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Cyclodextrin

January 01, 1970


Cyclodextrins are a family of cyclic oligosaccharides, consisting of a macrocyclic ring of glucose subunits joined by α-1,4 glycosidic bonds. Cyclodextrins are produced from starch by enzymatic conversion. They are used in food, pharmaceutical, drug delivery, and chemical industries, as well as agriculture and environmental engineering.[1]

Chemical structure of the three main types of cyclodextrins.

Cyclodextrins are composed of 5 or more α-D-glucopyranoside units linked 1->4, as in amylose (a fragment of starch). Typical cyclodextrins contain a number of glucose monomers ranging from six to eight units in a ring, creating a cone shape:

The largest well-characterized cyclodextrin contains 32 1,4-anhydroglucopyranoside units. Poorly-characterized mixtures, containing at least 150-membered cyclic oligosaccharides are also known.

Applications edit

 
β-Cyclodextrin

Drug delivery edit

Cyclodextrins are ingredients in more than 30 different approved medicines.[2] With a hydrophobic interior and hydrophilic exterior, cyclodextrins form complexes with hydrophobic compounds. Alpha-, beta-, and gamma-cyclodextrin are all generally recognized as safe by the U.S. FDA.[3][4] They have been applied for delivery of a variety of drugs, including hydrocortisone, prostaglandin, nitroglycerin, itraconazole, chloramphenicol. The cyclodextrin confers solubility and stability to these drugs.[1] The inclusion compounds of cyclodextrins with hydrophobic molecules are able to penetrate body tissues, these can be used to release biologically active compounds under specific conditions.[5] In most cases the mechanism of controlled degradation of such complexes is based on pH change of water solutions, leading to the loss of hydrogen or ionic bonds between the host and the guest molecules. Alternative means for the disruption of the complexes take advantage of heating or action of enzymes able to cleave α-1,4 linkages between glucose monomers. Cyclodextrins were also shown to enhance mucosal penetration of drugs.[6]

Chromatography edit

β-cyclodextrins are used to produce stationary phase media for HPLC separations.[7]

Other edit

Cyclodextrins bind fragrances. Such devices are capable of releasing fragrances when heated, such as by ironing, body heat, or a dryer. A common application is a typical 'dryer sheet'. They are also the main ingredient in Febreze, which claims that the β-cyclodextrins "trap" odor-causing compounds, thereby reducing the odor.[1]

Cyclodextrins are also used to produce alcohol powder by encapsulating ethanol. The powder produces an alcoholic beverage when mixed with water, or can also be taken in a pill.[8] The approval of powdered alcohol by the FDA in 2014 was met with wide-spread bans and backlash in the United States.[9]

Structure edit

 
γ-CD toroid structure showing spatial arrangement.

Typical cyclodextrins are constituted by 6-8 glucopyranoside units. These subunits are linked by 1,4 glycosidic bonds. The cyclodextrins have toroidal shapes, with the larger and the smaller openings of the toroid exposing to the solvent secondary and primary hydroxyl groups respectively. Because of this arrangement, the interior of the toroids is considerably less hydrophilic than the aqueous environment and thus able to host hydrophobic molecules. In contrast, the exterior is sufficiently hydrophilic to impart cyclodextrins (or their complexes) water solubility. They are not soluble in typical organic solvents.

Synthesis edit

Cyclodextrins are prepared by enzymatic treatment of starch.[10][11] Commonly cyclodextrin glycosyltransferase (CGTase) is employed along with α-amylase. First starch is liquified either by heat treatment or using α-amylase, then CGTase is added for the enzymatic conversion. CGTases produce mixtures of cyclodextrins, thus the product of the conversion results in a mixture of the three main types of cyclic molecules, in ratios that are strictly dependent on the enzyme used: each CGTase has its own characteristic α:β:γ synthesis ratio.[12] Purification of the three types of cyclodextrins takes advantage of the different water solubility of the molecules: β-CD which is poorly water-soluble (18.5 g/L or 16.3 mM at 25 °C) can be easily retrieved through crystallization while the more soluble α- and γ-CDs (145 and 232 g/L respectively) are usually purified by means of expensive and time consuming chromatography techniques. As an alternative a "complexing agent" can be added during the enzymatic conversion step: such agents (usually organic solvents like toluene, acetone or ethanol) form a complex with the desired cyclodextrin which subsequently precipitates. The complex formation drives the conversion of starch towards the synthesis of the precipitated cyclodextrin, thus enriching its content in the final mixture of products. Wacker Chemie AG uses dedicated enzymes, that can produce alpha-, beta- or gamma-cyclodextrin specifically. This is very valuable especially for the food industry, as only alpha- and gamma-cyclodextrin can be consumed without a daily intake limit.

