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{{Chembox new
{{chembox
| ImageFile =
| Verifiedfields = changed
| ImageSize = 100px
| Watchedfields = changed
| IUPACName = hexane-1,2,3,4,5,6-hexaol
| verifiedrevid = 477859013
| OtherNames =  
| ImageFile = Sorbitol.png
| ImageSize = 220px
| ImageFile1 = 800px-Sorbitol-3D-balls.png
| ImageSize1 = 220px
| IUPACName = (2''S'',3''R'',4''R'',5''R'')-Hexane-1,2,3,4,5,6-hexol
| OtherNames = <small>D</small>-glucitol; <small>D</small>-Sorbitol; Sorbogem; Sorbo
| Section1 = {{Chembox Identifiers
| Section1 = {{Chembox Identifiers
|  CASNo = 50-70-4
ChemSpiderID_Ref = {{chemspidercite|correct|chemspider}}
|  PubChem = 82170
| ChemSpiderID = 96680
|  SMILES = OCC(O)C(O)C(O)C(O)CO
| ChEMBL_Ref = {{ebicite|changed|EBI}}
| ChEMBL = 1682
| UNII_Ref = {{fdacite|correct|FDA}}
| UNII = 506T60A25R
| InChI = 1/C6H12O6/c7-1-3(9)5(11)6(12)4(10)2-8/h3,5-9,11-12H,1-2H2/t3-,5+,6+/m1/s1
| InChIKey = BJHIKXHVCXFQLS-PYWDMBMJBD
| StdInChI_Ref = {{stdinchicite|correct|chemspider}}
| StdInChI = 1S/C6H12O6/c7-1-3(9)5(11)6(12)4(10)2-8/h3,5-9,11-12H,1-2H2/t3-,5+,6+/m1/s1
| StdInChIKey_Ref = {{stdinchicite|correct|chemspider}}
| StdInChIKey = BJHIKXHVCXFQLS-PYWDMBMJSA-N
| CASNo = 50-70-4
|    CASNo_Ref = {{cascite|correct|CAS}}
|  PubChem = 5780
|  DrugBank_Ref = {{drugbankcite|correct|drugbank}}
| DrugBank = DB01638
|  ChEBI_Ref = {{ebicite|correct|EBI}}
| ChEBI = 17317
|  SMILES = OC([C@H](O)[C@@H](O)[C@H](O)CO)CO
|  MeSHName = Sorbitol
|  MeSHName = Sorbitol
| ATCCode_prefix = A06
| ATCCode_suffix = AD18
| ATC_Supplemental = {{ATC|A06|AG07}} {{ATC|B05|CX02}} {{ATC|V04|CC01}}
   }}
   }}
| Section2 = {{Chembox Properties
| Section2 = {{Chembox Properties
Formula = {{carbon}}<sub>6</sub>{{hydrogen}}<sub>14</sub>{{oxygen}}<sub>6</sub>
C=6|H=14|O=6
|  MolarMass = 182.17 g/mol
|  MolarMass = 182.17 g/mol
|  Appearance =  
|  Appearance = white crystalline powder
|  Density = 0.68 g/cm³
|  Density = 1.489 g/cm³
MeltingPt = 95 °C
MeltingPtC = 111
BoilingPt = 296 °C
Solubility = 2350 g/L
|  BoilingPtC = 290-295
   }}
   }}
| Section3 = {{Chembox Hazards
| Section3 = {{Chembox Hazards
|   Solubility =  
| NFPA-H = 2
|  NFPA-F = 1
|  NFPA-R = 0
|  MainHazards =  
|  MainHazards =  
FlashPt =  
FlashPtC = 100
Autoignition =  
AutoignitionC = 150
   }}
   }}
}}
}}
 
__NOTOC__
{{SI}}
{{SI}}
{{Details0|Sorbitol (irrigation)}}
{{CMG}}


{{EH}}
==Overview==
==Overview==
'''Sorbitol''', also known as '''glucitol''', is a [[sugar alcohol]] the body metabolises slowly. It is obtained by [[Redox|reduction]] of [[glucose]] changing the [[aldehyde]] group to an additional [[hydroxyl]] group hence the name ''sugar alcohol''.
'''Sorbitol''', also known as '''glucitol''', is a [[sugar alcohol]] with a [[sweet]] [[taste]] which the human body metabolizes slowly. It can be obtained by [[Redox|reduction]] of [[glucose]], changing the [[aldehyde]] group to a [[hydroxyl]] group. Most sorbitol is made from [[corn syrup]], but it is also found in apples, pears, peaches, and prunes.<ref name=Teo>{{cite journal | pmid = 17132742 | year = 2006 | last1 = Teo | first1 = G | last2 = Suzuki | first2 = Y | last3 = Uratsu | first3 = SL | last4 = Lampinen | first4 = B | last5 = Ormonde | first5 = N | last6 = Hu | first6 = WK | last7 = Dejong | first7 = TM | last8 = Dandekar | first8 = AM | title = Silencing leaf sorbitol synthesis alters long-distance partitioning and apple fruit quality | volume = 103 | issue = 49 | pages = 18842–7 | doi = 10.1073/pnas.0605873103 | pmc = 1693749 | journal = Proceedings of the National Academy of Sciences of the United States of America}}</ref> It is converted to fructose by [[Sorbitol-6-phosphate 2-dehydrogenase]]. Sorbitol is an [[isomer]] of [[mannitol]], another sugar alcohol; the two differ only in the orientation of the [[hydroxyl]] group on carbon 2.<ref name="Kearsley, M. W. pp 249-249">Kearsley, M. W.; Deis, R. C. Sorbitol and Mannitol. In Sweeteners and Sugar Alternatives in Food Technology; Ames: Oxford, 2006; pp 249-249-261.</ref> While similar, the two sugar alcohols have very different sources in nature, melting points, and uses.
 
