Your search keyword '"Eguiraun H"' showing total 21 results

1. Comparative Study of Mussel Shells Using 3D Scanning

Author

Eguiraun, H., Gil-Uriarte, E., Barrenetxea, L., Lizundia, E., Zuazo, I., Soto, M., Cavas-Martínez, Francisco, editor, Eynard, Benoit, editor, Fernández Cañavate, Francisco J., editor, Fernández-Pacheco, Daniel G., editor, Morer, Paz, editor, and Nigrelli, Vincenzo, editor

Published

2019

2. A Virtual Kinematic Design of Dental Restorations Using Reverse Engineering

Author

Iturrate, M., Minguez, R., Toledo, N., Eguiraun, H., De Prado, I., Solaberrieta, E., Cavas-Martínez, Francisco, editor, Eynard, Benoit, editor, Fernández Cañavate, Francisco J., editor, Fernández-Pacheco, Daniel G., editor, Morer, Paz, editor, and Nigrelli, Vincenzo, editor

Published

2019

3. Comparative Study of Mussel Shells Using 3D Scanning

Author

Eguiraun, H., primary, Gil-Uriarte, E., additional, Barrenetxea, L., additional, Lizundia, E., additional, Zuazo, I., additional, and Soto, M., additional

Published

2019

4. A Virtual Kinematic Design of Dental Restorations Using Reverse Engineering

Author

Iturrate, M., primary, Minguez, R., additional, Toledo, N., additional, Eguiraun, H., additional, De Prado, I., additional, and Solaberrieta, E., additional

Published

2019

5. On Automatic Diagnosis of Alzheimer’s Disease Based on Spontaneous Speech Analysis and Emotional Temperature

Author

López-de-Ipiña, K., Alonso, J. B., Solé-Casals, J., Barroso, N., Henriquez, P., Faundez-Zanuy, M., Travieso, C. M., Ecay-Torres, M., Martínez-Lage, P., and Eguiraun, H.

Published

2015

6. Proteomics: Contribution of Proteomics Techniques to Understanding the Interrelationship between Food and Health

Author

Carrera, M., primary, Eguiraun, H., additional, Cañas, B., additional, Martinez, I., additional, and Piñeiro, C., additional

Published

2016

7. Nola aurre egin itsas garraioak eragindako klima-aldaketari? Estrategia berriak

Author

Goicoechea, N., Eguiraun, H., Galarraga, I., Solaberrieta, E., Abadie, L. M., Goicoechea, N., Eguiraun, H., Galarraga, I., Solaberrieta, E., and Abadie, L. M.

Abstract

Gaur egun, itsas garraioak munduko ondasunen % 90 mugitzen du. Ekonomiaren hazkundea eta globalizazioa direla-eta, garraio mota hori goraka doa. Munduko garraio-ontzi flotaren kopurua hazten doan neurrian, fuel-olioaren kontsumoa ere hazten ari da. Fuel-o

Published

2020

8. Acknowledgement to reviewers of JSAN in 2016

Author

Albano, M., Anthony, C., Arefi, A., Arriola, A., Barton, G., Beongku, A., Boström, K., Brandao, P., Calbimonte, J., Decotignie, J., Delsing, J., Eguiraun, H., Emokpae, L., Farahmand, F., Garrido, P., Ge, M., Giani, A., Gonzalez, L., Gotta, A., He, S., Hernandez, N., Hsu, C., Jayaraman, P., Kim, K., Kokkinos, P., Labeodan, T., Le, D., Lee, T., Li, Y., Lin, C., Lloret-Mauri, J., Marin, A., Martalo, M., Meseguer, R., Minet, P., Mitton, N., Moreno, A., Muñoz-Gea, J., Pham, C., Piras, A., Puliafito, A., Qiao, Y., Rzonca, D., Savage, N., Scatá, M., Sha, M., Shahnia, Farhad, Silva, I., Singh, D., Soares, V., Szott, S., Teng, R., Tervonen, J., Tsang, K., Vangelista, L., Vepakomma, P., Verticale, G., Villadangos, J., Wan, J., Wang, K., Wang, X., Wu, Y., Yang, B., Zappatore, M., Zhang, X., Zhao, Y., Albano, M., Anthony, C., Arefi, A., Arriola, A., Barton, G., Beongku, A., Boström, K., Brandao, P., Calbimonte, J., Decotignie, J., Delsing, J., Eguiraun, H., Emokpae, L., Farahmand, F., Garrido, P., Ge, M., Giani, A., Gonzalez, L., Gotta, A., He, S., Hernandez, N., Hsu, C., Jayaraman, P., Kim, K., Kokkinos, P., Labeodan, T., Le, D., Lee, T., Li, Y., Lin, C., Lloret-Mauri, J., Marin, A., Martalo, M., Meseguer, R., Minet, P., Mitton, N., Moreno, A., Muñoz-Gea, J., Pham, C., Piras, A., Puliafito, A., Qiao, Y., Rzonca, D., Savage, N., Scatá, M., Sha, M., Shahnia, Farhad, Silva, I., Singh, D., Soares, V., Szott, S., Teng, R., Tervonen, J., Tsang, K., Vangelista, L., Vepakomma, P., Verticale, G., Villadangos, J., Wan, J., Wang, K., Wang, X., Wu, Y., Yang, B., Zappatore, M., Zhang, X., and Zhao, Y.

