Citrus aurantium for anti-aging -
Finally, the following formula is used to calculate the efficiency of the ability to eliminate advanced glycation end-products AGEs to represent its anti-glycation activity. The less the amount of glycation end-products, the higher the anti-glycation activity.
It inhibits non-enzymatic browning and avoids the denaturation of functional proteins in the body. This result shows that the daidaihua extract of the present invention can effectively improve its ability to remove the final glycation products , And help delay the progression of chronic diseases and aging, and studies have shown that glycation can cause deterioration of skin collagen, damage collagen fibers and elastic fibers, and cause wrinkles, sagging and even sallow dullness in the skin.
The invention of Daidaihua extract can also effectively slow down skin aging and achieve skin beautification effects. The mouse bone marrow stromal cell line was purchased from the American Type Culture Collection ATCC ® , numbered CRL TM.
為證實本發明之代代花萃取物具有抑制脂肪堆積的功效,首先將小鼠骨髓基質細胞分化成脂肪細胞,將8x10 4 個小鼠骨髓基質細胞培養於含有0. After 7 days, observe the formation of lipid droplets under a microscope to ensure that the cells are fully differentiated.
Divide into 1 the experimental group with 0. Value to quantify oil red O. This result shows that the daidaihua extract of the present invention can effectively inhibit fat accumulation and reduce the fat content in cells.
本實施例以上述小鼠骨髓基質細胞進行本發明之代代花萃取物於促進脂肪分解功效的測試。首先以實施例3之實驗步驟將小鼠骨髓基質細胞分化成脂肪細胞,同樣於開始培養7天後以顯微鏡觀察脂滴的形成,確保細胞已完全分化,接著將細胞分成 1 加入0. First, the mouse bone marrow stromal cells were differentiated into adipocytes according to the experimental procedure of Example 3. The formation of lipid droplets was observed under a microscope 7 days after the start of culture to ensure that the cells were fully differentiated, and then the cells were divided into 1 and 0.
After the triglycerides stored in the cells are broken down, free glycerol and fatty acids are produced, so by measuring the extracellular Glycerin content can be used to infer the value of fat breakdown in cells.
This kit uses the measurement of the product content of the coupled enzyme reaction system that produces a bright purple product to quantify the value of extracellular glycerol, and establishes a standard curve with standard products to calculate the value of extracellular glycerol in the sample.
Collect the cell culture supernatant of each well, and transfer 25μL of the cell culture supernatant to a new well culture plate, and then add μL of reconstituted free glycerol assay reagent Free Glycerol Assay Reagent to each well React at room temperature for 15 minutes, and then read the value at OD nm.
This result shows that the daidaihua extract of the present invention can effectively promote lipolysis and reduce the fat content in cells. 綜上所述,本發明以水、醇類、或醇水混合物為溶劑所萃取得之代代花萃取物,能有效提升其清除糖化終產物之能力、有效抑制脂肪堆積、及有效促進脂肪分解,以減緩皮膚老化並達到皮膚美化的效果,以及減少細胞中脂肪的含量並達到減脂的效果。因此本發明之代代花萃取物可用於製備減緩皮 膚老化及減少細胞中脂肪含量之組合物的用途,該組合物該組合物是一醫藥品、一食品或一保養品,可藉由口服、皮膚塗抹等方式給予一個體。 To sum up, the present invention uses water, alcohol, or alcohol-water mixture as the solvent to extract the daidaihua extract, which can effectively improve its ability to remove the final glycation products, effectively inhibit fat accumulation, and effectively promote lipolysis , In order to slow down skin aging and achieve the effect of skin beautification, as well as reduce the fat content in the cell and achieve the effect of fat reduction.
Therefore, the flower extract of the present invention can be used to prepare skin The use of a composition for skin aging and reducing fat content in cells.
The composition is a medicine, a food or a skin care product, which can be administered to a body by oral administration, skin application, etc. The present invention provides a use of Citrus aurantium extract for reducing skin aging and fat content.
