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Query: UMLS:C0010200 (
cough
)
23,843
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Capsicum
-derived ingredients function as skin-conditioning agents--miscellaneous, external analgesics, flavoring agents, or fragrance components in cosmetics. These ingredients are used in 19 cosmetic products at concentrations as high as 5%. Cosmetic-grade material may be extracted using hexane, ethanol, or vegetable oil and contain the full range of phytocompounds that are found in the
Capsicum
annuum or
Capsicum
frutescens plant (aka red chiles), including Capsaicin. Aflatoxin and N-nitroso compounds (N-nitrosodimethylamine and N-nitrosopyrrolidine) have been detected as contaminants. The ultraviolet (UV) absorption spectrum for
Capsicum
Annuum Fruit Extract indicates a small peak at approximately 275 nm, and a gradual increase in absorbance, beginning at approximately 400 nm.
Capsicum
and paprika are generally recognized as safe by the U.S. Food and Drug Administration for use in food. Hexane, chloroform, and ethyl acetate extracts of
Capsicum
Frutescens Fruit at 200 mg/kg resulted in death of all mice. In a short-term inhalation toxicity study using rats, no difference was found between vehicle control and a 7%
Capsicum
Oleoresin solution. In a 4-week feeding study, red chilli (
Capsicum
annuum) in the diet at concentrations up to 10% was relatively nontoxic in groups of male mice. In an 8-week feeding study using rats, intestinal exfoliation, cytoplasmic fatty vacuolation and centrilobular necrosis of hepatocytes, and aggregation of lymphocytes in the portal areas were seen at 10%
Capsicum
Frutescens Fruit, but not 2%. Rats fed 0.5 g/kg day-1 crude
Capsicum
Fruit Extract for 60 days exhibited no significant gross pathology at necropsy, but slight hyperemia of the liver and reddening of the gastric mucosa were observed. Weanling rats fed basal diets supplemented with whole red pepper at concentrations up to 5.0% for up to 8 weeks had no pathology of the large intestines, livers, and kidneys, but destruction of the taste buds and keratinization and erosion of the gastrointestinal (GI) tract were noted in groups fed 0.5% to 5.0% red pepper. The results of 9-and 12-month extension of this study showed normal large intestines and kidneys. In rabbits fed
Capsicum
Annuum Powder at 5 mg/kg day-1 in the diet daily for 12 months damage to the liver and spleen was noted. A rabbit skin irritation test of
Capsicum
Annuum Fruit Extract at concentrations ranging from 0.1% to 1.0% produced no irritation, but
Capsicum
Frutescens Fruit Extract induced concentration-dependent (at 25 to 500 microg/ml) cytotoxicity in a human buccal mucosa fibroblast cell line. An ethanol extract of red chili was mutagenic in Salmonella typhimurium TA98, but not in TA100, or in Escherichia coli. Other genotoxicity assays gave a similar pattern of mixed results. Adenocarcinoma of the abdomen was observed in 7/20 mice fed 100 mg red chilies per day for 12 months; no tumors were seen in control animals. Neoplastic changes in the liver and intestinal tumors were observed in rats fed red chili powder at 80 mg/kg day-1 for 30 days, intestinal and colon tumors were seen in rats fed red chili powder and 1,2-dimethyl hydrazine, but no tumors were observed in controls. In another study in rats, however, red chile pepper in the diet at the same dose decreased the number of tumors seen with 1,2-dimethylhydrazine. Other feeding studies evaluated the effect of red chili peppers on the incidence of stomach tumors produced by N-methyl-N'-nitro-N-nitrosoguanidine, finding that red pepper had a promoting effect.
Capsicum
Frutescens Fruit Extract promoted the carcinogenic effect of methyl(acetoxymethyl)nitrosamine (carcinogen) or benzene hexachloride (hepatocarcinogen) in inbred male and female Balb/c mice dosed orally (tongue application). Clinical findings include symptoms of
cough
, sneezing, and runny nose in chili factory workers. Human respiratory responses to
Capsicum
Oleoresin spray include burning of the throat, wheezing, dry
cough
, shortness of breath, gagging, gasping, inability to breathe or speak, and, rarely, cyanosis, apnea, and respiratory arrest. A trade name mixture containing 1% to 5%
Capsicum
Frutescens Fruit Extract induced very slight erythema in 1 of 10 volunteers patch tested for 48 h.