 
Crystal structure of a rotaxane with an α-cyclodextrin macrocycle.[13]

Derivatives edit

Interest in cyclodextrins is enhanced because their host–guest behavior can be manipulated by chemical modification of the hydroxyl groups. O-Methylation and acetylation are typical conversions. Propylene oxide gives hydroxypropylated derivatives.[1] The primary alcohols can be tosylated. The degree of derivatization is an adjustable, i.e. full methylation vs partial.[14]

Both β-cyclodextrin and methyl-β-cyclodextrin (MβCD) remove cholesterol from cultured cells. The methylated form MβCD was found to be more efficient than β-cyclodextrin. The water-soluble MβCD is known to form soluble inclusion complexes with cholesterol, thereby enhancing its solubility in aqueous solution. MβCD is employed for the preparation of cholesterol-free products: the bulky and hydrophobic cholesterol molecule is easily lodged inside cyclodextrin rings. MβCD is also employed in research to disrupt lipid rafts by removing cholesterol from membranes.[15]

Due to the covalent attachment of thiol groups to cyclodextrins high mucoadhesive properties can be introduced as these thiolated oligomers (thiomers) are capable of forming disulfide bonds with cysteine-rich subdomains of mucus glycoproteins. The gastrointestinal and ocular residence time of thiolated cyclodextrins is therefore substantially prolonged.[16][17] Furthermore, thiolated cyclodextrins are actively taken up by target cells releasing their payload into the cytoplasma. The cellular uptake of various model drugs, for instance, was up to 20-fold improved by using thiolated α-cyclodextrin as carrier system.[18]

Research edit

In supramolecular chemistry, cyclodextrins are precursors to mechanically interlocked molecular architectures, such as rotaxanes and catenanes. Illustrative, α-cyclodextrin form second-sphere coordination complex with tetrabromoaurate anion ([AuBr4]-).[19]

β-Cyclodextrin complexes with certain carotenoid food colorants have been shown to intensify color, increase water solubility and improve light stability.[20][21]

Complexes formed between β-cyclodextrin and adamantane derivatives have been used to make self-healing materials, such as hydrogels[22] and low-friction surfaces.[23]

History edit

 
Space filling model of β-cyclodextrin.

Cyclodextrins were called "cellulosine" when first described by A. Villiers in 1891.[24] Soon after, F. Schardinger identified the three naturally occurring cyclodextrins: α, β, and γ, referred to as "Schardinger sugars". For 25 years, between 1911 and 1935, Hans Pringsheim in Germany was the leading researcher in this area,[25] demonstrating that cyclodextrins formed stable aqueous complexes with many other chemicals. By the mid-1970s, each of the natural cyclodextrins had been structurally and chemically characterized and many more complexes had been studied. Since the 1970s, extensive work has been conducted by Szejtli and others exploring encapsulation by cyclodextrins and their derivatives for industrial and pharmacologic applications.[26] Among the processes used for complexation, the kneading process seems to be one of the best.[27]

Safety edit

Cyclodextrins are of wide interest in part because they appear nontoxic in animal studies. The LD50 (oral, rats) is on the order of grams per kilogram.[1] Nevertheless, attempts to use β-Cyclodextrin for the prevention of atherosclerosis,[28] age-related lipofuscin accumulation[29] and obesity encounter an obstacle in the form of damage to the auditory nerve[30] and nephrotoxic effect.[31]