Published

2017

9. Contribution of proteomics techniques to understanding the interrelationship between food and health

Author

Carrera, Mónica, Eguiraun, H., Cañas, Benito, Martínez, Iciar, Piñeiro, Carmen, Carrera, Mónica, Eguiraun, H., Cañas, Benito, Martínez, Iciar, and Piñeiro, Carmen

Abstract

This article introduces the application of proteomics to food and nutrition studies. It contains a brief description of what proteomics is and the main laboratory requirements to perform the analyses followed by a technical part that includes the main applications of proteomics (protein identification and characterization, differential proteomics, and functional proteomics), the proteomic workflow, and mass spectrometric analysis. Then, proteomic studies applied to food groups are illustrated using cereals and fruits, dairy products, eggs, meat, seafood, and bioactive compounds as examples. Finally, the concept of systems biology and its application to nutritional studies is introduced to the reader

Published

2016

10. On Automatic Diagnosis of Alzheimer’s Disease Based on Spontaneous Speech Analysis and Emotional Temperature

Author

López-de-Ipiña, K., primary, Alonso, J. B., additional, Solé-Casals, J., additional, Barroso, N., additional, Henriquez, P., additional, Faundez-Zanuy, M., additional, Travieso, C. M., additional, Ecay-Torres, M., additional, Martínez-Lage, P., additional, and Eguiraun, H., additional

Published

2013

11. Point-of-care additive manufacturing: state of the art and adoption in Spanish hospitals during pre to post COVID-19 era.

Author

Valls-Esteve A, García RI, Bellmunt A, Eguiraun H, Jauregui I, Del Amo C, Adell-Gomez N, Krauel L, and Munuera J

Abstract

Background: 3D technologies [Virtual and Augmented 3D planning, 3D printing (3DP), Additive Manufacturing (AM)] are rapidly being adopted in the healthcare sector, demonstrating their relevance in personalized medicine and the rapid development of medical devices. The study's purpose was to understand the state and evolution of 3DP/AM technologies at the Point-of-Care (PoC), its adoption, organization and process in Spanish hospitals and to understand and compare the evolution of the models, clinical applications, and challenges in utilizing the technology during the COVID-19 pandemic and beyond., Methods: This was a questionnaire-based qualitative and longitudinal study. Data on 3DP and AM activities in Spain were collected from 73 hospitals/institutions falling under the ITEMAS (Platform for Innovation in Medical and Health Technologies) and the Plataforma ISCIII Biomodelos y Biobancos from January 2019 to May 2020 for the first study, and at the end of 2022 and 2023 for the second study., Results: A total of 23 (31.5%) hospitals during the first study, while 30 (41.09%) during the second study reported having at least one 3DP/AM initiative. Post-covid, the majority of hospitals had onsite 3DP/AM services with a well-defined, structured, and centralized system. Traumatology and maxillofacial surgery services were found to be the most involved in 3DP projects for the production of custom-made surgical guides, prostheses and orthoses. Bioprinting initiatives were also noted to be expanding. Human resources, cost, and regulatory compliance were the key hurdles in introducing 3D/AM in hospitals., Conclusions: In-house 3DP/AM units, with Mixed-Model is the most common model in Spain; The COVID-19 pandemic influenced the 3D planning activity and adoption. Further research and clinical trials, and improvements in resources, reimbursement and regulatory compliance are critical for the Point-of-care hospital growth of this breakthrough technology., Competing Interests: Declarations. Ethics approval and consent to participate: Not applicable. Consent for publication: Not applicable, as the manuscript does not contain data from any patient or individual person, but a survey on the adoption of 3D printing and bioprinting within Spanish hospitals. However, all participants provided informed consent to participate in the survey voluntarily since the following text was enclosed within the survey: “Participation in the survey is entirely voluntary. Participants implicitly consent to using the information they provide by filling out the survey. The data will be treated as confidential, and the names of participants will not be identified. Your responses will only be used for the purpose stated in the study.” This unstated consent was considered sufficient, given the nature of the research and the fact that the participants are professionals rather than patients. Competing interests: The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024