==Uses==
 
===Sweetener===
Sorbitol is a [[sugar substitute]]. It may be listed under the inactive ingredients listed for some foods and products. Its [[List of food additives, Codex Alimentarius|INS number]]  and [[E number]] is 420. Sorbitol has approximately 60% the sweetness of sucrose (table sugar).<ref>[[Sugar substitute]]</ref>


==Use as a sweetener==
Sorbitol is referred to as a nutritive sweetener because it provides dietary energy: 2.6 [[kilocalorie]]s (11 [[kilojoule]]s) per [[gram]] versus the average 4 kilocalories (17 kilojoules) for carbohydrates. It is often used in [[diet food]]s (including diet drinks and ice cream), mints, [[cough syrup]]s, and sugar-free [[chewing gum]].<ref>{{cite book |last=Campbell |first= |last2=Farrell |first2= |title=Biochemistry |location= |publisher=Brooks/Cole |edition=Seventh |year=2011 |isbn=978-1-111-42564-7 }}</ref>
Sorbitol is used in various [[cough syrup]]s and "sugar-free" mints and is usually listed under the inactive ingredients. Too much sorbitol (from 10 to 50g, or more for adults) can cause gastro-intestinal problems. 


Sorbitol is a [[sugar substitute ]] often used in diet [[food]]s (including diet drinks and ice cream) and sugar-free chewing gum. It also occurs naturally in many stone fruits and berries from trees of the genus Sorbus<ref>Lehninger ''Principles of Biochemistry'', Nelson and Cox, Fourth Edition</ref>. Sorbitol is also referred to as a nutritive sweetener because it provides calories or energy to the diet: 2.6 [[calorie]]s (11 [[kilojoule]]s) per [[gram]] versus the average 4 calories (17 kJ) of [[sugar]] and [[starch]], while retaining 60% of the [[sweetness]]. As a food additive it has an [[E number]] E420, categorized as a [[sweetener]], [[emulsifier]] and [[humectant]], grouped under "Other natural agents".
It also occurs naturally in many [[drupe|stone fruit]]s and berries from trees of the genus ''[[Sorbus]]''.<ref>{{cite book |last=Nelson |first= |last2=Cox |first2= |title=Lehninger Principles of Biochemistry |location=New York |publisher=W. H. Freeman |edition=Fourth |year=2005 |isbn=0-7167-4339-6 }}</ref>


==Use as a laxative==
===Laxative===
Sorbitol can be used as a non-stimulant [[laxative]] by either in oral suspension or [[suppository]] formThe drug works by drawing water into the [[large intestine]], thereby stimulating bowel movements.<ref>http://www.cancer.org/docroot/CDG/content/CDG_sorbitol.asp</ref>  Sorbitol has been determined safe to use in the elderly. <ref>Lederle FA: Epidemiology of constipation in elderly patients. Drug utilization and cost-containment strategies. Drugs and Ageing 6:465-469, 1995.</ref>
Sorbitol can be used as a non-stimulant [[laxative]] via an oral suspension or [[enema]].  As with other [[sugar alcohol]]s, gastrointestinal distress may result when food products that contain sorbitol are consumed. Sorbitol exerts its laxative effect by drawing water into the [[large intestine]], thereby stimulating [[bowel movements]].<ref>[http://www.cancer.org/docroot/CDG/content/CDG_sorbitol.asp ACS :: Cancer Drug Guide: sorbitol<!--Bot generated title -->]</ref>  Sorbitol has been determined safe for use by the elderly, although it is not recommended without consultation with a clinician.<ref>{{cite journal | pmid= 7663066 | year= 1995 | last1= Lederle | first1= FA | title= Epidemiology of constipation in elderly patients. Drug utilisation and cost-containment strategies | volume= 6 | issue= 6 | pages= 465–9 | journal= Drugs & aging | doi=10.2165/00002512-199506060-00006}}</ref>  Sorbitol is found in some dried fruits and may contribute to the laxative effects of prunes.<ref>{{Cite journal | pmid = 11401245 | year = 2001 | last1 = Stacewicz-Sapuntzakis | first1 = M | last2 = Bowen | first2 = PE | last3 = Hussain | first3 = EA | last4 = Damayanti-Wood | first4 = BI | last5 = Farnsworth | first5 = NR | title = Chemical composition and potential health effects of prunes: a functional food? | volume = 41 | issue = 4 | pages = 251–86 | doi = 10.1080/20014091091814 | journal = Critical reviews in food science and nutrition}}</ref> Sorbitol was discovered initially in the fresh juice of mountain ash berries in 1872.<ref>{{cite book|last=Panda|first=H.|title=The Complete Book on Sugarcane Processing and By-Products of Molasses (with Analysis of Sugar, Syrup and Molasses)|year=2011|publisher=ASIA PACIFIC BUSINESS PRESS Inc|isbn=8178331446|page=416|url=http://books.google.com/books?id=2UM4AQAAQBAJ&dq=sorbitol+in+molasses&source=gbs_navlinks_s}}</ref> It is found in the fruits of apples, plums, pears, cherries, dates, peaches, and apricots.


