Ethnopharmacology, Nutritional Value, Therapeutic Effects, Phytochemistry, and Toxicology of Salvia hispanica L.: A Review.

AIMS: The purpose of this review was to emphasize the nutritional value, and pharmacological and phytochemical properties of Salvia hispanica, as well as its toxicological evaluation. BACKGROUND: Salvia hispanica L. (S. hispanica), also called chia seeds, is an annual herbaceous plant belonging to the family Lamiaceae. It is a species of medicinal and dietary plant used since ancient times by the Maya and Aztecs. Its product is an indehiscent dry fruit that is commonly called a seed. It is utilized for its health benefits and uses in cooking. OBJECTIVE: The study aimed to investigate the pharmacological, phytochemical, and toxicological properties of S. hispanica seeds. The research also attempted to explore and compile all existing knowledge and data on these seeds' nutritional value and medical applications. MATERIALS AND METHODS: The current review was conducted using numerous scientific databases, including Science Direct, Scopus, PubMed, Google Scholar, etc. The correct plant name was verified from plantlist.org. The results of this search were interpreted, analyzed, and documented based on the obtained bibliographic information. RESULTS: S. hispanica is a pseudo cereal that is consumed by the world's population because of its preventive, functional, and antioxidant characteristics, attributable to the presence of lipids, dietary fiber, protein, phenolic compounds, vitamins, and minerals. According to research, chia offers hypoglycemic, antimicrobial, anticancer, anti-inflammatory, antioxidant, antihypersensitive, anti-obesity, and cardioprotective properties. Chia consumption has grown because of its favorable benefits on obesity, cardiovascular disease, diabetes, and several forms of cancer. These advantages are mostly due to the high concentration of essential fatty acids, dietary fiber, antioxidants, flavonoids, anthocyanins, vitamins, carotenoids, and minerals found in this seed. Based on the beneficial components, chia seeds have enormous potential in the areas of health, food, animal feed, medicines, and nutraceuticals. Finally, toxicological investigations have indicated the greater doses of chia seed extracts as safe. CONCLUSION: The current evaluation has focused on the distribution, chemical composition, nutritional value, and principal uses of S. hispanica in order to determine future research requirements and examine its pharmacological applications through clinical studies.

Clinical, Nutritional, and Functional Evaluation of Chia Seed-Fortified Muffins.

Health-protective functional foods are gaining popularity in the world of nutrition because they promote excellent health while decreasing pharmaceutical burdens. Chia seeds (CS) (Salvia hispanica L.), the greatest vegetative source of α-linolenic acid, bioactive proteins, and fibers, are among the top unconventional oilseeds shown to have bounteous benefits against various non-communicable diseases. Purposely, this study was designed to integrate roasted CS powder into white-flour-based ordinary bakery goods to improve their nutritional and nutraceutical profiles. CS efficacy in normal and hyperlipidemic Sprague-Dawley rats resulted in mitigating blood glucose, triglycerides, total cholesterol, and low-density lipoprotein cholesterol while elevating high-density lipoprotein cholesterol, hematocrit, hemoglobin, red blood cell counts, and platelets. The nutritional profiling of chia-fortified muffins indicated significant increases of 47% in fat, 92% in fiber, 15% in protein, and 62% in minerals. The farinographic experiments of CS-blends revealed generally improved dough quality features with a significant rise in the degree of softening as fortification levels increased. A marketable recipe for CSF-muffins with several degrees of fortification demonstrated a significant rise in fat, 92% rise in fiber, 15% rise in protein, and 62% rise in minerals. Sensorial evaluation by trained taste panelists revealed a maximum appraisal of the 15% chia-fortified muffins due to aroma, appearance, and overall acceptability, and were forwarded for being acceptable for commercialization.

Salvia hispanica L. seeds extract alleviate encephalopathy in streptozotocin-induced diabetes in rats: role of oxidative stress, neurotransmitters, DNA and histological indices.