References edit

  1. ^ a b c d e Wimmer, Thomas (2012). "Cyclodextrins". Ullmann's Encyclopedia of Industrial Chemistry. Wiley-VCH. doi:10.1002/14356007.e08_e02. ISBN 978-3527306732.
  2. ^ Gu A, Wheate N (2021). "Macrocycles as drug-enhancing excipients in pharmaceutical formulations". Journal of Inclusion Phenomena and Macrocyclic Chemistry. 100 (1–2): 55–69. doi:10.1007/s10847-021-01055-9. S2CID 233139034.
  3. ^ GRAS Notice No. GRN 000155, alpha-cyclodextrin;GRAS Notice No. GRN 000074, beta-cyclodextrin;GRAS Notice No. GRN 000046, gamma-cyclodextrin
  4. ^ Uekama, Kaneto, Hirayama, Fumitoshi, Irie, Tetsumi (1998). "Cyclodextrin Drug Carrier Systems". Chemical Reviews. 98 (5): 2045–2076. doi:10.1021/CR970025P. PMID 11848959.
  5. ^ Becket G, Schep LJ, Tan MY (1999). "Improvement of the in vitro dissolution of praziquantel by complexation with α-, β- and γ-cyclodextrins". International Journal of Pharmaceutics. 179 (1): 65–71. doi:10.1016/S0378-5173(98)00382-2. PMID 10053203.
  6. ^ Morrison PW, Connon CJ, Khutoryanskiy VV (2013-01-18). "Cyclodextrin-Mediated Enhancement of Riboflavin Solubility and Corneal Permeability" (PDF). Molecular Pharmaceutics. 10 (2): 756–762. doi:10.1021/mp3005963. PMID 23294178.
  7. ^ Motoyama A, Suzuki A, Shirota O, et al. (2002). "Direct determination of pindolol enantiomers in human serum by column-switching LC-MS/MS using a phenylcarbamate-β-cyclodextrin chiral column". Journal of Pharmaceutical and Biomedical Analysis. 28 (1): 97–106. doi:10.1016/S0731-7085(01)00631-8. PMID 11861113.
  8. ^ "Powdered Alcohol: An Encapsulation | National Alcohol Beverage Control Association". www.nabca.org. Retrieved 2024-01-22.
  9. ^ "Powdered Alcohol". Alcohol.org. Retrieved 2024-01-22.
  10. ^ Szejtli, József (1998). "Introduction and General Overview of Cyclodextrin Chemistry". Chem. Rev. 98 (5): 1743–1754. doi:10.1021/cr970022c. PMID 11848947.
  11. ^ Biwer A, Antranikian G, Heinzle E (2002). "Enzymatic production of cyclodextrins". Applied Microbiology and Biotechnology. 59 (6): 609–17. doi:10.1007/s00253-002-1057-x. PMID 12226716. S2CID 12163906.
  12. ^ Farahat M (2020-03-28). "Enhancement of β-cyclodextrin Production and Fabrication of Edible Antimicrobial Films Incorporated with Clove Essential Oil/β-cyclodextrin Inclusion Complex". Microbiology and Biotechnology Letters. 48 (1): 12–23. doi:10.4014/mbl.1909.09016. S2CID 216203179.
  13. ^ Stanier CA, O'Connell MJ, Anderson HL, et al. (2001). "Synthesis of fluorescent stilbene and tolan rotaxanes by Suzuki coupling". Chemical Communications (5): 493–494. doi:10.1039/b010015n.
  14. ^ Brady, Bernadette, Lynam, Nuala, O'Sullivan, Thomas, et al. (2000). "6A-O-p-Toluenesulfonyl-β-Cyclodextrin". Org. Synth. 77: 220. doi:10.15227/orgsyn.077.0220.
  15. ^ Rodal SK, Skretting G, Garred Ø, et al. (1999). "Extraction of Cholesterol with Methyl-β-Cyclodextrin Perturbs Formation of Clathrin-coated Endocytic Vesicles". Molecular Biology of the Cell. 10 (4): 961–74. doi:10.1091/mbc.10.4.961. PMC 25220. PMID 10198050.
  16. ^ Kali G, Haddadzadegan S, Laffleur F, et al. (2023). "Per-thiolated cyclodextrins: Nanosized drug carriers providing a prolonged gastrointestinal residence time". Carbohydrate Polymers. 300: 120275. doi:10.1016/j.carbpol.2022.120275. PMID 36372469.
