Application of Cystoseira myrica phycosynthesized selenium nanoparticles incorporated with nano-chitosan to control aflatoxigenic fungi in fish feed.

BACKGROUND: The recurrent contaminations of feed materials with mycotoxigenic fungi can endanger both farmed animals and humans. Biosynthesized nanomaterials are assumingly the ideal agents to overcome fungal invasion in feed/foodstuffs, especially when utilizing sustainable sources for synthesis. Herein, the phycosynthesis of selenium nanoparticles (SeNPs) was targeted using Cystoseira myrica algal extract (CE), and the conjugation of CE/SeNPs with chitosan nanoparticles (NCt) to produce potential antifungal nanocomposites for controlling Aspergillus flavus isolates in fish feed. RESULTS: The phycosynthesis of SeNPs with CE was effectually carried out and validated using visible/UV analysis, X-ray diffraction and transmission microscopy; CE/SeNPs had diameters of 8.7 nm and spherical shapes. NCt/CE/SeNPs nanocomposite (173.3 nm mean diameter) was achieved and the component interactions were validated via infrared spectroscopic analysis. The antifungal assessment of screened nanomaterials against three Aspergillus flavus strains indicated that NCt/CE/SeNPs exceeded the fluconazole action using qualitative/quantitative assays. Severe alteration/distortions in A. flavus mycelial structure and morphology were microscopically observed within 48 h of NCt/CE/SeNPs treatment. The treatment of feed ingredients (crushed corn and feed powder) by blending with nanomaterials (NCt, CE/SeNPs and NCt/CE/SeNPs) led to significant reduction in A. flavus count/growth after storage for 7 days; NCt/CE/SeNPs could completely inhibit any fungal growth in feed material. CONCLUSION: The pioneering phycosynthesis of CE/SeNPs and their nanoconjugation with NCt generated bioactive antifungal agents to control A. flavus strains. The innovatively constructed NCt/CE/SeNPs nanocomposite is advised for application as an effectual, biosafe and natural fungicidal conjugate for the protection of fish feed from mycotoxigenic fungi. © 2024 Society of Chemical Industry.

Macroalgae Bioplastics: A Sustainable Shift to Mitigate the Ecological Impact of Petroleum-Based Plastics.

The surge in global utilization of petroleum-based plastics, which notably heightened during the COVID-19 pandemic, has substantially increased its harm to ecosystems. Considering the escalating environmental impact, a pivotal shift towards bioplastics usage is imperative. Exploring and implementing bioplastics as a viable alternative could mitigate the ecological burden posed by traditional plastics. Macroalgae is a potential feedstock for the production of bioplastics due to its abundance, fast growth, and high cellulose and sugar content. Researchers have recently explored various methods for extracting and converting macroalgae into bioplastic. Some of the key challenges in the production of macroalgae bioplastics are the high costs of large-scale production and the need to optimize the extraction and conversion processes to obtain high-quality bioplastics. However, the potential benefits of using macroalgae for bioplastic production include reducing plastic waste and greenhouse gas emissions, using healthier materials in various life practices, and developing a promising area for future research and development. Also, bioplastic provides job opportunities in free enterprise and contributes to various applications such as packaging, medical devices, electronics, textiles, and cosmetics. The presented review aims to discuss the problem of petroleum-based plastic, bioplastic extraction from macroalgae, bioplastic properties, biodegradability, its various applications, and its production challenges.

Markers of inflammasome activation in Coronavirus disease 2019 (COVID-19) Egyptian patients: Impact on disease severity.