12. Addressing the Joint Impact of Temperature and pH on Vibrio harveyi Adaptation in the Time of Climate Change.

Author

Gundogdu K, Orus Iturriza A, Orruño M, Montánchez I, Eguiraun H, Martinez I, Arana I, and Kaberdin VR

Abstract

Global warming and acidification of the global ocean are two important manifestations of the ongoing climate change. To characterize their joint impact on Vibrio adaptation and fitness, we analyzed the temperature-dependent adaptation of Vibrio harveyi at different pHs (7.0, 7.5, 8.0, 8.3 and 8.5) that mimic the pH of the world ocean in the past, present and future. Comparison of V. harveyi growth at 20, 25 and 30 °C show that higher temperature per se facilitates the logarithmic growth of V. harveyi in nutrient-rich environments in a pH-dependent manner. Further survival tests carried out in artificial seawater for 35 days revealed that cell culturability declined significantly upon incubation at 25 °C and 30 °C but not at 20 °C. Moreover, although acidification displayed a negative impact on cell culturability at 25 °C, it appeared to play a minor role at 30 °C, suggesting that elevated temperature, rather than pH, was the key player in the observed reduction of cell culturability. In addition, analyses of the stressed cell morphology and size distribution by epifluorescent microscopy indicates that V. harveyi likely exploits different adaptation strategies (e.g., acquisition of coccoid-like morphology) whose roles might differ depending on the temperature-pH combination.

Published

2023

13. Entropy and Fractal Techniques for Monitoring Fish Behaviour and Welfare in Aquacultural Precision Fish Farming-A Review.

Author

Eguiraun H and Martinez I

Abstract

In a non-linear system, such as a biological system, the change of the output (e.g., behaviour) is not proportional to the change of the input (e.g., exposure to stressors). In addition, biological systems also change over time, i.e., they are dynamic. Non-linear dynamical analyses of biological systems have revealed hidden structures and patterns of behaviour that are not discernible by classical methods. Entropy analyses can quantify their degree of predictability and the directionality of individual interactions, while fractal dimension (FD) analyses can expose patterns of behaviour within apparently random ones. The incorporation of these techniques into the architecture of precision fish farming (PFF) and intelligent aquaculture (IA) is becoming increasingly necessary to understand and predict the evolution of the status of farmed fish. This review summarizes recent works on the application of entropy and FD techniques to selected individual and collective fish behaviours influenced by the number of fish, tagging, pain, preying/feed search, fear/anxiety (and its modulation) and positive emotional contagion (the social contagion of positive emotions). Furthermore, it presents an investigation of collective and individual interactions in shoals, an exposure of the dynamics of inter-individual relationships and hierarchies, and the identification of individuals in groups. While most of the works have been carried out using model species, we believe that they have clear applications in PFF. The review ends by describing some of the major challenges in the field, two of which are, unsurprisingly, the acquisition of high-quality, reliable raw data and the construction of large, reliable databases of non-linear behavioural data for different species and farming conditions.

