José J. Alba-Romero scite author profile

Moringa oleiferais a tree distributed in Mexican semiarid and coastal regions.M. oleiferais used in practice in the treatment of various diseases and is available without a medical prescription, often in the form of an herbal infusion for everyday use. The aim of the present study was to evaluate the chemical composition and nutritional values of driedM. oleiferaleaf powder collected from two different regions in Mexico. All samples ofM. oleiferaexhibited moisture levels varying from 3.06 to 3.34%, lipids from 10.21 to 10.31%, fiber from 7.29 to 9.46%, ashes from 10.71 to 11.18%, crude protein from 10.74 to 11.48%, and carbohydrates from 54.61 to 57.61%. The predominant mineral elements in the leaf powder according to ICP-MS were Ca (2016.5–2620.5 mg/100 g), K (1817–1845 mg/100 g), and Mg (322.5–340.6 mg/100 g). The HPLC analysis indicated the presence of phenolic acids (gallic and chlorogenic acids) and flavonoids (rutin, luteolin, quercetin, apigenin, and kaempferol). We concluded that LombardiaM. oleiferasamples could be employed in edible and commercial applications. Our results showed that the highest mean value of As from the San Pedro samples exceeds the recommended level and may constitute a health hazard to consumers.

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Antibiotic resistance, virulence factors and genotyping of Pseudomonas aeruginosa in public hospitals of northeastern Mexico

González-Olvera

Pérez‐Morales

González‐Zamora

et al. 2019

J Infect Dev Ctries

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Introduction: Pseudomonas aeruginosa is the second most prevalent opportunistic pathogen causing nosocomial infections in Mexico. This study evaluated antibiotic resistance, production of virulence factors and clonal diversity of P. aeruginosa strains isolated from patients undergoing nosocomial infections in public hospitals of northeastern Mexico. Methodology: Ninety-two P. aeruginosa isolates from urine culture, Foley catheter, ear, wounds, respiratory tract secretions, scalp, blood culture, bronchoalveolar lavage, expectoration and cerebrospinal fluid causing nosocomial infections were analyzed. The isolates were identified by MALDI-TOF and antibiotic resistance profiles obtained by MicroScan®. The production of virulence factors was analyzed with spectrophotometric techniques and isolates genotyped by ERIC-PCR. Results: Out of the 92 isolates, 26 (28.2%) were found to be multidrug resistant (MDR); 21 (22.7%) were classified as extremely drug resistant (XDR). Highest resistance rate was found for gatifloxacin (42%) while ciprofloxacin accounted for the antibiotic with the lowest resistance rate (2%). Bronchoalveolar lavage isolates produced the highest amounts of virulence factors: biofilm (44.4% ± 2.7%), elastase (58.5% ± 4.3%), alkaline protease (60.1% ± 5.0%); except for pyocyanin production. The ERIC-PCR assay showed 83 genetic patterns (90% clonal diversity) and 13 isolates had 100% genetic similarity, forming 4 real clones, 3 of these clones were obtained from different anatomical site and/or hospital. Conclusions: Antibiotic resistance and virulence factors production was heterogeneous among samples analyzed. Genotyping of P. aeruginosa strains showed high genetic diversity in the studied isolates.

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Application of neem tree in agriculture, industry, medicine, and environment: a review

Martínez-Romero¹,

Ortega-Sánchez²,

Hernández-González³

et al. 2016

Afr. J. Trad. Compl. Alt. Med.