==Clinical significance==
===Medical applications===
Ingesting large amounts of sorbitol can lead to some abdominal pain, gas, and mild to severe [[diarrhoea]]. Sorbitol can also aggravate [[irritable bowel syndrome]] and [[fructose malabsorption]].
Sorbitol is used in bacterial culture media to distinguish the pathogenic [[Escherichia coli O157:H7|''Escherichia coli'' O157:H7]] from most other strains of ''[[Escherichia coli|E. coli]]'', as it is usually incapable of fermenting sorbitol, but 93% of known ''E. coli'' strains are capable of doing so.<ref name=wells_1983_101>{{cite journal|author=Wells JG, Davis BR, Wachsmuth IK, et al.|title=Laboratory investigation of hemorrhagic colitis outbreaks associated with a rare Escherichia coli serotype|journal=Journal of clinical microbiology|volume=18|issue=3|pages=512–20| date=September 1983 |pmid=6355145|pmc=270845|doi=|url=http://jcm.asm.org/cgi/pmidlookup?view=long&pmid=6355145|quote=The organism does not ferment sorbitol; whereas 93% of E. coli of human origin are sorbitol positive}}</ref>


Even in the absence of dietary sorbitol, cells also produce sorbitol naturally.  When too much sorbitol is produced inside [[cell (biology)|cell]]s, it can cause damage.<ref>[http://findarticles.com/p/articles/mi_m0876/is_n67/ai_14676055 Sorbitol: a hazard for diabetics? Nutrition Health Review] </ref> [[Diabetes|Diabetic]] [[retinopathy]] and [[neuropathy]] may be related to excess sorbitol in the cells of the [[eye]]s and [[nerve]]s. The source of this sorbitol in diabetics is excess [[glucose]], which goes through the [[polyol pathway]].
A treatment using sorbitol and [[ion-exchange]] resin [[sodium polystyrene sulfonate]] (tradename Kayexalate), helps remove excess [[potassium]] ions when in a [[hyperkalaemia|hyperkalaemic]] state.<ref>{{cite journal |author=Rugolotto S, Gruber M, Solano PD, Chini L, Gobbo S, Pecori S |title=Necrotizing enterocolitis in a 850 gram infant receiving sorbitol-free sodium polystyrene sulfonate (Kayexalate): clinical and histopathologic findings |journal=J Perinatol |volume=27 |issue=4 |pages=247–9 | date=April 2007 |pmid=17377608 |doi=10.1038/sj.jp.7211677 |url=}}</ref> The resin exchanges sodium ions for potassium ions in the bowel, while sorbitol helps to eliminate it. In 2010 the U.S. [[FDA]] issued a warning of increased risk for GI necrosis with this combination.<ref>http://www.fda.gov/Safety/MedWatch/SafetyInformation/ucm186845.htm</ref>


==Other uses==
===Health care, food, and cosmetic uses===
Sorbitol is often used in modern [[cosmetics]] as a [[humectant]] and [[thickener]]. Some transparent [[gel]]s can only be made with sorbitol as it has a [[refractive index]] sufficiently high for transparent formulations. It is also used as a [[humectant]] in some [[cigarette]]s.
Sorbitol often is used in modern [[cosmetics]] as a [[humectant]] and [[thickener]].<ref>http://www.bttcogroup.in/sorbitol-70.html</ref> Sorbitol often is used in [[mouthwash]] and [[toothpaste]]. Some transparent [[gel]]s can be made only with sorbitol, as it has a [[refractive index]] sufficiently high for transparent formulations. It is also used frequently in "sugar free" chewing gum.