  17. ^ Grassiri B, Knoll P, Fabiano A, et al. (2022). "Thiolated Hydroxypropyl-β-cyclodextrin: A Potential Multifunctional Excipient for Ocular Drug Delivery". International Journal of Molecular Sciences. 23 (5): 2612. doi:10.3390/ijms23052612. PMC 8910138. PMID 35269753.
  18. ^ Kaplan Ö, Truszkowska M, Kali G, et al. (2023). "Thiolated α-cyclodextrin: The likely smallest drug carrier providing enhanced cellular uptake and endosomal escape". Carbohydrate Polymers. 316: 121070. doi:10.1016/j.carbpol.2023.121070. PMID 37321712.
  19. ^ Liu Z, Frasconi M, Lei J, et al. (2013). "Selective isolation of gold facilitated by second-sphere coordination with α-cyclodextrin". Nature Communications. 4: 1855. Bibcode:2013NatCo...4.1855L. doi:10.1038/ncomms2891. PMC 3674257. PMID 23673640.
  20. ^ Marcolino VA, Zanin GM, Durrant LR, et al. (2011). "Interaction of Curcumin and Bixin with β-Cyclodextrin: Complexation Methods, Stability, and Applications in Food". Journal of Agricultural and Food Chemistry. 59 (7): 3348–57. doi:10.1021/jf104223k. PMID 21381747.
  21. ^ De Oliveira VE, Almeida EW, Castro HV, et al. (2011). "Carotenoids and β-Cyclodextrin Inclusion Complexes: Raman Spectroscopy and Theoretical Investigation". The Journal of Physical Chemistry A. 115 (30): 8511–9. Bibcode:2011JPCA..115.8511D. doi:10.1021/jp2028142. PMID 21728366.
  22. ^ Harada A, Takashima Y, Nakahata M (2014-07-15). "Supramolecular Polymeric Materials via Cyclodextrin–Guest Interactions". Accounts of Chemical Research. 47 (7): 2128–2140. doi:10.1021/ar500109h. PMID 24911321.
  23. ^ Wang Y, Sun Y, Avestro AJ, et al. (November 2021). "Supramolecular repair of hydration lubrication surfaces". Chem. 8 (2): 480–493. doi:10.1016/j.chempr.2021.11.001.
  24. ^ Villiers A. "Sur la transformation de la fécule en dextrine par le ferment butyrique". Compt. Rend. Acad. Sci. 1891: 536–8.
  25. ^ Crini G (26 July 2020). "Twenty years of dextrin research: a tribute to Professor Hans Pringsheim (1876–1940)". Journal of Inclusion Phenomena and Macrocyclic Chemistry. 98 (1–2). Springer Science and Business Media LLC: 11–27. doi:10.1007/s10847-020-01013-x. S2CID 220774604.
  26. ^ Szejtli J. (1988). "Cyclodextrin Technology" vol 1. Springer, New York" ISBN 978-90-277-2314-7[page needed]
  27. ^ Gil A, Chamayou A, Leverd E, et al. (2004). "Evolution of the interaction of a new chemical entity, eflucimibe, with γ-cyclodextrin during kneading process" (PDF). European Journal of Pharmaceutical Sciences. 23 (2): 123–9. doi:10.1016/j.ejps.2004.06.002. PMID 15451000. S2CID 31860374.
  28. ^ Zimmer S, Grebe A, Bakke SS, et al. (2016). "Cyclodextrin promotes atherosclerosis regression via macrophage reprogramming". Science Translational Medicine. 8 (333): 333ra50. doi:10.1126/scitranslmed.aad6100. PMC 4878149. PMID 27053774.
  29. ^ Gaspar, J., Mathieu, J., & Alvarez, P. (2017). 2-Hydroxypropyl-beta-cyclodextrin (HPβCD) reduces age-related lipofuscin accumulation through a cholesterol-associated pathway. Scientific reports, 7(1), 2197. PMC 5438378
  30. ^ Crumling MA, Liu L, Thomas PV, Benson J, Kanicki A, Kabara L, et al. (2012) Hearing Loss and Hair Cell Death in Mice Given the Cholesterol-Chelating Agent Hydroxypropyl-β-Cyclodextrin. PLoS ONE 7(12): e53280. doi:10.1371/journal.pone.0053280
  31. ^ Scantlebery AM, Ochodnicky P, Kors L, et al. (2019). "β-Cyclodextrin counteracts obesity in Western diet-fed mice but elicits a nephrotoxic effect". Scientific Reports. 9 (1): 17633. doi:10.1038/s41598-019-53890-z. PMC 6881402. PMID 31776357.

