Your search keyword '"Dalla Rosa M."' showing total 294 results

251. Measurement of the Gamma-Ray-to-Neutron Branching Ratio for the Deuterium-Tritium Reaction in Magnetic Confinement Fusion Plasmas.

Author

Dal Molin A, Marcer G, Nocente M, Rebai M, Rigamonti D, Angelone M, Bracco A, Camera F, Cazzaniga C, Craciunescu T, Croci G, Dalla Rosa M, Giacomelli L, Gorini G, Kazakov Y, Khilkevitch EM, Muraro A, Panontin E, Perelli Cippo E, Pillon M, Putignano O, Scionti J, Shevelev AE, Žohar A, and Tardocchi M

Abstract

At present, magnetic confinement fusion devices rely solely on absolute neutron counting as a direct way of measuring fusion power. Absolute counting of deuterium-tritium gamma rays could provide the secondary neutron-independent technique required for the validation of scientific results and as a licensing tool for future power plants. However, this approach necessitates an accurate determination of the gamma-ray-to-neutron branching ratio. The gamma-ray-to-neutron branching ratio for the deuterium-tritium reaction ^{3}H(^{2}H,γ)^{5}He/^{3}H(^{2}H,n)^{4}He was determined in magnetic confinement fusion plasmas at the Joint European Torus in predominantly deuterium beam heated plasmas. The branching ratio was found to be equal to (2.4±0.5)×10^{-5} over the deuterium energy range of (80±20)  keV. This accurate determination of the deuterium-tritium branching ratio paves the way for a direct and neutron-independent measurement of fusion power in magnetic confinement fusion reactors, based on the absolute counting of deuterium-tritium gamma rays.

Published

2024

252. Cementless Primary Stems in Revision Hip Arthroplasty: A Narrative Review.

Author

Castagnini F, Pardo F, Lucchini S, Rotini M, Cavalieri B, Dalla Rosa M, Vitacca S, Di Martino A, Faldini C, and Traina F

Abstract

Cementless primary stems in revision hip arthroplasties may be conservative options to preserve bone stock and provide adequate reconstruction of the hip biomechanics. However, there is still little evidence about indications, limitations, and outcomes. This narrative review showed that conventional standard stems were adopted in different revision settings, up to Paprosky IIIA grade bone defects. In cases of acceptable metaphyseal bone stock, when a scratch fit of at least 4 cm can be achieved, a conventional cementless stem may be an adequate solution. Mid-term clinical and radiographic outcomes and survival rates were similar to long revision stems, whereas complications, surgical time, and costs were lower among conventional stems. However, unsuitable contexts for conventional stems included canal diameters larger than 18 mm and failed revision stems with cortical weakening. Even short stems can be considered in revisions, in order to preserve bone stock and stay proximal to femoral remodeling zones and bone/cement plugs. Short stems were successfully adopted up to Paprosky IIIA bone defects, achieving mid-term survival rates not inferior to long revision stems. Ageing, osteoporosis, and intraoperative femoral fractures were the main negative prognostic factors. In very select cases, a downsizing technique (from longer to shorter stems) may be adopted to simplify the procedure and reduce complications.

Published

2024

253. Effect of plasma-activated water (PAW) soaking on the lipid oxidation of sardine (Sardina pilchardus) fillets.

Author

Mozzon M, Foligni R, Mannozzi C, Galdenzi F, Laurita R, Tappi S, and Dalla Rosa M

Subjects

Animals, Seafood analysis, Fishes, Cholesterol, Fatty Acids, Water

Abstract

The efficacy of plasma-activated water (PAW) as a chemical-free and environmentally friendly preservative has been documented for a variety of foods, but the onset of lipid oxidation induced by plasma-reactive species has been less extensively studied. In this work, global indices (peroxide value, UV specific absorbance) and direct analytical determinations of volatile and non-volatile oxidation products were performed on sardine lipids extracted from fish fillets immersed in PAW (treatments) and distilled water (controls) for 10-30 min. Evidence of PAW-induced lipid oxidation was provided by higher UV specific absorbances and higher levels of C5-C9 secondary volatile oxidation products in the treated samples. However, the degree of fatty acid oxidation was not sufficient to cause a significant reduction in nutritionally valuable eicosapentaenoic acid and docosahexaenoic acid. Twelve cholesterol oxidation products (COPs) were identified in the sardine lipids, but no significant differences in total COPs content were found between PAW processed and control samples., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2024

254. Editorial: Classification of foods according to their processing level.

Author

Sobral PJDA, Lenart A, and Dalla Rosa M

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2023

255. The Impact of Plasma Activated Water Treatment on the Phenolic Profile, Vitamins Content, Antioxidant and Enzymatic Activities of Rocket-Salad Leaves.

Author

Abouelenein D, Mustafa AM, Nzekoue FK, Caprioli G, Angeloni S, Tappi S, Castagnini JM, Dalla Rosa M, and Vittori S

Abstract

Plasma activated water (PAW) recently received much attention as an alternative food preservation method. However, its effects on food quality are still scarce. This study evaluates the effect of PAW processing time on bioactive compounds of rocket-salad leaves including: 18 phenolic compounds, vitamin C, riboflavin, nicotinic acid, and nicotinamide. Moreover, the impact of PAW on both antioxidant (DPPH) and peroxidase (POD) activities was also investigated. This was performed using HPLC-DAD, HPLC-MS/MS, and spectrophotometric analysis. All treatments induced non-significant increases in total phenolic contents. However, depending on processing time, significant increases or decreases of individual phenolic compounds were observed. PAW-10 and -20 increased the ascorbic acid content to 382.76 and 363.14 mg/100 g, respectively, compared to control (337.73 mg/100 g). Riboflavin and nicotinic acid contents were increased significantly in PAW-20 (0.53 and 1.26 mg/100), compared to control (0.32 and 0.61 mg/100 g, respectively). However, nicotinamide showed non-significant increase in all treatments. Antioxidant activity improved significantly only in PAW-20, while peroxidase activity was reduced up to 36% in the longest treatment. In conclusion, PAW treatment could be an effective technique for rocket decontamination since it positively influenced the quality of rocket, improving the retention of polyphenols and vitamins.

Published

2022

256. Rheological and Viscoelastic Properties of Chitosan Solutions Prepared with Different Chitosan or Acetic Acid Concentrations.

Author

do Amaral Sobral PJ, Gebremariam G, Drudi F, De Aguiar Saldanha Pinheiro AC, Romani S, Rocculi P, and Dalla Rosa M

Abstract

Chitosan (Ch) is a partially crystalline biopolymer, insoluble in pure water but soluble in acid solutions. It has attracted interest from researchers to prepare solutions using different acid types and concentrations. This research aims to study both the effect of chitosan (Ch) or acetic acid (Ac) concentrations, at different temperatures, on rheological and viscoelastic properties of Ch solutions. To study the effect of Ch, solutions were prepared with 0.5−2.5 g Ch/100 g of solution and Ac = 1%, whereas to study the effect of Ac, the solutions were prepared with 2.0 g of Ch/100 g of solution and Ac = 0.2−1.0%. Overall, all analyzed solutions behaved as pseudoplastic fluid. The Ch strongly affected rheological properties, the consistency index (K) increased and the index flow behavior (n) decreased as a function of Ch. The activation energy, defined as the energy required for the molecule of a fluid to move freely, was low for Ch = 0.5%. The effect of Ac was less evident. Both K and n varied according to a positive and negative, respectively, parabolic model as a function of Ac. Moreover, all solutions, irrespective of Ch and Ac, behaved as diluted solutions, with G” > G’. The relaxation exponent (n”) was always higher than 0.5, confirming that these systems behaved as a viscoelastic liquid. This n” increased with Ch, but it was insensitive to Ac, being slightly higher at 45 °C.

Published

2022

257. Characterization and evaluation of the influence of an alginate, cocoa and a bilayer alginate-cocoa coating on the quality of fresh-cut oranges during storage.