Published

2023

14. Implementation of an In-House 3D Manufacturing Unit in a Public Hospital's Radiology Department.

Author

García RI, Jauregui I, Del Amo C, Gandiaga A, Rodriguez O, Margallo L, Voces R, Martin N, Gallego I, Minguez R, and Eguiraun H

Abstract

Objective: Three-dimensional printing has become a leading manufacturing technique in healthcare in recent years. Doubts in published studies regarding the methodological rigor and cost-effectiveness and stricter regulations have stopped the transfer of this technology in many healthcare organizations. The aim of this study was the evaluation and implementation of a 3D printing technology service in a radiology department., Methods: This work describes a methodology to implement a 3D printing service in a radiology department of a Spanish public hospital, considering leadership, training, workflow, clinical integration, quality processes and usability., Results: The results correspond to a 6-year period, during which we performed up to 352 cases, requested by 85 different clinicians. The training, quality control and processes required for the scaled implementation of an in-house 3D printing service are also reported., Conclusions: Despite the maturity of the technology and its impact on the clinic, it is necessary to establish new workflows to correctly implement them into the strategy of the health organization, adjusting it to the needs of clinicians and to their specific resources., Significance: This work allows hospitals to bridge the gap between research and 3D printing, setting up its transfer to clinical practice and using implementation methodology for decision support.

Published

2022

15. SETApp: A machine learning and image analysis based application to automate the sea urchin embryo test.

Author

Alvarez-Mora I, Mijangos L, Lopez-Herguedas N, Amigo JM, Eguiraun H, Salvoch M, Monperrus M, and Etxebarria N

Subjects

Animals, Discriminant Analysis, Least-Squares Analysis, Machine Learning, Sea Urchins, Mobile Applications

Abstract

Since countless xenobiotic compounds are being found in the environment, ecotoxicology faces an astounding challenge in identifying toxicants. The combination of high-throughput in vivo/in vitro bioassays with high-resolution chemical analysis is an effective way to elucidate the cause-effect relationship. However, these combined strategies imply an enormous workload that can hinder their implementation in routine analysis. The purpose of this study was to develop a new high throughput screening method that could be used as a predictive expert system that automatically quantifies the size increase and malformation of the larvae and, thus, eases the application of the sea urchin embryo test in complex toxicant identification pipelines such as effect-directed analysis. For this task, a training set of 242 images was used to calibrate the size-increase and malformation level of the larvae. Two classification models based on partial least squares discriminant analysis (PLS-DA) were built and compared. Moreover, Hierarchical PLS-DA shows a high proficiency in classifying the larvae, achieving a prediction accuracy of 84 % in validation. The scripts built along the work were compiled in a user-friendly standalone app (SETApp) freely accessible at https://github.com/UPV-EHU-IBeA/SETApp. The SETApp was tested in a real case scenario to fulfill the tedious requirements of a WWTP effect-directed analysis., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

16. Antioxidant Activities and Selenogene Transcription in the European Sea Bass (Dicentrarchus labrax) Liver Depend, in a Non-linear Manner, on the Se/Hg Molar Ratio of the Feeds.

Author

Espino M, Eguiraun H, Diaz de Cerio O, Carrero JA, Etxebarria N, and Martinez I

Subjects

Animals, Antioxidants, Liver, Thioredoxins, Bass genetics, Mercury, Selenium pharmacology

Abstract

Feeding 3.9 and 6.7 mg Hg/kg (Se/Hg molar ratios of 0.8 and 0.4, respectively) for 14 days negatively affected Dicentrarchus labrax growth and total DNTB- and thioredoxin-reductase (TrxR) activities and the transcription of four redox genes (txn1, gpx1, txnrd3, and txnrd2) in the liver, but a diet with 0.5 mg Hg/kg (Se/Hg molar ratio 6.6) slightly increased both reductase activities and the transcription of txn1, gpx1, and txnrd2. Feeding 6.7 mg Hg/kg for 53 days downregulated the genes of the thioredoxin system (txn1, txnrd3, and txnrd2) but upregulated gpx1, confirming the previously proposed complementarity among the antioxidant systems. Substitution of 20% of the feed by thawed white fish (hake) slightly counteracted the negative effects of Hg. The effects were not statistically significant and were dependent, in a non-linear manner, on the Se/Hg molar ratio of the feed but not on its Hg concentration. These results stress the need to consider the Se/Hg molar ratio of the feed/food when evaluating the toxicity of Hg., (© 2021. The Author(s).)

Published

2022

17. Accuracy of digital impressions for implant-supported complete-arch prosthesis, using an auxiliary geometry part-An in vitro study.

