Your search keyword '"Arias DM"' showing total 27 results

1. Integrating electro-Fenton and microalgae for the sustainable management of real food processing wastewater.

Author

Arias DM, Olvera Vargas P, Vidal Sánchez AN, and Olvera-Vargas H

Subjects

Food Handling methods, Water Pollutants, Chemical analysis, Iron chemistry, Hydrogen Peroxide chemistry, Biological Oxygen Demand Analysis, Scenedesmus growth & development, Wastewater chemistry, Microalgae, Waste Disposal, Fluid methods, Biodegradation, Environmental

Abstract

The present study demonstrates, for the first time, the feasibility of a two-step process consisting of Electro-Fenton (EF) followed by microalgae to treat highly loaded real food processing wastewater along with resource recovery. In the first step, EF with a carbon felt cathode and Ti/RuO 2 -IrO 2 anode was applied at different current densities (3.16 mA cm -2 , 4.74 mA cm -2 and 6.32 mA cm -2 ) to decrease the amount of organic matter and turbidity and enhance biodegradability. In the second step, the EF effluents were submitted to microalgal treatment for 15 days using a mixed culture dominated by Scenedesmus sp., Chlorosarcinopsis sp., and Coelastrum sp. Results showed that current density impacted the amount of COD removed by EF, achieving the highest COD removal of 77.5% at 6.32 mA cm -2 with >95% and 74.3% of TSS and PO 4 3- removal, respectively. With respect to microalgae, the highest COD removal of 85% was obtained by the culture in the EF effluent treated at 6.32 mA cm -2 . Remarkably, not only 85% of the remaining organic matter was removed by microalgae, but also the totality of inorganic N and P compounds, as well as 65% of the Fe catalyst that was left after EF. The removal of inorganic species also demonstrates the high complementarity of both processes, since EF does not have the capacity to remove such compounds, while microalgae do not grow in the raw wastewater. Furthermore, a maximum of 0.8 g L -1 of biomass was produced after cultivation, with an accumulation of 32.2% of carbohydrates and 25.9% of lipids. The implementation of the two processes represents a promising sustainable approach for the management of industrial effluents, incorporating EF in a water and nutrient recycling system to produce biomass that could be valorized into clean fuels., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests:, (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

2. Cultivation of carbohydrate-rich microalgae with great settling properties using cooling tower wastewater.

Author

Ortíz-Sánchez E, Guillén-Garcés RA, Morales-Arrieta S, Ugochukwu Okoye P, Olvera-Vargas H, Sebastian PJ, and Arias DM

Subjects

Microalgae, Wastewater chemistry, Carbohydrates chemistry, Waste Disposal, Fluid methods, Biomass

Abstract

Wastewater treatment and simultaneous production of value-added products with microalgae represent a sustainable alternative. Industrial wastewater, characterized by high C/N molar ratios, can naturally improve the carbohydrate content in microalgae without the need for any external source of carbon while degrading the organic matter, macro-nutrients, and micro-nutrients. This study aimed to understand the treatment, reuse, and valorization mechanisms of real cooling tower wastewater (CWW) from a cement-processing industry mixed with domestic wastewater (DW) to produce microalgal biomass with potential for synthesis of biofuels or other value-added products. For this purpose, three photobioreactors with different hydraulic retention times (HRT) were inoculated simultaneously using the CWW-DW mixture. Macro- and micro-nutrient consumption and accumulation, organic matter removal, algae growth, and carbohydrate content were monitored for 55 days. High COD (> 80%) and macronutrient removals (> 80% of N and P) were achieved in all the photoreactors, with heavy metals below the limits established by local standards. The best results showed maximum algal growth of 1.02 g SSV L -1 and 54% carbohydrate accumulation with a C/N ratio of 31.24 mol mol -1 . Additionally, the harvested biomass presented a high Ca and Si content, ranging from 11 to 26% and 2 to 4%, respectively. Remarkably, big flocs were produced during microalgae growth, which enhanced natural settling for easy biomass harvesting. Overall, this process represents a sustainable alternative for CWW treatment and valorization, as well as a green tool for generating carbohydrate-rich biomass with the potential to produce biofuels and fertilizers., (© 2023. The Author(s).)

Published

2024

3. Cultivating photosynthetic microorganisms in cooling water waste and urban effluents as a strategy of water regeneration and valorization.