Author

Glicerina V, Siroli L, Betoret E, Canali G, Dalla Rosa M, Lanciotti R, and Romani S

Subjects

Alginates chemistry, Fruit chemistry, Vegetables, Citrus sinensis, Food Preservation

Abstract

Background: Fresh-cut products are ready-to-use goods which retain the fresh characteristics of raw produce. However, numerous factors restrict the quality and shelf-life of fresh-cut products. One of the most promising, convenient and safe technologies to preserve the quality and to prolong the shelf-life of fresh fruits and vegetables is the application of edible coatings., Results: The aim of this study was to investigate the effects of different coatings (alginate-based, cocoa-based and a combination of them) on physicochemical, microbiological and sensory characteristics of fresh-cut oranges during storage. Preliminary rheological analyses were performed on coatings in order to characterize them. The three different coated orange samples were packaged in polyethylene terephthalate trays under atmospheric conditions and stored for 9 days at 6 °C. During storage, all samples were analysed for water activity, moisture, colour, texture, microbiological analyses and sensory quality. Orange samples coated with sodium alginate maintained the highest quality characteristics in terms of texture and microbiological properties, but not from a sensory point of view. Samples coated only with cocoa presented very high sensory attributes, but the lowest microbiological and textural quality. Samples covered in both alginate and cocoa demonstrated the best quality parameters throughout the whole storage period, including high sensory characteristics and the lowest microbiological cell loads (yeast and mesophilic aerobic bacteria under the threshold limit of 6.0 log cfu g -1 )., Conclusion: The bilayer coating represented the best solution in order to develop new ready to-eat-fresh oranges with both high textural and sensory attributes and prolonged shelf-life. © 2022 Society of Chemical Industry., (© 2022 Society of Chemical Industry.)

Published

2022

258. Impact of Cold Atmospheric Plasma (CAP) Treatments on the Oxidation of Pistachio Kernel Lipids.

Author

Foligni R, Mannozzi C, Ismaiel L, Capelli F, Laurita R, Tappi S, Dalla Rosa M, and Mozzon M

Abstract

Cold atmospheric plasma (CAP) is a non-thermal technology that could be applied for food decontamination from both biological (microorganisms) and chemical (pesticides, food allergens, mycotoxins) contaminants, thanks to the production of reactive species (RS). However, RS could also promote the onset and the progress of food lipid oxidation, which may limit the quality and acceptability of the final products. The aim of this work was to assess the oxidation degree of pistachio kernels after treatment in a surface dielectric barrier discharge (SDBD). Two different operative conditions for CAP generation were investigated, resulting in the production of high (800 ppm) or low (300 ppm) concentrations of ozone. Limited amounts of hydroperoxides (3.00-4.22 mEq O 2 /kg), thiobarbituric acid reactive substances (TBARS, 0.072-0.600 mg TEP/g oil), and phytosterol oxidation products (POPs, 14.43-17.20 μg/g) were observed in lipids of both control and plasma processed pistachios. Plasma treatments did not significantly affect the total fatty acid composition and the amounts of identified unsaponifiable matter constituents (4-desmethylsterols, 4,4-dimethylsterols, 4-methylsterols), except for an unexpected significant increase of γ-tocopherol content in extracted oils. These findings contribute to gaining further knowledge for the scale-up of CAP technology to industrial processing.

Published

2022

259. Femoral fracture in primary soft-tissue sarcoma of the thigh treated with radiation therapy: indications for prophylactic intramedullary nail.

Author

Sambri A, Gardini L, Dalla Rosa M, Zavatta G, Keskinbora M, Ferrari C, Donati DM, and Bianchi G

Subjects

Bone Nails, Fracture Healing, Humans, Thigh, Treatment Outcome, Femoral Fractures etiology, Femoral Fractures surgery, Fracture Fixation, Intramedullary, Sarcoma complications, Sarcoma radiotherapy, Sarcoma surgery, Soft Tissue Neoplasms complications, Soft Tissue Neoplasms radiotherapy, Soft Tissue Neoplasms surgery

Abstract

Introduction: Post-radiation fractures of the femur (PRF) are difficult to treat and are associated with a high risk of delayed union and non-union. We report a series of patients affected by soft tissue sarcoma (STS) of the thigh, treated with limb-sparing surgery and perioperative radiotherapy (RT), to analyse post-radiotherapy femur fracture (FF) rate and its management., Material and Methods: 547 patients treated with surgery and RT for a deep primary STS of the thigh were included. "Periosteal stripping" and "bone tangential resection" were performed in case of tumor invasion. In the case of complete bone involvement, the patient received its complete resection and econstruction., Results: Twenty-three (4.3%) patients underwent surgical procedures involving periosteum and cortical bone. In 11 (2.0%) patients a bone resection was required because of massive bone involvement. Six out of these 11 (54.5%) patients developed major complications (infection and aseptic loosening). At the time of STS excision, 11 patients (2.0%) underwent prophylactic intramedullary nailing (PIN). PRF occurred in 15 patients (3.0%) at a median follow up of 52 months (range 3-151). Among patients who developed PRF, three were treated with a prosthesis (no complications) and eight nailing (7/8, 87.5% did not heal and developed a non-union)., Conclusions: Given the potentially devastating complication of a PRF, PIN should be considered. We suggest prophylactic IM nail in patients at higher risk the time of STS excision. In other cases, IM nail can be postponed in the following years considering the prognosis., (© 2020. Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

260. The combined effect of pulsed electric field treatment and brine salting on changes in the oxidative stability of lipids and proteins and color characteristics of sea bass ( Dicentrarchus labrax ).

Author

Cropotova J, Tappi S, Genovese J, Rocculi P, Dalla Rosa M, and Rustad T

Abstract

A combined effect of pulsed electric field application and salting in a brine with 5 and 10% w/w NaCl on oxidative stability of lipids and proteins, as well as color characteristics of sea bass samples, was assessed in the study. The applied intensity of the current was set at 10 and 20 A corresponding to 300 and 600 V cm -1 , respectively. Pulsed electric field (PEF) treatment led to a significant (p < 0.05) increase in primary and secondary lipid oxidation products expressed as peroxide value, conjugated dienes and 2-thiobarbituric acid reactive substances in PEF-treated samples compared to untreated ones. Conjugated dienes, as unstable primary oxidation products, correlated with b∗-value (p < 0.05, R = 0.789), suggesting their contribution to the yellowness of the fish flesh due to fast decomposition and conversion into secondary oxidation products yielding yellow pigmentation. However, none of the fish samples treated at the higher current intensity of 20 A exceeded the acceptable level of 5 meq active oxygen/kg lipid according to the requirements of the Standard for fish oils CODEX STAN 329-2017, suggesting acceptable oxidative status quality of sea bass samples after the treatment. PEF-treated fish samples also showed a significant increase in Schiff bases and total carbonyls on day 5 and day 8 of brine salting compared to non-treated samples, revealing a strong effect of electroporation on protein oxidation., Competing Interests: The authors declare no conflict of interest., (© 2021 The Author(s).)

Published

2021

261. Intercalary bone graft of the tibia: case series and review of the literature.

Author

Giannini C, Sambri A, Dalla Rosa M, Zucchini R, Bochiccio V, Fiore M, Donati DM, and De Paolis M

Subjects

Adolescent, Adult, Bone Transplantation, Child, Fibula, Humans, Middle Aged, Neoplasm Recurrence, Local, Retrospective Studies, Tibia surgery, Treatment Outcome, Young Adult, Bone Neoplasms surgery, Plastic Surgery Procedures

Abstract

Aims: We report a series of patients treated with intercalary bone graft (IBG) of the tibia diaphysis (TD) after resection of primary bone tumors. The purpose of this study was to evaluate the mid- and long-term survival of TD IBG reconstruction in children and adults, characterizing patterns of success and failure., Methods: A total of 35 patients were included in this retrospective study. Median age was 22 years (range, 8-57). This series included 19 patients (54.3%) treated with homologous bone graft alone and 16 patients (45.7%) treated combining intercalary allograft with fibular autograft. Complications were recorded according to Henderson classification., Results: Median follow-up was 36 months (range, 1-165). Local recurrence occurred in 2 patients (5.7%) after 12 and 60 months, respectively. Major complications included graft fracture (9 cases), non-union (5 cases) and infection (4 cases). Other complications were axial deformity (2 cases), superficial infection (2 cases), compartmental syndrome (1 case)., Conclusion: Intercalary bone grafts of TD have been recommended as a reliable solution with long-term success rates and good functional outcome in more than 80% of patients. However, approximately half of the patients may require further surgeries to treat major complications (deep infection, delayed or non-union and graft fracture). Additional vascularized fibula graft may ameliorate final result.