January 01, 1970
cyclodextrin, family, cyclic, oligosaccharides, consisting, macrocyclic, ring, glucose, subunits, joined, glycosidic, bonds, produced, from, starch, enzymatic, conversion, they, used, food, pharmaceutical, drug, delivery, chemical, industries, well, agricultur. Cyclodextrins are a family of cyclic oligosaccharides consisting of a macrocyclic ring of glucose subunits joined by a 1 4 glycosidic bonds Cyclodextrins are produced from starch by enzymatic conversion They are used in food pharmaceutical drug delivery and chemical industries as well as agriculture and environmental engineering 1 Chemical structure of the three main types of cyclodextrins Cyclodextrins are composed of 5 or more a D glucopyranoside units linked 1 gt 4 as in amylose a fragment of starch Typical cyclodextrins contain a number of glucose monomers ranging from six to eight units in a ring creating a cone shape a alpha cyclodextrin 6 glucose subunits b beta cyclodextrin 7 glucose subunits g gamma cyclodextrin 8 glucose subunits The largest well characterized cyclodextrin contains 32 1 4 anhydroglucopyranoside units Poorly characterized mixtures containing at least 150 membered cyclic oligosaccharides are also known Contents 1 Applications 1 1 Drug delivery 1 2 Chromatography 1 3 Other 2 Structure 3 Synthesis 3 1 Derivatives 4 Research 5 History 6 Safety 7 ReferencesApplications edit nbsp b Cyclodextrin Drug delivery edit Cyclodextrins are ingredients in more than 30 different approved medicines 2 With a hydrophobic interior and hydrophilic exterior cyclodextrins form complexes with hydrophobic compounds Alpha beta and gamma cyclodextrin are all generally recognized as safe by the U S FDA 3 4 They have been applied for delivery of a variety of drugs including hydrocortisone prostaglandin nitroglycerin itraconazole chloramphenicol The cyclodextrin confers solubility and stability to these drugs 1 The inclusion compounds of cyclodextrins with hydrophobic molecules are able to penetrate body tissues these can be used to release biologically active compounds under specific conditions 5 In most cases the mechanism of controlled degradation of such complexes is based on pH change of water solutions leading to the loss of hydrogen or ionic bonds between the host and the guest molecules Alternative means for the disruption of the complexes take advantage of heating or action of enzymes able to cleave a 1 4 linkages between glucose monomers Cyclodextrins were also shown to enhance mucosal penetration of drugs 6 Chromatography edit b cyclodextrins are used to produce stationary phase media for HPLC separations 7 Other edit Cyclodextrins bind fragrances Such devices are capable of releasing fragrances when heated such as by ironing body heat or a dryer A common application is a typical dryer sheet They are also the main ingredient in Febreze which claims that the b cyclodextrins trap odor causing compounds thereby reducing the odor 1 Cyclodextrins are also used to produce alcohol powder by encapsulating ethanol The powder produces an alcoholic beverage when mixed with water or can also be taken in a pill 8 The approval of powdered alcohol by the FDA in 2014 was met with wide spread bans and backlash in the United States 9 Structure edit nbsp g CD toroid structure showing spatial arrangement Typical cyclodextrins are constituted by 6 8 glucopyranoside units These subunits are linked by 1 4 glycosidic bonds The cyclodextrins have toroidal shapes with the larger and the smaller openings of the toroid exposing to the solvent secondary and primary hydroxyl groups respectively Because of this arrangement the interior of the toroids is considerably less hydrophilic than the aqueous environment and thus able to host hydrophobic molecules In contrast the exterior is sufficiently