Sorbitol is used as a [[cryoprotectant]] additive (mixed with [[sucrose]] and sodium poly[[phosphate]]s) in the manufacture of surimi, a highly refined, uncooked [[fish]] paste most commonly produced from Alaska (or walleye) pollock (''Theragra chalcogramma'').
Sorbitol is used as a [[cryoprotectant]] additive (mixed with [[sucrose]] and sodium poly[[phosphate]]s) in the manufacture of [[surimi]], a highly refined fish paste most commonly produced from [[Alaska pollock]] (''Theragra chalcogramma''). {{Citation needed|date=October 2007}}  It is also used as a humectant in some [[cigarette]]s.<ref>[http://www.gallaher-group.com/products/table3_display.asp?brand_name=Benson+%26+Hedges+Gold&brand_family=Benson+%26+Hedges&product_type=CIGARETTE&country=UNITED+KINGDOM Gallaher Group Plc - Ingredients<!-- Bot generated title -->]</ref>


Furthermore, Sorbitol, combined with [[Kayexalate]], helps the body rid itself of excess [[potassium]] ions in a hyperkaelemic state.  The Kayexalate exchanges sodium ions for potassium ions in the bowel, while sorbitol helps to eliminate it.
Sorbitol sometimes is used as a sweetener and humectant in cookies and other foods that are not identified as "dietary" items.


Sorbitol when combined with potassium nitrate has found some success as an amateur solid rocket fuel.<ref>[http://members.aol.com/riccnakk/sorb.html Richard Nakka's Experimental Rocketry Web Site]</ref>
===Miscellaneous uses===
A mixture of sorbitol and [[potassium nitrate]] has found some success as an amateur solid [[rocket fuel]].<ref>[http://www.nakka-rocketry.net/sorb.html Richard Nakka's Experimental Rocketry Web Site]</ref>


Sorbitol is identified as a potential key chemical intermediate <ref>''Production of Liquid Hydrocarbons from Biomass '' Jürgen O. Metzger  Angewandte Chemie International Edition Volume 45, Issue 5 , Pages 696 - 698 '''2005''' [http://dx.doi.org/10.1002/anie.200502895 Abstract]</ref> from [[biomass]] resources. Complete reduction of sorbitol opens the way to [[alkane]]s such as [[hexane]] which can be used as a [[biofuel]]. Sorbitol itself provides much of the hydrogen required for the transformation.
Sorbitol is identified as a potential key chemical intermediate<ref>{{Cite journal
| last1 = Metzger | first1 = Jürgen O.
| title = Production of Liquid Hydrocarbons from Biomass
| doi = 10.1002/anie.200502895
| journal = [[Angewandte Chemie]] International Edition
| volume = 45
| issue = 5
| pages = 696–698
| year = 2006
}}</ref> for production of fuels from [[biomass]] resources. [[Carbohydrate]] fractions in biomass such as [[cellulose]] undergo sequential [[hydrolysis]] and [[hydrogenation]] in the presence of metal catalysts to produce sorbitol.<ref>{{cite journal|last=Shrotri|first=Abhijit|author2=Tanksale, Akshat |author3=Beltramini, Jorge Norberto |author4=Gurav, Hanmant |author5= Chilukuri, Satyanarayana V. |title=Conversion of cellulose to polyols over promoted nickel catalysts|journal=Catalysis Science & Technology|year=2012|volume=2|issue=9|pages=1852–1858|doi=10.1039/C2CY20119D}}</ref> Complete reduction of sorbitol opens the way to [[alkane]]s, such as [[hexane]], which can be used as a [[biofuel]]. Hydrogen required for this reaction can be produced by aqueous phase reforming of sorbitol.<ref>{{cite journal|last=Tanksale|first=Akshat|author2=Beltramini, Jorge Norberto |author3=Lu, GaoQing Max |title=A review of catalytic hydrogen production processes from biomass|journal=Renewable and Sustainable Energy Reviews|year=2010|volume=14|issue=1|pages=166–182|doi=10.1016/j.rser.2009.08.010}}</ref>


:19 C<sub>6</sub>O<sub>6</sub>H<sub>14</sub> → 13 C<sub>6</sub>H<sub>14</sub> + 36 CO<sub>2</sub> + 42 H<sub>2</sub>O
:19 C<sub>6</sub>H<sub>14</sub>O<sub>6</sub> → 13 C<sub>6</sub>H<sub>14</sub> + 36 CO<sub>2</sub> + 42 H<sub>2</sub>O


The above [[chemical reaction]] is [[exothermic reaction|exothermic]] and 1.5 [[mole (unit)|mole]] of sorbitol generates 1 mole of [[hexane]]. When hydrogen is co-fed, no [[carbon dioxide]] production takes place.
The above [[chemical reaction]] is [[exothermic reaction|exothermic]]; 1.5 [[mole (unit)|mole]]s of sorbitol generate approximately 1 mole of [[hexane]]. When hydrogen is co-fed, no [[carbon dioxide]] is produced.