Published

2020

262. Different reconstructive techniques for tumours of the distal tibia.

Author

Sambri A, Dalla Rosa M, Scorianz M, Guido D, Donati DM, Campanacci DA, and De Paolis M

Subjects

Adolescent, Adult, Arthrodesis, Bone Neoplasms therapy, Child, Female, Humans, Limb Salvage, Male, Retrospective Studies, Treatment Outcome, Young Adult, Ankle Joint surgery, Bone Neoplasms surgery, Orthopedic Procedures methods, Plastic Surgery Procedures methods, Tibia surgery

Abstract

Aims: The aim of this study was to report the results of three forms of reconstruction for patients with a ditsl tibial bone tumour: an intercalary resection and reconstruction, an osteoarticular reconstruction, and arthrodesis of the ankle., Methods: A total of 73 patients with a median age of 19 years (interquartile range (IQR) 14 to 36) were included in this retrospective, multicentre study., Results: Reconstructions included intercalary resection in 17 patients, osteoarticular reconstruction in 11, and ankle arthrodesis in 45. The median follow-up was 77 months (IQR 35 to 130). Local recurrence occurred in eight patients after a median of 14 months (IQR 9 to 36), without a correlation with adequacy of margins or reconstructive technique. Major complications included fracture of the graft in ten patients, nonunion of the proximal osteotomy in seven, and infection in five. In the osteoarticular group, three of 11 patients developed radiological evidence of severe osteoarthritis, but only one was symptomatic and required conversion to ankle arthrodesis. Functional evaluation showed higher values of the Musculoskeletal Tumour Society (MSTS) and American Orthopaedic Foot and Ankle Society (AOFAS) scores in the intercalary group compared with the others., Conclusion: Preservation of the epiphysis in patients with a distal tibial bone tumour is a safe and effective form of limb-sparing treatment. It requires rigorous preoperative planning after accurate analysis of the imaging. When joint-sparing resection is not indicated, ankle arthrodesis, either isolated tibiotalar or combined tibiotalar and subtalar arthrodesis, should be preferred over osteoarticular reconstruction. Cite this article: Bone Joint J 2020;102-B(11):1567-1573.

Published

2020

263. Impact of processing on the nutritional and functional value of mandarin juice.

Author

Di Nunzio M, Betoret E, Taccari A, Dalla Rosa M, and Bordoni A

Subjects

Antioxidants analysis, Ascorbic Acid analysis, Flavonoids analysis, Fruit chemistry, Nutritive Value, Phytochemicals analysis, Polyphenols analysis, Citrus chemistry, Food Handling methods, Fruit and Vegetable Juices analysis

Abstract

Background: Although phenolic compounds have a role in the health benefits of fruit juice consumption, little is known about the effect of processing on their bioaccessibility. The release of phenolic compounds from the food matrix during digestion is an important pre-requisite for their effectiveness within the human body, and so it is fundamental to identify technological treatments able to preserve not only the concentration of phytochemicals, but also their bioaccessibility. In the present study, we investigated the impact of high-pressure homogenization (HPH), alone and in the presence of 100 g kg -1 trehalose or Lactobacillus salivarius, on the bioaccessibility of flavonoids in mandarin juice. In addition, digested mandarin juices were supplemented to liver cultured cells in basal and stressed conditions to evaluate their protective effect in a biological system., Results: HPH reduced the concentration of total phenolics and main flavonoids but increased their bioaccessibility after in vitro digestion (P < 0.001). In the basal condition, supplementation with all digested juices significantly reduced intracellular reactive oxygen species (ROS) concentration (P < 0.001). Thiobarbituric acid reactive substances concentration in the medium was also reduced by supplementation with HPH-treated juices. Although pre-treatment with juices did not completely counteract the applied oxidative stress, it preserved cell viability, and cells pre-treated with juices submitted to HPH in the presence of probiotics showed the lowest ROS concentration., Conclusion: The present study represents an important step ahead in the evaluation of the impact of processing on the nutritional and functional value of food, which cannot simply be assessed based on chemical composition. © 2020 Society of Chemical Industry., (© 2020 Society of Chemical Industry.)

Published

2020

264. Design of Healthy Snack Based on Kiwifruit.

Author

Tylewicz U, Nowacka M, Rybak K, Drozdzal K, Dalla Rosa M, and Mozzon M

Subjects

Ascorbic Acid chemistry, Flavonoids chemistry, Foeniculum chemistry, Food Technology, Fragaria chemistry, Freeze Drying, Humans, Nutritive Value, Polyphenols chemistry, Spinacia oleracea chemistry, Actinidia chemistry, Antioxidants chemistry, Fruit chemistry, Plant Extracts chemistry, Snacks

Abstract

Kiwifruit is an excellent source of vitamin C and other bioactive compounds, which contribute to its high antioxidant activity. However, the fruits with small size and low weight are considered waste and are unprofitable; therefore, the production of healthy kiwifruit-based dried snacks, which contain a lot of health-beneficial ingredients, could be a viable alternative for their use. The aim of this study was to develop formulations and methods to produce attractive and nutritionally valuable dried snacks based on yellow kiwifruit. Three different puree formulations (kiwifruit; fennel; and strawberry, lemon, or spinach) with or without addition of sugar were subjected to two drying methods: freeze-drying (fruit bars) and conventional hot air drying (fruit leathers). The obtained products were analysed for their content of total polyphenols (TPs), flavonoids, and vitamin C, as well as their antioxidant activity. The results showed that snacks prepared by freeze-drying (fruit bars) presented higher TP, vitamin C, and flavonoids content than those prepared by convective drying; however, the antioxidant activity did not always follow this trend. The amount of bioactive compounds depended on the formulation used for the preparation of snacks. The effect of the sugar addition seems to be strictly related to the mix used and specific bioactive compound investigated.

Published

2020

265. Effect of Drying Process, Encapsulation, and Storage on the Survival Rates and Gastrointestinal Resistance of L. salivarius spp. salivarius Included into a Fruit Matrix.

Author

Betoret E, Betoret N, Calabuig-Jiménez L, Barrera C, and Dalla Rosa M

Abstract

In a new probiotic food, besides adequate physicochemical properties, it is necessary to ensure a minimum probiotic content after processing, storage, and throughout gastrointestinal (GI) digestion. The aim of this work was to study the effect of hot air drying/freeze drying processes, encapsulation, and storage on the probiotic survival and in vitro digestion resistance of Lactobacillus salivarius spp. salivarius included into an apple matrix. The physicochemical properties of the food products developed were also evaluated. Although freeze drying processing provided samples with better texture and color, the probiotic content and its resistance to gastrointestinal digestion and storage were higher in hot air dried samples. Non-encapsulated microorganisms in hot air dried apples showed a 79.7% of survival rate versus 40% of the other samples after 28 days of storage. The resistance of encapsulated microorganisms to in vitro digestion was significantly higher ( p ≤ 0.05) in hot air dried samples, showing survival rates of 50-89% at the last stage of digestion depending on storage time. In freeze dried samples, encapsulated microorganisms showed a survival rate of 16-47% at the end of digestion. The different characteristics of the food matrix after both processes had a significant effect on the probiotic survival after the GI digestion. Documented physiological and molecular mechanisms involved in the stress response of probiotic cells would explain these results.