There are conflicting data regarding the relationship between coronavirus disease 2019 (COVID-19) severity and Caspase-1 (Casp-1), interleukin-1ß (IL-1ß), and IL-18. Our study sought to quantify the levels of IL-18, IL-1ß, and Casp-1 as indicators for inflammasome activation in COVID-19 patients at Assiut University Hospitals and to correlate their levels with parameters of disease severity in COVID-19 patients. Serum levels of Casp-1, IL-1ß and IL-18 were measured in 63 COVID-19 patients and 26 normal controls by an enzyme linked immunosorbent assay (ELISA). Also, arterial blood gas analysis and laboratory parameters including hemoglobin, platelets, lymphocyte count, liver function test, kidney function test, C-reactive protein (CRP), D-dimer, ferritin and LDH were estimated. Serum levels of Casp-1, IL-1ß and IL-18 were significantly higher in the COVID-19 group as compared to controls (p= 0.04, p=0.001 and p=0.03, respectively). Although the three markers were higher in the severe group, yet only IL-1ß showed a significant difference as compared to the non-severe group (p=0.04). IL-18 had significant positive correlations with CRP and ferritin (p = 0.04 and p = 0.02, respectively). IL-1ß was positively correlated with alanine aminotransferase. Casp-1 had significant positive correlations with CRP and lactate dehydrogenase (p=0.045 and p=0.001, respectively). Patients showed weak positive correlations between serum level of Casp-1 and each of IL-1ß and IL-18. Also, a strong positive correlation was found between IL-1ß and IL-18 (p < 0.0001). In conclusion, inflammasome activation was a hallmark in COVID-19 patients. The markers of activation were positively correlated with many parameters of inflammation, may suggest their important roles in the pathophysiology of the disease and its progression. IL-1ß was the only marker to be correlated with disease severity and therefore may be suggested as a potential marker for identifying severe COVID-19 patients.

Improving Stability of Flaxseed Oil by Rice Bran Oil as Source of γ-Oryzanol.

<b>Background and Objective:</b> Rice bran oil (RBO) and flaxseed oil (FSO) are vegetable oils that play an important role in human nutrition. RBO is very rich in γ-oryzanol, which is extracted from the inner husk and seed of the rice. γ-oryzanol is a mixture of natural antioxidant compounds in the RBO. Therefore, the current study aimed at the possibility of using rice bran oil (RBO) to improve the oxidative stability of virgin flaxseed oil (FSO) without synthetic antioxidants. <b>Materials and Methods:</b> Rice bran oil (RBO) has been added into FSO at 500, 1000 and 1500 ppm compared with FSO containing 200 ppm BHT as synthetic antioxidants. <b>Results:</b> The results showed that the use of RBO leads to an increase in the ability to resist against oxidation and it increases with the increase in the amount of RBO addition in the FSO samples, which recorded 7.36, 8.50 and 10.15 hrs for FSRB1, FSRB2 and FSRB3, respectively, while FSBHT (FSO sample contain BHT) recorded 8.40 hrs. <b>Conclusion:</b> The research recommended the addition of RBO as a source of γ-oryzanol to various foods increases the oxidative stability, increases the nutritional and health value of the food.

Chemical and Sensory Evaluation of Balady Bread Supplemented with Watermelon Rinds Flour and its Anti-Hyperlipidemic Effect in Male Albina Rats.

<b>Background and Objective:</b> Watermelon is a good source of minerals, vitamins and dietary fibers. It has been considered a health benefits effect due to the high amount of antioxidants and phytonutrients such as phenolics, flavonoids, phytosterols and other medicinal compounds which decrease the risk of cardiovascular, diabetes and cancer. This research was carried out to study the effect of wheat flour (WF) supplemented with different levels of watermelon rinds flour (WRF) on the chemical and organoleptic properties of balady bread. Furthermore, the effect of prepared bread on reducing blood lipids of hyperlipidemic rats. <b>Materials and Methods:</b> Wheat flour (WF) has been supplemented with different levels (5, 10, 15 and 20%) of watermelon rinds flour (WRF). The chemical and organoleptic properties of balady bread and the anti-hyperlipidemic effect of prepared bread on hyperlipidemic rats were evaluated. <b>Results:</b> The results indicated that incorporation of WRF in balady bread wheat flour increased the fibre, ash and minerals content of prepared bread. While carbohydrates content and energy value were decreased by increasing the WRF substitution levels. Organoleptic evaluation tests showed that up to 15% of WF could be replaced with WRF in balady bread and still more acceptable bread compared with control bread samples. In addition, rats fed on a hyperlipidemic diet containing balady bread fortified with WRF showed a significant decrease (p<0.05) in the triglyceride (TG), total cholesterol (TC), High-Density Lipoprotein Cholesterol (HDL-C), Low-Density Lipoprotein Cholesterol (LDL-C) and Very-Low-Density Lipoprotein Cholesterol (V-LDL) level by increasing the amounts of simultaneous supplementation with WRF 5-15% in the formulated balady bread compared to control samples. <b>Conclusion:</b> The research recommended that the 15% replacement of WRF gave good quality properties and lead to reducing body weight and serum lipid profile of hyperlipidemic rats.