The Citrus aurantium extract can improve the ability of removing advanced glycation end products AGEs , inhibit fat accumulation, and promote fat decomposition, so as to slow skin aging to improve the appearance of the skin, as well as to reduce the amount of fat in the cells to reduce the body fat.
The Citrus aurantium extract is prepared by extracting Citrus aurantium using water, alcohols, or mixtures of water and alcohols as solvents. 代代花萃取物用於減緩皮膚老化及減少細胞中脂肪含量的用途 The use of Daidaihua extract to slow down skin aging and reduce fat content in cells 本發明係關於一代代花萃取物之用途,尤其是一種代代花萃取物用於減緩皮膚老化及減少細胞中脂肪含量的用途。 The present invention relates to the use of Daidaihua extract, especially a use of Daidaihua extract to slow down skin aging and reduce the fat content in cells.
實施例2 本發明之代代花萃取物具有良好的抗糖化活性 Example 2 The Daidaihua extract of the present invention has good anti-glycation activity 本實施例係為了測試本發明之代代花萃取物的抗糖化活性,因此以抑制D-果糖 D-fructose 使膠原蛋白 Collagen 產生糖化的效率,進行糖化活性之定量。首先,分別取0.
一種代代花萃取物用於製備提升細胞抗糖化活性之組合物的用途,其中該代代花萃取物係以一溶劑萃取一代代花所獲得,該溶劑為水、醇、或醇水混合物。 A use of a flower generation extract for preparing a composition for enhancing the anti-glycation activity of cells, wherein the flower generation extract is obtained by extracting the first generation flower with a solvent, and the solvent is water, alcohol, or a mixture of alcohol and water.
如申請專利範圍第1項所述之用途,其中該代代花萃取物係具有皮膚抗老化及美肌之功效。 The use as described in item 1 of the scope of patent application, wherein the Daidaihua extract has the effects of anti-aging and beautifying skin. 一種代代花萃取物用於製備抑制細胞脂肪堆積之組合物的用途,其中該代代花萃取物係以一溶劑萃取一代代花所獲得,該溶劑為水、醇、或醇水混合物。 A use of a flower genus extract for preparing a composition for inhibiting cell fat accumulation, wherein the flower genus flower extract is obtained by extracting the flower genus flower with a solvent, and the solvent is water, alcohol, or a mixture of alcohol and water.
一種代代花萃取物用於製備促進細胞脂肪分解之組合物的用途,其中該代代花萃取物係以一溶劑萃取一代代花所獲得,該溶劑為水、醇、或醇水混合物。 The use of a flower genus extract for preparing a composition for promoting cell fat decomposition, wherein the flower genus flower extract is obtained by extracting the flower genus flower with a solvent, the solvent being water, alcohol, or a mixture of alcohol and water.
如申請專利範圍第4項或第6項所述之用途,其中該代代花萃取物係具有減少細胞脂肪之功效。 Such as the use described in item 4 or item 6 of the scope of patent application, wherein the flower extract has the effect of reducing cell fat. 如申請專利範圍第1項、第4項或第6項所述之用途,其中該代代花係一代代花乾料,且該溶劑與該代代花乾料之重量比為:。 For the purposes described in item 1, item 4 or item 6 of the scope of patent application, wherein the flower generation is a dry flower generation material, and the weight ratio of the solvent to the flower generation dry material is 如申請專利範圍第1項、第4項或第6項所述之用途,其中該組合物是一醫藥品、一食品或一保養品。 Such as the application described in item 1, item 4 or item 6 of the scope of patent application, wherein the composition is a medicine, a food or a skin care product.
TWA TWIB en. Application of seville orange flower extract in preparation of composition for improving anti-saccharification activity, inhibiting fat accumulation and promoting lipolysis. TWA true TWA en. TWIB TWIB en.
