Microneedle-based delivery devices for cancer therapy: a review

Macroscale delivery systems that can be locally implanted on the tumor tissue as well as avoid all the complications associated to the systemic delivery of therapeutics have captured researchers' attention, in recent years. Particularly, the microneedle-based devices can be used to efficiently deliver both small and macro-molecules, like chemotherapeutics, proteins, and genetic material, along with nanoparticle-based anticancer therapies. Such capacity prompted the application of microneedle devices for the development of new anticancer vaccines that can permeate the tumor tissue and simultaneously improve the effectiveness of therapeutic agents. Based on the promising results demonstrated by the microneedle systems in the local administration of anticancer therapeutics, this review summarizes the different microneedle formulations developed up to now aimed for application on cancer therapy (mphasizing those produced with polymers). Additionally, the microneedles' general properties, type of therapeutic approach and its main advantages are also highlighted.info:eu-repo/semantics/acceptedVersio

Effect of chemical treatments on respiratory process and physical parameters of melon minimally processed

Neste trabalho avaliou-se o efeito da aplicação de tratamentos químicos na atividade respiratória e no impacto sobre os parâmetros físicos de melões Amarelo minimamente processados. Frutos selecionados, lavados e sanificados foram minimamente processados em forma de cubos, divididos em quatro lotes que constaram de testemunha, cubos tratados com soluções de cloreto de cálcio (1%), ácido ascórbico (1%) e revestidos com alginato de sódio (1%); os quais foram acondicionados em bandejas com tampa, de tereftalato de polietileno (PET) e armazenados a 5±1ºC e 73±5% UR, por 12 dias. Os produtos foram avaliados quanto à taxa respiratória, produção de etileno, perda de massa fresca, coloração, textura e teor de umidade. Verificou-se que, durante o período de armazenamento, independente do tratamento, houve redução da respiração e não se detectou produção de etileno pelos frutos. A perda de massa, a textura e o teor de umidade não foram influenciados pelos tratamentos químicos, porém o uso de película à base de alginato de sódio resultou em melões de coloração mais escura da polpa, em decorrência da cor da solução filmogênica.The effect of the application of chemical treatments was evaluated on the respiratory activity and the impact on the physical parameters of fresh cut melons. Selected fruits were washed and sanitized and minimally processed in cubes, divided in four lots which consisted of: control, treated with calcium chloride (1%), with ascorbic acid (1%) and coated with sodium alginate (1%). The cubes were packed in trays with cover of polyethylene terephtalate (PET) and stored at 5±1ºC and 73±5% HR, during 12 days. The cubes were evaluated on their respiratory rate, ethylene production, loss of fresh mass, coloration, texture and humidity content. During the period of storage, independent of the treatment, a reduction of the respiratory rate occurred; ethylene production was not detected in fruits. Chemical treatments had no influence on loss of fresh mass, texture and humidity content; however the film of sodium alginate resulted in darker coloration of melon pulp due to the film solution color.Cnp

Active Flexible Films for Food Packaging: A Review

This article belongs to the Special Issue Active and Intelligent Food Packaging Polymers.Active food packaging is a dynamic area where the scientific community and industry have been trying to find new strategies to produce innovative packaging that is economically viable and compatible with conventional production processes. The materials used to develop active packaging can be organized into scavenging and emitting materials, and based on organic and inorganic materials. However, the incorporation of these materials in polymer-based flexible packaging is not always straightforward. The challenges to be faced are mainly related to active agents' sensitivity to high temperatures or difficulties in dispersing them in the high viscosity polymer matrix. This review provides an overview of methodologies and processes used in the production of active packaging, particularly for the production of active flexible films at the industrial level. The direct incorporation of active agents in polymer films is presented, focusing on the processing conditions and their effect on the active agent, and final application of the packaging material. Moreover, the incorporation of active agents by coating technologies and supercritical impregnation are presented. Finally, the use of carriers to help the incorporation of active agents and several methodologies is discussed. This review aims to guide academic and industrial researchers in the development of active flexible packaging, namely in the selection of the materials, methodologies, and process conditions.Conducted under the project “MobFood-Mobilizing scientific and technological knowledge in response to the challenges of the agri-food market” (POCI-01-0247-FEDER-024524), by “Mob Food” Consortium, and financed by European Regional Development Fund (ERDF), through the Incentive System to Research and Technological development, within the Portugal2020 Competi tiveness and Internationalization Operational Program. IPC researchers acknowledge also funding by National Funds through FCT-Portuguese Foundation for Science and Technology, References UIDB/05256/2020 and UIDP/05256/2020.info:eu-repo/semantics/publishedVersio

