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Wikipedia

Bis(2-ethylhexyl) phthalate

January 25, 2023

Bis(2-ethylhexyl) phthalate (di-2-ethylhexyl phthalate, diethylhexyl phthalate, diisooctyl phthalate, DEHP; incorrectly — dioctyl phthalate, DIOP) is an organic compound with the formula C6H4(CO2C8H17)2. DEHP is the most common member of the class of phthalates, which are used as plasticizers. It is the diester of phthalic acid and the branched-chain 2-ethylhexanol. This colorless viscous liquid is soluble in oil, but not in water.

Bis(2-ethylhexyl) phthalate
Names
Preferred IUPAC name
Bis(2-ethylhexyl) benzene-1,2-dicarboxylate
Other names
Bis(2-ethylhexyl) phthalate
Di-sec octyl phthalate[1] (archaic)
DEHP
Isooctyl phthalate, di-[2]
Identifiers
  • 117-81-7 Y
3D model (JSmol)
  • Interactive image
ChEBI
  • CHEBI:17747 N
ChEMBL
  • ChEMBL402794 N
ChemSpider
  • 21106505 Y
ECHA InfoCard 100.003.829
EC Number
  • 204-211-0 617-060-4
KEGG
  • C03690 Y
  • 8343
RTECS number
  • TI0350000
UNII
  • C42K0PH13C Y
  • DTXSID5020607
  • InChI=1S/C24H38O4/c1-5-9-13-19(7-3)17-27-23(25)21-15-11-12-16-22(21)24(26)28-18-20(8-4)14-10-6-2/h11-12,15-16,19-20H,5-10,13-14,17-18H2,1-4H3 N
    Key: BJQHLKABXJIVAM-UHFFFAOYSA-N N
  • O=C(OCC(CC)CCCC)C1=CC=CC=C1C(OCC(CC)CCCC)=O
Properties
C24H38O4
Molar mass 390.564 g·mol−1
Appearance Colorless, oily liquid[3]
Density 0.99 g/mL (20°C)[3]
Melting point −50 °C (−58 °F; 223 K)
Boiling point 385 °C (725 °F; 658 K)
0.00003% (23.8 °C)[3]
Vapor pressure < 0.01 mmHg (20 °C)[3]
1.4870[4]
Hazards
Occupational safety and health (OHS/OSH):
Main hazards
 Irritant, teratogen
GHS labelling:[6]
Danger
H360FD
P201, P202, P280, P308+P313, P405, P501
NFPA 704 (fire diamond)
0
1
0
Flash point 216 °C; 420 °F; 489 K (open cup)[3]
Explosive limits 0.3%-?[3]
Lethal dose or concentration (LD, LC):
34,000 mg/kg (oral, rabbit)
26,000 mg/kg (oral, guinea pig)
30,600 mg/kg (oral, rat)
30,000 mg/kg (oral, mouse)[5]
NIOSH (US health exposure limits):
PEL (Permissible)
 TWA 5 mg/m3[3]
REL (Recommended)
 Ca TWA 5 mg/m3 ST 10 mg/m3[3]
IDLH (Immediate danger)
 Ca [5000 mg/m3][3]
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
N verify (what is YN ?)

Production

Di(2-ethylhexyl) phthalate is produced commercially by the reaction of excess 2-ethylhexanol with phthalic anhydride in the presence of an acid catalyst such as sulfuric acid or para-toluenesulfonic acid. It was first produced in commercial quantities in Japan around 1933 and in the United States in 1939.[7]

 

As 2-ethylhexanol is produced as a racemic mixture, DEHP consists of the (R,R)- and (S,S)-diasteromers, and the meso-isomer.

 

Use

 
PVC is used extensively in sewage pipe due to its low cost, chemical resistance, and ease of jointing. Phthalate plasticizers are essential for the utility of PVC, which is too brittle otherwise.[8]

Due to its suitable properties and the low cost, DEHP is widely used as a plasticizer in manufacturing of articles made of PVC.[8] Plastics may contain 1% to 40% of DEHP. It is also used as a hydraulic fluid and as a dielectric fluid in capacitors. DEHP also finds use as a solvent in glowsticks.