Published

2020

266. Glass transition of green and roasted coffee investigated by calorimetric and dielectric techniques.

Author

Iaccheri E, Ragni L, Cevoli C, Romani S, Dalla Rosa M, and Rocculi P

Subjects

Calorimetry, Differential Scanning, Transition Temperature, Vitrification, Water chemistry, Coffea chemistry, Coffee chemistry

Abstract

Solid and liquid components coexist into glassy and amorphous structures of food complex matrixes. Both states admit movements, promoting physical modifications to a more thermodynamically stable system. Green and roasted coffee beans are principally characterized by a glassy structure that slowly evolves during storage. The aim of this study was to assess calorimetric and dielectric properties in combination, as a useful multi-analytical technique to improve the understanding of the motion mechanism of localized molecules. After equilibration at different water activities (a w ) for the determination of sorption isotherms of green and roasted coffee, the glass transition temperature (Tg) of the samples has been measured by using differential scanning calorimetry (DSC). Increasing the a w from 0.155 to 0.512, the Tg shifted from 48.76 (±0.04) to 34.89 (±0.02) °C for green coffee and from 45.73 (±0.05) to 40.15 (±0.10) °C for the roasted one. The spectroscopic fingerprint of the matrix has been determined by dielectric measurements in terms of "gain" spectra (related to the imaginary part of permittivity). The maximum values of the determination coefficient (R 2 ), obtained by linear correlation between spectral data and water activity or glass transition values for a specific frequency of the whole range (1.6 GHz-2.7 GHz), were 0.999 and 0.943 for green, and 0.997 R 2 and 0.925 R 2 for roasted coffee respectively., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

267. Water state and sugars in cranberry fruits subjected to combined treatments: Cutting, blanching and sonication.

Author

Nowacka M, Laghi L, Rybak K, Dalla Rosa M, Witrowa-Rajchert D, and Tylewicz U

Subjects

Calorimetry, Differential Scanning, Desiccation, Fruit ultrastructure, Magnetic Resonance Spectroscopy, Microscopy, Electron, Scanning, Osmosis, Sonication, Sucrose analysis, Temperature, Vaccinium macrocarpon ultrastructure, Food Preservation methods, Fruit chemistry, Sugars analysis, Vaccinium macrocarpon chemistry, Water metabolism

Abstract

To ease the mass exchange in fruit tissues, cutting and blanching are traditionally performed. However, recently, unconventional methods such as sonication are becoming more popular, which cause several alterations of physical and chemical properties as well as microstructure changes. The aim of this work was to evaluate the distribution of water inside the cranberry fruits, microstructural changes and sugars content, following traditional and sonication pre-treatments in osmotic solutions. TD-NMR spectroscopy was used to measure the transverse relaxation time (T 2 ) and intensity of proton pools in different cellular compartments. The microstructure of the samples was evaluated by SEM microscopy, sugars content by HPLC and sucrose melting temperature and enthalpy by DSC. Different pre-treatments appeared to promote microstructure alterations and loss of water from vacuole and cytoplasm/extracellular space, more pronounced in cut and blanched samples. Cutting and blanching followed by osmotic dehydration with assisted sonication eased sucrose penetration into the tissue., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

268. Effects of Pulsed Electric Field-Assisted Osmotic Dehydration and Edible Coating on the Recovery of Anthocyanins from In Vitro Digested Berries.

Author

Oliveira G, Tylewicz U, Dalla Rosa M, Andlid T, and Alminger M

Abstract

Berry fruits, such as strawberries and blueberries, are rich sources of anthocyanins. Several studies have been made on the impact of non-thermal treatments on safety, shelf-life and nutritional characteristics of such products, but the effects of these processes on anthocyanin stability during digestion in the gastrointestinal tract are still not completely clear. The aim of this study was to assess the recovery of anthocyanins after simulated gastrointestinal digestion of (1) strawberry samples, pre-treated with pulsed electric field (PEF) at 100 or 200 V·cm -1 , prior to osmotic dehydration (OD), and (2) blueberry samples coated with chitosan and procyanidin. After digestion, a significantly higher content of cyanidin-3- O -glucoside and malvidin-3- O -glucoside was quantified by LC-MS/MS in processed strawberry and blueberry samples, compared with the controls. The highest recovery of cyanidin-3- O -glucoside was detected in digested strawberry samples osmotically dehydrated with trehalose. The recovery of malvidin-3- O -glucoside was highest in digested blueberries coated with chitosan and stored for 14 days, compared with untreated samples or samples coated with chitosan and procyanidin. Our study shows the potential of mild PEF treatments combined with OD, or the use of edible coating, to obtain shelf-stable products without substantially affecting the composition or the stability of anthocyanins during digestion in the upper gastrointestinal tract.

Published

2019

269. Chemical and physical changes during storage of differently packed biscuits formulated with sunflower oil.

Author

Balestra F, Verardo V, Tappi S, Caboni MF, Dalla Rosa M, and Romani S

Abstract

Various innovative materials are already present on the market, but there is scarce knowledge on their performances when used in real food system. In this study, two innovative packaging materials were investigated for the evaluation during storage of biscuits formulated with sunflower oil and compared to a traditional one. To this aim, three different flexible and composite film containing a metalized plastic layer and a paper layer were used. The control included orientated polypropylene (OPP), while the innovative materials contained poly-lactic acid or OPP with a pro-oxidant additive, ethylene vinyl acetate. The physical (moisture, water activity, hardness/crispness) and chemical (peroxide value, conjugated dienes and trienes, and hexanal and nonanal formation) changes of biscuits were monitored during accelerated storage (35 °C and 50% of relative humidity for 105 days). Packaging materials did not have significant impact on textural quality of biscuits. Instead remarkable differences were observed during storage in the evolution of different lipid oxidation compounds, moisture content and water activity among differently packed biscuits. A new ecofriendly packaging showed the best performances in terms of physico-chemical quality of biscuits. The obtained results provide useful information for industrial application., (© Association of Food Scientists & Technologists (India) 2019.)

Published

2019

270. Characterization of Composite Edible Films Based on Pectin/Alginate/Whey Protein Concentrate.

Author

Chakravartula SSN, Soccio M, Lotti N, Balestra F, Dalla Rosa M, and Siracusa V

Abstract

Edible films and coatings gained renewed interest in the food packaging sector with polysaccharide and protein blending being explored as a promising strategy to improve properties of edible films. The present work studies composite edible films in different proportions of pectin (P), alginate (A) and whey Protein concentrate (WP) formulated with a simplex centroid mixture design and evaluated for physico-chemical characteristics to understand the effects of individual components on the final film performance. The studied matrices exhibited good film forming capacity, except for whey protein at a certain concentration, with thickness, elastic and optical properties correlated to the initial solution viscosity. A whey protein component in general lowered the viscosity of the initial solutions compared to that of alginate or pectin solutions. Subsequently, a whey protein component lowered the mechanical strength, as well as the affinity for water, as evidenced from an increasing contact angle. The effect of pectin was reflected in the yellowness index, whereas alginate and whey protein affected the opacity of film. Whey protein favored higher opacity, lower gas barrier values and dense structures, resulting from the polysaccharide-protein aggregates. All films displayed however good thermal stability, with degradation onset temperatures higher than 170 °C.

Published

2019

271. Influence of Pulsed Electric Field and Ohmic Heating Pretreatments on Enzyme and Antioxidant Activity of Fruit and Vegetable Juices.

Author

Mannozzi C, Rompoonpol K, Fauster T, Tylewicz U, Romani S, Dalla Rosa M, and Jaeger H

Abstract

The objective of this work was to optimize pulsed electric field (PEF) or ohmic heating (OH) application for carrot and apple mashes treatment at different preheating temperatures (40, 60 or 80 °C). The effect of tissue disintegration on the properties of recovered juices was quantified, taking into account the colour change, the antioxidant activity and the enzyme activity of peroxidase (POD) in both carrot and apple juice and polyphenol oxidase (PPO) in apple juice. Lower ΔE and an increase of the antioxidant activity were obtained for juice samples treated with temperature at 80 °C with or without PEF and OH pretreatment compared with those of untreated samples. The inactivation by 90% for POD and PPO was achieved when a temperature of 80 °C was applied for both carrot and apple mash. A better retention of plant secondary metabolites from carrot and apple mashes could be achieved by additional PEF or OH application. Obtained results are the basis for the development of targeted processing concepts considering the release, inactivation and retention of ingredients.

Published

2019

272. (Ultra) High Pressure Homogenization Potential on the Shelf-Life and Functionality of Kiwifruit Juice.