Innovative biosynthesis of silver nanoparticles using yeast glucan nanopolymer and their potentiality as antibacterial composite.

Nanometals (NM) frequently possess potent antimicrobial potentials to combat various pathogens, but their elevated biotoxicity limits their direct applications. The biosynthesis of NM and their capping/conjugation with natural biopolymers can effectually enhance NM stability and diminish such toxicity. Yeast ß-glucan (ßG), from Saccharomyces cerevisiae, was extracted and transformed to nanoparticles (NPs) using alkali/acid facile protocol. The ßG NPs were innovatively employed for direct biosynthesis of silver nanoparticles (Ag NPs) without extra chemical processes. The physicochemical assessments (Fourier-transform infrared, X-ray diffraction, and transmission electron microscopy) validated NPs formation, interaction, and interior capping of Ag NPs in ßG NPs. The synthesized ßG NPs, Ag NPs, and ßG-Ag NPs composite were negatively charged and had minute particle sizes with mean diameters of 58.65, 6.72, and 63.88 nm, respectively. The NPs (plain Ag NPs and composited ßG-Ag NPs) exhibited potent comparable bactericidal actions, opposing Gram+ (Staphylococcus aureus) and Gram- (Escherichia coli, Salmonella Typhimurium, and Pseudomonas aeruginosa). Scanning micrographs, of treated S. aureus and S. Typhimurium with ßG-Ag NPs, elucidated the powerful bactericidal actions of nanocomposite for destructing pathogens' cells. The inventive Ag NPs biosynthesis with ßG NPs and the combined ßG-Ag NPs nanocomposites could be impressively recommended as powerful antibacterial candidates with minor potential toxicity.

High- versus low-dose proton pump inhibitors post endoscopic hemostasis in hemodialysis cases with peptic ulcer bleeding.

Post-endoscopic hemostasis treatment is not adequately addressed in high-risk patients on regular hemodialysis (HD) with emergency peptic ulcer bleeding. This study aimed to compare post-endoscopic high- versus low-dose proton pump inhibitors (PPIs) for peptic ulcer bleeding in patients undergoing regular HD. This prospective study comprised 200 patients on regular hemodialysis having emergency peptic ulcer bleeding confirmed at endoscopy and managed with endoscopic hemostasis. Half of the patients received high-dose intensive regimen and the other half received the standard regimen. Patients who were suspected to have recurrent bleeding underwent a second endoscopy for bleeding control. The primary outcome measure was rate of recurrent bleeding during period of hospitalization that was detected through second endoscopy. Rebleeding occurred in 32 patients ; 15 in the High-Dose Cohort and 17 in the Low-Dose Control (p = 0.700). No significant differences between the two dose cohorts regarding the time of rebleeding (p = 0.243), endoscopic hemostasis mode (p = 1.000), and need for surgery (p = 0.306). The highdose regimen Inhospital mortality in high-dose group was 9.0% compared to 8.0% in the low-dose group (p = 0.800). Apart from the pre-hemostatic Forrest classification of ulcers, there were no significant differences between patients with re-bleeding ulcers (n=32) and those with non-rebleeding (n=168). Rebleeding was more common in class Ia, i.e. spurting bleeders (p < 0.001). Endoscopic hemostasis followed by the standard low-dose PPI regimen of 40 mg daily IV boluses is safe and effective option for bleeding peptic ulcers in the high-risk patients under regular hemodialysis.

