Your search keyword '"Blanca Andres"' showing total 9 results

1. Film and student viewers: An awareness campaign for Filipino historical films

Author

Yolanda Lao, Alyanna Blanca Andres, Kayelene Caacbay, and Bryan Xandix Espirit

Subjects

General Medicine

Published

2023

2. Using Micro-Scale and Solid Material Data for Modelling Heat Transfer in Stone Wool Composites Under Heat Exposures

Author

Blanca Andres, Karlis Livkiss, Abhishek Bhargava, and P. van Hees

Subjects

Thermogravimetric analysis, Materials science, Gypsum, engineering.material, Combustion, law.invention, law, Wool, Thermal, Heat transfer, engineering, General Materials Science, Calcination, Composite material, Safety, Risk, Reliability and Quality, Material properties

Abstract

Modelling capabilities have drastically improved in the last decade. However, in most of the cases the fire response of building elements is predicted by fitting input material properties to the models in order to match test data. This paper presents models developed to predict the unexposed side temperature of stone wool layered composites with stainless steel or gypsum claddings exposed to severe heat conditions. The suitability of material thermal properties from literature and reaction kinetic parameters obtained at bench scale (e.g. thermogravimetric analysis, bomb calorimeter, slug test) to model composites at different heat exposures is studied. Modelling efforts include: (1) the combustion of the organic content of the wool, (2) diffusion term to account for the passage of hot air through the wool, (3) calcination reactions in the gypsum plasterboard, (4) energy released by burning of the paper lining of gypsum plasterboard. The models are compared against experimental data. Results show that material thermal properties of gypsum plasterboard and stone wool retrieved from the literature and obtained at a bench scale provide accurate model predictions under different heat exposures. Furthermore, reactions schemes for the dehydration of gypsum plasterboard and organic content combustion in the wool also provide good modelling results. Further analysis is necessary to understand the environmental conditions inside the layered composites in fire exposures in order to achieve better modelling predictions.

Published

2021

3. Lateral Resistance Reduction to Cold-Formed Steel-Framed Shear Walls under Various Fire Scenarios

Author

Matthew S, Hoehler, Blanca, Andres, and Matthew F, Bundy

Subjects

Article

Abstract

This paper examines the structural response of cold-formed steel-framed building lateral force-resisting systems under combinations of simulated earthquake and fire loading. Full-scale experiments with gypsum-sheet steel composite panel sheathed walls, oriented strand board sheathed walls, and steel strap braced walls are presented. Twenty-two test specimens are subjected sequentially to combinations of cyclic shear deformation and fires of varying intensity; some approximate temperatures in standard furnace tests, and most have characteristics of actual building fires. In select tests, the walls are predamaged to simulate fire following an earthquake. The results show a progressive decrease of postfire lateral load capacity with increasing fire intensity for all walls; however, each wall type exhibits varied sensitivity to the fire intensity as well as to predamage. By understanding the response of these structural systems in real fires, designers can better plan for situations in which multiple hazards, including fire, exist.

Published

2020

4. Response of stone wool–insulated building barriers under severe heating exposures

Author

Luke Bisby, Karlis Livkiss, Nils Johansson, Patrick Van Hees, Blanca Andres, Abhishek Bhargava, and Juan P. Hidalgo

Subjects

Gypsum, 0211 other engineering and technologies, 020101 civil engineering, furnace test, 02 engineering and technology, building fire barriers, engineering.material, severe heat exposures, STUD WALLS, 0201 civil engineering, H-TRIS test, TEMPERATURES, Safety, Risk, Reliability and Quality, GYPSUM BOARD, 021110 strategic, defence & security studies, FIRE RESISTANCE, Mechanical Engineering, Metallurgy, PANELS, Stone wool-insulated sandwich panels, Full scale experiments, intermediate scale experiments, THERMAL PERFORMANCE, MODEL, Mechanics of Materials, Wool, engineering, Environmental science, Fire resistance, PLASTERBOARDS, full-scale experiments

Abstract

This article presents the experimental results of stone wool–layered sandwich constructions, with either steel or gypsum claddings, tested under four different heating exposures: 7 kW/m2 incident radiant heat flux exposure, 60 kW/m2 incident radiant heat flux exposure, parametric time–temperature curve exposure and ISO 834 standard time–temperature exposure. The test apparatus used were a movable radiant panel system, a mid-scale furnace (1.5 m3) and a large-scale furnace (15 m3). The results show that reduced-scale tests are capable of reproducing the heat transferred through the construction at large scale provided there is limited mechanical degradation. The results indicate that the availability of oxygen is fundamental to the fire behaviour of the sandwich composites tested. Reactions occurring in stone wool micro-scale testing, such as oxidative combustion of the binder or crystallisation of the fibres, have a limited effect on the temperature increase when wool is protected from air entrainment.