Author

Ortíz-Sánchez E, Solís-Salinas C, Okoye PU, Guillén-Garcés RA, and Arias DM

Subjects

Water, Wastewater, Carbohydrates, Biomass, Biofuels, Cyanobacteria, Microalgae

Abstract

Contaminants from cooling water waste (CWW) generated by industries represent an environmental hazard if discharged into aquatic bodies and soil without treatment. Most treatment strategies are energy-demanding and costly; hence, low-cost and sustainable treatment alternative technologies are needed. The present study proposed cyanobacteria culture as a low-cost biological method to treat cooling water waste (CWW) while simultaneously producing carbohydrates. For this purpose, CWW from a cooling tower was evaluated in different dilutions with domestic wastewater (DW) (DW25% -CWW75%, DW50% -CWW50%, DW25% -CWW75%, DW100%, and CWW100%) (v/v). The CWW provided a high content of inorganic carbon and low content of N and P, which resulted in a high C/N ratio promoting a fast carbohydrate accumulation but low biomass production. In contrast, cultures with higher DW concentrations achieved similar results in 14 days. The best results were obtained with DW25% -CWW75%, achieving up to 52 ± 18% carbohydrate content on day 8, with the highest biomass concentration of 1.7 ± 0.12 g L -1 on day 14. This culture removed >94% of TAN, N-NO 3 - and P-PO 4 3- , and 84 ± 10.82% of COD. This strategy could be a promising approach to treating CWW and DW from the same industry and producing value-added products and bioenergy.

Published

2024

4. Long-term semi-continuous production of carbohydrate-enriched microalgae biomass cultivated in low-loaded domestic wastewater.

Author

Solís-Salinas CE, Patlán-Juárez G, Okoye PU, Guillén-Garcés A, Sebastian PJ, and Arias DM

Subjects

Biomass, Carbohydrates, Nitrogen analysis, Photobioreactors, Microalgae, Wastewater

Abstract

The production of carbohydrate-enriched biomass from waste streams as a sustainable biofuel precursor is a noteworthy endeavor. This study investigates the long-term microalgae cultivated under low domestic wastewater loads and different hydraulic retention times (HRT) in a semi-continuous photobioreactor. The influence of operational conditions, the microalgae interaction with carbon, nutrients availability, and microbial population in terms of carbohydrate content were elucidated. The results revealed that the operation at similar low nutrients and carbon loads maintained at three different hydraulic retention times (HRT) of 10, 8, and 6 days caused different patterns in nutrients uptake and biomass composition. Particularly, the carbohydrate accumulation was greatly influenced by the unbalance in the N:P ratios than complete depletion of the nutrients. Hence, during the period operated at HRT of 10 d, high nutrients removal efficiencies were observed while gradually increasing carbohydrate content up to 57% in dry cell weight (DCW). Afterward, the decrease to 8 and 6 d of HRT showed lower nutrient consumption with depleted alkalinity, reaching an appreciably high carbohydrate accumulation of up to 46%, and 56%, respectively. The biomass concentration decreased in the order of HRT of 10, 8, and 6 days. This study demonstrated that microalgae adapted to low carbon and nutrient loads could still accumulate high carbohydrate at shorter HRT using domestic wastewater as substrate., 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 © 2021 Elsevier B.V. All rights reserved.)

Published

2021

5. A review on cyanobacteria cultivation for carbohydrate-based biofuels: Cultivation aspects, polysaccharides accumulation strategies, and biofuels production scenarios.

Author

Arias DM, Ortíz-Sánchez E, Okoye PU, Rodríguez-Rangel H, Balbuena Ortega A, Longoria A, Domínguez-Espíndola R, and Sebastian PJ

Subjects

Biofuels, Biomass, Carbohydrates, Fermentation, Polysaccharides, Cyanobacteria, Microalgae

Abstract

Cyanobacterial biomass has constituted a crucial third and fourth-generation biofuel material, with great potential to synthesize a wide range of metabolites, mainly carbohydrates. Lately, carbohydrate-based biofuels from cyanobacteria, such as bioethanol, biohydrogen, and biobutanol, have attracted attention as a sustainable alternative to petroleum-based products. Cyanobacteria can perform a simple process of saccharification, and extracted carbohydrates can be converted into biofuels with two alternatives; the first one consists of a fermentative process based on bacteria or yeasts, while the second alternative consists of an internal metabolic process of their own in intracellular carbohydrate content, either by the natural or genetic engineered process. This study reviewed carbohydrate-enriched cyanobacterial biomass as feedstock for biofuels. Detailed insights on technical strategies and limitations of cultivation, polysaccharide accumulation strategies for further fermentation process were provided. Advances and challenges in bioethanol, biohydrogen, and biobutanol production by cyanobacteria synthesis and an independent fermentative process are presented. Critical outlook on life-cycle assessment and techno-economical aspects for large-scale application of these technologies were discussed., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: There is no financial or personal interest that is potential competing interest to declare., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

6. A review of recent advances in electrode materials for emerging bioelectrochemical systems: From biofilm-bearing anodes to specialized cathodes.