Application of ZnO Nanoparticles Phycosynthesized with Ulva fasciata Extract for Preserving Peeled Shrimp Quality.

Zinc oxide nanoparticles (ZnONPs) were the targets of numerous biological syntheses to attain their precious values in various biomedical fields. The phycosynthesis of ZnONPs were innovatively investigated using cell-free extract of the macroalgae, Ulva fasciata Delile. The phycosynthesized U. fasciata-zinc oxide nanoparticles (UFD-ZnONPs) had 77.81 nm mean size, with flower and sphere shapes and positive zeta potential. The UFD-ZnONPs infra-red analysis indicated their basic components' cross-linkage. The antibacterial potentialities of UFD-ZnONPs were confirmed, qualitatively and quantitatively, against foodborne microorganisms (Escherichia coli plus Staphylococcus aureus); the bactericidal action was higher for UFD-ZnONPs than the annealed phycosynthesized ZnONPs. The scanning micrographs of S. aureus and E. coli cells treated with UFD-ZnONPs indicated the severe action of nanoparticles to destroy bacterial cells in time-dependent manners. Peeled shrimps (Fenneropenaeus indicus) were biopreservated through refrigerated storage (4 °C) with UFD-ZnONPs based solution for six days. The microbial examination of UFD-ZnONPs -treated shrimps displayed decrease in microbial loads throughout the storage days. Moreover, the UFD-ZnONPs-treated shrimps showed acceptable sensorial attributes (appearance, odor, color and texture) compared to untreated shrimps. UFD-ZnONPs nanocomposite concentration of 3% and 5% could be remarkably suggested as efficient procedure for shrimps' biopreservation during refrigerated storage regarding sensorial quality and microbial profile of product.

Long-term outcome after endoscopic ligation of acute esophageal variceal bleeding in patients with liver cirrhosis.

Endoscopic variceal ligation (EVL) has been the standard treatment for acute variceal bleeding (AVB). However, reports of long-term prognosis after EVL are scarce. Therefore, the current work aimed to investigate the long-term outcome and prognostic modifiers of cirrhotic cases presented with acute esophageal variceal bleeding and managed with EVL. The current prospective work comprised primarily 276 consecutive grown-up cirrhotic cases presenting with AVB and managed with EVL. Two-hundred patients who completed the study till death or 3-year follow-up were enrolled in final analysis. The primary outcome measure was occurrence of rebleeding and all-cause mortality. By the end of follow up 56 patients (28%) developed rebleeding and 78 (39%) died. The independent factors associated with rebleeding were lacking follow up EVL (OR: 4.8, 95%CI: 1.9-12.2), BMI > 30 kg/m2 (OR: 0.-, 95%CI: 0.2-0.9), Child class C (OR: 3.8, 95%CI: 1.8-7.8), and grade IV varices (OR: 2.6, 95%CI: 1.3-5.3). The independent factors associated with mortality were: Age > 65 years (OR: 32.4, 95%CI: 8.7-120.3), rebleeding (OR: 98.4, 95%CI: 27.9-347.0), coexistence of HCC (OR: 7.4, 95%CI: 2.0-27.4), and lacking follow up EVL (OR: 6.1, 95%CI: 1.2-31.1). Recurrent bleeding after emergency endoscopic ligation of acute esophageal variceal bleeding in cirrhotic cases is a rather common complication that significantly increases the mortality rate. The liver condition, lack of follow up endoscopy, old age, and severity of esophageal varices are independent prognostic indicator of rebleeding and morality.