== See also ==
It is also added after [[electroporation]] of yeasts in transformation protocols, allowing the cells to recover by raising the osmolarity of the medium.
* [[Mannitol]]
* [[Xylitol]]


== External links ==
==Medical importance==
* [http://diabetes.niddk.nih.gov/dm/pubs/dictionary/P-T.htm#S NIH Diabetes dictionary] &mdash; see entry on sorbitol
[[Aldose reductase]] is the first enzyme in the [[Polyol pathway|sorbitol-aldose reductase pathway]]<ref>{{cite journal | pmid = 10783895 | year = 2000 | last1 = Nishikawa | first1 = T | last2 = Edelstein | first2 = D | last3 = Du | first3 = XL | last4 = Yamagishi | first4 = S | last5 = Matsumura | first5 = T | last6 = Kaneda | first6 = Y | last7 = Yorek | first7 = MA | last8 = Beebe | first8 = D | last9 = Oates | first9 = PJ | last10 = Oates | first10 = Peter J. | last11 = Hammes | first11 = Hans-Peter | last12 = Giardino | first12 = Ida | title = Normalizing mitochondrial superoxide production blocks three pathways of hyperglycaemic damage | volume = 404 | issue = 6779 | pages = 787–90 | doi = 10.1038/35008121 | journal = Nature | display-authors = 8 }}</ref> responsible for the reduction of glucose to sorbitol, as well as the reduction of [[galactose]] to [[galactitol]]. Too much sorbitol trapped in retinal cells, the cells of the lens, and the [[Schwann cells]] that [[myelin]]ate peripheral nerves can damage these cells, leading to [[retinopathy]], [[cataract]]s and peripheral [[neuropathy]], respectively. Aldose reductase inhibitors, which are substances that prevent or slow the action of aldose reductase, are currently being investigated as a way to prevent or delay these complications, which frequently occur in the setting of long-term hyperglycemia that accompanies poorly controlled [[diabetes]]. It is thought that these agents may help to prevent the accumulation of intracellular sorbitol that leads to cellular damage in diabetics.<ref>[http://findarticles.com/p/articles/mi_m0876/is_n67/ai_14676055 Sorbitol: a hazard for diabetics? Nutrition Health Review]</ref>
== References ==
<references />


==Adverse medical effects==
Sorbitol may aggravate [[irritable bowel syndrome]]<ref>[http://www.ahealthyme.com/topic/ibs#s15 Irritable Bowel Syndrome: Causes and Treatment - What can aggravate my symptoms?]</ref> and similar [[gastrointestinal tract|gastrointestinal]] conditions, resulting in severe abdominal pain for those affected, even from small amounts ingested.
It has been noted that the sorbitol added to SPS (sodium polystyrene sulfonate, used in the treatment of [[hyperkalemia]]) can cause complications in the GI tract, including bleeding, perforated colonic ulcers, ischemic colitis and colonic necrosis, particularly in patients with uremia. The authors of the paper in question cite a study on rats (both non-uremic and uremic) in which all uremic rats died on a sorbitol enema regimen, whilst uremic rats on non-sorbitol regimens - even with SPS included - showed no signs of colonic damage. In humans, it is suggested that the risk factors for sorbitol-induced damage include "... immunosuppression, hypovolemia, postoperative setting, hypotension after hemodialysis, and peripheral vascular disease." They conclude that SPS-sorbitol should be used with caution, and that "Physicians need to be aware of SPS-sorbitol GI side effects while managing hyperkalemia." <ref>http://www.practicalgastro.com/pdf/November10/ErfaniArticle.pdf</ref>
==Overdose effects==
Ingesting large amounts of sorbitol can lead to abdominal pain, [[flatulence]], and mild to severe [[diarrhea]].<ref>{{Cite journal | pmid = 17171792 | year = 2006 | last1 = Islam | first1 = MS | last2 = Sakaguchi | first2 = E | title = Sorbitol-based osmotic diarrhea: possible causes and mechanism of prevention investigated in rats | volume = 12 | issue = 47 | pages = 7635–41 | journal = World journal of gastroenterology : WJG}}</ref>  Sorbitol ingestion of 20 grams (0.7 oz) per day as sugar-free gum has led to severe diarrhea leading to unintended weight loss of 11 kilograms (24 lb) in eight months, in a woman originally weighing 52 kilograms (115 lb); another patient required hospitalization after habitually consuming 30 grams (1 oz) per day.<ref name="titleSweetener Side Effects: Case Histories">{{cite web |url=http://www.webmd.com/diet/news/20080110/sweetener-side-effects-case-histories |title=Sweetener Side Effects: Case Histories |date=2008-01-10
|author=Kathleen Doheny|publisher=WebMD Medical News|
accessdate=2008-01-10 |format= |work=}}</ref>
==Compendial status==
* [[European Pharmacopoeia]]<ref name=dsbtl>{{cite web
  | last = [[Sigma Aldrich]]
  | first =
  | authorlink =
  | title = D-Sorbitol
  | work =
  | publisher =
  | url = http://www.sigmaaldrich.com/catalog/ProductDetail.do?lang=en&N4=97336
  | format =
  | doi =
  | accessdate = 6 July 2009
  }}</ref> 6.1<ref name=ipe>{{cite web
  | last = [[European Pharmacopoeia]]
  | first =
  | authorlink =
  | title = Index, Ph Eur
  | work =
  | publisher =
  | url = https://www.edqm.eu/store/images/majbdd/200709201618250.6_1%20IndexE.pdf
  | format =
  | doi =
  | accessdate = 6 July 2009 }}</ref>
* [[British Pharmacopoeia]] 2009<ref name=ib29>{{cite web
  | last = British Pharmacopoeia
  | first =
  | authorlink =
  | title = Index, BP 2009
  | work =
  | publisher =
  | year = 2009
  | url = http://www.pharmacopoeia.co.uk/pdf/2009_index.pdf
  | format =
  | doi =
  | accessdate = 6 July 2009 }}</ref>
==See also==
*[[Isosorbide dinitrate]]
==References==
{{reflist|2}}
==External links==
* [http://www.ebi.ac.uk/pdbe-srv/PDBeXplore/ligand/?ligand=SOR Sorbitol bound to proteins] in the [[Protein Data Bank|PDB]]
{{Diagnostic agents}}
{{Laxatives}}
{{Fructose and galactose metabolism enzymes}}
[[Category:Excipients]]
[[Category:Laxatives]]
[[Category:Osmotic diuretics]]
[[Category:Osmotic diuretics]]
[[Category:Sugar alcohols]]
[[Category:Sugar alcohols]]
[[Category:Sweeteners]]
[[Category:Sweeteners]]
{{SIB}}
{{WH}}
{{WikiDoc Sources}}