CNA en. TWIB en. Active components of Chinese-medicinal medicine with weight-losing and hypolipemic actions and its relative medicine.
Use of extract of Chinese herbal medicine seville orange flower in preparation of drug for losing weight and reducing blood fat or drug for inhibiting lipase activity. Method for preparing scented tea leave extract from citrus flowers and tea leaves, and cosmetic composition comprising said tea leave extract.
PROCESS FOR OBTAINING AQUEOUS EXTRACT ENRICHED IN SMALL RNA FROM PLANT MATERIAL AND EXTRACTS FROM THE PROCESS. Application of polyphenol from citrus aurantium calyxes to preparing weight reducing medicines. Toxicol Rep — Deshmukh NS, Stohs SJ, Magar CC, Kadam SB Citrus aurantium bitter orange extract: safety assessment by acute and day oral toxicity studies in rats and the Ames Test for mutagenicity.
Regul Toxicol Pharmacol — Article PubMed Google Scholar. Teshome E, Forsido SF, Rupasinghe HPV, Olika Keyata E Potentials of natural preservatives to enhance food safety and shelf life: a review.
Sci World J. Ben HA, Hamdi N, Ben HN, Abdelkafi S Characterization of essential oil from Citrus aurantium L. flowers: antimicrobial and antioxidant activities.
J Oleo Sci — Friedman M, Henika PR, Levin CE, Mandrell RE Antibacterial activities of plant essential oils and their components against Escherichia coli OH7 and Salmonella enterica in apple juice.
J Agric Food Chem — Iturriaga L, Olabarrieta I, de Marañón IM Antimicrobial assays of natural extracts and their inhibitory effect against Listeria innocua and fish spoilage bacteria, after incorporation into biopolymer edible films.
Int J Food Microbiol — Kim J, Marshall MR, Wei C, i. Bensid A, El Abed N, Houicher A, Regenstein JM, Özogul F Antioxidant and antimicrobial preservatives: properties, mechanism of action and applications in food—a review. Crit Rev Food Sci Nutr — Aazza S, Lyoussi B, Miguel MG Antioxidant and antiacetylcholinesterase activities of some commercial essential oils and their major compounds.
Molecules — Sarrou E, Chatzopoulou P, Dimassi-Theriou K, Therios I Volatile constituents and antioxidant activity of peel, flowers and leaf oils of Citrus aurantium L. growing in Greece. Jabri Karoui I, Marzouk B Characterization of bioactive compounds in Tunisian bitter orange Citrus aurantium L.
peel and juice and determination of their antioxidant activities. Biomed Res Int. Tounsi MS, Wannes WA, Ouerghemmi I, Jegham S, Ben NY, Hamdaoui G, Zemni H, Marzouk B Juice components and antioxidant capacity of four Tunisian Citrus varieties.
J Sci Food Agric — Agarwal P, Sebghatollahi Z, Kamal M, Dhyani A, Shrivastava A, Singh KK, Sinha M, Mahato N, Mishra AK, Baek KH Citrus essential oils in aromatherapy: therapeutic effects and mechanisms.
Shirzadegan R, Gholami M, Hasanvand S, Beiranvand A The effects of Citrus aurantium aroma on anxiety and fatigue in patients with acute myocardial infarction: a two-center, randomized, controlled trial. J Herb Med Suryawanshi JAS An overview of Citrus aurantium used in treatment of various diseases.
African J Plant Sci — Ersus S, Cam M Determination of organic acids, total phenolic content, and antioxidant capacity of sour Citrus aurantium fruits. Chem Nat Compd — Zhang C, Bucheli P, Liang X, Lu Y Citrus flavonoids as functional ingredients and their role in traditional Chinese medicine.
Food — Global Science Books. CAS Google Scholar. Seiyaboh EI, Seiyaboh Z, Izah SC Environmental control of mosquitoes: a case study of the effect of Mangifera indica root-bark extracts family Anacardiaceae on the larvae of Anopheles gambiae. Ann Ecol Environ Sci — Seiyaboh EI, Odubo TC, Izah SC Larvicidal activity of Tetrapleura tetraptera Schum and Thonn Taubert Mimosaceae extracts against Anopheles gambiae.