Molecular determinants of the SARS-CoV-2 fusion peptide activity

The COVID-19 pandemic, caused by the SARS-CoV-2 virus, emerged in late 2019 and quickly spread worldwide, resulting in over 125 million infections and 2.7 million deaths as of March 2021 accordingly to the World Health Organization. Despite the great advances achieved by the scientific community in providing crucial information about this virus, we are still far from completely understanding it. SARS-CoV-2 is an enveloped virus, meaning that it is encapsulated by a lipid membrane, which needs to be fused to the host membrane to begin the infection process. Fusion between viral and host membrane is catalyzed by the spike (S) glycoprotein. The S-protein is composed of essential elements for the infection mechanism, namely the receptor-binding domain known to bind to angiotensin-converting enzyme 2 during the viral entry pathway. Another important region, known as the fusion peptide (FP), plays an essential part in the fusion mechanism, by inserting into and disturbing the host membrane. There is still not a consensus among scientists in terms of the fusion peptide location on the S-protein sequence, with two major candidate regions having been proposed. We recently used a machine learning-based tool developed by us to identify viral FPs with accuracies over 85%. With this tool a putative FP, previously suggested in the literature, has been identified, as well as other proposals including the requirement of more than one FP. To further address this question, we are performing a systematic analysis of the SARS-CoV-2 putative FPs, using Molecular Dynamics (MD) simulations, which provide a detailed perspective of how these peptides insert and interact with the membrane. In parallel, we are characterizing these systems experimentally. Additionally we are exploring therapeutic strategies targeting these regions. Given the major role of the FP in the virus infection process, this work provides relevant insights and contributes to the fight against COVID-19.info:eu-repo/semantics/publishedVersio

Active flexible films for food packaging: a review

Active food packaging is a dynamic area where the scientific community and industry have been trying to find new strategies to produce innovative packaging that is economically viable and compatible with conventional production processes. The materials used to develop active packaging can be organized into scavenging and emitting materials, and based on organic and inorganic materials. However, the incorporation of these materials in polymer-based flexible packaging is not always straightforward. The challenges to be faced are mainly related to active agents’ sensitivity to high temperatures or difficulties in dispersing them in the high viscosity polymer matrix. This review provides an overview of methodologies and processes used in the production of active packaging, particularly for the production of active flexible films at the industrial level. The direct incorporation of active agents in polymer films is presented, focusing on the processing conditions and their effect on the active agent, and final application of the packaging material. Moreover, the incorporation of active agents by coating technologies and supercritical impregnation are presented. Finally, the use of carriers to help the incorporation of active agents and several methodologies is discussed. This review aims to guide academic and industrial researchers in the development of active flexible packaging, namely in the selection of the materials, methodologies, and process conditions.Financed by European Regional Development Fund (ERDF), through the Incentive System to Research and Technological development, within the Portugal2020 Competitiveness and Internationalization Operational Program. IPC researchers acknowledge also funding by National Funds through FCT-Portuguese Foundation for Science and Technology, References UIDB/05256/2020 and UIDP/05256/2020

PLA films loaded with green tea and rosemary polyphenolic extracts as an active packaging for almond and beef

Funding Information: This paper was carried out under the MobFOOD Project ( POCI-01-0247-FEDER-024524 and LISBOA-01-0247-FEDER-024524 ), funded by POCI ( Operational Programme “Competitiveness and Internationalization ”) and POR Lisboa ( Lisbon Regional Operational Programme ), through ANI, and by the Programa de Cooperación Interreg V-A España–Portugal (POCTEP) 2014-2020 (project 0377_IBERPHENOL_6_E ). Cássia H. Barbosa is grateful for her Ph.D. Grant 2021.08154 . BD funded by Foundation for Science and Technology (FCT), Portugal. The authors also would like to thank Talho Girassol, LDA, for kindly supplying the beef meat samples and to Dr. Sidney Tomé for his contribute for the statistical analysis. Funding Information: This paper was carried out under the MobFOOD Project (POCI-01-0247-FEDER-024524 and LISBOA-01-0247-FEDER-024524), funded by POCI (Operational Programme “Competitiveness and Internationalization”) and POR Lisboa (Lisbon Regional Operational Programme), through ANI, and by the Programa de Cooperación Interreg V-A España–Portugal (POCTEP) 2014-2020 (project 0377_IBERPHENOL_6_E). Cássia H. Barbosa is grateful for her Ph.D. Grant 2021.08154. BD funded by Foundation for Science and Technology (FCT), Portugal. The authors also would like to thank Talho Girassol, LDA, for kindly supplying the beef meat samples and to Dr. Sidney Tomé for his contribute for the statistical analysis. Publisher Copyright: © 2023 The AuthorsIn the present study, RE presented higher antioxidant capacity and higher content of total phenolic compounds than GTE. While the main phenolic compounds identified in RE were carnosic acid, carnosol and rosmarinic acid, in GTE catechins, rutin and gallic acid were the main identifies compounds. Extracts were incorporated into PLA active films, followed by the evaluation of its properties. The potential of the active PLA films to extend foods shelf-life was tested in almonds and beef. PLA/4GTE presented the highest water vapor permeability and opacity, while PLA/4RE presented the highest O2 permeability. PLA/2 GTE and PLA/4GTE presented the highest total content in phenolic compounds at the end of 10 days (at 40 °C). Regarding the almond packaged with the active films, PLA with RE films were the most effective in the reduction of oxidation, allowing to obtain the lowest lipid oxidation products, at the end of 60 days of storage at room temperature. In addition, active PLA films inhibited the formation of MDA content in beef stored for 11 days. This study shows that these PLA active packages can contribute for delaying lipid oxidation in foodstuffs with high fat content.publishersversionpublishe