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Background: The Neem tree (Azadirachta indica A. Juss.) is native to the South Asian countries, but its cultivation has already spread to countries in other continents, always with tropical climates. It is used in Traditional Medicine. The objective of this review was to consult and discuss the application of the Neem tree in agriculture, industry, Medicine, and the environment. Materials and Methods: Literature retrieval was performed on four databases: OVID; PUBMED; EBSCOhost, and EMBASE, and in the ISI Web of Science. Key words for the search included Neem and Azadirachta indica. Results:A series of studies have demonstrated that the Neem tree has been used medicinally since ancient times. The bark, leaves, fruit, flowers, and roots have been employed, each with very favorable applications. The bark of the Neem tree is cool, bitter, astringent, pungent, and refreshing. It is useful for oral diseases, cough, fever, neuromuscular pain, loss of appetite, fatigue, intestinal parasites, wound healing, as a laxative, as an anti-hemorrhoidal, as an emetic, for skin diseases, to calm excessive thirst, eliminate toxins, as an astringent, an expectorant, and it purifies the blood and prevents damage caused by free radicals to the body, neutralizing this damage. It is also used to treat snake bites and insect bites. The flowers are utilized to regulate body heat. The oil is removed from the seed for pharmaceuticals, paper, and food. Plants, vegetables, and herbs employed as food for humans, and currently in Traditional Medicine, have been accepted as an essential contribution to drug discovery and in chemotherapy in cancer prevention and development. This vegetable oil has physicochemical properties that allow its proposal as a potential raw material for the soap industry. Conclusion: It was possible to know and discuss the variety of applications of the Neem tree, including the bark, leaves, fruit, flowers, and roots, each with very favorable applications in agriculture, industry, Medicine, and especially its use in the care environment.

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Analysis of Cuorum Sensing-Dependent Virulence Factors and Drug Resistance in Pseudomonas Aeruginosa Strains

Alba-Romero¹,

Ruíz-Flores²,

Castro-Escarpulli³

et al. 2021

SJMH

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The objective was to analyze the virulence factors dependent on Cuorum Sensing and drug resistance in strains of Pseudomonas aeruginosa. Virulence factors such as pyocyanin, beta-lactamase, biofilm, and antibiotic resistance were determined in 95 strains of P. aeruginosa isolated from hospitalized patients. Genus and species were identified by protein analysis by MALDI-TOF. 100% of the strains were resistant to at least one drug and the highest proportion was 32 strains resistant to 4 drugs and 5 resistant PAM strains. In the analysis of virulence factors, 98.8% produce at least one virulence factor and 48.9% are beta-lactamase producers. Therefore, it is concluded that P. aeruginosa strains isolated from clinical samples constitute a risk factor for hospitalized patients.

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Application of Neem Tree in Agriculture, Industry, Medicine, and Environment: A Review

Martínez-Romero¹,

Ortega-Sánchez²,

Hernández-González³

et al. 2016

Afr J Tradit Complement Altern Med

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Background: The Neem tree (Azadirachta indica A. Juss.) is native to the South Asian countries, but its cultivation has already spread to countries in other continents, always with tropical climates. It is used in Traditional Medicine. The objective of this review was to consult and discuss the application of the Neem tree in agriculture, industry, Medicine, and the environment. Materials and Methods: Literature retrieval was performed on four databases: OVID; PUBMED; EBSCOhost, and EMBASE, and in the ISI Web of Science. Key words for the search included Neem and Azadirachta indica. Results: A series of studies have demonstrated that the Neem tree has been used medicinally since ancient times. The bark, leaves, fruit, flowers, and roots have been employed, each with very favorable applications. The bark of the Neem tree is cool, bitter, astringent, pungent, and refreshing. It is useful for oral diseases, cough, fever, neuromuscular pain, loss of appetite, fatigue, intestinal parasites, wound healing, as a laxative, as an anti-hemorrhoidal, as an emetic, for skin diseases, to calm excessive thirst, eliminate toxins, as an astringent, an expectorant, and it purifies the blood and prevents damage caused by free radicals to the body, neutralizing this damage. It is also used to treat snake bites and insect bites. The flowers are utilized to regulate body heat. The oil is removed from the seed for pharmaceuticals, paper, and food. Plants, vegetables, and herbs employed as food for humans, and currently in Traditional Medicine, have been accepted as an essential contribution to drug discovery and in chemotherapy in cancer prevention and development. This vegetable oil has physicochemical properties that allow its proposal as a potential raw material for the soap industry. Conclusion: It was possible to know and discuss the variety of applications of the Neem tree, including the bark, leaves, fruit, flowers, and roots, each with very favorable applications in agriculture, industry, Medicine, and especially its use in the care environment.

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