabolism (ESPEN) guidelines of clinical nutrition in intensive care were published, updating and gathering current knowledge on the subject of this group of patients. Planning the right nutritional intervention is often a challenging task involving the necessity of the choice of the enteral nutrition (EN) or parenteral nutrition (PN) route of administration, time of initiation, energy demand, amino acid content and demand as well as the use of immunomodulatory nutrition. The aim of this study was to specify and discuss the basic aspects of the clinical nutrition of critically ill patients recommended by ESPEN guidelines. Clinical nutrition in intensive care seems to be the best-studied type of nutritional intervention. However, meta-analyses and clinical studies comparing EN and PN and their impact on the prognosis of the intensive care patients showed ambiguous results. The nutritional interventions, starting with EN, should be initiated within 24–48 h whereas PN, if recommended, should be implemented within 3–7 days. The recommended method of calculation of the energy demand is indirect calorimetry, however, there are also validated equations used worldwide in everyday practice. The recommended protein intake in this group of patients and the results of insufficient or too high supply was addressed. In light of the concept of immunomodulatory nutrition, the use of appropriate amino acid solutions and lipid emulsion that can bring a positive effect on the modulation of the immune response was discussed.

Published

2019