hydrophilic to impart cyclodextrins or their complexes water solubility They are not soluble in typical organic solvents Synthesis editCyclodextrins are prepared by enzymatic treatment of starch 10 11 Commonly cyclodextrin glycosyltransferase CGTase is employed along with a amylase First starch is liquified either by heat treatment or using a amylase then CGTase is added for the enzymatic conversion CGTases produce mixtures of cyclodextrins thus the product of the conversion results in a mixture of the three main types of cyclic molecules in ratios that are strictly dependent on the enzyme used each CGTase has its own characteristic a b g synthesis ratio 12 Purification of the three types of cyclodextrins takes advantage of the different water solubility of the molecules b CD which is poorly water soluble 18 5 g L or 16 3 mM at 25 C can be easily retrieved through crystallization while the more soluble a and g CDs 145 and 232 g L respectively are usually purified by means of expensive and time consuming chromatography techniques As an alternative a complexing agent can be added during the enzymatic conversion step such agents usually organic solvents like toluene acetone or ethanol form a complex with the desired cyclodextrin which subsequently precipitates The complex formation drives the conversion of starch towards the synthesis of the precipitated cyclodextrin thus enriching its content in the final mixture of products Wacker Chemie AG uses dedicated enzymes that can produce alpha beta or gamma cyclodextrin specifically This is very valuable especially for the food industry as only alpha and gamma cyclodextrin can be consumed without a daily intake limit nbsp Crystal structure of a rotaxane with an a cyclodextrin macrocycle 13 Derivatives edit Interest in cyclodextrins is enhanced because their host guest behavior can be manipulated by chemical modification of the hydroxyl groups O Methylation and acetylation are typical conversions Propylene oxide gives hydroxypropylated derivatives 1 The primary alcohols can be tosylated The degree of derivatization is an adjustable i e full methylation vs partial 14 Both b cyclodextrin and methyl b cyclodextrin MbCD remove cholesterol from cultured cells The methylated form MbCD was found to be more efficient than b cyclodextrin The water soluble MbCD is known to form soluble inclusion complexes with cholesterol thereby enhancing its solubility in aqueous solution MbCD is employed for the preparation of cholesterol free products the bulky and hydrophobic cholesterol molecule is easily lodged inside cyclodextrin rings MbCD is also employed in research to disrupt lipid rafts by removing cholesterol from membranes 15 Due to the covalent attachment of thiol groups to cyclodextrins high mucoadhesive properties can be introduced as these thiolated oligomers thiomers are capable of forming disulfide bonds with cysteine rich subdomains of mucus glycoproteins The gastrointestinal and ocular residence time of thiolated cyclodextrins is therefore substantially prolonged 16 17 Furthermore thiolated cyclodextrins are actively taken up by target cells releasing their payload into the cytoplasma The cellular uptake of various model drugs for instance was up to 20 fold improved by using thiolated a cyclodextrin as carrier system 18 Research editIn supramolecular chemistry cyclodextrins are precursors to mechanically interlocked molecular architectures such as rotaxanes and catenanes Illustrative a cyclodextrin form second sphere coordination complex with tetrabromoaurate anion AuBr4 19 b Cyclodextrin complexes with certain carotenoid food colorants have been shown to intensify color increase water solubility and improve light stability 20 21 Complexes formed between b cyclodextrin and adamantane derivatives have been used to