Published

2018

5. Characterization of stone wool properties for fire safety engineering calculations

Author

Karlis Livkiss, Abhishek Bhargava, Blanca Andres, and Patrick Van Hees

Subjects

Waste management, business.industry, Mechanical Engineering, 020101 civil engineering, 02 engineering and technology, Fire safety, 01 natural sciences, 010406 physical chemistry, 0201 civil engineering, 0104 chemical sciences, Characterization (materials science), Mechanics of Materials, Wool, New product development, Environmental science, Safety, Risk, Reliability and Quality, business

Abstract

Prediction of the insulating capability of building products in fire conditions would support the product development process. Stone wool insulation is a widely used material in fire barrier constructions. Due to the combustion of its organic content, the temperature inside stone wool can rise above the temperature of the exposed boundary. This temperature rise is difficult to predict. An extensive test program was performed to obtain the thermal and reaction kinetic properties of stone wool. The test methods included modified slug calorimeter, thermogravimetric analysis, differential scanning calorimetry, micro-scale combustion calorimetry and bomb calorimetry. The thermal conductivity in elevated temperatures was similar for all the investigated products. Two positive mass loss rate and heat release rate peaks were observed in temperatures between 20°C and 700°C. Reaction kinetic parameters were obtained and used in a finite difference model predicting the temperature increase in stone wool upon linear heating.

Published

2018

6. Delabelling beta-lactam allergy

Author

Gustavo-Jorge Molina-Molina, Diana Rocío Garnica Velandia, Blanca Andrés-López, Carolina Perales, Laura Marin-Asensio, Yanina Jurgens, Olga Esteso, Carolina Escobar, Xavier Vidal, Lourdes Vendrell, Laura Gómez-Ganda, Dolores Rodríguez, Eva Montané, Victoria Cardona, and Antònia Agustí

Subjects

beta-lactam, delabelling, drug provocation test, electronic medical records, skin test, penicillin, Therapeutics. Pharmacology, RM1-950

Abstract

Background: Hypersensitivity to beta-lactam (BL) antibiotics is one of the most frequent reported drug allergies. In our population, it is common to find labels of BL allergy in electronic medical records (EMRs) that have not been assessed. The objective of our study was to detect patients with beta-lactam allergy labels in their EMRs and to assess how many of them are false after a correct diagnostic evaluation.Methods: A multicentre prospective study was performed with patients labelled as allergic to BLs in their EMRs in the previous 5 years. Demographical and clinical data, as well as variables regarding the BL allergy label and the characteristics of the index reaction from clinical history and EMRs, were recorded. Then, diagnostic assessments including clinical history, skin tests (STs), and drug provocation tests (DPTs) were conducted in order to confirm or exclude the diagnosis of BL allergy.Results: A total of 249 patients completed the study, of which 160 (64.3%) were women with a median age of 57 years (interquartile range [IQR], 45–68). The most frequent BL allergy labels detected were for penicillin (124), amoxicillin/clavulanic acid (61), and amoxicillin (54). Of the 204 patients who underwent STs, 20.1% were positive. DPTs were performed in 224 patients, showing good tolerance in 87.1% of cases. After the allergy diagnosis work-up, 186 patients (74.7%) were diagnosed as non-allergic to BL antibiotics.Conclusion: In our study population, the number of patients labelled as allergic to BLs in their EMRs was similar to that in previously published studies, with proportions near to 75%–80% being falsely labelled as allergic to BLs.

