Nigella sativa (N. sativa) is one of important herbal foods in traditional medicine and many studies have conducted to show the effects of this plant on several diseases. The goal of this study was the evaluation of effects of bread with N. Sativa on clinical parameters such as blood glucose, blood pressure (BP) and anthropometry indices in subjects with metabolic syndrome (MetS). A study as double-blind, cross-over, randomized clinical trial was performed in 51 MetS patients in Chalus, north region of Iran. After dividing of patients randomly in 2 groups, in phase 1, intervention group (A, n = 27) used daily a bread with N. sativa and control group (B, n = 24) used the same bread but without N. sativa for 2 months. After considering of 15 day wash out period, phase 2 was began with changing of position of 2 groups. Measuring of parameters including fasting blood glucose (FBG), systolic blood pressure (SBP), diastolic blood pressure (DBP), weight, body mass index (BMI), and waist circumference (WC) was done before and after of 2 phases. After evaluation of treatment, sequence and time effects of intervention on parameters, it is shown that consumption of this bread has not significant treatment effect (as main effect) on FBG, SBP, DBP, WC, weight, and BMI (p > 0.05). Sequence effect on FBG, weight, WC, and BMI was significant (p < 0.05), but was not on BP. Time effect was only significant for DBP. Consumption of bread with N. sativa in MetS patients has not significant effect on FBG, BP, weight, WC, and BMI. TRIAL REGISTRATION: Iranian Registry of Clinical Trials Identifier: IRCT2015041821815N1
Anthropometry ; Blood Glucose ; Blood Pressure ; Body Weight ; Bread ; Fasting ; Humans ; Iran ; Medicine, Traditional ; Nigella sativa ; Nigella ; Plants ; Waist Circumference

Nigella sativa (N.sativa) has been used in traditional medicine and many studies have been performed in different communities in order to reveal the effects of it on medical disorders and chronic diseases. The aim of this study was to investigate the effects of bread with N. Sativa on lipid profiles, apolipoproteins, and inflammatory factors in metabolic syndrome (MetS) patients. A randomized, double-blind, cross-over and clinical trial was conducted in 51 MetS patients of both sexes with age group of 20-65 years old in Chaloos, north of Iran. Patients were randomly divided in two groups. In phase 1, intervention group (A, n = 27) received daily a bread with N. sativa and wheat bran and control group (B, n = 24) received the same bread without N. sativa for 2 months. After 2 weeks of wash out period, phase 2 was started with switch the intervention between two groups. Measuring of lipid profiles, apolipoproteins and inflammatory factor was performed for all patients before and after two phases. In this study, treatment, sequence and time effects of intervention were evaluated and revealed that consumption of bread with N. sativa has no significant treatment and time effects on triglyceride (TG), cholesterol (CHOL), low density lipoprotein (LDL), high density lipoprotein (HDL), apolipoprotein (APO)-A, APO-B and high-sensitivity C-reactive protein (p > 0.05). Sequence effect was significant on CHOL, LDL, APO-A, and APO-B (p < 0.05) but was not significant on other parameters (p > 0.05). Consumption of bread with N. sativa has no a significant effect on lipid profiles, apolipoproteins and inflammatory factor in MetS patients.
Apolipoproteins A ; Apolipoproteins B ; Apolipoproteins* ; Bread* ; C-Reactive Protein ; Cholesterol ; Chronic Disease ; Dietary Fiber ; Humans ; Iran ; Lipoproteins ; Medicine, Traditional ; Nigella sativa* ; Nigella* ; Triglycerides

Acute Kidney Injury ; etiology ; Diabetes Mellitus ; drug therapy ; Humans ; Male ; Nigella sativa ; chemistry ; Plant Extracts ; toxicity

OBJECTIVETo analysis chemical components of volatile oil from the seed of Nigella glandulifera (NG), comparing them with those from the seed of foreign N. sativa (NS) and N. damascene (ND), and to quantify thymoquinone in the volatile oil extracted by hydrodistillation (HD) from the seed of NG.