Author

Patrignani F, Mannozzi C, Tappi S, Tylewicz U, Pasini F, Castellone V, Riciputi Y, Rocculi P, Romani S, Caboni MF, Gardini F, Lanciotti R, and Dalla Rosa M

Abstract

The increasing competition within the food industry sector makes the requisite of innovation in processes and products essential, leading to focus the interest on the application of new processing technologies including high pressure homogenization (HPH) and ultra high pressure homogenization (UHPH). In this context, the present research aimed at evaluating the effects of two UHPH treatments performed at 200 MPa for 2 and 3 cycles on quality and functionality of organic kiwifruit juice stored at three different temperatures, i.e., 5, 15, and 25°C. The results showed that only the treatment performed at 200 MPa for 3 cycles was able to significantly increase the shelf-life of organic kiwifruit juices when stored at refrigeration temperature, avoiding also phase separation that occurred in the sample treated at 0.1 MPa (control) after 20 days of refrigerated storage. The obtained data showed also that the highest applied pressure was able to increase some quality parameters of the juice such as viscosity and luminosity (L ∗ ) and increased the availability of total phenol content consequently enhancing the juice total antioxidant activity. The application of a treatment at 200 MPa for 3 cycles allowed to obtain a stable kiwifruit juice for more than 40 days under refrigerated storage. A challenge to implement this technology in food process as full alternative to thermal treatment could be represented by the adoption of pressure level up to 400 MPa followed by the packaging in aseptic conditions.

Published

2019

273. Influence of power ultrasound on the main quality properties and cell viability of osmotic dehydrated cranberries.

Author

Nowacka M, Fijalkowska A, Wiktor A, Dadan M, Tylewicz U, Dalla Rosa M, and Witrowa-Rajchert D

Subjects

Cell Survival physiology, Diterpenes, Kaurane chemistry, Dose-Response Relationship, Radiation, Food Analysis, Glucosides chemistry, Radiation Dosage, Sucrose chemistry, Cell Survival radiation effects, Desiccation methods, Food Preservation methods, Food Quality, High-Energy Shock Waves, Osmosis radiation effects, Vaccinium macrocarpon radiation effects

Abstract

The aim of the study was to investigate the effect of ultrasound treatment in two osmotic solutions, carried out at different time, on some physical properties, antioxidant activity and cell survival of cranberries. Ultrasound treatment was conducted at 21kHz for 30 and 60min in liquid medium: 61.5% sucrose solution and 30% sucrose solution with 0.1% steviol glycosides addition. Some samples before the ultrasound treatment were subjected to cutting or blanching. The results showed that dry matter content and concentration of the dissolved substances increased during ultrasound treatment in osmotic solution, however higher value was observed for treatment in 61.5% sucrose solution and for longer time. Water activity and volume of cranberries did not change after the ultrasonic treatment. Combined treatment led to colour and antioxidant activity alterations as well. A cell viability of whole and cut samples decreased after 60min of osmotic treatment and completely lost in the blanched samples., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

274. The impact of pulsed electric fields and ultrasound on water distribution and loss in mushrooms stalks.

Author

Dellarosa N, Frontuto D, Laghi L, Dalla Rosa M, and Lyng JG

Subjects

Agaricales metabolism, Electricity, Ultrasonics, Vegetables, Water metabolism, Agaricales chemistry, Food Preservation methods, Water analysis

Abstract

Pulsed electric fields (PEF) and ultrasound (US) are promising innovative technologies with the potential to increase mass transfer when combined with further processes which in turn can provide potential benefits in the recovery of valuable compounds from food by-products. To provide evidence of the mechanism of mass transfer enhancement, the present study assessed the impact of PEF and US treatments, applied individually and in combination, at low and high temperatures, on the tissue microstructure of mushroom stalks. Different indices such as quantitative water redistribution, water loss and qualitative release of compounds were evaluated. The combination of these physical methods demonstrated that PEF redistributed a greater proportion of intracellular water into extracellular spaces than US. However, the application of high temperature treatments alone showed an even greater proportion of intracellular water migration compared to PEF. When PEF was combined with US at low temperatures the difference was not significant., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

275. Osmotic dehydration of organic kiwifruit pre-treated by pulsed electric fields and monitored by NMR.

Author

Traffano-Schiffo MV, Laghi L, Castro-Giraldez M, Tylewicz U, Rocculi P, Ragni L, Dalla Rosa M, and Fito PJ

Subjects

Dehydration, Fruit chemistry, Osmosis, Actinidia chemistry, Food Preservation methods

Abstract

Osmotic dehydration (OD) is a widely used preservation technique that consists in the reduction in food water activity by the immersion of the biological tissue in hypertonic solutions. The aim of this work was to analyze the effect of pulsed electric fields (PEF) in mass transfer as a pre-treatment of the OD using NMR. In this sense, PEF pre-treatments were done using three different voltages (100, 250 and 400V/cm) and 60 number of pulse. The OD of kiwifruit was carried out in 61.5% of sucrose solution at 25°C, for a contact period from 0 to 120min. The water distribution into the cellular tissue was studied by NMR relaxometry. In conclusion, NMR is an excellent technique for quantifying water molecules according to their interactions in the fruit tissue, obtaining the adsorbed water and opening the possibility to apply the BET model to fit the adsorbed isotherm over the whole range of water activity., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

276. The influence of carrier material on some physical and structural properties of carrot juice microcapsules.

Author

Janiszewska-Turak E, Dellarosa N, Tylewicz U, Laghi L, Romani S, Dalla Rosa M, and Witrowa-Rajchert D

Subjects

Capsules, Gum Arabic, Powders, Daucus carota chemistry, Drug Compounding

Abstract

This study investigates the effect of carrier type on the physical and structural properties of microcapsules of pure carrot juice. Low-crystallised maltodextrin (MD), gum arabic (GA), mixtures of MD and GA (1:1; 2:1; 3:1) and whey protein isolate (WPI) were used as carriers. Microencapsulation was carried out in a spray-drier at inlet air temperature of 160°C. Powders were investigated for dry matter, water activity, diameter, carotene content and hygroscopicity. In addition, differential scanning calorimetry (DSC) and time domain nuclear magnetic resonance (TD-NMR) were applied to analyse microcapsules glass transition temperature (Tg). Carrot powders with GA used as a carrier material resulted in better carotenoids retention and higher stability of powders in terms of higher Tg, lower a w and good hygroscopic properties. However, all powders showed a low a w (below 0.26) and high dry matter content (98-99%) indicating a good potential for protection of microencapsulated carotenoids during the storage., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

277. Influence of the addition of soy product and wheat fiber on rheological, textural, and other quality characteristics of pizza.

Author

Glicerina V, Balestra F, Capozzi F, Dalla Rosa M, and Romani S

Abstract

The effect of partial replacement of wheat flour with soy paste and wheat fiber on rheological, textural, physicochemical, and organoleptic characteristics of an enriched pizza base (E) was investigated in comparison with those of a control pizza base (C). New ingredients (e.g., enriched cooked ham, whey cheese, and tomato sauce realized using food industry by-products) were also used in E pizza topping to further increase its nutritional properties. Enriched dough was developed first at a laboratory level. Large and small deformation, moisture, leavening activity, and metabolic heat were tested. On the final product, produced at the industrial level, textural, color, sensory, and nutritional analyses were performed. Preliminary rheological analysis was essential to evaluate the suitability of the new pizza to be processed at industrial level. Both pizza dough samples showed a solid elastic-like behavior; however, the addition of soy and fiber increased moisture content of E pizza, due to the water binding ability of soy protein and to the effect of fibers that also decreased E dough elasticity. No differences in extensibility between the two samples were observed, whereas significantly lower values of resistance to extension and dough force were shown in sample E. These differences were likely due to the presence of soy that interfere with gluten formation and to the dietary fibers that interact with water. Ingredients used in E pizza improved its nutritional quality increasing dietary fibers and protein, and decreasing saturated fatty acids and cholesterol content, which contributed to decrease energy value, in terms of kilocalorie reduction., Practical Applications: In this work, the effects of using new ingredients (e.g., soy paste, wheat fiber) on the rheological, textural, physicochemical, nutritional, and organoleptic characteristics of an enriched pizza type were investigated both at laboratory and industrial levels. The new pizza provides a product that combines solid technological performances, in terms of rheological properties and dough elasticity, with improved and balanced nutritional quality, thanks also to the ingredients used in the topping. Results demonstrate the possibility of obtaining new pizza products characterized by nutritional and sensorial properties tailored for different group of consumers., (© 2017 Wiley Periodicals, Inc.)