make self healing materials such as hydrogels 22 and low friction surfaces 23 History edit nbsp Space filling model of b cyclodextrin Cyclodextrins were called cellulosine when first described by A Villiers in 1891 24 Soon after F Schardinger identified the three naturally occurring cyclodextrins a b and g referred to as Schardinger sugars For 25 years between 1911 and 1935 Hans Pringsheim in Germany was the leading researcher in this area 25 demonstrating that cyclodextrins formed stable aqueous complexes with many other chemicals By the mid 1970s each of the natural cyclodextrins had been structurally and chemically characterized and many more complexes had been studied Since the 1970s extensive work has been conducted by Szejtli and others exploring encapsulation by cyclodextrins and their derivatives for industrial and pharmacologic applications 26 Among the processes used for complexation the kneading process seems to be one of the best 27 Safety editCyclodextrins are of wide interest in part because they appear nontoxic in animal studies The LD50 oral rats is on the order of grams per kilogram 1 Nevertheless attempts to use b Cyclodextrin for the prevention of atherosclerosis 28 age related lipofuscin accumulation 29 and obesity encounter an obstacle in the form of damage to the auditory nerve 30 and nephrotoxic effect 31 References edit a b c d e Wimmer Thomas 2012 Cyclodextrins Ullmann s Encyclopedia of Industrial Chemistry Wiley VCH doi 10 1002 14356007 e08 e02 ISBN 978 3527306732 Gu A Wheate N 2021 Macrocycles as drug enhancing excipients in pharmaceutical formulations Journal of Inclusion Phenomena and Macrocyclic Chemistry 100 1 2 55 69 doi 10 1007 s10847 021 01055 9 S2CID 233139034 GRAS Notice No GRN 000155 alpha cyclodextrin GRAS Notice No GRN 000074 beta cyclodextrin GRAS Notice No GRN 000046 gamma cyclodextrin Uekama Kaneto Hirayama Fumitoshi Irie Tetsumi 1998 Cyclodextrin Drug Carrier Systems Chemical Reviews 98 5 2045 2076 doi 10 1021 CR970025P PMID 11848959 Becket G Schep LJ Tan MY 1999 Improvement of the in vitro dissolution of praziquantel by complexation with a b and g cyclodextrins International Journal of Pharmaceutics 179 1 65 71 doi 10 1016 S0378 5173 98 00382 2 PMID 10053203 Morrison PW Connon CJ Khutoryanskiy VV 2013 01 18 Cyclodextrin Mediated Enhancement of Riboflavin Solubility and Corneal Permeability PDF Molecular Pharmaceutics 10 2 756 762 doi 10 1021 mp3005963 PMID 23294178 Motoyama A Suzuki A Shirota O et al 2002 Direct determination of pindolol enantiomers in human serum by column switching LC MS MS using a phenylcarbamate b cyclodextrin chiral column Journal of Pharmaceutical and Biomedical Analysis 28 1 97 106 doi 10 1016 S0731 7085 01 00631 8 PMID 11861113 Powdered Alcohol An Encapsulation National Alcohol Beverage Control Association www nabca org Retrieved 2024 01 22 Powdered Alcohol Alcohol org Retrieved 2024 01 22 Szejtli Jozsef 1998 Introduction and General Overview of Cyclodextrin Chemistry Chem Rev 98 5 1743 1754 doi 10 1021 cr970022c PMID 11848947 Biwer A Antranikian G Heinzle E 2002 Enzymatic production of cyclodextrins Applied Microbiology and Biotechnology 59 6 609 17 doi 10 1007 s00253 002 1057 x PMID 12226716 S2CID 12163906 Farahat M 2020 03 28 Enhancement of b cyclodextrin Production and Fabrication of Edible Antimicrobial Films Incorporated with Clove Essential Oil b cyclodextrin Inclusion Complex Microbiology and Biotechnology Letters 48 1 12 23 doi 10 4014 mbl 1909 09016 S2CID 216203179 Stanier CA O Connell MJ Anderson HL et al 2001 Synthesis of fluorescent stilbene and tolan rotaxanes by Suzuki coupling Chemical Communications 5 493 494 doi 10 1039 b010015n Brady Bernadette Lynam Nuala O Sullivan Thomas et al 2000 6A O p Toluenesulfonyl b Cyclodextrin Org Synth 77 220 doi 10 15227 orgsyn 