Author

Mier AA, Olvera-Vargas H, Mejía-López M, Longoria A, Verea L, Sebastian PJ, and Arias DM

Subjects

Biofilms, Electricity, Electrodes, Electrolysis, Wastewater analysis, Bioelectric Energy Sources

Abstract

Bioelectrochemical systems (BES), mainly microbial fuel cells (MEC) and microbial electrolysis cells (MFC), are unique biosystems that use electroactive bacteria (EAB) to produce electrons in the form of electric energy for different applications. BES have attracted increasing attention as a sustainable, low-cost, and neutral-carbon option for energy production, wastewater treatment, and biosynthesis. Complex interactions between EAB and the electrode materials play a crucial role in system performance and scalability. The electron transfer processes from the EAB to the anode surface or from the cathode surface to the EAB have been the object of numerous investigations in BES, and the development of new materials to maximize energy production and overall performance has been a hot topic in the last years. The present review paper discusses the advances on innovative electrode materials for emerging BES, which include MEC coupled to anaerobic digestion (MEC-AD), Microbial Desalination Cells (MDC), plant-MFC (P-MFC), constructed wetlands-MFC (CW-MFC), and microbial electro-Fenton (BEF). Detailed insights on innovative electrode modification strategies to improve the electrode transfer kinetics on each emerging BES are provided. The effect of materials on microbial population is also discussed in this review. Furthermore, the challenges and opportunities for materials scientists and engineers working in BES are presented at the end of this work aiming at scaling up and industrialization of such versatile systems., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

7. Recycling industrial wastewater for improved carbohydrate-rich biomass production in a semi-continuous photobioreactor: Effect of hydraulic retention time.

Author

Sánchez-Contreras MI, Morales-Arrieta S, Okoye PU, Guillén-Garcés RA, Sebastian PJ, and Arias DM

Subjects

Biomass, Bioreactors, Carbohydrates, Photobioreactors, Microalgae, Wastewater

Abstract

This study aimed to investigate a mixed microalgae culture's capacity to simultaneously remove nutrients and organic matter from industrial effluents while producing carbohydrate-rich biomass. A culture initially dominated by filamentous cyanobacteria Geitlerinema sp. was inoculated in a lab-scale stirred tank photobioreactor, operating at 10, 8, and 6 days hydraulic retention time (HRT). The results show that different HRT led to different inorganic carbon profiles and N:P ratios in the culture, influencing microbial changes, and carbohydrate content. Hence, higher N-NH 4 + removal efficiencies were obtained at HRT of 10 d and decreased with decreasing HRT. Whereas, complete depletion of P-PO 4 3- was achieved only at HRT of 8 d and 6 d. Also, the highest COD removal efficiency (60%) was achieved at 6 d of HRT. The maximum accumulation of carbohydrates was achieved at HRT of 8 d, which presented an N:P ratio of 22:1 and carbon availability, recording a constant carbohydrate content of 57% without any additional carbon source. Furthermore, this operational condition reached the best biomass production of 0.033 g L -1 d -1 of easy-settling cyanobacteria dominated culture. According to the results, this process presents an alternative to recycling industrial effluents and, at the same time, grow valuable biomass, closing a loop for sustainable economy., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

8. Development and evaluation of a new colorimetric DGT technique for the 2D visualisation of labile phosphate in soils.

Author

Arias DM, Teasdale PR, Doolette CL, Lombi E, Farquhar S, and Huang J

Subjects

Colorimetry, Diffusion, Environmental Monitoring, Phosphorus analysis, Phosphates, Soil

Abstract

A new colorimetric technique for the measurement of labile phosphate in soils using the diffusive gradients in thin films (DGT) technique was developed in this study. This technique can determine the mass of phosphate accumulated on the precipitated Zr-oxide based binding gel by forming the blue colour following the standard molybdate-ascorbic acid method. The optimal reaction temperature and coloration time were 20 °C (room temperature) and 26 min. After determining a well-fitted calibration equation, the technique was able to measure phosphate concentration up to 2.5 mg/L for 24 h deployment with a detection limit of 10.1 μg/L. Two-dimensional quantitative visualisation of phosphate diffusion in three phosphorus (P) fertilised soils were obtained using the colorimetric technique. The results from the colorimetric DGT technique were compared to the elution DGT technique and Colwell P extraction. The DGT techniques (colorimetric and elution) and Colwell P measurements demonstrated similar patterns of phosphate diffusion in soil. Both DGT techniques showed similar phosphate concentration along the concentric rings around the fertiliser application. A new, convenient, and fast DGT colorimetric technique was developed, and successfully used to measure the distribution of potentially available phosphate in soils. The new technique is less laborious than current techniques as it does not require any pre-treatment of the binding gel layers or heating during scanning, thus providing faster results. Therefore, the technique may be more suitable for in-field applications and can be used to investigate the in situ diffusion of potentially available phosphate from fertilisers, and relate this to the plant uptake of P., 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 © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

9. Production of polymers by cyanobacteria grown in wastewater: Current status, challenges and future perspectives.

Author

Arias DM, García J, and Uggetti E

Subjects

Photobioreactors microbiology, Water Pollutants, Chemical analysis, Water Purification, Cyanobacteria growth & development, Cyanobacteria metabolism, Polymers metabolism, Wastewater microbiology