Parainfluenza fusion peptide promotes membrane fusion by assembling into oligomeric porelike structures

© 2022 The Authors. Published by American Chemical SocietyParamyxoviruses are enveloped viruses harboring a negative-sense RNA genome that must enter the host’s cells to replicate. In the case of the parainfluenza virus, the cell entry process starts with the recognition and attachment to target receptors, followed by proteolytic cleavage of the fusion glycoprotein (F) protein, exposing the fusion peptide (FP) region. The FP is responsible for binding to the target membrane, and it is believed to play a crucial role in the fusion process, but the mechanism by which the parainfluenza FP (PIFP) promotes membrane fusion is still unclear. To elucidate this matter, we performed biophysical experimentation of the PIFP in membranes, together with coarse grain (CG) and atomistic (AA) molecular dynamics (MD) simulations. The simulation results led to the pinpointing of the most important PIFP amino acid residues for membrane fusion and show that, at high concentrations, the peptide induces the formation of a water-permeable porelike structure. This structure promotes lipid head intrusion and lipid tail protrusion, which facilitates membrane fusion. Biophysical experimental results validate these findings, showing that, depending on the peptide/lipid ratio, the PIFP can promote fusion and/or membrane leakage. Our work furthers the understanding of the PIFP-induced membrane fusion process, which might help foster development in the field of viral entry inhibition.This work was financially supported by FCT-Fundação para a Ciência e a Tecnologia, Portugal, through project PTDC/CCI-BIO/28200/2017 and by the European Union (H2020-FETOPEN-2018-2019-2020-01, grant no. 828774). This work was also financially supported by Project LISBOA-01-0145-FEDER-007660 (Microbiologia Molecular, Estrutural e Celular) funded by FEDER funds through COMPETE2020_Programa Operacional Competitividade e Internacionalização (POCI). M.V. and D.A.M. thank FCT for their PhD fellowships (SFRH/BD/148542/2019 and PD/BD/136752/2018, respectively). M.N.M. thanks FCT for the Post-Doc fellowship CEECIND/04124/2017. M.N.M. and D.L. thank the MACC for the computing hours in their HPC center (CPCA/A0/7329/2020 and CPCA/A0/7305/2020).info:eu-repo/semantics/publishedVersio

Digitalization of musculoskeletal risk assessment in a robotic-assisted assembly workstation

The ergonomic assessment of adopted working postures is essential for avoiding musculoskeletal risk factors in manufacturing contexts. Several observational methods based on external analyst observations are available; however, they are relatively subjective and suffer low repeatability. Over the past decade, the digitalization of this assessment has received high research interest. Robotic applications have the potential to lighten workers’ workload and improve working conditions. Therefore, this work presents a musculoskeletal risk assessment before and after robotic implementation in an assembly workstation. We also emphasize the importance of using novel and non-intrusive technologies for musculoskeletal risk assessment. A kinematic study was conducted using inertial motion units (IMU) in a convenience sample of two workers during their normal performance of assembly work cycles. The musculoskeletal risk was estimated according to a semi-automated solution, called the Rapid Upper Limb Assessment (RULA) report. Based on previous musculoskeletal problems reported by the company, the assessment centered on the kinematic analysis of functional wrist movements (flexion/extension, ulnar/radial deviation, and pronation/supination). The results of the RULA report showed a reduction in musculoskeletal risk using robotic-assisted assembly. Regarding the kinematic analysis of the wrist during robotic-assisted tasks, a significant posture improvement of 20–45% was registered (considering the angular deviations relative to the neutral wrist position). The results obtained by direct measurements simultaneously reflect the workload and individual characteristics. The current study highlights the importance of an in-field instrumented assessment of musculoskeletal risk and the limitations of the system applied (e.g., unsuitable for tracking the motion of small joints, such as the fingers).This work was supported by NORTE-06-3559-FSE-000018, integrated in the invitation NORTE-59-2018-41, aiming the Hiring of Highly Qualified Human Resources, co-financed by the Regional Operational Programme of the North 2020, thematic area of Competitiveness and Employment, through the European Social Fund (ESF). This work was also supported by FCT–Fundação para a Ciência e Tecnologia within the R&D Units Project Scope: UIDB/00319/2020