Int J Adv Res Microbiol Immunol — Youkparigha FO, Izah SC Larvicidal efficacy of aqueous extracts of Zingiber officinale Roscoe ginger against malaria vector, Anopheles gambiae Diptera: Culicidae.
Int J Environ Agric Sci —6. Izah SC Activities of crude, acetone and ethanolic extracts of Capsicum frutescens var. Minima fruit against larva of Anopheles gambiae.
J Environ Treat Techn — Ogunro OB, Salawu AO, Alotaibi SS, Albogami SM, Batiha G-S, Waard MD QuercetinO-β-D-glucopyranoside-rich fraction from Spondias mombin leaves halted responses from oxidative stress, neuroinflammation, apoptosis, and lipid peroxidation in the brain of Dichlorvos-treated Wistar rats.
Toxics — Siskos EP, Konstantopoulou MA, Mazomenos BE, Jervis M Insecticidal activity of Citrus aurantium fruit, leaf, and shoot extracts against adult olive fruit flies Diptera: Tephritidae. J Econ Entomol — Yao WR, Wang HY, Wang ST, Sun SL, Zhou J, Luan YY Assessment of the antibacterial activity and the antidiarrheal function of flavonoids from bayberry fruit.
Hansen DK, George NI, White GE, Pellicore LS, Abdel-Rahman A, Fabricant D Physiological effects following administration of Citrus aurantium for 28 days in rats. Toxicol Appl Pharmacol — Enaregha EB, Chibueze Izah S, Okiriya Q Antibacterial properties of Tetrapleura tetraptera pod against some pathogens.
Res Rev Insights —4. Kigigha LT, Uhunmwangho EJ, Izah SC Assessment of hot water and ethanolic leaf extracts of Cymbopogon citrates Stapf lemon grass against selected bacteria pathogens. Ann Microbiol Infect Dis —8.
Kigigha LT, Selekere RE, Izah SC Antibacterial and synergistic efficacy of acetone extracts of Garcinia kola Bitter kola and Buchholzia coriacea Wonderful kola. Original research article. J Basic Pharmacol Toxicol — Chibueze Izah S, Aseibai ER Antibacterial and synergistic activities of methanolic leaves extract of lemon grass Cymbopogon citratus and rhizomes of ginger Zingiber officinale against Escherichia coli , Staphylococcus aureus and Bacillus subtilis.
Acta Sci Microbiol — Chibueze Izah S Some determinant factors of antimicrobial susceptibility pattern of plant extracts. Yakubu MT, Ogunro OB, Ademola AR, Awakan OJ, Oyewo EB, Muhammad NO, Ajiboye TO Fadogia Agrestis Schweinf.
Ex Hiern aqueous stem extract: chemical profile and its effects on acetaminophen-induced oxidative stress in male rats. Nigerian J of Biochem and Mol Bio 32 2 — Yakubu MT, Ogunro BO, Ademola RA, Awakan JO, Oyewo EB, Muhammad NO, Ajiboye TO Fadogia agrestis Schweinf.
Niger J Biochem Mol Biol — Maksoud S, Abdel-Massih RM, Rajha HN, Louka N, Chemat F, Barba FJ, Debs E Citrus aurantium L. Active constituents, biological effects and extraction methods. An updated review. Lee SH, Yumnam S, Hong GE et al Flavonoids of Korean Citrus aurantium L. induce apoptosis via intrinsic pathway in human hepatoblastoma HepG2 cells.
Jayaprakasha GK, Mandadi KK, Poulose SM, Jadegoud Y, Nagana Gowda GA, Patil BS Novel triterpenoid from Citrus aurantium L. possesses chemopreventive properties against human colon cancer cells. Bioorg Med Chem — De Moraes Pultrini A, Almeida Galindo L, Costa M Anxiolytic and sedative effects of extracts and essential oil from Citrus aurantium L.