CONTEXT: Diabetes mellitus (DM) is a metabolic disorder and may lead to cognitive dysfunctions. OBJECTIVE: The aim of this work is to evaluate the potency of Salvia hispanica L. seeds (S. hispanica L.) (chia seeds) petroleum ether extract in attenuating brain complications associated with streptozotocin (STZ) induced diabetes in rats. MATERIALS AND METHODS: Phytochemical composition of the seeds extract, macro and micro elements, vitamins, protein, carbohydrate and caloric values were estimated. Diabetes was induced by a single intraperitoneal injection of STZ (60 mg/kg body weight (b.wt)). Glibenclamide as a reference drug was also evaluated. The biochemical evaluation was done by measuring levels of glucose, insulin, α- amylase, glutathione (GSH), superoxide dismutase (SOD), malondialdehyde (MDA), dopamine (DA), serotonin (5-HD), noradrenaline (NE), acetylcholinesterase (AchE), tumour necrosis factor-α (TNF-α), DNA fragmentation pattern and the histopathological profile of the brain hippocampus region. RESULTS: Gas chromatography/mass spectrometry (GC/MS) analysis revealed the presence of twenty-five fatty acid esters and twenty-two compounds. Column chromatography led to the isolation of nine compounds. Treatment with the seeds extract revealed improvement of the measured parameters with variable degrees. CONCLUSION: Chia seeds extract succeeded to attenuate the neurodegeneration in diabetic rats. Thereafter, it had a therapeutic effect and could be potentially used as a new dietary supplement against diabetic encephalopathy.

Green synthesis of nickel oxide nanoparticles using Salvia hispanica L. (chia) seeds extract and studies of their photocatalytic activity and cytotoxicity effects.

The physical and chemical properties of Nickel oxide nanoparticles (NiO-NPs) have attracted the attention of many and in this regard, this study was performed to produce NiO-NPs by the means of Salvia hispanica L. (chia) seeds extract as the capping agent. Physical and morphological features of the obtained NiO-NPs were examined through the application of TGA, FTIR, UV-Vis, XRD, FESEM/EDAX/PSA, and VSM procedures. According to the FESEM/PSA images, the biosynthesized NiO-NPs contained a spherical shape and a size of about 30 nm, while the results of the EDAX study approved the existence of oxygen and nickel elements in the structure of this product. Furthermore, certain corresponding peaks to the crystal structure of NiO-NPs were observed throughout the XRD pattern. Next to the superparamagnetic behavior that was detected in the results of VSM analysis, the cytotoxicity effect of NiO-NPs was not reported to be dependent on concentration. Considering the high photocatalytic capacity along with the low cytotoxic effects of NiO-NPs, we can suggest the applicability of this product for various applications such as disease control and removal of residual toxins.

Ethanolic Extract of Salvia hispanica L. Regulates Blood Pressure by Modulating the Expression of Genes Involved in BP-Regulatory Pathways.

Hypertension (HT) is considered to be a potential risk factor for cardiovascular diseases and has been directly related to pathologies such as obesity and dyslipidemias. Angiotensin-converting enzyme inhibitors (ACEIs) blocked the renin-angiotensin-aldosterone cascade diminishing the production of angiotensin II and the level of bradykinin, produced by the kallikrein-kinin system. Although ACEIs are effective therapeutics in regulating HT, they present several side-effects that can be due to their mechanism of action (as hypotension, cough, dizziness, light-headedness or hyperkalemia) to specific drug molecular structure (skin rash, neutropenia and tasting disorders) or due to associated pathologies in the patients (it has been considered a possible nephrotoxic effect when ACEIs are administered in combination with angiotensin receptor blockers, in patients that present comorbidities as diabetes, acute kidney injury or chronic kidney disease). Therefore, it is necessary the searching for new products with ACEI activity that do not produce side effects. Interestingly, species of the plant genus Salvia have been found to possess hypotensive effects. In the present study, we analyzed the effects of the ethanolic extract of Salvia hispanica L. seeds (EESH) on the expression of genes involved in pathways regulating HT. Administration of EESH to hypertensive rats inhibited the angiotensin-converting enzyme (ACE) activity along with a decrease in Ace and elevation of Agtr1a and Nos3 gene expression, as compared to that in healthy rats. Moreover, these results were similar to those observed with captopril, an antihypertensive drug used as a control. No significant change in the expression of Bdkrb2 gene was observed in the different groups of rats. To conclude, our results demonstrate that EESH regulates blood pressure (BP) in hypertensive rats through transcriptionally regulating the expression of genes that participate in different pathways involving ACE.

Rearranged neoclerodane diterpenoids from the aerial parts of Salvia hispanica L.

Six new rearranged neoclerodane diterpenoids (1-6), as well as three known ones, were obtained from the aerial part of Salvia hispanica L. Their structures were elucidated by extensive analysis of spectroscopic data (1D, 2D NMR, and HRESIMS) and Mosher's method. The absolute configurations of 1, 2, and 4 were determined by single-crystal X-ray diffraction analysis. All isolated compounds were evaluated for their cardioprotective effects against H2O2-induced cardiomyocytes injury, and compound 5 showed statistically significant cardioprotective effect in vitro assays.