Capsicum
Frutescens Fruit Extract at 0.025% in a repeated-insult patch test using 103 subjects resulted in no clinically meaningful irritation or allergic contact dermatitis. One epidemiological study indicated that chili pepper consumption may be a strong risk factor for gastric cancer in populations with high intakes of chili pepper; however, other studies did not find this association. Capsaicin functions as an external analgesic, a fragrance ingredient, and as a skin-conditioning agent--miscellaneous in cosmetic products, but is not in current use. Capsaicin is not generally recognized as safe and effective by the U.S. Food and Drug Administration for fever blister and cold sore treatment, but is considered to be safe and effective as an external analgesic counterirritant. Ingested Capsaicin is rapidly absorbed from the stomach and small intestine in animal studies. Subcutaneous injection of Capsaicin in rats resulted in a rise in the blood concentration, reaching a maximum at 5 h; the highest tissue concentrations were in the kidney and lowest in the liver. In vitro percutaneous absorption of Capsaicin has been demonstrated in human, rat, mouse, rabbit, and pig skin. Enhancement of the skin permeation of naproxen (nonsteroidal anti-inflammatory agent) in the presence of Capsaicin has also been demonstrated. Pharmacological and physiological studies demonstrated that Capsaicin, which contains a vanillyl moiety, produces its sensory effects by activating a Ca2 +-permeable ion channel on sensory neurons. Capsaicin is a known activator of vanilloid receptor 1. Capsaicin-induced stimulation of prostaglandin biosynthesis has been shown using bull seminal vesicles and rheumatoid arthritis synoviocytes. Capsaicin inhibits protein synthesis in Vero kidney cells and human neuroblastoma SHSY-5Y cells in vitro, and inhibits growth of E. coli, Pseudomonas solanacearum, and Bacillus subtilis bacterial cultures, but not Saccharomyces cerevisiae. Oral LD50 values as low as 161.2 mg/kg (rats) and 118.8 mg/kg (mice) have been reported for Capsaicin in acute oral toxicity studies, with hemorrhage of the gastric fundus observed in some of the animals that died. Intravenous, intraperitoneal, and subcutaneous LD50 values were lower. In subchronic oral toxicity studies using mice, Capsaicin produced statistically significant differences in the growth rate and liver/body weight increases. Capsaicin is an ocular irritant in mice, rats, and rabbits. Dose-related edema was observed in animals receiving Capsaicin injections into the hindpaw (rats) or application to the ear (mice). In guinea pigs, dinitrochlorobenzene contact dermatitis was enhanced in the presence of Capsaicin, injected subcutaneously, whereas dermal application inhibited sensitization in mice. Immune system effects have been observed in neonatal rats injected subcutaneously with Capsaicin. Capsaicin produced mixed results in S. typhimurium micronucleus and sister-chromatid exchange genotoxicity assays. Positive results for Capsaicin were reported in DNA damage assays. Carcinogenic, cocarcinogenic, anticarcinogenic, antitumorigenic, tumor promotion, and anti-tumor promotion effects of Capsaicin have been reported in animal studies. Except for a significant reduction in crown-rump length in day 18 rats injected subcutaneously with Capsaicin (50 mg/kg) on gestation days 14, 16, 18, or 20, no reproductive or developmental toxicity was noted. In pregnant mice dosed subcutaneously with Capsaicin, depletion of substance P in the spinal cord and peripheral nerves of pregnant females and fetuses was noted. In clinical tests, nerve degeneration of intracutaneous nerve fibers and a decrease in pain sensation induced by heat and mechanical stimuli were evident in subjects injected intradermally with Capsaicin. An increase in mean inspiratory flow was reported for eight normal subjects who inhaled nebulized 10(-7) M Capsaicin. The results of provocative and predictive tests involving human subjects indicated that Capsaicin is a skin irritant. Overall, studies suggested that these ingredients can be irritating at low concentrations. Although the genotoxicity, carcinogenicity, and tumor promotion potential of Capsaicin have been demonstrated, so have opposite effects. Skin irritation and other tumor-promoting effects of Capsaicin appear to be mediated through interaction with the same vanilloid receptor. Given this mechanism of action and the observation that many tumor promoters are irritating to the skin, the Panel considered it likely that a potent tumor promoter may also be a moderate to severe skin irritant. Thus, a limitation on Capsaicin content that would significantly reduce its skin irritation potential is expected to, in effect, lessen any concerns relating to tumor promotion potential. Because Capsaicin enhanced the penetration of an anti-inflammatory agent through human skin, the Panel recommends that care should be exercised in using ingredients that contain Capsaicin in cosmetic products. The Panel advised industry that the total polychlorinated biphenyl (PCB)/pesticide contamination should be limited to not more than 40 ppm, with not more than 10 ppm for any specific residue, and agreed on the following limitations for other impurities: arsenic (3 mg/kg max), heavy metals (0.002% max), and lead (5 mg/kg max). Industry was also advised that aflatoxin should not be present in these ingredients (the Panel adopted < or =15 ppb as corresponding to "negative" aflatoxin content), and that ingredients derived from
Capsicum
annuum and
Capsicum
Frutescens Plant species should not be used in products where N-nitroso compounds may be formed. (ABSTRACT TRUNCATED)
...