Published

2017

278. Performance of Poly(lactic acid) Surface Modified Films for Food Packaging Application.

Author

Siracusa V, Dalla Rosa M, and Iordanskii AL

Abstract

Five Poly(lactic acid) (PLA) film samples were analyzed to study the gas barrier behavior, thermal stability and mechanical performance for food packaging application. O₂, CO₂, N₂, N₂O, and C₂H₄ pure gases; Air; and Modified Atmosphere (MA, 79% N₂O/21% O₂) were used to analyze the influence of the chemical structure, storage temperature and crystalline phase on the gas barrier behavior. The kinetic of the permeation process was investigated at different temperatures, ranging from 5 °C to 40 °C. Annealing thermal treatment on the samples led to the crystalline percentage, influencing especially the gas solubility process. Thermal properties such as T g and χ c , and mechanical properties such as tensile strength and modulus were remarkably improved with surface PLA modification. A more pronounced reinforcing effect was noted in the case of metallization, as well as improved gas barrier performance. Tensile testing and tensile cycling tests confirmed the rigidity of the films, with about a 20% loss of elasticity after 25 cycles loading., Competing Interests: The authors declare no conflicts of interest or state. The founding sponsors had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, and in the decision to publish the results”.

Published

2017

279. Optimization of Vacuum Impregnation with Calcium Lactate of Minimally Processed Melon and Shelf-Life Study in Real Storage Conditions.

Author

Tappi S, Tylewicz U, Romani S, Siroli L, Patrignani F, Dalla Rosa M, and Rocculi P

Abstract

Vacuum impregnation (VI) is a processing operation that permits the impregnation of fruit and vegetable porous tissues with a fast and more homogeneous penetration of active compounds compared to the classical diffusion processes. The objective of this research was to investigate the impact on VI treatment with the addition of calcium lactate on qualitative parameters of minimally processed melon during storage. For this aim, this work was divided in 2 parts. Initially, the optimization of process parameters was carried out in order to choose the optimal VI conditions for improving texture characteristics of minimally processed melon that were then used to impregnate melons for a shelf-life study in real storage conditions. On the basis of a 2 3 factorial design, the effect of Calcium lactate (CaLac) concentration between 0% and 5% and of minimum pressure (P) between 20 and 60 MPa were evaluated on color and texture. Processing parameters corresponding to 5% CaLac concentration and 60 MPa of minimum pressure were chosen for the storage study, during which the modifications of main qualitative parameters were evaluated. Despite of the high variability of the raw material, results showed that VI allowed a better maintenance of texture during storage. Nevertheless, other quality traits were negatively affected by the application of vacuum. Impregnated products showed a darker and more translucent appearance on the account of the alteration of the structural properties. Moreover microbial shelf-life was reduced to 4 d compared to the 7 obtained for control and dipped samples., (© 2016 Institute of Food Technologists®.)

Published

2016

280. Effect of freezing on microstructure and degree of syneresis in differently formulated fruit fillings.

Author

Cropotova J, Tylewicz U, Dellarosa N, Laghi L, Romani S, and Dalla Rosa M

Subjects

Colloids chemistry, Freezing, Magnetic Resonance Spectroscopy, Pectins chemistry, Polysaccharides, Bacterial chemistry, Water chemistry, Fruit chemistry

Abstract

This study describes the syneresis and its effect on microstructure in fruit fillings within a wide range of the total soluble solids content and with or without hydrocolloids upon freezing. Linear models showed the relevance of the addition of pectin and gellan gum to fillings to prevent syneresis, increasing the water-holding capacity especially after freezing. Microstructural experiments by means of NMR spin-spin relaxometry combined with fluorescence microscopy allowed to observe that the continuous hydrocolloid gel, containing the dispersed solution of native fruit parts with the addition of inulin and sugars, changed its structure/distribution according to the amount of each ingredient and due to the freezing process. Relaxometry results confirmed that hydrocolloids strength was correlated (R(2)>0.92) with water-holding capacity, due to a relationship between the signal given by the water chemically exchanging with biopolymers, and the changes in the degree of syneresis., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

281. Moisture adsorption behaviour of biscuit during storage investigated by using a new Dynamic Dewpoint method.

Author

Romani S, Rocculi P, Tappi S, and Dalla Rosa M

Subjects

Adsorption, Flour analysis, Food Storage, Triticum chemistry, Water chemistry

Abstract

The changes in moisture adsorption isotherms of commercial biscuits during storage were investigated by means of a rapid Dynamic Dewpoint Isotherms (DDIs) method. Moreover, the relationships between the changes in moisture content and some quality characteristics of biscuits (moisture, aw, peroxide value - PV and texture) were studied during 92 days of storage at 35 °C. GAB model was used to fit the experimental sorption behaviours. During storage, moisture content and aw of biscuits increased and the obtained isotherms showed modifications in behaviour and shape. Significant changes were observed in PV values and texture, particularly during the first 40 days of storage. The monolayer moisture content, obtained by the BET equation, significantly increased during storage from 1.473 to 2.080 g water 100 g db(-1), probably because of the increase in the active sites for water binding due to the chemical and physical changes of the main components, induced by product ageing., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

282. A novel fluorescence microscopy approach to estimate quality loss of stored fruit fillings as a result of browning.

Author

Cropotova J, Tylewicz U, Cocci E, Romani S, and Dalla Rosa M

Subjects

Antioxidants analysis, Furaldehyde chemistry, Food Additives analysis, Fruit chemistry, Furaldehyde analogs & derivatives, Microscopy, Fluorescence methods, Polyphenols analysis

Abstract

The aim of the present study was to estimate the quality deterioration of apple fillings during storage. Moreover, a potentiality of novel time-saving and non-invasive method based on fluorescence microscopy for prompt ascertainment of non-enzymatic browning initiation in fruit fillings was investigated. Apple filling samples were obtained by mixing different quantities of fruit and stabilizing agents (inulin, pectin and gellan gum), thermally processed and stored for 6-month. The preservation of antioxidant capacity (determined by DPPH method) in apple fillings was indirectly correlated with decrease in total polyphenols content that varied from 34±22 to 56±17% and concomitant accumulation of 5-hydroxymethylfurfural (HMF), ranging from 3.4±0.1 to 8±1mg/kg in comparison to initial apple puree values. The mean intensity of the fluorescence emission spectra of apple filling samples and initial apple puree was highly correlated (R(2)>0.95) with the HMF content, showing a good potentiality of fluorescence microscopy method to estimate non-enzymatic browning., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

283. Effect of different new packaging materials on biscuit quality during accelerated storage.

Author

Romani S, Tappi S, Balestra F, Rodriguez Estrada MT, Siracusa V, Rocculi P, and Dalla Rosa M

Subjects

Ethylenes, Humidity, Lactic Acid, Lipid Peroxidation, Metals, Paper, Polyesters, Polymers, Polypropylenes, Polyvinyls, Vinyl Compounds, Water analysis, Food Packaging instrumentation, Food Preservation methods, Food Quality

Abstract

Background: The effect of innovative multilayer packaging materials versus a standard one on biscuit quality was studied during accelerated storage at 25, 35, 45 °C and 50% relative humidity for 92 days. Three different packaging materials were used: metalized orientated polypropylene (OPP)/paper (control); metalized poly-lactic acid (PLA)/paper; metalized OPP with ethylene vinyl acetate pro-oxidant additive (EVA-POA)/paper. EVA-POA additive is used to make the plastic layer biodegradable. Various quality sample parameters (moisture, water activity (aw ), texture, peroxide value (PV), hexanal) were analysed during storage. Rate constants (k) and activation energies (Ea ) of hydration reactions and hexanal formation were calculated., Results: No remarkable differences in the evolution of primary and secondary lipid oxidation were observed among differently packed biscuits during storage. All samples maintained PV levels between 4 and 14 meq O2 kg(-1) oil. The product in flexible packaging with PLA reached the highest moisture and aw levels, but they did not significantly and adversely affect the other quality characteristics., Conclusion: The obtained results demonstrate that the new tested packaging materials were suitable for commercial biscuit storage, having similar performance and preservation effects on the overall product quality to those of the standard one. Furthermore, these results could make a contribution to the food industry, encouraging the use of packaging materials with a negligible environmental impact as an alternative to petroleum-based ones., (© 2014 Society of Chemical Industry.)