Abstract

Cyanobacteria are prokaryotic oxygenic phototrophs receiving attention in a wide variety of technological applications such as food and feed supplements and production of valuable polymers. Among these, carbohydrates (e.g. glycogen) and polyhydroxyalkanoates (PHAs) are of increasing interest due to their potential as a biofuel substrate and bioplastics, respectively. However, biofuels and bioplastics from cyanobacteria have seen many years of effort towards commercialization with only limited success. Their main limitation for polymer production is the high cost of the nutrient source; wastewater, as an inexpensive and widely available alternative, may overcome this bottleneck. Though cyanobacteria have demonstrated a capacity to treat wastewater effluents, their cultivation in such a variable environment involves certain challenges of which the chief one is linked to contamination by other species, especially green algae. This would represent a serious drawback during cyanobacterial biomass production and affect further PHA and carbohydrate production. The present study reviews the potential of cyanobacteria to grow in wastewater effluents from different sources. Conditions favoring them in mixed-culture reactors are described, focusing on nutritional and operational aspects. Current advances and future prospects in PHA and carbohydrate production are explored and discussed., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

10. Non-random medicinal plants selection in the Kichwa community of the Ecuadorian Amazon.

Author

Robles Arias DM, Cevallos D, Gaoue OG, Fadiman MG, and Hindle T

Subjects

Adolescent, Adult, Ecuador, Ethnobotany, Ethnopharmacology, Female, Health Knowledge, Attitudes, Practice, Humans, Male, Medicine, Traditional, Young Adult, Indigenous Peoples, Phytotherapy, Plants, Medicinal

Abstract

The non-random selection of medicinal plants theory, which predicts taxonomical biases in ethnopharmacopeias, indirectly demonstrates that traditional medicinal systems are rational and based in part on the therapeutic efficacy of plants. This theory suggests that because members of a taxonomical group share similar characteristics, some groups will be over-utilized in pharmacopeias, while other groups bereft of therapeutic potential will be under-utilized medicinally. Empirical evidence fo this theory comes from studies that used data collected at the national level which may lead to the overestimation of medicinal plant list given that some parts of the country (e.g., protected areas) can be unavailable for medicinal plant collection. Similarly, because medicinal plant importance and knowledge can be gender-specific and depends on the degree of exposure of a community, failure to account for gender and community experience can limit our understanding of non-random selection of medicinal plants. In this study, we used the negative binomial model and an examination of studentized residuals to demonstrate that a Kichwa community in the Ecuadorian Amazon over-utilized different sets of medicinal plant families depending on the gender of the informants or the experience of the community. We showed that utilizing local data instead of nationwide data reveals new over-utilized families. Seven of the nine most over-utilized medicinal plant families we found were previously reported in different biogeographical regions. The other two families are novel reports. Overall, our study proposes a novel method to uncover the intracultural heterogeneity of traditional knowledge and people non-random selection of medicinal plants at the local level., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

11. Selection of cyanobacteria over green algae in a photo-sequencing batch bioreactor fed with wastewater.

Author

Arias DM, Rueda E, García-Galán MJ, Uggetti E, and García J

Subjects

Microalgae physiology, Microbial Consortia physiology, Bioreactors microbiology, Cyanobacteria physiology, Scenedesmus physiology, Waste Disposal, Fluid methods, Wastewater analysis

Abstract

In this work, a strategy based on photo-sequencing batch operation was used to select cyanobacteria over unsettled green algae in a wastewater treatment system, evaluating for the first time the effect of hydraulic regimes on nutritional dynamics and microorganisms' competition. During 30 days of operation, an initial microalgae mixed consortia dominated by the green microalgae Scenedesmus sp. was cultivated in two different photo-sequencing batch reactors operated at hydraulic retention time (HRT) of 6 days (PSBR 6 ) and 4 days (PSBR 4 ) at a theoretical solids retention time (SRT) of 10 d. Both reactors were compared with a semi-continuous reactor (SC 10 ) operated at 10 d of HRT and 10 days of SRT (used as a control). The results indicated that PSBR 6 and PSBR 4 decreased Scenedesmus sp. population by 88% and 48%, respectively. However, only PSBR 6 provided suitable conditions to select cyanobacteria from an initial green algae dominated culture. These conditions included volumetric loads of 11.72 mg TN L -1  d -1 , 2.04 mg TP L -1  d -1 and 53.31 mg TOC L -1  d -1 . The remaining nutrients in the culture led also to a phosphorus limiting N:P ratio (34:1) that improved the increase of cyanobacteria from an initial 2% until 70% of the total population. In addition, PSBR 6 reached a biomass production of 0.12 g L -1  d -1 , while removing TN, TP and TOC by 58%, 83% and 85%, respectively. Conversely, the application of higher nutrients loads caused by lower HRT (PSBR 4 ) led to an increase of only 13% of cyanobacteria while SC 10 remained with the same biomass composition during all the experimental time. Thus, this study showed that the dominance of cyanobacteria in microalgal-based wastewater treatment systems can be controlled by the operational and nutritional conditions. This knowledge could contribute to control microalgae contamination from up-scaling cyanobacterial biomass production in wastewater treatment systems., (Copyright © 2018. Published by Elsevier B.V.)