Approximately three million tonnes are produced and used annually worldwide.[8]

Manufacturers of flexible PVC articles can choose among several alternative plasticizers offering similar technical properties as DEHP. These alternatives include other phthalates such as diisononyl phthalate (DINP), di-2-propyl heptyl phthalate (DPHP), diisodecyl phthalate (DIDP), and non-phthalates such as 1,2-cyclohexane dicarboxylic acid diisononyl ester (DINCH), dioctyl terephthalate (DOTP), and citrate esters.[9]

Environmental exposure

DEHP is a component of many household items, including tablecloths, floor tiles, shower curtains, garden hoses, rainwear, dolls, toys, shoes, medical tubing, furniture upholstery, and swimming pool liners.[10] DEHP is an indoor air pollutant in homes and schools. Common exposures come from the use of DEHP as a fragrance carrier in cosmetics, personal care products, laundry detergents, colognes, scented candles, and air fresheners.[11] The most common exposure to DEHP comes through food with an average consumption of 0.25 milligrams per day.[12] It can also leach into a liquid that comes in contact with the plastic; it extracts faster into nonpolar solvents (e.g. oils and fats in foods packed in PVC). Fatty foods that are packaged in plastics that contain DEHP are more likely to have higher concentrations such as milk products, fish or seafood, and oils.[10] The US FDA therefore permits use of DEHP-containing packaging only for foods that primarily contain water.

DEHP can leach into drinking water from discharges from rubber and chemical factories; The US EPA limits for DEHP in drinking water is 6 ppb.[12] It is also commonly found in bottled water, but unlike tap water, the EPA does not regulate levels in bottled water.[11] DEHP levels in some European samples of milk, were found at 2000 times higher than the EPA Safe Drinking Water limits (12,000 ppb). Levels of DEHP in some European cheeses and creams were even higher, up to 200,000 ppb, in 1994.[13] Additionally, workers in factories that utilize DEHP in production experience greater exposure.[10] The U.S. agency OSHA's limit for occupational exposure is 5 mg/m3 of air.[14]

Use in medical devices

DEHP is the most common phthalate plasticizer in medical devices such as intravenous tubing and bags, IV catheters, nasogastric tubes, dialysis bags and tubing, blood bags and transfusion tubing, and air tubes. DEHP makes these plastics softer and more flexible and was first introduced in the 1940s in blood bags. For this reason, concern has been expressed about leachates of DEHP transported into the patient, especially for those requiring extensive infusions or those who are at the highest risk of developmental abnormalities, e.g. newborns in intensive care nursery settings, hemophiliacs, kidney dialysis patients, neonates, premature babies, lactating, and pregnant women. According to the European Commission Scientific Committee on Health and Environmental Risks (SCHER), exposure to DEHP may exceed the tolerable daily intake in some specific population groups, namely people exposed through medical procedures such as kidney dialysis.[15] The American Academy of Pediatrics has advocated not to use medical devices that can leach DEHP into patients and, instead, to resort to DEHP-free alternatives.[16] In July 2002, the U.S. FDA issued a Public Health Notification on DEHP, stating in part, "We recommend considering such alternatives when these high-risk procedures are to be performed on male neonates, pregnant women who are carrying male fetuses, and peripubertal males" noting that the alternatives were to look for non-DEHP exposure solutions;[17] they mention a database of alternatives.[18] The CBC documentary The Disappearing Male raised concerns about sexual development in male fetal development, miscarriage), and as a cause of dramatically lower sperm counts in men.[19] A review article in 2010 in the Journal of Transfusion Medicine showed a consensus that the benefits of a lifesaving treatments with these devices far outweigh the risks of DEHP leaching out of these devices. Although more research is needed to develop alternatives to DEHP that gives the same benefits of being soft and flexible, which are required for most medical procedures. If a procedure requires one of these devices and if patient is at high risk to suffer from DEHP then a DEHP alternative should be considered if medically safe.[20]

Metabolism

DEHP hydrolyzes to mono-ethylhexyl phthalate (MEHP) and subsequently to phthalate salts. The released alcohol is susceptible to oxidation to the aldehyde and carboxylic acid.[8]

Effects on living organisms

Toxicity

The acute toxicity of DEHP is low in animal models: 30 g/kg in rats (oral) and 24 g/kg in rabbits (dermal).[8] Concerns instead focus on its potential as an endocrine disruptor.

Endocrine disruption

DEHP, along with other phthalates, is believed to cause endocrine disruption in males, through its action as an androgen antagonist,[21] and may have lasting effects on reproductive function, for both childhood and adult exposures. Prenatal phthalate exposure has been shown to be associated with lower levels of reproductive function in adolescent males.[22] In another study, airborne concentrations of DEHP at a PVC pellet plant were significantly associated with a reduction in sperm motility and chromatin DNA integrity.[23] Additionally, the authors noted the daily intake estimates for DEHP were comparable to the general population, indicating a "high percentage of men are exposed to levels of DEHP that may affect sperm motility and chromatin DNA integrity". The claims have received support by a study[24] using dogs as a "sentinel species to approximate human exposure to a selection of chemical mixtures present in the environment". The authors analyzed the concentration of DEHP and other common chemicals such as PCBs in testes from dogs from five different world regions. The results showed that regional differences in concentration of the chemicals are reflected in dog testes and that pathologies such as tubule atrophy and germ cells were more prevalent in testes of dogs proveining from regions with higher concentrations.