Published

2015

284. Response of Pink Lady® apples to post-harvest application of 1-methylcyclopropene as a function of applied dose, maturity at harvest, storage time and controlled atmosphere storage.

Author

Cocci E, Sacchetti G, Rocculi P, and Dalla Rosa M

Subjects

Algorithms, Carbon Dioxide analysis, Carbon Dioxide metabolism, Chemical Phenomena, Fruit growth & development, Fruit metabolism, Humans, Italy, Malus growth & development, Malus metabolism, Mechanical Phenomena, Odorants, Pigments, Biological analysis, Pigments, Biological biosynthesis, Refrigeration, Sensation, Taste, Time Factors, Water analysis, Cyclopropanes chemistry, Food Preservatives chemistry, Food Quality, Food Storage, Fruit chemistry, Malus chemistry, Models, Biological

Abstract

Background: 1-Methylcyclopropene (1-MCP) is an inhibitor of ethylene reception used in post-harvest treatments to delay fruit ripening. Several factors affect the efficacy of 1-MCP treatments. The effect of a post-harvest treatment with 1-MCP on the quality of Pink Lady® apples as a function of 1-MCP dose, storage time and maturity at harvest was investigated. 1-MCP treatment was further tested in combination with controlled atmosphere (CA) storage., Results: 1-MCP limited fruit respiration and softening during storage and was more effective on partially matured fruits and at prolonged storage times. The delaying of 1-MCP on the increase of ripening index was greater on matured fruits at prolonged storage times. The combination of 1-MCP and CA treatments positively affected quality indices of mature apples during 6 months of storage and 7 days of commercial life, with 1-MCP being more effective than CA. 1-MCP and CA showed positive combined effects on firmness and ripening index after 6 months of storage, and on firmness and CO₂ production after a further 7 days of commercial life., Conclusion: By knowing fruit maturity at harvest and expected storage time it is possible to choose the most suitable 1-MCP dose to meet the market requirements by applying a simple polynomial model., (© 2014 Society of Chemical Industry.)

Published

2014

285. The influence of different processing stages on particle size, microstructure, and appearance of dark chocolate.

Author

Glicerina V, Balestra F, Dalla Rosa M, Bergenhstål B, Tornberg E, and Romani S

Subjects

Color, Cacao chemistry, Food Handling methods, Particle Size

Abstract

Unlabelled: The effect of different process stages on microstructural and visual properties of dark chocolate was studied. Samples were obtained at each phase of the manufacture process: mixing, prerefining, refining, conching, and tempering. A laser light diffraction technique and environmental scanning electron microscopy (ESEM) were used to study the particle size distribution (PSD) and to analyze modifications in the network structure. Moreover, colorimetric analyses (L*, h°, and C*) were performed on all samples. Each stage influenced in stronger way the microstructural characteristic of products and above all the PSD. Sauter diameter (D [3.2]) decreased from 5.44 μm of mixed chocolate sample to 3.83 μm, of the refined one. ESEM analysis also revealed wide variations in the network structure of samples during the process, with an increase of the aggregation and contact point between particles from mixing to refining stage. Samples obtained from the conching and tempering were characterized by small PS, and a less dense aggregate structure. From color results, samples with the finest particles, having larger specific surface area and the smallest diameter, appeared lighter and more saturated than those with coarse particles., Practical Application: Final quality of food dispersions is affected by network and particles characteristics. The deep knowledge of the influence of single processing stage on chocolate microstructural properties is useful in order to improve or modify final product characteristics. ESEM and laser diffraction are suitable techniques to study changes in chocolate microstructure., (© 2014 Institute of Food Technologists®)

Published

2014

286. Gas permeability and thermal behavior of polypropylene films used for packaging minimally processed fresh-cut potatoes: a case study.

Author

Siracusa V, Blanco I, Romani S, Tylewicz U, and Dalla Rosa M

Subjects

Atmosphere, Calorimetry, Differential Scanning, Carbon Dioxide metabolism, Food Preservation methods, Food Storage, Nitrogen metabolism, Oxygen metabolism, Permeability, Spectroscopy, Fourier Transform Infrared, Temperature, Thermogravimetry, Food Packaging methods, Gases metabolism, Polypropylenes metabolism, Solanum tuberosum chemistry

Abstract

Unlabelled: This work reports an experimental study on the permeability and thermal behavior of commercial polypropylene (PP) film used for fresh-cut potatoes packaging. The permeability was tested using oxygen, carbon dioxide, nitrogen, mix of these 3 gases, normally used for modified atmosphere packaging (MAP) and Air, to understand if it would be possible to extend the shelf life of this food product designed for the catering field in respect to the packaging behavior. The temperature influence on permeability data, from 5 to 40 °C, was analyzed, before and after 4, 8, 12, 15, and 20 d of food contact, pointing out the dependence between temperature and gas transmission rate (GTR), solubility (S), diffusion coefficient (D), and time lag (t(L)) parameters. The activation energies (E) of the permeation process were determined with the different gases used in the experiments. The thermal behavior of PP film was studied by differential scanning calorimetry (DSC) and thermogravimetric analysis (TG) to well understand its thermal stability. Fourier transformed-infrared with attenuated total reflectance (FT-IR/ATR) spectroscopy was also performed in order to study the influence of the food contact on the chemical characteristics of the polymer film. The results obtained were discussed and compared each other. Studied samples showed, for all investigated gases, an increase of gas permeability and S values at higher temperature. Heat resistance classification among the sample as it is and stored in modified atmospheres was made. Finally all performed experiments have showed good polymer stability for the shelf-life storage potatoes under study., Practical Application: Study of packaging material was performed in a range of temperature, which can simulate the service condition to assess the suitability of a commercial polymer film for modified atmosphere packaging of fresh-cut potatoes minimally processed designed for catering purpose., (© 2012 Institute of Food Technologists®)

Published

2012

287. Evaluation of coffee roasting degree by using electronic nose and artificial neural network for off-line quality control.

Author

Romani S, Cevoli C, Fabbri A, Alessandrini L, and Dalla Rosa M

Subjects

Chemical Phenomena, Cooking, Principal Component Analysis, Quality Control, Reproducibility of Results, Time Factors, Coffee chemistry, Electronic Nose, Neural Networks, Computer

Abstract

Unlabelled: An electronic nose (EN) based on an array of 10 metal oxide semiconductor sensors was used, jointly with an artificial neural network (ANN), to predict coffee roasting degree. The flavor release evolution and the main physicochemical modifications (weight loss, density, moisture content, and surface color: L*, a*), during the roasting process of coffee, were monitored at different cooking times (0, 6, 8, 10, 14, 19 min). Principal component analysis (PCA) was used to reduce the dimensionality of sensors data set (600 values per sensor). The selected PCs were used as ANN input variables. Two types of ANN methods (multilayer perceptron [MLP] and general regression neural network [GRNN]) were used in order to estimate the EN signals. For both neural networks the input values were represented by scores of sensors data set PCs, while the output values were the quality parameter at different roasting times. Both the ANNs were able to well predict coffee roasting degree, giving good prediction results for both roasting time and coffee quality parameters. In particular, GRNN showed the highest prediction reliability., Practical Application: Actually the evaluation of coffee roasting degree is mainly a manned operation, substantially based on the empirical final color observation. For this reason it requires well-trained operators with a long professional skill. The coupling of e-nose and artificial neural networks (ANNs) may represent an effective possibility to roasting process automation and to set up a more reproducible procedure for final coffee bean quality characterization., (© 2012 Institute of Food Technologists®)

Published

2012

288. Effect of steam cooking on the residual enzymatic activity of potatoes cv. Agria.

Author

Alessandrini L, Romani S, Rocculi P, Sjöholm I, and Dalla Rosa M

Subjects

Carboxylic Ester Hydrolases metabolism, Chemical Phenomena, Enzyme Activation, Enzyme Stability, Hexuronic Acids metabolism, Hot Temperature adverse effects, Isoenzymes metabolism, Kinetics, Plant Tubers chemistry, Protein Denaturation, Solanum tuberosum chemistry, Specific Gravity, Starch analysis, Starch metabolism, Steam adverse effects, Water analysis, alpha-Amylases metabolism, beta-Amylase metabolism, Cooking methods, Plant Proteins, Dietary metabolism, Plant Tubers enzymology, Solanum tuberosum enzymology