Application of Quercus infectoria extract as a natural antimicrobial agent for chicken egg decontamination / Aplicación de un extracto de Quercus infectoria como agente antimicrobiano natural para la desinfección de huevos de gallina

Egg contamination with microbial pathogens is an enduring worldwide concern. Natural products are frequently recommended as ideal alternatives to substitute synthetic and chemical antimicrobials. Oak galls (Quercus infectoria) are aberrant growths on oak trees that have many medicinal and pharmaceutical applications. Q. infectoria extract (QIE) antimicrobial action was assessed against many microbial species, and used for eggshell decontamination. QIE antimicrobial activity was evidenced against Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa, Salmonella Typhimurium and Candida albicans, using different assay methods. Disinfection of eggshell microbial contamination, by immersion in 1% QIE solution, sharply reduced total colony count, yeasts and molds, Enterobacteriaceae. E. coli and S. aureus were completely inhibited after 60min of immersion in QIE. QIE biochemical analysis revealed elevated contents of phenolic and flavonoid compounds. The captured micrographs of S. aureus cells treated with QIE showed strong alterations in cell morphology; cells were entirely lysed and ruptured after 6h of treatment. QIE can be recommended as an effective and natural disinfectant for decontaminating eggshells from pathogenic microorganisms.

La contaminación de huevos con patógenos microbianos es un problema constante en todo el mundo. Con frecuencia se recomiendan diversos productos naturales como alternativas ideales para sustituir a los antimicrobianos sintéticos. Las agallas de roble (Quercus infectoria) son de crecimiento aberrante en los robles y tienen muchas aplicaciones medicinales y farmacéuticas. Se evaluó la acción antimicrobiana del extracto de Quercus infectoria (QIE) contra varias especies microbianas y también este se aplicó para la descontaminación de cáscaras de huevo. La actividad antimicrobiana del extracto de QIE se evidenció en relación con Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa, Salmonella typhimurium y Candida albicans, utilizando diferentes métodos de ensayo. La inmersión de las cáscaras de huevo en extracto de QIE al 1% logró una fuerte reducción del recuento total de colonias, de levaduras y de mohos, y de miembros de Enterobacteriaceae. La inmersión durante 60 min inhibió completamente el desarrollo de E. coli y S. aureus. El análisis bioquímico del extracto de QIE reveló que este tiene un contenido elevado de compuestos fenólicos y de flavonoides. Se documentó mediante micrografías la presencia de grandes alteraciones en la morfología celular de S. aureus tras la exposición al extracto de QIE: las células se lisaron completamente y se rompieron después de 6h de tratamiento. El extracto de QIE se puede recomendar como un desinfectante eficaz y natural para descontaminar cáscaras de huevos de microorganismos patógenos.

Soil emendation with nano-fungal chitosan for heavy metals biosorption.

The bioremediation of water and soil, from heavy metal (HM) contamination, is a continuing worldwide demand. Chitosan, as a promising bioactive polymer, was produced from grown fungal (Cunninghamella elegans) mycelia and had a molecular weight of 112 kDa and a deacetylation degree of 87%. Sodium tripolyphosphate was applied for the synthesis of chitosan nanoparticles (NCt) from fungal chitosan (Cts); the particle size of produced NCt was in range of 5-45 nm. The produced biopolymers were used for HM absorption, Pb2+ and Cu2+ at concentration range of 100-300 ppm, from aqueous solution and soil matrix. Both Cts and NCt had high adsorption capacity toward the examined HM, with higher affinity as adsorbents to Pb2+ than to adsorb Cu2+ from water or after amendment of soil matrix. The produced NCt particles were highly effective than bulk Cts for the remediation and biosorption of contaminant metals, Pb2+ and Cu2+. Both Cts and NCt could be effectually applied as amendments in HM-contaminated soils for their bioremediation.

Skin protectant textiles loaded with fish collagen, chitosan and oak galls extract composite.