Published

2024

7. Fire resistance of cold-formed steel framed shear walls under various fire scenarios

Author

Matthew F. Bundy, Blanca Andres, and Matthew S. Hoehler

Subjects

Polymers and Plastics, business.industry, Metals and Alloys, 020101 civil engineering, Fire experiment, 02 engineering and technology, General Chemistry, Structural engineering, 021001 nanoscience & nanotechnology, Cold-formed steel, Oriented strand board, Article, 0201 civil engineering, Electronic, Optical and Magnetic Materials, law.invention, law, Ceramics and Composites, Environmental science, Shear wall, Fire resistance, 0210 nano-technology, business

Abstract

This paper presents results of large-scale experiments with varying levels of fire severity on lateral force-resisting systems commonly used in cold-formed steel framed buildings. Gypsum-sheet steel composite panel sheathed walls, oriented strand board sheathed walls, and steel strap-braced walls are examined. Postflashover fire conditions of two different intensities as well as 1 hour of fire exposure similar to that in a standard furnace qualification test are studied. Additionally, a full-scale furnished kitchen fire experiment is conducted for comparison. The results highlight differences in the thermal response and subsequent performance of the walls as well as differing sensitives of the walls to pre-damage, eg, that might occur during an earthquake. The results are part of a larger effort to provide fragilities for these wall systems in response to realistic fires for performance-based design.

Published

2019

8. Systemic mastocytosis presenting as kounis syndrome

Author

Blanca Andres, Ramón Pujol, Ramon Lleonart, Mercè Corominas, Manuel Rubio-Rivas, and Melina Makatsori

Subjects

Pulmonary and Respiratory Medicine, medicine.medical_specialty, Systemic blood, business.industry, Immunology, MEDLINE, medicine, Immunology and Allergy, Kounis syndrome, Systemic mastocytosis, medicine.disease, business, Dermatology

Published

2013

9. 87 Treatment of Idiopathic Nonhistaminergic Angiodema with Icatibant

Author

Lourdes Pasto, Blanca Andres, Mercè Corominas, Ramon Lleonart, and Javier Jacob

Subjects

Pulmonary and Respiratory Medicine, medicine.medical_specialty, medicine.drug_class, Oral Abstract Session, Immunology, Bradykinin, Idiopathic angioedema, Pharmacology, chemistry.chemical_compound, Icatibant, immune system diseases, medicine, Immunology and Allergy, cardiovascular diseases, skin and connective tissue diseases, Angioedema, business.industry, food and beverages, medicine.disease, Receptor antagonist, Dermatology, Abstracts of the XXII World Allergy Congress, chemistry, Hereditary angioedema, medicine.symptom, business

Abstract

Background Patients with Idiopathic nonhistaminergic angioedema appear to have similar clinical features and pathogenesis as those with hereditary angioedema. Icatibant, a selective bradykinin β2 receptor antagonist, licensed for use in acute attacks of hereditary angioedema could be also effective in treating other forms of angioedema. We report a patient with idiopathic angioedema who was successfully treated with icatibant. Methods A 77-year-old man with a history of arterial hypertension currently treated with hydrochlorothiazide and type II diabetes under insulin treatment. He had suffered from recurrent angioedema attacks located on his tongue without urticaria during the last 7 years. Serum levels of C1-INH, C4 and C1q and C1-INH activity were normal. In spite of cessation of treatment with ACE inhibitors and RAAS-blockers (he had been treated with enalapril and losartan previously) he continued with the angioedema attacks. As no cause of angioedema could be identified and the angioedema did not response to antihistamines, the patient was diagnosed of idiopathic nonhistaminergic angioedema. In one of the episodes he was admitted at the emergency room with a swollen tongue. The edema gradually progressed in spite of the treatment with antihistamines, corticosteroids and epinephrine. Tracheotomy was considered due to the severity of the angioedema that began to cause airway compromise. After consulting the Allergy Unit, treatment with icatibant was administered. Results Approximately 30 minutes after the subcutaneous administration of icatibant 30 mg the symptoms improved and the angioedema resolved completely within 6 hours. The only adverse effect following the icatibant administration was pain localized in the injection site. After 5 months the patient suffered a similar attack that was also successfully treated with icatibant sc. Conclusions Icatibant administered subcutaneously provided an effective and well-tolerated treatment option for acute angioedema attacks in a patient with idiopathic nonhistaminergic angioedema. This form of angioedema could have a pathogenic mechanism similar to the bradikinin mediated angioedema. We suggest the use of icatibant in the treatment of severe attacks of angioedema in patients that do not response to antihistamines, corticosteroids and epinephrine.

Published

2012