METHODThe volatile oil was extracted by supercritical CO2 extraction (SFE-CO2 ) and HD from the seed of NG and its chemical components was analysed by GC-MS, the relative percentage of components were determined by peak aera normalization method and compare with those of the seed of NS and ND. The content of the thymoquinone in the volatile oil was determined by one point external standard method.

RESULTIn terms of the volatile compounds, p-cymene is the major component of NG and NS, their relative percentage contents are 33.75% and 61.48%, respectively. beta-Elemene is the major component of ND, its relative percentage content is 73.24%. The relative percentage contents of thymoquinone are 3.73% (HD), 3.80% and 0.08% in NG, NS and ND, respectively. Linoleic acid is a major component of volatile oil by SFE-CO2 in NG, but its content of p-cymene is lower. The absolute percentage content of thymoquinone is 1.58% by HD in volatile oil of NG.

CONCLUSIONThere are comparatively large differences of volatile components in NG, NS and ND.

Benzoquinones ; analysis ; Nigella ; chemistry ; Oils, Volatile ; analysis ; Plant Oils ; analysis ; Seeds ; chemistry

Black seed (Nigella sativa) is an annual flowering plant from Ranunculaceae family, native to southwest Asia. This plant has many food and medicinal uses. The use of its seeds and oil is common for treatment of many diseases, including rheumatoid arthritis, asthma, inflammatory diseases, diabetes and digestive diseases. The purpose of this study was to provide a comprehensive review on the scientific reports that have been published about N. sativa. The facts and statistics presented in this review article were gathered from the journals accessible in creditable databases such as Science Direct, Medline, PubMed, Scopus, EBSCO, EMBASE, SID and IranMedex. The keywords searched in Persian and English books on medicinal plants and traditional medicine, as well as the above reputable databases were "Black seed", "Nigella sativa", "therapeutic effect", and "medicinal plant". The results showed that N. sativa has many biological effects such as anti-inflammatory, anti-hyperlipidemic, anti-microbial, anti-cancer, anti-oxidant, anti-diabetic, anti-hypertensive, and wound healing activities. It also has effects on reproductive, digestive, immune and central nervous systems, such as anticonvulsant and analgesic activities. In summary, it can be used as a valuable plant for production of new drugs for treatment of many diseases.
Animals ; Drug Therapy ; Humans ; Molecular Structure ; Nigella sativa ; chemistry ; Plant Extracts ; chemistry ; therapeutic use ; Seeds ; chemistry

COVID-19 virus is a causative agent of viral pandemic in human beings which specifically targets respiratory system of humans and causes viral pneumonia. This unusual viral pneumonia is rapidly spreading to all parts of the world, currently affecting about 105 million people with 2.3 million deaths. Current review described history, genomic characteristics, replication, and pathogenesis of COVID-19 with special emphasis on Nigella sativum (N. sativum) as a treatment option. N. sativum seeds are historically and religiously used over the centuries, both for prevention and treatment of different diseases. This review summarizes the potential role of N. sativum seeds against COVID-19 infection at levels of in silico, cell lines and animal models.
Animals ; COVID-19 ; Humans ; Nigella ; Pandemics ; Pathology, Molecular ; SARS-CoV-2

Nigella sativa (N. sativa) (Family Ranunculaceae) is a widely used medicinal plant throughout the world. It is very popular in various traditional systems of medicine like Unani and Tibb, Ayurveda and Siddha. Seeds and oil have a long history of folklore usage in various systems of medicines and food. The seeds of N. sativa have been widely used in the treatment of different diseases and ailments. In Islamic literature, it is considered as one of the greatest forms of healing medicine. It has been recommended for using on regular basis in Tibb-e-Nabwi (Prophetic Medicine). It has been widely used as antihypertensive, liver tonics, diuretics, digestive, anti-diarrheal, appetite stimulant, analgesics, anti-bacterial and in skin disorders. Extensive studies on N. sativa have been carried out by various researchers and a wide spectrum of its pharmacological actions have been explored which may include antidiabetic, anticancer, immunomodulator, analgesic, antimicrobial, anti-inflammatory, spasmolytic, bronchodilator, hepato-protective, renal protective, gastro-protective, antioxidant properties, etc. Due to its miraculous power of healing, N. sativa has got the place among the top ranked evidence based herbal medicines. This is also revealed that most of the therapeutic properties of this plant are due to the presence of thymoquinone which is major bioactive component of the essential oil. The present review is an effort to provide a detailed survey of the literature on scientific researches of pharmacognostical characteristics, chemical composition and pharmacological activities of the seeds of this plant.
Humans ; Medicine, Traditional ; Nigella sativa ; chemistry ; Plant Extracts ; chemistry ; pharmacology ; therapeutic use ; Plants, Medicinal ; chemistry ; Research ; Seeds ; chemistry