Skin protection and control of its microbial pathogens are highly important demands; natural biological agents are the ideals for that. Collagen (Cg) was extracted and characterized from skin and scales of Nile tilapia fish (Oreochromis niloticus), chitosan (Cts) was extracted from shrimp shells and extract of oak (Quercus infectoria) galls (OGE) was prepared. The antimicrobial potentialities of extracted agents, Cts and OGE, were qualitatively proved against skin pathogens, Staphylococcus aureus and Candida albicans, including both antibiotic sensitive and resistant strains, neither Cg nor negative control exhibited antimicrobial actions toward examined strain. The entire agents were loaded onto cotton fabrics and evaluated for antimicrobial actions and durability. Loaded textiles with the combined extracts' composite were the most effectual followed by individual treatments with OGE and Cts, respectively. Treated textiles upheld most of their antimicrobial activity after 2 laundering cycles toward all microbial pathogens. This invention could be consequently applied for production of skin protectant and hygienic fabrics.

Application of Quercus infectoria extract as a natural antimicrobial agent for chicken egg decontamination.

Egg contamination with microbial pathogens is an enduring worldwide concern. Natural products are frequently recommended as ideal alternatives to substitute synthetic and chemical antimicrobials. Oak galls (Quercus infectoria) are aberrant growths on oak trees that have many medicinal and pharmaceutical applications. Q. infectoria extract (QIE) antimicrobial action was assessed against many microbial species, and used for eggshell decontamination. QIE antimicrobial activity was evidenced against Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa, Salmonella Typhimurium and Candida albicans, using different assay methods. Disinfection of eggshell microbial contamination, by immersion in 1% QIE solution, sharply reduced total colony count, yeasts and molds, Enterobacteriaceae. E. coli and S. aureus were completely inhibited after 60min of immersion in QIE. QIE biochemical analysis revealed elevated contents of phenolic and flavonoid compounds. The captured micrographs of S. aureus cells treated with QIE showed strong alterations in cell morphology; cells were entirely lysed and ruptured after 6h of treatment. QIE can be recommended as an effective and natural disinfectant for decontaminating eggshells from pathogenic microorganisms.

Fungal chitosan and Lycium barbarum extract as anti-Listeria and quality preservatives in minced catfish.

Listeria monocytogenes is a foodborne bacterial pathogen that causes serious health risks. Chitosan (Ch) is a bioactive polymer that could be effectively applied for foodstuffs biopreservation. Lycium barbarum (Goji berry) is ethnopharmaceutical fruit that have diverse health protecting benefits. Chitosan was produced from A. niger and employed with L. barbarum extract (LBE) as blends for Listeria control and quality biopreservation of African catfish mince (Clarias gariepinus). Chitosan could utterly control L. monocytogenes survival in fish mince and its efficacy was strengthened with added LBE at 0.2 and 0.4%. Blending of fish mince with Ch could effectively reduce the progress of chemical spoilage parameters and this protective effect was greatly enhanced with increased addition of LBE. The sensorial assessment of treated minces indicated panelists preferences for the entire attributes of blended samples with Ch and LBE, particularly with storage prolongation. Scanning micrographs elucidated the antibacterial action of Ch against L. monocytogenes. Results recommended the application of fungal Ch/LBE composites as biopreservatives and anti-listerial agents, through their blending with catfish mince, to eliminate bacterial growth, enhance sensory and storage attributes of preserved fish.

Application of fungal chitosan incorporated with pomegranate peel extract as edible coating for microbiological, chemical and sensorial quality enhancement of Nile tilapia fillets.

Fish are generous sources for providing man with his essential nutritional requirements, but the extreme susceptibility to quality deterioration hinders their optimal usage and storage. Natural derivatives are always the perfect alternatives for food preservation. The application of fungal chitosan (Ch), from Aspergillus niger, and pomegranate peel extract (PPE), in coating films for Nile tilapia (Oreochromis niloticus) fillets preservation and maintaining their microbiological, chemical and sensorial quality during cooled storage at 4°C for 30days, was investigated. Fish fillet were coated with Ch (2%) and combined Ch+PPE, at PPE percentages of 0.5, 1.0, 1.5 and 2.0%. Fillets coating resulted in sharp decrease of the entire microbial counts during storage; the increased concentrations from PPE strengthened coating film antimicrobial activity. Additionally, fillets coating could retard the chemical spoilage parameters increasing, i.e. nitrogen volatile base (TVB-N), peroxide value (PV) and reactive substances of thiobarbituric acid (TBARS), during storage period. The sensory evaluation indicated higher preferences for the odor, texture, color and overall quality of coated samples. Fish fillets coating with Ch and Ch+PPE could be recommended for shelf life extension and maintaining the microbiological, chemical and sensorial quality through the application of safe preservatives from natural origins.