Biol Pharm Bull — Gholivand MB, Piryaei M, Abolghasemi MM Analysis of volatile oil composition of Citrus aurantium L. by microwave-assisted extraction coupled to headspace solid-phase microextraction with nanoporous based fibers.
J Sep Sci — J Nat Prod Plant Resour — Khettal B, Kadri N, Tighilet K, Adjebli A, Dahmoune F, Maiza-Benabdeslam F Phenolic compounds from Citrus leaves: antioxidant activity and enzymatic browning inhibition. J Complement Integr Med. Maurya AK, Mohanty S, Pal A, Chanotiya CS, Bawankule DU The essential oil from Citrus limetta Risso peels alleviates skin inflammation: in-vitro and in-vivo study.
J Ethnopharmacol — Singh B, Singh JP, Kaur A, Yadav MP Insights into the chemical composition and bioactivities of citrus peel essential oils. Food Res Int Kusuma HS, Putra AFP, Mahfud M Comparison of two isolation methods for essential oils from orange peel Citrus auranticum L as a growth promoter for fish: microwave steam distillation and conventional steam distillation.
J Aquac Res Dev —5. Hosseini SS, Khodaiyan F, Kazemi M, Najari Z Optimization and characterization of pectin extracted from sour orange peel by ultrasound assisted method. Int J Biol Macromol — Hosseini SS, Khodaiyan F, Yarmand MS Optimization of microwave assisted extraction of pectin from sour orange peel and its physicochemical properties.
Carbohydr Polym — Burnett CL, Fiume MM, Bergfeld WF et al Safety assessment of citrus-derived peel oils as used in cosmetics. Int J Toxicol S—59S. Hamedi A, Zarshenas MM, Jamshidzadeh A, Ahmadi S, Heidari R, Pasdran A Citrus aurantium bitter orange seed oil: pharmacognostic, anti-inflam- matory, and anti-nociceptive properties.
Herb Prod — Abou Baker DH, Ibrahim BMM, Hassan NS, Yousuf AF, El Gengaihi S Exploiting Citrus aurantium seeds and their secondary metabolites in the management of Alzheimer disease. Moulehi I, Bourgou S, Ourghemmi I, Tounsi MS Variety and ripening impact on phenolic composition and antioxidant activity of mandarin Citrus reticulate Blanco and bitter orange Citrus aurantium L.
seeds extracts. Agriculture Switzerland —9. Karimi E, Oskoueian E, Hendra R, Oskoueian A, Jaafar HZE Phenolic compounds characterization and biological activities of Citrus aurantium bloom. Değirmenci H, Erkurt H Relationship between volatile components, antimicrobial and antioxidant properties of the essential oil, hydrosol and extracts of Citrus aurantium L.
J Infect Public Health — Pasandideh S, Arasteh A Evaluation of antioxidant and inhibitory properties of Citrus aurantium L. on the acetylcholinesterase activity and the production of amyloid nano—bio fibrils. Mohagheghniapour A, Saharkhiz MJ, Golmakani MT, Niakousari M Variations in chemical compositions of essential oil from sour orange Citrus aurantium L.
blossoms by different isolation methods. Sustain Chem Pharm — Yan Y, Zhou H, Wu C, Feng X, Han C, Chen H, Liu Y, Li Y Ultrasound-assisted aqueous two-phase extraction of synephrine, naringin, and neohesperidin from Citrus aurantium L.
Prep Biochem Biotechnol — Ishaq A, Sani D, Abdullahi S, Jatau I In vitro anticoccidial activity of ethanolic leaf extract of Citrus aurantium L. against Eimeria tenella oocysts. Sokoto J Vet Sci — Rauf A, Uddin G, Ali J Phytochemical analysis and radical scavenging profile of juices of Citrus sinensis , Citrus anrantifolia , and Citrus limonum.
