gelatin film
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2021 ◽  
Vol 8 (3) ◽  
Author(s):  
Oroba Bahjat Shihab ◽  
Mohammed Ahmed Jassim ◽  
Hashim Mohammed Zehraw

This study was conducted to evaluate the effect of Lycium barbarum extract, Chitosan nanoparticles (ChNPs) and Nanotitanium dioxide (TiO2 NPs) loaded on Gelatin films on the microbial content of labneh during different storage periods. The samples were divided into seven treatments which included (T1) non-coated labneh, (T2) labneh coated with gelatin membranes, (T3) labneh coated with gelatin membranes and Lycium barbarum extract, (T4) labneh coated with gelatin films and ChNPs, (T5) labneh coated with gelatin films treated TiO2NPs, (T6) Labneh coated with gelatin films, Lycium barbarum and ChNPs, (T7) Labneh coated with gelatin films, Lycium barbarum and TiO2 NPs. The total number of bacteria decreased after loading with the membranes for each specific period of time, and the treatment with T7 was the best, as the total number of bacteria decreased to 9.93 log/gm compared to the two controls (T1, T2), which amounted to (15.58, 13.47 log/gm) after 14 days of storage, respectively. While the numbers of Lipolytic and Proteolytic bacteria, yeasts and molds did not show any growth at the time of one day, with the prolonged storage period, the gradual increase in the total count of bacteria occurred for all treatments, it reached the highest numbers at the time of 14 days. Treatment T7 was the best in reducing the numbers of both lipolytic and proteinolytic bacteria, as well as yeasts and molds.


2021 ◽  
Author(s):  
Saber Ibrahim ◽  
Mohamed Soliman

Abstract Extracted gelatin from the waste of fresh and grilled chicken skin was used to prepare films as a biodegradable packaging material from solutions of various gelatin concentrations using a casting approach. The thermal behavior of extracted gelatins was investigated by differential scanning calorimetric. The particle size and zeta potential of dispersed nanoparticles of gelatins were measured by dynamic light scattering. The surface area of lyophilized gelatin nanoparticles was calculated from the adsorption of N2 gas. Mechanical properties, water vapor permeability (WVP), and oil uptake (OU) of all manufactured films were studied. Tensile strength values significantly increased for films manufactured from both gelatin sources when the concentration increased from 4 % to 6 % up to 5.1 MPa. The elongation of waste skin gelatin-based films was higher than waste grilled skin gelatin (WG)-based films using 4 % and 8 % concentrations up to 57 %. Films manufactured from WG had significantly lower WVP than waste skin gelatin (WS) analogous at a 4 % gelatin concentration. The WVP of films manufactured from gelatin significantly increased as gelatin concentration increased where OU showed higher oil resistance for films manufactured from WS up to 91 % using 4 % gelatin concentration. The morphological structure of the gelatin film was investigated with scanning electron microscopy (SEM). A homogenized and smooth film surface was observed. The percentage of heavy metal was examined by inductively coupled plasma (ICP). The results of this study showed that the films manufactured using higher concentrations of gelatin possessed promising mechanical properties, good barrier properties, and high safety as a recommended biopolymer packaging material for food contact and pharmaceutical applications.


2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Ozkan Cesur ◽  
Tugba Endogan Tanir ◽  
Pinar Celepli ◽  
Fatma Ozarslan ◽  
Sema Hucumenoglu ◽  
...  

AbstractWe aimed to prepare a bioactive and biodegradable bilayer mesh formed by fibroblast growth factor (FGF) loaded gelatin film layer, and poly ε-caprolactone (PCL) film layer, and to investigate its treatment efficacy on esophageal anastomosis. It is envisaged that the bioactive mesh in in vivo model would improve tissue healing in rats. The full thickness semicircular defects of 0.5 × 0.5 cm2 were created in anterior walls of abdominal esophagus. The control group had abdominal esophagus isolated with distal esophageal blunt dissection, and sham group had primary anastomosis. In the test groups, the defects were covered with bilayer polymeric meshes containing FGF (5 μg/2 cm2), or not. All rats were sacrificed for histopathology investigation after 7 or 28 days of operation. The groups are coded as FGF(−)-7th day, FGF(+)-7th day, and FGF(+)-28th day, based on their content and operation day. Highest burst pressures were obtained for FGF(+)-7th day, and FGF(+)-28th day groups (p < 0.005) and decreased inflammation grades were observed. Submucosal and muscular collagen deposition scores were markedly increased in these groups compared to sham and FGF(−)-7th day groups having no FGF (p = 0.002, p = 0.001, respectively). It was proved that FGF loaded bioactive bilayer mesh provided effective repair, reinforcement and tissue healing of esophageal defects.