Published

2019

12. Production of polyhydroxybutyrates and carbohydrates in a mixed cyanobacterial culture: Effect of nutrients limitation and photoperiods.

Author

Arias DM, Uggetti E, García-Galán MJ, and García J

Subjects

Carbohydrates biosynthesis, Cyanobacteria growth & development, Hydroxybutyrates metabolism, Polyesters metabolism

Abstract

In the present study, different photoperiods and nutritional conditions were applied to a mixed wastewater-borne cyanobacterial culture in order to enhance the intracellular accumulation of polyhydroxybutyrates (PHBs) and carbohydrates. Two different experimental set-ups were used. In the first, the culture was permanently exposed to illumination, while in the second it was submitted to light/dark alternation (12 h cycles). In both cases, two different nutritional regimes were also evaluated, N-limitation and P-limitation. Results showed that the highest PHB concentration (104 mg L -1 ) was achieved under P limited conditions and permanent illumination, whereas the highest carbohydrate concentration (838 mg L -1 ) was obtained under N limited condition and light/dark alternation. With regard to bioplastics and biofuel generation, this study demonstrates that the accumulation of PHBs (bioplastics) and carbohydrates (potential biofuel substrate) is favored in wastewater-borne cyanobacteria under conditions where nutrients are limited., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

13. Integrating microalgae tertiary treatment into activated sludge systems for energy and nutrients recovery from wastewater.

Author

Arias DM, Solé-Bundó M, Garfí M, Ferrer I, García J, and Uggetti E

Subjects

Anaerobiosis, Biofuels, Biomass, Methane, Sewage, Microalgae, Wastewater

Abstract

In this study, microalgae digestate and secondary effluent were used to grow microalgae in a tertiary wastewater treatment, and then, the biomass was co-digested for biogas generation. A 30L closed-photobioreactor was used for microalgae cultivation. The biomass, mainly composed by Scenedesmus sp., reached and maintained a concentration of 1.1gTSS/L during 30days. A complete removal of N-NH 4 + and P-PO 4 3- and high nitrates and organic matter removals were achieved (58% N-NO 3 - and 70% COD) with 8d of HRT. The potential biogas production of the cultivated microalgae was determined in batch tests. To improve their biodegradability, a novel method combining their co-digestion with activated sludge after a simultaneous autohydrolysis co-pretreatment was evaluated. After the co-pretreatment, the methane yield increased by 130%. Thus, integrating microalgae tertiary treatment into activated sludge systems is a promising and feasible solution to recover energy and nutrients from waste, improving wastewater treatment plants sustainability., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

14. Cultivation and selection of cyanobacteria in a closed photobioreactor used for secondary effluent and digestate treatment.

Author

Arias DM, Uggetti E, García-Galán MJ, and García J

Subjects

Cyanobacteria growth & development, Photobioreactors microbiology, Waste Disposal, Fluid methods

Abstract

The main objective of this study was to select and grow wastewater-borne cyanobacteria in a closed photobioreactor (PBR) inoculated with a mixed consortium of microalgae. The 30L PBR was fed with a mixture of urban secondary effluent and digestate, and operated in semi-continuous mode. Based on the nutrients variation of the influent, three different periods were distinguished during one year of operation. Results showed that total inorganic nitrogen (TIN), inorganic phosphorus concentration (PO 4 3- ), phosphorus volumetric load (L V -P) and carbon limited/non-limited conditions leaded to different species composition, nutrients removal and biomass production in the culture. High TIN/PO 4 3- concentrations in the influent (36mg N L -1 /3mg P L -1 ), carbon limitation and an average L V -P of 0.35mg P L -1 d -1 were negatively related to cyanobacteria dominance and nutrients removal. On the contrary, cyanobacteria predominance over green algae and the highest microbial biomass production (averaging 0.084g Volatile Suspended Solids (VSS) L -1 d -1 ) were reached under TIN/PO 4 3- concentrations of 21mg N L -1 /2mg P L -1 , no carbon limitation and an average L V -P of 0.23mg P-PO 4 3- L -1 d -1 . However, although cyanobacteria predominance was also favored with a L V -P 0.15mg L -1 d -1 , biomass production was negatively affected due to a P limitation in the culture, resulting in a biomass production of 0.0.39g VSS L -1 d -1 . This study shows that the dominance of cyanobacteria in a microalgal cyanobacterial community in an agitated PBR using wastewater as nutrient source can be obtained and maintained for 234days. These data can also be applied in future biotechnology applications to optimize and enhance the production of added value products by cyanobacteria in wastewater treatment systems., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

15. Digital Smile Design concept delineates the final potential result of crown lengthening and porcelain veneers to correct a gummy smile.