Author

Iturrate M, Eguiraun H, and Solaberrieta E

Subjects

Computer-Aided Design, Humans, Imaging, Three-Dimensional, Prostheses and Implants, Dental Impression Technique, Models, Dental

Abstract

Objectives: The aim of this study was to evaluate the accuracy of complete-arch digital impressions for fabrication of an implant-supported prosthesis in the edentulous maxilla using an auxiliary geometry part., Materials and Methods: A replica of the upper jaw of an edentulous patient with four scannable impression copings was fabricated in stainless steel. This model was scanned with an industrial non-contact 3D structured blue light 3D scanner, and the measurements of three reference distances were established as reference values. Subsequently, the model was scanned in two different scenarios (with or without an auxiliary geometry part put in place and fixed to the model) using three intraoral scanners. Measurements were taken with 3D inspection software, and a digital impression of the complete arch was built with mesh processing software by combining 2 STL files obtained with an intraoral scanner., Results: All measurements with the auxiliary geometry part gave significantly more accurate results (p < .05). Trueness improved in the three reference distances, reaching values of 8 ± 6 µm at D12 reference distance, 20 ± 11 µm at D13 and 35 ± 22 µm at D14. Precision also improved significantly with the use of the auxiliary geometry part placed on the model (p < .05). The best precision results at reference distances D13 and D14 were obtained with the True Definition Scanner., Conclusions: The proposed methodology significantly improves the accuracy of complete-arch digital impressions in edentulous patients obtained in vitro, regardless of which scanner is used., (© 2019 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2019

18. Accuracy analysis of complete-arch digital scans in edentulous arches when using an auxiliary geometric device.

Author

Iturrate M, Eguiraun H, Etxaniz O, and Solaberrieta E

Subjects

Computer-Aided Design, Dental Arch, Humans, Imaging, Three-Dimensional, Models, Dental, Dental Impression Technique, Mouth, Edentulous

Abstract

Statement of Problem: Obtaining reliable digital scans of edentulous patients is challenging because of the absence of anatomic landmarks/geometric variations along the dental arch. Whether adding an auxiliary geometric device (AGD) will improve scanning is unclear., Purpose: The purpose of this in vitro study was to analyze the accuracy of complete-arch digital scans of completely edentulous arches by placing a consumable AGD., Material and Methods: A stainless-steel model of the maxilla of a completely edentulous arch with 4 implants was built. The model was scanned using a reference industrial scanner as the control and using 3 intraoral scanners (True Definition [3M ESPE], TRIOS 3 [3Shape A/S], and iTero [Align Technology, Inc]). Each intraoral scanner was used 10 times without the AGD in place and 10 more times with the AGD fixed on the model. Accuracy in terms of trueness and precision was established by comparing 5 reference distances with or without the AGD in place. A software program for analyzing 3D data was used to measure these 5 distances, and a data analysis software program was used for statistical and measurements analysis (α=.05)., Results: Significant differences (P<.05) were found in all reference distances for trueness and in 4 of the 5 reference distances for precision depending on whether the AGD had been used or not. Without the AGD in place, trueness ranged from 21 ±16 μm in the shortest reference distance to 125 ±80 μm in the largest reference distance. With the AGD in place, trueness ranged from 11 ±8 μm in the shortest reference distance to 64 ±51 μm in the largest reference distance. Precision ranged from 18 ±14 μm in the shortest reference distance to 84 ±74 μm in the largest reference distance without the AGD and from 7 ±7 μm in the shortest to 63 ±46 μm in the largest with it., Conclusions: Complete-arch digital scans of edentulous jaws are more accurate when an AGD is used to resolve the lack of anatomic landmarks. An additional advantage is that the use of the AGD allows for a more fluent scanning process., (Copyright © 2018 Editorial Council for the Journal of Prosthetic Dentistry. Published by Elsevier Inc. All rights reserved.)

Published

2019

19. Reducing the Number of Individuals to Monitor Shoaling Fish Systems - Application of the Shannon Entropy to Construct a Biological Warning System Model.