Org Med Chem Lett Gunwantrao BB, Bhausaheb SK, Ramrao BS, Subhash KS Antimicrobial activity and phytochemical analysis of orange Citrus aurantium L. and pineapple Ananas comosus L. peel extract. Ann Phytomed Int J — Babajide AB, Adebolu TT, Oladunmoye MK, Oladejo BO Evaluation of antibacterial activity of Citrus aurantium L.
leaf extracts on bacteria isolated from blood of hepatitis B positive individuals in Ondo State, Nigeria. Microbes Infect Dis — Khudhair AMAAA, Minnat T, Jalyl O Phytochemical analysis and inhibitory effect of Citrus aurantium L.
bitter orange leaves on some bacterial isolates in vitro. Diyala J Pure Sci — IJRDO-J Biol Sci — He XG, Lian LZ, Lin LZ, Bernart MW High-performance liquid chromatography-electrospray mass spectrometry in phytochemical analysis of sour orange Citrus aurantium L.
J Chromatogr A — Arlette NT, Anangmo N, Nadia C, Gertrude MT, Stephanie MT, Pone W The in vitro anticoccidial activity of aqueous and ethanolic extracts of Ageratum conyzoide sand Vernonia amygdalina Asteraceae.
World J Pharm Pharm Sci — Evid Based Complement Alternat Med. Malleshappa P, Kumaran RC, Venkatarangaiah K, Parveen S Peels of Citrus fruits: a potential source of anti-inflammatory and anti-nociceptive agents.
Pharm J S—S Jain S, Arora P, Popli H A comprehensive review on Citrus aurantifolia essential oil: its phytochemistry and pharmacological aspects. Braz J Nat Sci Aladekoyi G, Omosulis V, OrungbemiO O Evaluation of antimicrobial activity of oil extracted from three different citrus seeds Citrus limon , Citrus aurantifolia and Citrus aurantium.
Int J Sci Res Eng Stud — Kačániová M, Terentjeva M, Galovičová L et al Biological activity and antibiofilm molecular profile of Citrus aurantium essential oil and its application in a food model. Benzaid C, Belmadani A, Tichati L, Djeribi R, Rouabhia M Effect of Citrus aurantium L.
Essential oil on streptococcus mutans growth, biofilm formation and virulent genes expression. Antibiotics — Karabiyikli Ş, Deǧirmenci H, Karapinar M Inhibitory effect of sour orange Citrus aurantium juice on salmonella typhimurium and listeria monocytogenes. LWT — Gopal PV Evaluation of anti-microbial activity of Citrus aurantium against some gram positive and negative bacterial strains.
Pharmacia — Haraoui N, Allem R, Chaouche TM, Belouazni A In-vitro antioxidant and antimicrobial activities of some varieties citrus grown in Algeria.
Adv Tradit Med — Teneva D, Denkova-Kostova R, Goranov B, Hristova-Ivanova Y, Slavchev A, Denkova Z, Kostov G Chemical composition, antioxidant activity and antimicrobial activity of essential oil from Citrus aurantium L zest against some pathogenic microorganisms.
Z Naturforsch C J Biosci — Clavaud C, Jourdain R, Bar-Hen A et al Dandruff is associated with disequilibrium in the proportion of the major bacterial and fungal populations colonizing the scalp. PLoS One. J Food Sci. Lobo V, Patil A, Phatak A, Chandra N Free radicals, antioxidants and functional foods: impact on human health.
Pharmacogn Rev — Shi Z, Li T, Liu Y, Cai T, Yao W, Jiang J, He Y, Shan L Hepatoprotective and anti-oxidative effects of total flavonoids from Qu Zhi Qiao fruit of Citrus Paradisi cv. Changshanhuyou on nonalcoholic steatohepatitis in vivo and in vitro through Nrf2-ARE signaling pathway.