Assessing the Metabolic Impact of Ground Chia Seed in Overweight and Obese Prepubescent Children: Results of a Double-Blind Randomized Clinical Trial.

Childhood obesity is a medical condition of major public health concern. Chia seeds are used to treat certain noncommunicable diseases, and they are rich in omega-3 fatty acids, which contribute to the absorption of vitamins. A randomized double-blind clinical trial of 30 obese children was performed. The sample was composed of prepubertal 5- to 10-year-old children of both sexes with body mass indexes equal to or above the 95th percentile who were recruited through the Pediatric Department of the Faculdade de Medicina do ABC. Blood samples were drawn, the children were weighed and measured, and a 24-h dietary recall was obtained before and after the treatment. Not only were significant differences observed for fibrinogen (P = .011) but a correlation between the changes in markers and the presence of fibers was also observed for two inflammatory parameters: tumor necrosis factor-α (P = .027) and nuclear factor-κß (P = .059). These results indicate that chia seeds may have anti-inflammatory effects related to their fiber content in the context of childhood obesity.

Chia (Salvia hispanica L.) Seed Total Protein and Protein Fractions Digests Reduce Biomarkers of Inflammation and Atherosclerosis in Macrophages In Vitro.

SCOPE: The objectives are to evaluate the anti-inflammatory and anti-atherosclerotic effects of digested total protein and digested protein fractions from chia seed in macrophages in vitro. METHODS AND RESULTS: Total protein and protein fractions (albumin, globulin, glutelin, and prolamin) are isolated from chia seed and digested using simulated gastrointestinal conditions, resulting in digested total protein (DTP) and digested protein fractions (DPF). DTP and DPF are applied (1.0 mg mL-1 ) in RAW 264.4 macrophages stimulated with LPS (1 µg mL-1 ) for inflammation or ox-LDL (80 µg mL-1 ) for atherosclerosis. In the inflammatory process, DTP and DPF reduce p-NF-κB, iNOS, p-JNK, and AP-1. Digested glutelin reduces the secretion of nitric oxide (65.1%), reactive oxygen species (19.7%), prostaglandins (34.6%), TNF-α (24.1%), MCP-1 (18.9%), IL-6 (39.6%), and IL-10 (68.7%). DTP and DPF reduce the NF-κB translocation to nuclei. DTP and digested glutelin reduce iCAM expression (86.4%, 80.8%), LOX-1 (37.3%, 35.7%), iNOS (67.0%, 42.2%), and NF-κB (57.5%, 71.1%). DTP is effective in reducing secretion of nitric oxide (43.4%), lipid accumulation (41.9%), prostaglandins (41.9%), TNF-α (43.3%), MCP-1 (47.6%), and IL-6 (50.5%). Peptides from chia DTP and DPF are also characterized. CONCLUSION: DTP and digested glutelin from chia seed reduce expression and secretion of markers related to inflammation and atherosclerosis pathways.

Enhancement of Composition and Oxidative Stability of Chia (Salvia hispanica L.) Seed Oil by Blending with Specialty Oils.

Chia seed (Salvia hispanica L.) oil is mainly composed of ω-3 fatty acids (61% to 70%). Despite being nutritionally favorable, higher amounts of polyunsaturated fatty acids result in poorer oxidative stability. Thus, the aim of this work was to produce edible vegetable oil blends rich in ω-3 fatty acids and with greater oxidative stability than pure chia oil. Blending of chia with other specialty oils (walnut, almond, virgin, and roasted sesame oils) was assessed in the following respective proportions: 20:80, 30:70, and 40:60 (v/v). An accelerated storage test was conducted (40 ± 1 °C, 12 days). Primary and secondary oxidation products, free fatty acid content, antioxidant compounds, fatty acid composition, and induction time were determined. The blends presented higher oxidative stability indices than chia oil. Sensory analysis showed that, given a pure oil, judges did not identify statistically significant differences among the blends. The results suggest that blending of chia oil is an adequate alternative to obtain ω-3-enriched oils with higher oxidative stability indices. PRACTICAL APPLICATION: Vegetable oil blending is a widely used practice in the edible oil industry to produce blended oils with enhanced stability and nutritional and sensory properties at affordable prices. The blends developed in this study from chia, sesame, walnut, and almond oils take advantage of the properties of each parent oil to yield products with improved oxidative stability, essential fatty acid presence, and sensory characteristics. To achieve a daily intake of 2.22 g/day of ω-3 fatty acids as recommended by the Intl. Society for the Study of Fatty Acids and Lipids (ISSFAL), it is necessary to consume approximately one spoonful of the formulated mixtures.