Author

Trushkowsky R, Arias DM, and David S

Subjects

Adult, Dental Restoration Failure, Esthetics, Dental, Female, Gingiva pathology, Gingival Overgrowth surgery, Gingivectomy methods, Humans, Lip pathology, Models, Dental, Odontometry methods, Photography, Dental methods, Physical Examination, Radiography, Dental, Crown Lengthening methods, Dental Porcelain chemistry, Dental Veneers, Patient Care Planning, Smiling

Abstract

Prior to initiating any treatment, it is necessary to visualize the desired outcomes. It then becomes possible to formulate the steps required to achieve this result. Digital Smile Design (DSD) utilizes patient input and information gathered through diagnostic procedures to create an esthetic treatment scheme. In the case presented here, the NYUCD Esthetic Evaluation Form, intraoral and extraoral photographs, mounted diagnostic casts, physical examination, and radiographs were the diagnostic modalities. The gathered information served as a starting point for a wax-up and intraoral mock-up. This case report demonstrates how the DSD served as a template for crown lengthening procedures and design of the final porcelain veneer restorations.

Published

2016

16. [Cross-reactivity in allergic fungal sinusitis. Case report].

Author

González-Díaz SN, Arias-Cruz A, Rivero-Arias DM, Partida-Ortega AB, Elizondo-Villarreal B, Ibarra-Chávez JA, Ramos-Valencia L, Monge-Ortega OP, Macouzet-Sánchez C, and Salinas-Díaz MR

Subjects

Adolescent, Alternaria immunology, Animals, Aspergillus fumigatus immunology, Dermatophagoides farinae immunology, Helminthosporium immunology, Humans, Male, Cross Reactions immunology, Hypersensitivity immunology, Immunoglobulin E immunology, Sinusitis immunology

Abstract

Background: The presence of allergic mucin in allergic fungal sinusitis (AFS) is a manifestation that identifies it as a hypersensitivity process. AFS has a phenomenon of cross-reactivity to IgE-bound proteins having at least two shared epitopes., Clinical Report: A 13-year-old male with nasal obstructive symptoms of three years of evolution. An obstructive mass was identified in the sinuses through physical examination and CT. In endoscopic surgery, the left nostril polyp was identified with the macroscopic appearance of allergic mucin; the polyp was resected. Final histopathological examination using periodic acid-Schiff and Grocott's methenamine silver staining indicated Aspergillus. Two weeks after surgery, percutaneous tests showed sensitization to Alternaria, Helminthosporium sativum, and Deramatophagoides farianae with negativity to Aspergillus fumigatus., Conclusions: The absence of significant titers of specific IgE antibodies to Aspergillus fumigatus was the evidence that the hypersensitivity response was triggered by a pathogen other than that isolated in histopathological study, which coupled with positive tests for other fungi may be explained by the cross-reactivity phenomenon in a phenomenon of likely hypersensitivity.

Published

2016

17. [Prevalence of sensitization to fungi in patients with respiratory allergy].

Author

González-Díaz SN, Arias-Cruz A, Ibarra-Chávez JA, Elizondo-Villarreal B, Rivero-Arias DM, and Salinas-Díaz MR

Subjects

Allergens immunology, Alternaria immunology, Child, Child, Preschool, Cross-Sectional Studies, Humans, Infant, Infant, Newborn, Mexico epidemiology, Prevalence, Respiratory Hypersensitivity epidemiology, Respiratory Hypersensitivity microbiology, Skin Tests statistics & numerical data, Fungi immunology, Respiratory Hypersensitivity immunology

Abstract

Background: As part of the etiology of respiratory allergy we have genetics, prenatal factors and sensitivity to various airborne allergens, between these fungi are found. Relationship has been found between sensitization to fungal in skin tests and allergy pathogenesis and aggravation. There is a few literature in Mexico and in the north of the country it is lacking regarding this problem., Objective: Assess the prevalence of sensitization to fungi in patients with respiratory allergy in skin tests to airborne allergens; determine the most prevalent fungus and prevalence of sensitization to each species of fungus per year, to assess the prevalence of sensitization to fungi by years., Material and Method: Cross-sectional, observational and descriptive study conducted from 1 January 2010 to 31 December 2014 in patients treated at the Regional Center of Allergy and Clinical Immunology (Monterrey, Mexico) where we reviewed a database with patients whom performed skin tests, sensitization to 6 species of fungi were evaluated. We performed tables of data capture and statistical analysis., Results: 4880 patients had respiratory allergy, a 17.1% prevalence of sensitization to fungal skin tests was determined. The fungus specie most prevalent was Alternaria alternata with 5.5%. The year range with the highest prevalence of sensitization was 0-10 years with a 6.7., Conclusions: The prevalence of fungi sensitization was higher than the global prevalence found, but lower than the prevalence found in other researches in Mexico.