Latest revision as of 15:01, 7 May 2015

Template:Chembox E numberTemplate:Chembox AppearanceTemplate:Chembox DensityTemplate:Chembox MeltingPtTemplate:Chembox BoilingPtTemplate:Chembox SolubilityInWaterTemplate:Chembox NFPATemplate:Chembox FlashPt
Sorbitol
Names
IUPAC name
(2S,3R,4R,5R)-Hexane-1,2,3,4,5,6-hexol
Other names
D-glucitol; D-Sorbitol; Sorbogem; Sorbo
Identifiers
3D model (JSmol)
ChEBI
ChEMBL
ChemSpider
DrugBank
ECHA InfoCard Lua error in Module:Wikidata at line 879: attempt to index field 'wikibase' (a nil value). Lua error in Module:Wikidata at line 879: attempt to index field 'wikibase' (a nil value).
MeSH Sorbitol
UNII
Properties
C6H14O6
Molar mass 182.17 g/mol
Hazards
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Sorbitol, also known as glucitol, is a sugar alcohol with a sweet taste which the human body metabolizes slowly. It can be obtained by reduction of glucose, changing the aldehyde group to a hydroxyl group. Most sorbitol is made from corn syrup, but it is also found in apples, pears, peaches, and prunes.[1] It is converted to fructose by Sorbitol-6-phosphate 2-dehydrogenase. Sorbitol is an isomer of mannitol, another sugar alcohol; the two differ only in the orientation of the hydroxyl group on carbon 2.[2] While similar, the two sugar alcohols have very different sources in nature, melting points, and uses.

Uses

Sweetener

Sorbitol is a sugar substitute. It may be listed under the inactive ingredients listed for some foods and products. Its INS number and E number is 420. Sorbitol has approximately 60% the sweetness of sucrose (table sugar).[3]

Sorbitol is referred to as a nutritive sweetener because it provides dietary energy: 2.6 kilocalories (11 kilojoules) per gram versus the average 4 kilocalories (17 kilojoules) for carbohydrates. It is often used in diet foods (including diet drinks and ice cream), mints, cough syrups, and sugar-free chewing gum.[4]

It also occurs naturally in many stone fruits and berries from trees of the genus Sorbus.[5]

Laxative

Sorbitol can be used as a non-stimulant laxative via an oral suspension or enema. As with other sugar alcohols, gastrointestinal distress may result when food products that contain sorbitol are consumed. Sorbitol exerts its laxative effect by drawing water into the large intestine, thereby stimulating bowel movements.[6] Sorbitol has been determined safe for use by the elderly, although it is not recommended without consultation with a clinician.[7] Sorbitol is found in some dried fruits and may contribute to the laxative effects of prunes.[8] Sorbitol was discovered initially in the fresh juice of mountain ash berries in 1872.[9] It is found in the fruits of apples, plums, pears, cherries, dates, peaches, and apricots.