Bendaha H, Bouchal B, El Mounsi I, Salhi A, Berrabeh M, El Bellaoui M, Mimouni M Chemical composition, antioxidant, antibacterial and antifungal activities of peel essential oils of Citrus aurantium grown in Eastern Morocco.
Pharm Lett — Bian Y, Chen X, Cao H et al A correlational study of Weifuchun and its clinical effect on intestinal flora in precancerous lesions of gastric cancer. Chin Med United Kingdom — Yao L, Zhang X, Huang C, Cai Y, Wan C The effect of Citrus aurantium on non-small-cell lung cancer: a research based on network and experimental pharmacology.
Shen C-Y, Yang L, Jiang J-G, Zheng C-Y, Zhu W Immune enhancement effects and extraction optimization of polysaccharides from Citrus aurantium L. amara Engl.
Food Funct — Han MH, Lee WS, Lu JN, Kim G, Jung JM, Ryu CH, Kim GIY, Hwang HJ, Kwon TK, Choi YH Citrus aurantium L. exhibits apoptotic effects on U human leukemia cells partly through inhibition of Akt. Int J Oncol — Arbo MD, Schmitt GC, Limberger MF, Charão MF, Moro ÂM, Ribeiro GL, Dallegrave E, Garcia SC, Leal MB, Limberger RP Subchronic toxicity of Citrus aurantium L.
The half maximal inhibitory concentration of C. aurantium leaf extract CALE for 2,2-diphenylpicrylhydrazyl-scavenging, 2,2'-azino-bis 3-ethylbenzothiazolinesulfonic acid -scavenging, antityrosinase, anticollagenase, antielastase and anti-matrix metalloprotein-1 activities were In total, 17 active compounds were detected in CALE-with linalool, linalyl acetate, limonene, and α-terpineol having the highest concentrations.
Finally, the overall transdermal absorption and permeation efficiency of CALE was
Fpr The present invention iCtrus to Citrus aurantium for anti-aging use Citrus aurantium for anti-aging Daidaihua extract, especially a Eating patterns and habits of Nutrition misconceptions explained extract to slow auranitum skin aging and reduce the fat content in cells. 糖化終產物 Advanced Glycation End Products,AGEs 是一群高度氧化的化合物,因此被認為是一種糖毒素 Glycotoxin ,研究顯示糖化終產物會與細胞表面的接受器結合,而改變其結構與功能,並促使細胞的氧化壓力與發炎反應增加,更與糖尿病、動脈硬化及腎臟慢性疾病等的形成關係密不可分,其中對於還沒有產生糖尿病等慢性疾病的人來說,糖化作用會導致皮膚的膠原蛋白劣化,破壞膠原蛋白的纖維與彈力纖維,導致皮膚出現皺紋、鬆弛甚至蠟黃暗沉等現象。除了人體正常代謝過程中會產生糖化終產物外,許多加工食品中也會含有糖化終產物,研究也已指出避免從食物攝取糖化終產物,能有助於延緩慢性疾病與老化的進展。 Advanced Aurantiu, End Products AGEs are a group of highly oxidized compounds, so they are considered to be a kind of glycotoxin Glycotoxin. Studies have shown that the glycation end products will bind to receptors on the cell surface to change its structure and function. It also promotes the increase of oxidative stress and inflammation of cells, and is inseparable from the formation of diabetes, arteriosclerosis, and chronic kidney diseases. For people who have not yet developed diabetes and other chronic diseases, glycation will cause skin collagen. FATTY ACID. Anti-aaging Acid C Stearic Acid C Oleic Acid C n Aueantium Acid C n Alpha-Linolenic Acid C n Our organically crafted Orange Seed Oil is cold-pressed from the seeds of the zesty Citrus sinensis cultivated in sunny orchards of Indian countryside.
Ich berate Ihnen, die Webseite zu besuchen, auf der viele Artikel zum Sie interessierenden Thema gibt.