Author

Eguiraun H, Casquero O, Sørensen AJ, and Martinez I

Abstract

The present study aims at identifying the lowest number of fish (European seabass) that could be used for monitoring and/or experimental purposes in small-scale fish facilities by quantifying the effect that the number of individuals has on the Shannon entropy (SE) of the trajectory followed by the shoal's centroid. Two different experiments were performed: (i) one starting with 50 fish and decreasing to 25, 13, and 1 fish, and (ii) a second experiment starting with one fish, adding one new fish per day during 5 days, ending up with five fish in the tank. The fish were recorded for 1h daily, during which time a stochastic event (a hit in the tank) was introduced. The SE values were calculated from the images corresponding to three arbitrary basal (shoaling) periods of 3.5 min prior to the event, and to the 3.5 min period immediately after the event (schooling response). Taking both experiments together, the coefficient of variation (CV) of the SE among measurements was largest for one fish systems (CV 37.12 and 17.94% for the daily average basal and response SE, respectively) and decreased concomitantly with the number of fish (CV 8.6-10% for the basal SE of 2 to 5 fish systems and 5.86, 2.69, and 2.31% for the basal SE of 13, 25, and 50 fish, respectively). The SE of the systems kept a power relationship with the number of fish (basal: R 2 = 0.93 and response: R 2 = 0.92). Thus, 5-13 individuals should be the lowest number for a compromise between acceptable variability (<10%) in the data and reduction in the number of fish. We believe this to be the first scientific work made to estimate the minimum number of individuals to be used in subsequent experimental (including behavioral) studies using shoaling fish species that reaches a compromise between the reduction in number demanded by animal welfare guidelines and a low variability in the fish system's response.

Published

2018

20. The Shannon Entropy Trend of a Fish System Estimated by a Machine Vision Approach Seems to Reflect the Molar Se:Hg Ratio of Its Feed.

Author

Eguiraun H, Casquero O, and Martinez I

Abstract

The present study investigates the suitability of a machine vision-based method to detect deviations in the Shannon entropy (SE) of a European seabass ( Dicentrarchus labrax ) biological system fed with different selenium:mercury (Se:Hg) molar ratios. Four groups of fish were fed during 14 days with commercial feed (control) and with the same feed spiked with 0.5, 5 and 10 mg of MeHg per kg, giving Se:Hg molar ratios of 29.5 (control-C 1 ); 6.6, 0.8 and 0.4 (C 2 , C 3 and C 4 ). The basal SE of C 1 and C 2 (Se:Hg > 1) tended to increase during the experimental period, while that of C 3 and C 4 (Se:Hg < 1) tended to decrease. In addition, the differences in the SE of the four systems in response to a stochastic event minus that of the respective basal states were less pronounced in the systems fed with Se:Hg molar ratios lower than one (C 3 and C 4 ). These results indicate that the SE may be a suitable indicator for the prediction of seafood safety and fish health (i.e., the Se:Hg molar ratio and not the Hg concentration alone) prior to the displaying of pathological symptoms. We hope that this work can serve as a first step for further investigations to confirm and validate the present results prior to their potential implementation in practical settings., Competing Interests: The authors declare no conflict of interest.

Published

2018

21. The role of environmental biotechnology in exploring, exploiting, monitoring, preserving, protecting and decontaminating the marine environment.

Author

Kalogerakis N, Arff J, Banat IM, Broch OJ, Daffonchio D, Edvardsen T, Eguiraun H, Giuliano L, Handå A, López-de-Ipiña K, Marigomez I, Martinez I, Øie G, Rojo F, Skjermo J, Zanaroli G, and Fava F

Subjects

Aquaculture, Biodegradation, Environmental, Geologic Sediments chemistry, Recycling, Water Purification, Biotechnology methods, Conservation of Natural Resources, Decontamination, Ecosystem, Environmental Monitoring, Seawater

Abstract

In light of the Marine Strategy Framework Directive (MSFD) and the EU Thematic Strategy on the Sustainable Use of Natural Resources, environmental biotechnology could make significant contributions in the exploitation of marine resources and addressing key marine environmental problems. In this paper 14 propositions are presented focusing on (i) the contamination of the marine environment, and more particularly how to optimize the use of biotechnology-related tools and strategies for predicting and monitoring contamination and developing mitigation measures; (ii) the exploitation of the marine biological and genetic resources to progress with the sustainable, eco-compatible use of the maritime space (issues are very diversified and include, for example, waste treatment and recycling, anti-biofouling agents; bio-plastics); (iii) environmental/marine biotechnology as a driver for a sustainable economic growth., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2015