Published

2016

18. Treatment of the Patient with Gummy Smile in Conjunction with Digital Smile Approach.

Author

Arias DM, Trushkowsky RD, Brea LM, and David SB

Subjects

Alveoloplasty methods, Checklist, Crown Lengthening methods, Crowns, Dental Porcelain chemistry, Dental Veneers, Female, Gingivectomy methods, Humans, Image Processing, Computer-Assisted methods, Middle Aged, Odontometry methods, Patient Care Team, Photography, Dental methods, Esthetics, Dental, Gingiva pathology, Mouth Rehabilitation methods, Patient Care Planning, Smiling

Abstract

Gummy smile cases are always esthetically demanding cases. This article presents a case treated with an interdisciplinary treatment approach and Digital Smile Approach (DSA) using Keynote (DSA), to predictably achieve an esthetic outcome for a patient with gummy smile. The importance of using questionnaires and checklists to facilitate the gathering of diagnostic data cannot be overemphasized. The acquired data must then be transferred to the design of the final restorations. The use of digital smile design has emerged as a powerful tool in cosmetic dentistry to help both practitioner and patient visualize the final outcome., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

19. Genetic diversity and structure of wild populations of the tropical dry forest tree Jacaratia mexicana (Brassicales: Caricaceae) at a local scale in Mexico.

Author

Arias DM, Albarrán-Lara AL, González-Rodríguez A, Peñaloza-Ramírez J, Dorado O, and Leyva E

Subjects

Bayes Theorem, DNA, Plant analysis, Mexico, Random Amplified Polymorphic DNA Technique, Caricaceae genetics, Genetic Variation, Trees genetics

Abstract

The tropical dry forest is a greatly endangered ecosystem, from which Jacaratia mexicana is a native tree. With the aim to assess the levels of genetic variation and population structure, four wild populations of J. mexicana were studied in the Sierra de Huautla Biosphere Reserve, Morelos, Mexico. For this, DNA was extracted from 159 individuals and were amplified with six random primers using the Random Amplified Polymorphic DNA (RAPD). A total of 54 bands were obtained, of which 50 (92.6%) were polymorphic. The total genetic diversity found within the four populations was 0.451 when estimated by Shannon's index. An AMOVA analysis showed that 84% of the total genetic variation was found within populations and 16% was among populations. The UPGMA dendrogram showed that all individuals from one of the populations (Huaxtla) formed one distinct genetic group, while the rest of the individuals did not cluster according to population. A Mantel test did not show an association between genetic and geographical distances among populations (r=0.893, p=0.20). A Bayesian cluster analysis performed with STRUCTURE, showed that the most probable number of genetic groups in the data was four (K=4), and confirmed the distinctness of Huaxtla population. Our results showed that important genetic differentiation among populations can occur even at this small geographic scale and this has to be considered in conservation actions for this genetic resource.

Published

2012

20. College Women's Feminist Identity: A Multidimensional Analysis with Implications for Coping with Sexism.

Author

Leaper C and Arias DM

Abstract

This study examined components of women's feminist identity and possible relations to their reported coping responses to sexism. A sample of 169 undergraduate women (M = 19.4 y, SD = 1.2) from diverse ethnic backgrounds completed surveys assessing their experiences and gender-related views. The first set of analyses revealed that women's social gender identity, exposure to feminism, and gender-egalitarian attitudes independently contributed to feminist identification; moreover, non-stereotyping of feminists further predicted feminist self-identification. A second set of analyses tested the relative contribution of feminist identity components to women's cognitive appraisals of coping responses to sexual harassment. Seeking social support was predicted by self-identification as a feminist (for White European American women only). Confronting was predicted by social gender identity, non-stereotyping of feminists, and public identification as a feminist. Findings highlight possible components of women's feminist identity and their possible impact on coping responses to sexism.

Published

2011

21. The genetic structure of the gynodioecious Kallstroemia grandiflora (Zygophyllaceae): the role of male sterility and colonization history.

Author

Cuevas E, Arias DM, Domínguez CA, Castillo RA, and Molina-Freaner F

Subjects

Desert Climate, Genetic Variation, Genetics, Population, Geography, Heterozygote, Mexico, Phylogeny, Reproduction genetics, Zygophyllaceae enzymology, Zygophyllaceae genetics

Abstract

In gynodioecious populations, the frequency of females is expected to have a strong influence on the contemporary genetic structure of populations. Historical patterns of range contraction and expansion are also known to influence the genetic diversity of plant populations. We explore the influence of male sterility and colonization history on the genetic diversity in populations of Kallstroemia grandiflora along the Pacific of México. Both the overall population Fis and Fis values of hermaphrodites showed a negative association with female frequency. Genetic diversity declined with latitude. Our results provide evidence that females have a significant effect on the genetic structure as predicted by theoretical models and provide support for the hypothesis that historical processes have modified the genetic structure of K. grandiflora.

Published

2006

22. Morphological and RAPD analysis of hybridization between Quercus affinis and Q. laurina (fagaceae), two Mexican red oaks.

