E. Rodríguez scite author profile

The main scientific discoveries on Aloe vera published mainly in the last three decades are presented in this work. After describing Aloe from a botanical point of view, the papers related with the chemical composition of different parts of the leaf of Aloe, particularly those in which the gel is described and are presented in a synthetic manner. The chemical analyses reveal that Aloe gel contains mannose polymers with some glucose and other sugars, among which the most important is Acemannan. Besides these, other components such as glycoproteins, enzymes, amino acids, vitamins, and minerals are described. Different factors also affecting the chemical composition of the gel, such as species and variety, climatic and soil conditions, cultivation methods, processing and preservation, are enumerated and discussed. On the other hand, the main therapeutic applications have been revised and the possible damaging effects of Aloe are also commented upon. A special emphasis is placed on the biologically active compounds or groups of compounds responsible for the therapeutic applications and which are their action mechanisms. The paper concludes that more research is needed to confirm the therapeutic and beneficial effects and to definitively clarify the myth surrounding Aloe vera. A general view on the problem of the commercialization and establishment of the quality and safety of Aloe products in the food industry has been offered here. The main points and European regulations that need to be considered regarding the quality control of prepared Aloe products are presented in this paper.

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Mineral and trace element concentrations in cultivars of tomatoes

Suárez

Rodríguez

Dı́az-Romero

2007

Food Chemistry

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Analysis for crystals in synovial fluid: training of the analysts results in high consistency

Lumbreras

Pascual

Frasquet

et al. 2005

Annals of the Rheumatic Diseases

115

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Background: Identification of monosodium urate (MSU) and calcium pyrophosphate dehydrate (CPPD) crystals in synovial fluid samples is diagnostic of gout and CPPD crystal related arthropathy. Various studies have shown poor consistency in results of crystal analysis. Objective: To determine whether training of the analysts increases the consistency. Methods: An expert rheumatologist gave a course on crystal detection and identification. The four trained observers then blindly and independently examined synovial fluid samples previously classified by the expert which had been obtained from patients with both crystal arthropathies and other non-crystal related inflammatory joint conditions. Results: 194 observations were made on 64 synovial fluid samples: 96 without crystals (49.4%), 55 with CPPD crystal (28.4%), and 43 with MSU crystals (22.2%). For crystal detection (presence or absence of crystals), sensitivity was 95.9% and specificity 86.5%. For identification of MSU crystals, sensitivity was 95.3% and specificity 97.2%. For identification of CPPD crystals, sensitivity was 92.7% and specificity 92.1%. The k index of agreement with the reference standard between the observers was 0.84 for any crystal detection, 0.93 for MSU crystal sample identification, and 0.79 for CPPD crystal sample identification. Conclusions: For trained observers, the detection and identification of crystals in synovial fluid is a consistent procedure.

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Chemical composition of tomato (Lycopersicon esculentum) from Tenerife, the Canary Islands

2008

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E. Rodríguez

Chemical characterization of Opuntia dillenii and Opuntia ficus indica fruits

Aloe veraas a Functional Ingredient in Foods

Mineral and trace element concentrations in cultivars of tomatoes

Analysis for crystals in synovial fluid: training of the analysts results in high consistency

Chemical composition of tomato (Lycopersicon esculentum) from Tenerife, the Canary Islands

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