Medical applications

Sorbitol is used in bacterial culture media to distinguish the pathogenic Escherichia coli O157:H7 from most other strains of E. coli, as it is usually incapable of fermenting sorbitol, but 93% of known E. coli strains are capable of doing so.[10]

A treatment using sorbitol and ion-exchange resin sodium polystyrene sulfonate (tradename Kayexalate), helps remove excess potassium ions when in a hyperkalaemic state.[11] The resin exchanges sodium ions for potassium ions in the bowel, while sorbitol helps to eliminate it. In 2010 the U.S. FDA issued a warning of increased risk for GI necrosis with this combination.[12]

Health care, food, and cosmetic uses

Sorbitol often is used in modern cosmetics as a humectant and thickener.[13] Sorbitol often is used in mouthwash and toothpaste. Some transparent gels can be made only with sorbitol, as it has a refractive index sufficiently high for transparent formulations. It is also used frequently in "sugar free" chewing gum.

Sorbitol is used as a cryoprotectant additive (mixed with sucrose and sodium polyphosphates) in the manufacture of surimi, a highly refined fish paste most commonly produced from Alaska pollock (Theragra chalcogramma).[citation needed] It is also used as a humectant in some cigarettes.[14]

Sorbitol sometimes is used as a sweetener and humectant in cookies and other foods that are not identified as "dietary" items.

Miscellaneous uses

A mixture of sorbitol and potassium nitrate has found some success as an amateur solid rocket fuel.[15]

Sorbitol is identified as a potential key chemical intermediate[16] for production of fuels from biomass resources. Carbohydrate fractions in biomass such as cellulose undergo sequential hydrolysis and hydrogenation in the presence of metal catalysts to produce sorbitol.[17] Complete reduction of sorbitol opens the way to alkanes, such as hexane, which can be used as a biofuel. Hydrogen required for this reaction can be produced by aqueous phase reforming of sorbitol.[18]

19 C6H14O6 → 13 C6H14 + 36 CO2 + 42 H2O

The above chemical reaction is exothermic; 1.5 moles of sorbitol generate approximately 1 mole of hexane. When hydrogen is co-fed, no carbon dioxide is produced.

It is also added after electroporation of yeasts in transformation protocols, allowing the cells to recover by raising the osmolarity of the medium.

Medical importance

Aldose reductase is the first enzyme in the sorbitol-aldose reductase pathway[19] responsible for the reduction of glucose to sorbitol, as well as the reduction of galactose to galactitol. Too much sorbitol trapped in retinal cells, the cells of the lens, and the Schwann cells that myelinate peripheral nerves can damage these cells, leading to retinopathy, cataracts and peripheral neuropathy, respectively. Aldose reductase inhibitors, which are substances that prevent or slow the action of aldose reductase, are currently being investigated as a way to prevent or delay these complications, which frequently occur in the setting of long-term hyperglycemia that accompanies poorly controlled diabetes. It is thought that these agents may help to prevent the accumulation of intracellular sorbitol that leads to cellular damage in diabetics.[20]

Adverse medical effects

Sorbitol may aggravate irritable bowel syndrome[21] and similar gastrointestinal conditions, resulting in severe abdominal pain for those affected, even from small amounts ingested.

It has been noted that the sorbitol added to SPS (sodium polystyrene sulfonate, used in the treatment of hyperkalemia) can cause complications in the GI tract, including bleeding, perforated colonic ulcers, ischemic colitis and colonic necrosis, particularly in patients with uremia. The authors of the paper in question cite a study on rats (both non-uremic and uremic) in which all uremic rats died on a sorbitol enema regimen, whilst uremic rats on non-sorbitol regimens - even with SPS included - showed no signs of colonic damage. In humans, it is suggested that the risk factors for sorbitol-induced damage include "... immunosuppression, hypovolemia, postoperative setting, hypotension after hemodialysis, and peripheral vascular disease." They conclude that SPS-sorbitol should be used with caution, and that "Physicians need to be aware of SPS-sorbitol GI side effects while managing hyperkalemia." [22]

Overdose effects

Ingesting large amounts of sorbitol can lead to abdominal pain, flatulence, and mild to severe diarrhea.[23] Sorbitol ingestion of 20 grams (0.7 oz) per day as sugar-free gum has led to severe diarrhea leading to unintended weight loss of 11 kilograms (24 lb) in eight months, in a woman originally weighing 52 kilograms (115 lb); another patient required hospitalization after habitually consuming 30 grams (1 oz) per day.[24]