Author

González-Rodríguez A, Arias DM, Valencia S, and Oyama K

Abstract

Quercus affinis and Q. laurina are two closely related Mexican red oaks with partially overlapping distributions. Within the area of overlap, there are localities where morphological intergradation occurs. A previous hypothesis explained this pattern as a result of secondary contact between the two species, followed by hybridization and introgression. This possibility was analyzed here by examining foliar and genetic variation in 16 localities situated along a macrogeographic gradient, which included morphologically representative populations of both species and populations from within the area of overlap. Maximum-likelihood hybrid index scores calculated from nine semi-diagnostic RAPD markers indicated a shift in the genetic composition of populations from one species to the other along the macrogeographic gradient, with genetically intermediate populations situated in the area of overlap. Foliar variation followed a partially congruent pattern, but Q. laurina-like morphology predominated in some of the genetically intermediate populations. There were several instances of correlated frequency changeovers of single RAPD markers and morphological characters along the macrogeographic gradient and a few cases of markedly parallel patterns between markers. The results were interpreted as consistent with a hypothesis of secondary contact between the two oak species that has resulted in some differential introgression among markers.

Published

2004

23. The effects of mating design on introgression between chromosomally divergent sunflower species.

Author

Rieseberg LH, Arias DM, Ungerer MC, Linder CR, and Sinervo B

Abstract

Population genetic theory suggests that mating designs employing one or more generations of sib-crossing or selfing prior to backcrossing are more effective than backcrossing alone for moving alleles across linkage groups where effective recombination rates are low (e.g., chromosomally divergent linkages). To test this hypothesis, we analyzed the effects of chromosomal structural differences and mating designs on the frequency and genomic distribution of introgressed markers using the domesticated sunflower, Helianthus annuus, and one of its wild relatives, H. petiolaris, as the experimental system. We surveyed 170 progeny, representing the end products of three different mating designs (design I, P-F1-BC1-BC2-F2-F3; design II, P-F1-F2-BC1-BC2-F3; and design III, P-F1-F2-F3-BC1-BC2), for 197 parental RAPD markers of known genomic location. Comparison of observed patterns of introgression with expectations based on simulations of unrestricted introgression revealed that much of the genome was protected from introgression regardless of mating design or chromosomal structural differences. Although the simulations indicated that all markers should introgress into multiple individuals in each of the three mating designs, 20 of 58 (34%) markers from collinear linkage groups, and 112 of 139 (81%) markers from rearranged linkage groups did not introgress. In addition, the average size of introgressed fragments (12.2 cM) was less than half that predicted by theoretical models (26-33 cM). Both of these observations are consistent with strong selection against introgressed linkage blocks, particularly in chromosomally divergent linkages. Nonetheless, mating designs II and III, which employed one and two generations of sib-mating, respectively, prior to backcrossing, were significantly more effective at moving alleles across both collinear and rearranged linkages than mating design I, in which the backcross generations preceded sib-mating. Thus, breeding strategies that include sib-crossing, in combination with backcrossing, should significantly increase the effectiveness of gene transfer across complex genic or chromosomal sterility barriers.

Published

1996

24. Role of Gene Interactions in Hybrid Speciation: Evidence from Ancient and Experimental Hybrids

Author

Rieseberg LH, Sinervo B, Linder CR, Ungerer MC, and Arias DM

Abstract

The origin of a new diploid species by means of hybridization requires the successful merger of differentiated parental species' genomes. To study this process, the genomic composition of three experimentally synthesized hybrid lineages was compared with that of an ancient hybrid species. The genomic composition of the synthesized and ancient hybrids was concordant (rs = 0.68, P < 0.0001), indicating that selection to a large extent governs hybrid species formation. Further, nonrandom rates of introgression and significant associations among unlinked markers in each of the three synthesized hybrid lineages imply that interactions between coadapted parental species' genes constrain the genomic composition of hybrid species.

Published

1996

25. Gene flow between cultivated and wild sunflowers.

Author

Arias DM and Rieseberg LH

Abstract

With the development of transgenic crops, concern has been expressed regarding the possible escape of genetically-engineered genes via hybridization with wild relatives. This is a potential hazard for sunflowers because wild sunflowers occur as weeds in fields where cultivated sunflowers are grown and hybridization between them has been reported. In order to quantify the potential for gene escape, two experimental stands of sunflower cultivars were planted at two sites with different rainfall and altitude profiles. Populations of wild plants were planted at different distances from each cultivar stand. An allele homozygous in the cultivar (6Pgd-3-a), but absent in the wild populations, was used as a molecular marker to document the incidence and rate of gene escape from the cultivar into the wild populations of sunflowers. Three-thousand achenes were surveyed to determine the amount of gene flow from the cultivated to the wild populations. The marginal wild populations (3 m from the cultivar) showed the highest percentage (27%) of gene flow. Gene flow was found to decrease with distance; however, gene flow occurred up to distances of 1000 m from the source population. These data suggest that physical distance alone will be unlikely to prevent gene flow between cultivated and wild populations of sunflowers.

Published

1994

26. CHLOROPLAST DNA INTROGRESSION IN SOUTHERN CALIFORNIA SUNFLOWERS.

Author

Dorado O, Rieseberg LH, and Arias DM

Published

1992

27. [Preparation and use of factor VIII concentrates in hemophilia].

Author

Vilar JM, Ortega F, Martin-Arias DM, Vazquez J, and Navarro JL

Subjects

Factor VIII isolation & purification, Humans, Factor VIII therapeutic use, Hemophilia A drug therapy

Published

1969