Results from the portuguese register

Objective Our aims were to evaluate the correlation between Juvenile Arthritis Disease Activity Score 27-joint reduced count (JADAS27) with erythrocyte sedimentation rate (ESR) and JADAS27 with C-reactive protein (CRP) scores and to test the agreement of both scores on classifying each disease activity state. We also aimed at verifying the correlation of the 2 scores across juvenile idiopathic arthritis (JIA) categories and to check the correlation between JADAS27-ESR and clinical JADAS27 (JADAS27 without ESR). Methods A nationwide cohort of patients with JIA registered in the Portuguese Register, Reuma.pt, was studied. JADAS27-CRP was adapted by replacing ESR with CRP level as the inflammatory marker. JADAS27-CRP was calculated similarly to JADAS27-ESR as the simple linear sum of its 4 components. Pearson's correlations and K statistics were used in the analyses. Results A total of 358 children had full data to calculate JADAS27; 65.4% were female and the mean ± SD disease duration was 11.8 ± 9.1 years. The correlation coefficient between JADAS27-ESR and JADAS27-CRP was 0.967 (P < 0.0001), although the correlation coefficient between ESR and CRP level was 0.335 (P < 0.0001). The strong correlation between JADAS27-ESR and JADAS27-CRP was maintained when compared within each JIA category. The agreement between JADAS27-ESR and JADAS27-CRP across the 4 activity states was very good, showing 91.1% of the observations in agreement; K = 0.867 (95% confidence interval 0.824-0.91). The correlation between JADAS27 with ESR and JADAS27 without ESR was high (r = 0.97, P < 0.0001). Conclusion JADAS27 based on CRP level correlated closely with JADAS27-ESR across all disease activity states and JIA categories, indicating that both measures can be used in clinical practice. Moreover, the correlation of JADAS27 with and without ESR was also high, suggesting that this tool might be useful even in the absence of laboratorial measures.publishersversionpublishe

ESTRUTURA POPULACIONAL E CONDIÇÃO FISIOLÓGICA DE Hoplias malabaricus (BLOCH, 1794) NO BAIXO RIO CAPIBARIBE

This research aimed to determine population structure and physiological condition of Hoplias malabaricus in the Capibaribe river (PE), northeastern Brazil. Monthly sampling were carried out between September/2013 and August/2014, using gill nets. The sex was identified by macroscopic and microscopic viewing of gonads, following the classification proposed by Vazzoler (1996). The specimens were distributed in length classes, being applied Kolmogorov-Smirnov test to evaluate the presence of sexual dimorphism. The length-weight relationship was calculated assessing differences through Kruskal Wallis test and physiological condition was calculated through allometric condition factor (K) between sexes, being applied the Spearman correlation test. Was collected 30 males and 42 females. No sexual dimorphism was observed relative to the size. Was observed positive allometric growth for females and negative for males. Was evidenced physiological condition variations along the year regarding seasonality. Population structure and physiological condition of the Hoplias malabaricus differed from that found in other environments, being this research, an important tool support the development of future management plans and conservation of Hoplias malabaricus, especially in this region.Keywords: population dynamics; fishing; reproduction.Esta pesquisa objetivou determinar a estrutura populacional e condição fisiológica de Hoplias malabaricus no rio Capibaribe (PE), nordeste brasileiro. Foram realizadas coletas mensais entre setembro/2013 e agosto/2014, utilizando redes de espera. O sexo foi identificado pela visualização macroscópica e microscópica das gônadas, seguindo a classificação proposta por Vazzoler (1996). Os indivíduos foram distribuídos entre classes de comprimento, sendo aplicado teste de Kolmogorov-Smirnov para verificar a presença de dimorfismo sexual. A relação peso-comprimento entre sexos foi calculada, avaliando diferenças pelo teste Kruskal-Wallis e a condição fisiológica foi avaliada pelo fator de condição alométrico (K) entre sexos, sendo aplicado teste de correlação de Spearman. Foram coletados 30 machos e 42 fêmeas, não sendo observado dimorfismo sexual relativo ao tamanho. Além disto, verificou-se um crescimento alométrico positivo para as fêmeas e negativo para os machos. Também foram evidenciadas variações na condição fisiológica ao longo do ano em relação à sazonalidade. A estrutura populacional e condição fisiológica de Hoplias malabaricus diferiram do encontrado em outros ambientes, sendo este estudo uma importante ferramenta para embasar o desenvolvimento de futuros planos de manejo e conservação de Hoplias malabaricus, especialmente nesta região.Palavras-chave: dinâmica populacional, pesca, manejo de recursos pesqueiros