PMID:Final report on the safety assessment of capsicum annuum extract, capsicum annuum fruit extract, capsicum annuum resin, capsicum annuum fruit powder, capsicum frutescens fruit, capsicum frutescens fruit extract, capsicum frutescens resin, and capsaicin. 1736 37
Ethnobotanical knowledge is one of the precious cultural heritage parts of an area that involves the interaction between plants and people and foremost among these are the management of plant diversity by indigenous communities and the traditional use of medicinal plants. An ethnobotanical analysis was conducted in order to document the traditional medicinal uses of plants, particularly medicinally important folklore food phytonims of flora of Samahni valley, Azad Kashmir (Pakistan). In the valley, inhabitants use different taxa of flora in two different ways; herbal medicines and food (vegetable and fruits) medicines. The distinctive geographic position and historic demological background of the area keep folk phytotherapy potential of medicinal herbs hitherto alive, which are used in various forms; as regular herbal medicines prescribed by Hakeems (herbal practitioners) and as food (medicines) recepies suggested by elder people. Among these, some herbs are used as single remedy while others depict better curative effects in synergistic mode against various ailments. Some interesting and uncommon findings are as; Sisymbrium irio is used for treatment of measles, asthma; Solanum miniatum to cure urinary calculi, heart pain, rheumatism, Momordica balsamina leaves as wound healer; Allium sativum bulb juice as anti cancer, contraceptive, blood pressure; Boerhavia diffusa roots as anti jaundice, anemia, edema;
Capsicum
annuum fruit as omen against evil eye and giant, yellow fever; Corriandrum sativum seeds as diuretic, anti spermatogenesis; Raphanus sativus seeds against syphilis; Solanum miniatum fruit for treatment of enlarged spleen and liver; seed's oil of Pisum sativum as anti spermatogenesis; Bauhinia variegata for skin diseases, ulcers; Malva sylvestris for
cough
, bladder ulcer; Phoenix sylvestris kernel as anti-aging tonic; Phyllanthus emblica for diuretic, anemia, biliousness; Terminalia chebula to cure chronic ulcers, carious teeth pain, heart problems; Veronica anthelmintica for bandage of broken bones and Withania coagulans is used to treat small pox. Many wild plants are eaten green and raw as salad, or in boiled form of soup as blood and intestine cleansing tonics. Moreover, some plants are spiritually recorded as sacred and used as ritual plant for good omens or against the evil eye and removal of giant. About 95 species of 38 families were recorded to be important part of phyto heritage of folk pharmacopoeia of Samahni valley. Among most frequent used families are Papilionaceae 9.47%, Solanaceae and Poaceae 8.42% each, Cucurbitaceae 7.36% and Brassicaceae and Rosaceae 6.31% each. Among the surveyed families used to treat various diseases, Solanaceae is at first rank with 9.74%, Brassicaceae 8.23% and Cucurbitaceae 7.39% subsequently. Most commonly used families with highest percentage of plants used as food medicines are Solanaceae (11.37%), Brassicaceae (8.38%) and Papilionaceae (7.18%) respectively. Most frequent plant parts used are; roots, leaves, seeds and flowers while popular forms of plants uses are decoction, poultice, infusions, soups and raw form as salad. Importance of ethnobotanical inventory constructed from ethnomedicinal uses and folklore phytonims of flora in perspectives of initiative for future phytochemical and pharmacological research on these taxa to develop and discover of new drugs is present and discussed.
...
PMID:An ethnomedicinal survey and documentation of important medicinal folklore food phytonims of flora of Samahni valley, (Azad Kashmir) Pakistan. 1907 Jan 89