077 0220 Rodal SK Skretting G Garred O et al 1999 Extraction of Cholesterol with Methyl b Cyclodextrin Perturbs Formation of Clathrin coated Endocytic Vesicles Molecular Biology of the Cell 10 4 961 74 doi 10 1091 mbc 10 4 961 PMC 25220 PMID 10198050 Kali G Haddadzadegan S Laffleur F et al 2023 Per thiolated cyclodextrins Nanosized drug carriers providing a prolonged gastrointestinal residence time Carbohydrate Polymers 300 120275 doi 10 1016 j carbpol 2022 120275 PMID 36372469 Grassiri B Knoll P Fabiano A et al 2022 Thiolated Hydroxypropyl b cyclodextrin A Potential Multifunctional Excipient for Ocular Drug Delivery International Journal of Molecular Sciences 23 5 2612 doi 10 3390 ijms23052612 PMC 8910138 PMID 35269753 Kaplan O Truszkowska M Kali G et al 2023 Thiolated a cyclodextrin The likely smallest drug carrier providing enhanced cellular uptake and endosomal escape Carbohydrate Polymers 316 121070 doi 10 1016 j carbpol 2023 121070 PMID 37321712 Liu Z Frasconi M Lei J et al 2013 Selective isolation of gold facilitated by second sphere coordination with a cyclodextrin Nature Communications 4 1855 Bibcode 2013NatCo 4 1855L doi 10 1038 ncomms2891 PMC 3674257 PMID 23673640 Marcolino VA Zanin GM Durrant LR et al 2011 Interaction of Curcumin and Bixin with b Cyclodextrin Complexation Methods Stability and Applications in Food Journal of Agricultural and Food Chemistry 59 7 3348 57 doi 10 1021 jf104223k PMID 21381747 De Oliveira VE Almeida EW Castro HV et al 2011 Carotenoids and b Cyclodextrin Inclusion Complexes Raman Spectroscopy and Theoretical Investigation The Journal of Physical Chemistry A 115 30 8511 9 Bibcode 2011JPCA 115 8511D doi 10 1021 jp2028142 PMID 21728366 Harada A Takashima Y Nakahata M 2014 07 15 Supramolecular Polymeric Materials via Cyclodextrin Guest Interactions Accounts of Chemical Research 47 7 2128 2140 doi 10 1021 ar500109h PMID 24911321 Wang Y Sun Y Avestro AJ et al November 2021 Supramolecular repair of hydration lubrication surfaces Chem 8 2 480 493 doi 10 1016 j chempr 2021 11 001 Villiers A Sur la transformation de la fecule en dextrine par le ferment butyrique Compt Rend Acad Sci 1891 536 8 Crini G 26 July 2020 Twenty years of dextrin research a tribute to Professor Hans Pringsheim 1876 1940 Journal of Inclusion Phenomena and Macrocyclic Chemistry 98 1 2 Springer Science and Business Media LLC 11 27 doi 10 1007 s10847 020 01013 x S2CID 220774604 Szejtli J 1988 Cyclodextrin Technology vol 1 Springer New York ISBN 978 90 277 2314 7 page needed Gil A Chamayou A Leverd E et al 2004 Evolution of the interaction of a new chemical entity eflucimibe with g cyclodextrin during kneading process PDF European Journal of Pharmaceutical Sciences 23 2 123 9 doi 10 1016 j ejps 2004 06 002 PMID 15451000 S2CID 31860374 Zimmer S Grebe A Bakke SS et al 2016 Cyclodextrin promotes atherosclerosis regression via macrophage reprogramming Science Translational Medicine 8 333 333ra50 doi 10 1126 scitranslmed aad6100 PMC 4878149 PMID 27053774 Gaspar J Mathieu J amp Alvarez P 2017 2 Hydroxypropyl beta cyclodextrin HPbCD reduces age related lipofuscin accumulation through a cholesterol associated pathway Scientific reports 7 1 2197 PMC 5438378 Crumling MA Liu L Thomas PV Benson J Kanicki A Kabara L et al 2012 Hearing Loss and Hair Cell Death in Mice Given the Cholesterol Chelating Agent Hydroxypropyl b Cyclodextrin PLoS ONE 7 12 e53280 doi 10 1371 journal pone 0053280 Scantlebery AM Ochodnicky P Kors L et al 2019 b Cyclodextrin counteracts obesity in Western diet fed mice but elicits a nephrotoxic effect Scientific Reports 9 1 17633 doi 10 1038 s41598 019 53890 z PMC 6881402 PMID 31776357 Retrieved from https en wikipedia org w index php title Cyclodextrin amp oldid 1223999712, wikipedia, wiki, 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