Acute Kidney Injury ; etiology ; Diabetes Mellitus ; drug therapy ; Drug-Related Side Effects and Adverse Reactions ; Humans ; Male ; Middle Aged ; Nigella sativa ; chemistry ; Plant Extracts ; administration & dosage ; toxicity

The seeds of Nigella sativa Linn. (Ranunculaceae), commonly known as Black cumin, are predominantly used as carminative, antispasmodic, and stimulant. The main objective of the present study was to evaluate the effect of N. sativa seed extract on the permeation of co-infused amoxicillin across the gut wall. The methanolic extract of N. sativa improved intestinal permeability of amoxicillin in in-vitro experiments in a dose-dependent manner. Two new glycosides, decanyl nigelloic acid diglucoside [n-decanyl-3-aldehydic-4-methoxy-5-hydroxy benzoate-5-β-D-glucofuranosyl (2→1)-β-D-glucopyranosyl-(2→1)-β-D-glucopyranoside]] and nigelabdienoyl triglucoside [homo-labd-5, 9(11)-dien-16-onyl-β-D-glucopyranosyl (2→1)-β-D-glucopyranosyl (2→1)-β-D-glucopyranoside], along with seven known fatty acid glycerides/esters, were isolated from the gut permeation enhancing extract. The structures of these new glycosides were elucidated by detailed spectroscopic analyses.
Amoxicillin ; pharmacokinetics ; Animals ; Anti-Bacterial Agents ; pharmacokinetics ; Intestine, Small ; metabolism ; Male ; Molecular Structure ; Nigella sativa ; chemistry ; Phytochemicals ; chemistry ; metabolism ; Plant Extracts ; chemistry ; metabolism ; Rats ; Rats, Wistar ; Seeds ; chemistry

The prevalence and population density of the mycobiota of 50 samples belonging to 10 kinds of spices (anise, black pepper, red pepper, black cumin, peppermint, cardamom, clove, cumin, ginger and marjoram) which collected from different places in Jeddah Governorate were studied. The natural occurrence of mycotoxins in those samples was also investigated. Fifteen genera and thirty - one species of fungi in addition to one species variety were isolated and identified during this study. The most common genera were Aspergillus, Penicillium and Fusarium. Aflatoxins (12~40 microg/kg) were detected in the extract of 5 samples of each of anise seeds and black pepper fruits; three samples of black cumin seeds and on sample only of each of peppermint and marjoram leaves out of 5 samples tested of each. Sterigmatocystin (15~20 microg/kg) was detected in some samples of red pepper, cumin and marjoram. The inhibitory effects of 10 kinds of powdered spices were tested against 3 toxigenic isolates of fungi (Aspergillus flavus, A. versicolor and Penicillium citrinum). Clove proved to be antimycotic compounds. It inhibited the growth of the tested toxigenic fungi. Black pepper, peppermint, cardamom, cumin and marjoram completely inhibited aflatoxins production, while black pepper and cardamom also completely inhibited sterigmatocystin production.
Aflatoxins ; Aspergillus ; Piper nigrum ; Capsicum ; Cuminum ; Elettaria ; Syzygium ; Fruit ; Fungi* ; Fusarium ; Ginger ; Mentha piperita ; Mycotoxins* ; Nigella sativa ; Origanum ; Penicillium ; Pimpinella ; Population Density ; Prevalence ; Saudi Arabia* ; Spices* ; Sterigmatocystin