Effect of the addition of chia's by-product on the composition of fatty acids in hamburgers through chemometric methods.

BACKGROUND: Hamburger is a meat-based food that is easy to prepare and is widely consumed. It can be enriched using different ingredients, such as chia's by-product, which is rich in omega-3. Chemometrics is a very interesting tool to assess the influence of ingredients in the composition of foods. A complete factorial design 2(2) (two factors in two levels) with duplicate was performed to investigate the influence of the factors (1) concentration of textured soy proteins (TSP) and (2) concentration of chia flour partially defatted (CFPD) as a partial replacement for the bovine meat and porcine fat mix in hamburgers. RESULTS: The results of proximal composition, lipid oxidation, fatty acids sums, ratios, and nutritional indexes were used to propose statistical models. The factors TSP and CFPD were significant, and the increased values contributed to improve the composition in fatty acids, crude protein, and ash. Principal components analysis distinguished the samples with a higher content of chia. In desirability analysis, the highest level of TSP and CFPD was described as the optimal region, and it was not necessary to make another experimental point. CONCLUSION: The addition of chia's by-product is an alternative to increase the α-linolenic contents and to obtain nutritionally balanced food.

Contenido de ácidos grasos en semillas de chía (Salvia hispanica L.) cultivadas en cuatro estados de México / Fatty acid content in chia (Salvia hispanica L.) seeds grown in four Mexican states

Introducción: existe evidencia científica de que la chía (Salvia hispanica L.) es originaria de México y que formó parte, junto con el maíz, frijol y amaranto, de la dieta prehispánica. Con la llegada de los españoles, su uso fue suprimido en las tradiciones y costumbres de los aztecas y mayas, no es hasta finales del siglo pasado que las semillas de chía han cobrado gran interés por su alto contenido de ácido alfa-linolénico así como su relación con la salud y nutrición humana. Objetivo: determinar el perfil de ácidos grasos en semillas de chía cultivadas en diferentes zonas de México. Métodos: se obtuvieron cinco lotes de semillas de chía, a los cuales se les extrajo el aceite en equipo soxhlet con éter de petróleo. El perfil de ácidos grasos se determinó por cromatografía de gases con detector de ionización de flama. Resultados: los análisis cromatográficos permitieron identificar y cuantificar nueve ácidos grasos en las muestras de aceite de chía, palmítico (C16) y palmitoleico (C16:1), esteárico (C18), oleico cis-9 (C18:1 c9), oleico cis-11 (C18:1 c11), oleico cis-12 (C18:1 c12), linoleico (C18: 2 c9c12), araquídico (C20), linolénico (C18:3 c6c9c12) y alfa-linolénico (C18:3 c9c12c15). El ácidos graso alfa-linolénico presentó la mayor concentración (62,67 %). Conclusiones: el contenido de ácidos grasos saturados e insaturados en el aceite de semillas de chía, cultivadas en zonas diferentes de México, se encuentra dentro del intervalo informado para otros países.

Introduction: there is scientific evidence that chia (Salvia hispanica L.) is native to Mexico and was part of the prehispanic diet alongside maize, beans and amaranth. Upon arrival of the Spanish colonizers, its use was suppressed from Aztec and Mayan customs and traditions. It is not until the end of the twentieth century that chia seeds attracted great interest due to their high alpha-linoleic acid content and its relationship to human nutrition and health. Objective: determine the fatty acid profile in chia seeds grown in various regions of Mexico. Methods: five lots of chia seeds were obtained, from which the oil was extracted in a Soxhlet device with petroleum ether. The fatty acid profile was determined by gas chromatography with a flame ionization detector. Results: chromatographic analysis permitted identification and quantification of nine fatty acids in the chia oil samples: palmitic (C16) and palmitoleic (C16:1), stearic (C18), cis-9 oleic (C18:1 c9), cis-11 oleic (C18:1 c11), cis-12 oleic (C18:1 c12), linoleic (C18: 2 c9c12), arachidic (C20), linolenic (C18:3 c6c9c12) and alpha-linolenic (C18:3 c9c12c15). Alpha-linolenic acid had the greatest concentration (62.67 %). Conclusions: the content of saturated and unsaturated fatty acids in oil from chia seeds grown in various regions of Mexico is within the range reported by other countries.