Control of citrus molds using bioactive coatings incorporated with fungal chitosan/plant extracts composite.

BACKGROUND: The ongoing postharvest loss in citrus fruits, due to fungal infection, is a chronic economic and agricultural problem. Most of citrus damage is caused by Penicillium spp., e.g. green mold (P. digitatum) and blue mold (P. italicum). Fungal chitosan, from Mucor rouxii, and plant extracts from cress seeds, olive leaves, pomegranate peels and senna pods, were evaluated as antifungal agents against the phytopathogenic fungi, P. digitatum and P. italicum, using in vitro qualitative and quantitative assays. RESULTS: All natural agents tested exhibited potent antifungal activity; the most powerful agent was cress (Lepidium sativum) seed extract, followed by pomegranate (Punica granatum) peel extract. Fungal chitosan also had a remarkable fungicidal potentiality using both evaluation assays. Penicillium digitatum was generally more resistant than P. italicum toward all examined agents. The incorporation of each individual natural agent in coating material resulted in a great reduction in fungal growth and viability. The addition of chitosan combined with cress and pomegranate extracts, to the coating materials, prevented coated citrus fruit from decay by green and blue mold for a 2-week storage period. CONCLUSION: Natural derivatives could be recommended as powerful antifungal alternatives to protect citrus fruits from postharvest fungal decay.

A rare case report of spontaneous resolution of hepatic portal venous gas associated with cocaine-induced intestinal ischemia.

Hepatic portal venous gas (HPVG) is a rare disease entity. It is an ominous finding, usually, associated with intraabdominal ischemic necrosis. It frequently requires emergent surgical intervention. Herein, we present a case of a patient who complained of intense abdominal pain, with radiographic findings of HPVG as a result of cocaine-induced vascular insufficiency. After 5 h of nonoperative and conservative management, the HPVG spontaneously resolved. The patient clinically improved and was discharged home in a stable condition.

Patterns of Candida biofilm on intrauterine devices.

Biofilms are colonies of microbial cells encased in a self-produced organic polymeric matrix and represent a common mode of microbial growth. Microbes growing as biofilm are highly resistant to commonly used antimicrobial drugs. We aimed to screen and characterize biofilm formation by different isolates of Candida on removed intrauterine devices (IUDs), to perform experimental biofilm formation with isolated strains, and to examine biofilm by the crystal violet and XTT reduction assays and scanning electron microscopy (SEM). A total of 56 IUDs were examined for biofilm formation using Sabouraud's dextrose chloramphenicol agar. Suspected colonies were identified by different methods. Antifungal susceptibility testing with fluconazole (FLU) and amphotericin B for the isolated strains and in vitro experimental biofilm formation was carried out. The biofilm was quantified by crystal violet, XTT reduction assay and SEM. Among the 56 IUDs investigated, 26 were Candida positive (46.4 %). Candida albicans was recovered from 15 isolates. The biofilm MIC of FLU was increased 64 to 1000 times compared to the MIC for planktonic cells. The XTT method results were dependent on the Candida species; biofilm formation was highest in Candida krusei and Candida glabrata strains, followed by C. albicans and Candida tropicalis. SEM of Candida biofilm revealed a heterogeneous thick biofilm with a mixture of micro-organisms. The main conclusion from this study was non-albicans Candida represents more than a half of the Candida biofilm. Better understanding of Candida biofilms may lead to the development of novel therapeutic approaches for the treatment of fungal infections, especially resistant ones among IUD users.