Foods ◽  
2021 ◽  
Vol 10 (10) ◽  
pp. 2268
Author(s):  
Huahua Wang ◽  
Mengyao Li ◽  
Zhouyong Dong ◽  
Tiehua Zhang ◽  
Qingyu Yu

New food packaging has shown research significance in the face of increasing demand for high-quality foods and growing attention paid to food safety. In this study, ginger essential oil microcapsule composite films were prepared by combining microcapsules prepared by a complex coacervation method with gelatin films, and the mechanical properties and active functions of the composite films were analyzed. Fourier-transform infrared spectroscopy and differential scanning calorimetry confirmed the successful encapsulation of ginger essential oil. The scanning electron microscopy of the composite films showed the microcapsules and gelatin film matrix were highly compatible. During the entire storage period, the antioxidant capacity of the ginger essential oil microcapsule films weakened more slowly than ginger essential oil microcapsules and could be maintained at a relatively high level for a long time. The microcapsule films had excellent inhibitory effects on Escherichia coli, Staphylococcus aureus, and Bacillus subtilis. Therefore, the direct addition of microcapsules to a film matrix can broaden the application range of microcapsules and increase the duration of the release of active ingredients. Ginger essential oil microcapsule films are potential biodegradable food packaging films with long-lasting activity.


Molecules ◽  
2021 ◽  
Vol 26 (19) ◽  
pp. 5755
Author(s):  
Bianca-Ioana Dogaru ◽  
Vasile Stoleru ◽  
Gabriela Mihalache ◽  
Sems Yonsel ◽  
Maria-Cristina Popescu

Increasing interest on sustainable agriculture has led to the development of new materials which can be used as seed coating agents. In this study, a new material was developed based on gelatin film reinforced with cellulose nanocrystals (CNC) which was further used as nanocomposite matrix for Trichoderma harzianum KUEN 1585 spores. The nanocomposite films were characterized by Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (XRD) and scanning electron microscopy (SEM), showing the formation of new hydrogen bonds between the components with a good compatibility between them. Measurements of water contact angles and tests of water vapor sorption and swelling degree revealed an improvement in the water vapor absorption properties of the films as a result of their reinforcement with CNC. Furthermore, by adding the Trichoderma harzianum KUEN 1585 spp. in the seed coating material, the germination percentage, speed of germination and roots length of the corn seeds improved. The polymeric coating did not inhibit the growth of T. harzianum KUEN 1585, with this material being a good candidate in modern agriculture.


2021 ◽  
Vol 11 (14) ◽  
pp. 6307
Author(s):  
Swarup Roy ◽  
Jong-Whan Rhim

Gelatin-based multifunctional composite films were prepared by reinforcing various amounts of copper sulfide nanoparticles (CuSNP, 0.0, 0.5, 1.0, and 2.0 wt %), and the effect of CuSNP on the film was evaluated by analyzing its physical and antibacterial properties. CuSNP makes a compatible film with gelatin. The inclusion of CuSNP significantly enhanced the UV blocking, mechanical strength, and water vapor barrier properties of the gelatin film. The inclusion of CuSNP of 1.0 wt % or less did not affect the transparency of the gelatin film. When 2.0 wt % of CuSNP was mixed, the hydrophilicity of the gelatin film did not change noticeably, but its thermal properties slightly increased. Moreover, the gelatin/CuSNP composite film presented effective antibacterial activity against E. coli and some activity against L. monocytogenes. Gelatin/CuSNP composite films with better functional and physical properties can be used for food packaging or biomedical applications.


2021 ◽  
Author(s):  
Ozkan Cesur ◽  
Tugba Endogan Tanir ◽  
Pinar Celepli ◽  
Fatma Ozarslan ◽  
Sema Hucumenoglu ◽  
...  

Abstract We aimed to prepare a bioactive and biodegradable bilayer mesh formed by fibroblast growth factor (FGF) loaded gelatin film layer, and poly ε-caprolactone (PCL) film layer, and to investigate its treatment efficacy on esophageal anastomosis. It is envisaged that the bioactive mesh in in vivo model would improve tissue regeneration in rats. The full thickness semicircular defects of 0.5x0.5 cm2 were created in anterior walls of abdominal esophagus. The control group had abdominal esophagus isolated with distal esophageal blunt dissection, and sham group had primer anastomosis. In the test groups, the defects were covered with bilayer polymeric meshes containing FGF (5µg/2 cm²), or not. All rats were sacrificed for histopathology investigation after 7 or 28 days of operation. The groups are coded as FGF(-)-7th d, FGF(+)-7th d, and FGF(+)-28th d, based on their content and operation day. Highest burst pressures were obtained for FGF(+)-7th d, and FGF(+)-28th d groups (p < 0.005) and decreased inflammation grades were observed. Submucosal and muscular collagen deposition scores were markedly increased in these groups compared to sham and FGF(-)-7th d groups having no FGF (p = 0.002, p = 0.001, respectively). It was proved that FGF loaded bioactive bilayer mesh provided effective repair, reinforcement and tissue regeneration of esophageal defects.


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