Características preliminares del aceite de semillas de Salvia hispanica L. cultivadas en Cuba / Preliminary characteristics of the oil from Salvia hispanica L. seeds grown in Cuba

Introducción: en años recientes, la chía (Salvia hispanica L. ) ha cobrado gran interés por el alto contenido del ácido graso alfa-linolénico en el aceite de sus semillas. Aunque esta especie no es nativa de Cuba se ha estado cultivando recientemente en la Estación Experimental Juan Tomás Roig. Objetivo: determinar las características organolépticas y la composición de ácidos grasos en lotes de aceite obtenidos a partir de semillas de chía cultivadas en Cuba, y su comparación con un aceite obtenido a partir de semillas de Ecuador. Métodos: los aceites obtenidos por extracción con hexano se analizaron organolépticamente y se determinó su composición de ácidos grasos por cromatografía de gases. Resultados: las características organolépticas (líquido aceitoso amarillo claro con olor característico), así como la composición y el contenido de ácidos grasos coincidieron con lo descrito en la literatura para esta especie, con altos contenidos de C18:2 y C18:3 (21 y 58 por ciento, respectivamente). Conclusiones: el aceite obtenido de semillas de chía cultivadas en Cuba fue similar a los obtenidos en otras partes del mundo, entre ellos el aceite de semillas procedentes de Ecuador, por lo que pudieran ampliarse sus estudios con vistas a valorar su posible empleo como suplemento nutricional(AU)

Introduction: in recent years, Chia (Salvia hispanica L. ) has aroused a great interest because of the high content of alpha-linolenic fatty acid in its seed oil. Although this species is not indigenous from Cuba, it has been recently grown at the Juan Tomás Roig experimental station. Objectives: to determine the organoleptic characteristics and fatty acid composition in oil batches obtained from Chia seeds grown in Cuba, and to compare them with the oil from Ecuador seeds. Methods: the oils, extracted with hexane, were organoleptically analyzed and their fatty acid composition was determined by gas chromatography. Results: their organoleptic characteristics (light yellow oily liquid with peculiar odor) as well as the composition and the fatty acid content matched those described in the literature for this species, being high the contents of C18: 2 and C18: 3 (21 and 58 percent respectively). Conclusions: the oil from chia seeds grown in Cuba was similar to those obtained in other parts of the world, including seed oil from Ecuador; therefore, further studies can be conducted with a view to assessing their possible use as nutritional supplement(AU)

Características preliminares del aceite de semillas de Salvia hispanica L. cultivadas en Cuba / Preliminary characteristics of the oil from Salvia hispanica L. seeds grown in Cuba

Introducción: en años recientes, la chía (Salvia hispanica L. ) ha cobrado gran interés por el alto contenido del ácido graso alfa-linolénico en el aceite de sus semillas. Aunque esta especie no es nativa de Cuba se ha estado cultivando recientemente en la Estación Experimental Juan Tomás Roig. Objetivo: determinar las características organolépticas y la composición de ácidos grasos en lotes de aceite obtenidos a partir de semillas de chía cultivadas en Cuba, y su comparación con un aceite obtenido a partir de semillas de Ecuador. Métodos: los aceites obtenidos por extracción con hexano se analizaron organolépticamente y se determinó su composición de ácidos grasos por cromatografía de gases. Resultados: las características organolépticas (líquido aceitoso amarillo claro con olor característico), así como la composición y el contenido de ácidos grasos coincidieron con lo descrito en la literatura para esta especie, con altos contenidos de C18:2 y C18:3 (21 y 58 por ciento, respectivamente). Conclusiones: el aceite obtenido de semillas de chía cultivadas en Cuba fue similar a los obtenidos en otras partes del mundo, entre ellos el aceite de semillas procedentes de Ecuador, por lo que pudieran ampliarse sus estudios con vistas a valorar su posible empleo como suplemento nutricional

Introduction: in recent years, Chia (Salvia hispanica L. ) has aroused a great interest because of the high content of alpha-linolenic fatty acid in its seed oil. Although this species is not indigenous from Cuba, it has been recently grown at the Juan Tomás Roig experimental station. Objectives: to determine the organoleptic characteristics and fatty acid composition in oil batches obtained from Chia seeds grown in Cuba, and to compare them with the oil from Ecuador seeds. Methods: the oils, extracted with hexane, were organoleptically analyzed and their fatty acid composition was determined by gas chromatography. Results: their organoleptic characteristics (light yellow oily liquid with peculiar odor) as well as the composition and the fatty acid content matched those described in the literature for this species, being high the contents of C18: 2 and C18: 3 (21 and 58 percent respectively). Conclusions: the oil from chia seeds grown in Cuba was similar to those obtained in other parts of the world, including seed oil from Ecuador; therefore, further studies can be conducted with a view to assessing their possible use as nutritional supplement