Abstract

Background: The aim of this work was to study the influence of steam cooking on pectin methylesterase (PME) and endogenous α- and β-amylase activities in different tissues (cortex and pith) of raw and heat-treated potatoes cv. Agria. Three different cooking temperatures were chosen (55, 70 and 85 °C). For each cooking trial, time-temperature profiles were recorded and the degree of cooking was expressed in terms of cooking factor., Results: Steam cooking contributed to significantly activate PME at 55 °C and to reduce its activity at the final processing temperature (85 °C), with the highest amount in the cortex (0.3745 ± 0.0007 µmol galacturonic acid (GA) g(-1) fresh weight (FW) min(-1) ) compared with the pith (0.2617 ± 0.0012 µmol GA g(-1) FW min(-1) ). The presence of heat-labile and heat-stable isoforms of PME in the considered potato tissues was also assumed. Heat treatment by steam resulted in a significant decrease in endogenous α- and β-amylase activities in both tissues compared with the raw potato, though without complete deactivation. Starch-degrading enzymes were also found to be differently distributed in the raw tuber., Conclusion: Steam cooking affected in different ways the assessed residual enzymatic activity in the considered tissues of potatoes cv. Agria. Further research is needed to confirm the results obtained., (Copyright © 2011 Society of Chemical Industry.)

Published

2011

289. Role of water state and mobility on the antiplasticization of green and roasted coffee beans.

Author

Rocculi P, Sacchetti G, Venturi L, Cremonini M, Dalla Rosa M, and Pittia P

Subjects

Coffea chemistry, Cooking methods, Seeds chemistry, Water analysis

Abstract

The effect of water on "antiplasticization" and plasticization of green and roasted coffee was studied by textural analysis, sorption isotherms, differential scanning calorimetry (DSC), and nuclear magnetic resonance (NMR). From BET monolayer value to a(w) = 0.61 and 0.75 for green and roasted coffee, respectively, the solid matrix hydration occurred and water induced hardening. Very short NMR T(2) values and the concomitant absence of any DSC endothermic peak assignable to water freezing were observed at these a(w) values. When solid matrix hydration was completed, water started to act as a plasticizing agent, the compressive modulus started to decrease, and NMR revealed the appearance of a new proton pool with increased mobility. According to DSC, only when the plasticizing effect became important did water present enough mobility to freeze. Above this moisture value (a(w) = 0.78 and 0.86 for green and roasted coffee, respectively), water determined a decrease of bean hardness and a further decrease of the elastic modulus.

Published

2011

290. Near infrared spectroscopy: an analytical tool to predict coffee roasting degree.

Author

Alessandrini L, Romani S, Pinnavaia G, and Dalla Rosa M

Subjects

Calibration, Cooking standards, Regression Analysis, Reproducibility of Results, Sensitivity and Specificity, Spectrophotometry, Infrared, Time Factors, Coffee chemistry, Cooking methods

Abstract

The main purpose of this study was to investigate the relationship between some coffee roasting variables (weight loss, density and moisture) with near infrared (NIR) spectra of original green (i.e. raw) and differently roasted coffee samples, in order to test the availability of non-destructive NIR technique to predict coffee roasting degree. Separate calibration and validation models, based on partial least square (PLS) regression, correlating NIR spectral data of 168 representatives and suitable green and roasted coffee samples with each roasting variable, were developed. Using PLS regression, a prediction of the three modelled roasting responses was performed. High accuracy results were obtained, whose root mean square errors of the residuals in prediction (RMSEP) ranged from 0.02 to 1.23%. Obtained data allowed to construct robust and reliable models for the prediction of roasting variables of unknown roasted coffee samples, considering that measured vs. predicted values showed high correlation coefficients (r from 0.92 to 0.98). Results provided by calibration models proposed were comparable in terms of accuracy to the conventional analyses, revealing a promising feasibility of NIR methodology for on-line or routine applications to predict and/or control coffee roasting degree via NIR spectra.

Published

2008

291. Water absorption of freeze-dried meat at different water activities: a multianalytical approach using sorption isotherm, differential scanning calorimetry, and nuclear magnetic resonance.

Author

Venturi L, Rocculi P, Cavani C, Placucci G, Dalla Rosa M, and Cremonini MA

Subjects

Absorption, Food Preservation, Thermodynamics, Calorimetry, Differential Scanning, Freeze Drying, Magnetic Resonance Spectroscopy, Meat analysis, Water chemistry

Abstract

Hydration of freeze-dried chicken breast meat was followed in the water activity range of aw=0.12-0.99 by a multianalytical approach comprising of sorption isotherm, differential scanning calorimetry (DSC), and nuclear magnetic resonance (NMR). The amount of frozen water and the shape of the T2-relaxogram were evaluated at each water content by DSC and NMR, respectively. Data revealed an agreement between sorption isotherm and DSC experiments about the onset of bulk water (aw=0.83-0.86), and NMR detected mobile water starting at aw=0.75. The origin of the short-transverse relaxation time part of the meat NMR signal was also reinvestigated through deuteration experiments and proposed to arise from protons belonging to plasticized matrix structures. It is proved both by D2O experiments and by gravimetry that the extra protons not contributing to the water content in the NMR experiments are about 6.4% of the total proton NMR CPMG signal of meat.

Published

2007

292. Influence of roasting levels on ochratoxin a content in coffee.

Author

Romani S, Pinnavaia GG, and Dalla Rosa M

Subjects

Food Contamination prevention & control, Food Handling methods, Carcinogens analysis, Coffea chemistry, Hot Temperature, Ochratoxins analysis, Seeds chemistry

Abstract

Because of inconsistent and contradictory results from investigations concerning the influence of roasting process on the ochratoxin A content in coffee beans, a study was undertaken to assess the elimination of ochratoxin A during the roasting process. Four different green coffee samples, naturally contaminated with ochratoxin A, were submitted to different roasting conditions (light, medium, and dark) and analyzed for roasting parameters (weight loss, color change, density, and moisture content) and ochratoxin A content. The ochratoxin A content of green coffee was reduced by the roasting process; in particular, consistently high percentages of ochratoxin A reduction were found in the highest contaminated samples. This reduction was influenced by the severity of the thermal process and was generally related to the initial ochratoxin A content. Samples obtained with roasting parameters suitable for a typical Italian espresso coffee brew showed reductions of >90% in the ochratoxin A content, in both high and low contaminated samples. Moreover, the presence of off-flavors and visual defects was not found to be directly related to the ochratoxin A content in the green coffee samples.

Published

2003

293. [Non-small-cell lung cancer. Analysis of survival according to treatment].

Author

Aguiar S, Barrios E, Buccino A, Dalla Rosa M, Rodriguez R, and Luongo A

Subjects

Adult, Aged, Carcinoma, Non-Small-Cell Lung mortality, Carcinoma, Non-Small-Cell Lung pathology, Female, Humans, Lung Neoplasms mortality, Lung Neoplasms pathology, Male, Middle Aged, Neoplasm Staging, Proportional Hazards Models, Radiotherapy Dosage, Survival Analysis, Treatment Outcome, Carcinoma, Non-Small-Cell Lung radiotherapy, Lung Neoplasms radiotherapy

Published

2001

294. Screening on the occurrence of ochratoxin A in green coffee beans of different origins and types.

Author

Romani S, Sacchetti G, Chaves López C, Pinnavaia GG, and Dalla Rosa M

Subjects

Coffee classification, Species Specificity, Coffee chemistry, Mycotoxins analysis, Ochratoxins analysis

Abstract

Since to our knowledge no data are available in the literature regarding the influence of green coffee type and origin on ochratoxin A (OTA) content, determinations were carried out in order to assess the level of OTA contamination in green coffee samples of different provenience. A total of 162 samples of green coffee beans from various countries (84 from Africa, 60 from America, and 18 from Asia) were analyzed for OTA. Both the amount and the variability of OTA levels were tested as a function of green coffee provenience. The results showed that 106 of the overall samples were positive for OTA, with concentration ranging from 0 to 48 microg/kg (ppb). In particular, it was possible to verify that African samples were more contaminated with respect to samples of other origin in terms of frequency and level of OTA; the highest concentrations observed were 18 and 48 microg/kg in two samples from The Congo.

Published

2000