Compendial status

See also

References

  1. Teo, G; Suzuki, Y; Uratsu, SL; Lampinen, B; Ormonde, N; Hu, WK; Dejong, TM; Dandekar, AM (2006). "Silencing leaf sorbitol synthesis alters long-distance partitioning and apple fruit quality". Proceedings of the National Academy of Sciences of the United States of America. 103 (49): 18842–7. doi:10.1073/pnas.0605873103. PMC 1693749. PMID 17132742.
  2. Kearsley, M. W.; Deis, R. C. Sorbitol and Mannitol. In Sweeteners and Sugar Alternatives in Food Technology; Ames: Oxford, 2006; pp 249-249-261.
  3. Sugar substitute
  4. Campbell; Farrell (2011). Biochemistry (Seventh ed.). Brooks/Cole. ISBN 978-1-111-42564-7.
  5. Nelson; Cox (2005). Lehninger Principles of Biochemistry (Fourth ed.). New York: W. H. Freeman. ISBN 0-7167-4339-6.
  6. ACS :: Cancer Drug Guide: sorbitol
  7. Lederle, FA (1995). "Epidemiology of constipation in elderly patients. Drug utilisation and cost-containment strategies". Drugs & aging. 6 (6): 465–9. doi:10.2165/00002512-199506060-00006. PMID 7663066.
  8. Stacewicz-Sapuntzakis, M; Bowen, PE; Hussain, EA; Damayanti-Wood, BI; Farnsworth, NR (2001). "Chemical composition and potential health effects of prunes: a functional food?". Critical reviews in food science and nutrition. 41 (4): 251–86. doi:10.1080/20014091091814. PMID 11401245.
  9. Panda, H. (2011). The Complete Book on Sugarcane Processing and By-Products of Molasses (with Analysis of Sugar, Syrup and Molasses). ASIA PACIFIC BUSINESS PRESS Inc. p. 416. ISBN 8178331446.
  10. Wells JG, Davis BR, Wachsmuth IK; et al. (September 1983). "Laboratory investigation of hemorrhagic colitis outbreaks associated with a rare Escherichia coli serotype". Journal of clinical microbiology. 18 (3): 512–20. PMC 270845. PMID 6355145. The organism does not ferment sorbitol; whereas 93% of E. coli of human origin are sorbitol positive
  11. Rugolotto S, Gruber M, Solano PD, Chini L, Gobbo S, Pecori S (April 2007). "Necrotizing enterocolitis in a 850 gram infant receiving sorbitol-free sodium polystyrene sulfonate (Kayexalate): clinical and histopathologic findings". J Perinatol. 27 (4): 247–9. doi:10.1038/sj.jp.7211677. PMID 17377608.
  12. http://www.fda.gov/Safety/MedWatch/SafetyInformation/ucm186845.htm
  13. http://www.bttcogroup.in/sorbitol-70.html
  14. Gallaher Group Plc - Ingredients
  15. Richard Nakka's Experimental Rocketry Web Site
  16. Metzger, Jürgen O. (2006). "Production of Liquid Hydrocarbons from Biomass". Angewandte Chemie International Edition. 45 (5): 696–698. doi:10.1002/anie.200502895.
  17. Shrotri, Abhijit; Tanksale, Akshat; Beltramini, Jorge Norberto; Gurav, Hanmant; Chilukuri, Satyanarayana V. (2012). "Conversion of cellulose to polyols over promoted nickel catalysts". Catalysis Science & Technology. 2 (9): 1852–1858. doi:10.1039/C2CY20119D.
  18. Tanksale, Akshat; Beltramini, Jorge Norberto; Lu, GaoQing Max (2010). "A review of catalytic hydrogen production processes from biomass". Renewable and Sustainable Energy Reviews. 14 (1): 166–182. doi:10.1016/j.rser.2009.08.010.
  19. Nishikawa, T; Edelstein, D; Du, XL; Yamagishi, S; Matsumura, T; Kaneda, Y; Yorek, MA; Beebe, D; et al. (2000). "Normalizing mitochondrial superoxide production blocks three pathways of hyperglycaemic damage". Nature. 404 (6779): 787–90. doi:10.1038/35008121. PMID 10783895.
  20. Sorbitol: a hazard for diabetics? Nutrition Health Review
  21. Irritable Bowel Syndrome: Causes and Treatment - What can aggravate my symptoms?
  22. http://www.practicalgastro.com/pdf/November10/ErfaniArticle.pdf
  23. Islam, MS; Sakaguchi, E (2006). "Sorbitol-based osmotic diarrhea: possible causes and mechanism of prevention investigated in rats". World journal of gastroenterology : WJG. 12 (47): 7635–41. PMID 17171792.
  24. Kathleen Doheny (2008-01-10). "Sweetener Side Effects: Case Histories". WebMD Medical News. Retrieved 2008-01-10.
  25. Sigma Aldrich. "D-Sorbitol". Retrieved 6 July 2009.
  26. European Pharmacopoeia. "Index, Ph Eur" (PDF). Retrieved 6 July 2009.
  27. British Pharmacopoeia (2009). "Index, BP 2009" (PDF). Retrieved 6 July 2009.

External links

Template:Diagnostic agents Template:Laxatives