Development

Numerous studies of DEHP have shown changes in sexual function and development in mice and rats. DEHP exposure during pregnancy has been shown to disrupt placental growth and development in mice, resulting in higher rates of low birthweight, premature birth, and fetal loss.[25] In a separate study, exposure of neonatal mice to DEHP through lactation caused hypertrophy of the adrenal glands and higher levels of anxiety during puberty.[26] In another study, pubertal administration of higher-dose DEHP delayed puberty in rats, reduced testosterone production, and inhibited androgen-dependent development; low doses showed no effect.[27]

Obesity

When DEHP is ingested intestinal lipases convert it to MEHP, which then is absorbed. MEHP is suspected to have an obesogenic effect. Rodent studies and human studies have shown DEHP to be a possible disruptor of thyroid function, which plays a key role in energy balance and metabolism. Exposure to DEHP has been associated with lower plasma thyroxine levels and decreased uptake of iodine in thyroid follicular cells. Previous studies have shown that slight changes in thyroxine levels can have dramatic effects on resting energy expenditure, similar to that of patients with hypothyroidism, which has been shown to cause increased weight gain in those study populations.[28]

Cardiotoxicity

Even at relatively low doses of DEHP, cardiovascular reactivity was significantly affected in mice.[29] A clinically relevant dose and duration of exposure to DEHP has been shown to have a significant impact on the behavior of cardiac cells in culture. This includes an uncoupling effect that leads to irregular rhythms in vitro. Untreated cells had fast conduction velocity, along with homogenous activation wave fronts and synchronized beating. Cells treated with DEHP exhibited fractured wave fronts with slow propagation speeds. This is observed in conjunction with a significant decrease in the amount of expression and instability of gap junctional connexin proteins, specifically connexin-43, in cardiomyocytes treated with DEHP.[30]

The decrease in expression and instability of connexin-43 may be due to the down regulation of tubulin and kinesin genes, and the alteration of microtubule structure, caused by DEHP; all of which are responsible for the transport of protein products. Also, DEHP caused down regulation of several growth factors, such as angiotensinogen, transforming growth factor-beta, vascular endothelial growth factor C and A, and endothelial-1. The DEHP-induced down regulation of these growth factors may also contribute to the reduced expression and instability of connexin-43.[31]

DEHP has also been shown, in vitro using cardiac muscle cells, to cause activation of PPAR-alpha gene, which is a key regulator in lipid metabolism and peroxisome proliferation; both of which can be involved in atherosclerosis and hyperlipidemia, which are precursors of cardiovascular disease.[32]

Once metabolized into MEHP, the molecule has been shown to lengthen action potential duration and slow epicardial conduction velocity in Langendorff perfused rodent hearts.[33]

Other health effects

Studies in mice have shown other adverse health effects due to DEHP exposure. Ingestion of 0.01% DEHP caused damage to the blood-testis barrier as well as induction of experimental autoimmune orchitis.[34] There is also a correlation between DEHP plasma levels in women and endometriosis.[35]

DEHP is also a possible cancer causing agent in humans, although human studies remain inconclusive, due to the exposure of multiple elements and limited research. In vitro and rodent studies indicate that DEHP is involved in many molecular events, including increased cell proliferation, decreased apoptosis, oxidative damage, and selective clonal expansion of the initiated cells; all of which take place in multiple sites of the human body.[36]

Government and industry response

Taiwan

In October 2009, Consumers' Foundation, Taiwan (CFCT) published test results[37] that found 5 out of the sampled 12 shoes contained over 0.1% of phthalate plasticizer content, including DEHP, which exceeds the government's Toy Safety Standard (CNS 4797). CFCT recommend that users should first wear socks to avoid direct skin contact.

In May 2011, the illegal use of the plasticizer DEHP in clouding agents for use in food and beverages has been reported in Taiwan.[38] An inspection of products initially discovered the presence of plasticizers. As more products were tested, inspectors found more manufacturers using DEHP and DINP.[39] The Department of Health confirmed that contaminated food and beverages had been exported to other countries and regions, which reveals the widespread prevalence of toxic plasticizers.

Further information: 2011 Taiwan food scandal

European Union

Concerns about chemicals ingested by children when chewing plastic toys prompted the European Commission to order a temporary ban on phthalates in 1999, the decision of which is based on an opinion by the Commission's Scientific Committee on Toxicity, Ecotoxicity and the Environment (CSTEE). A proposal to make the ban permanent was tabled. Until 2004, EU banned the use of DEHP along with several other phthalates (DBP, BBP, DINP, DIDP and DNOP) in toys for young children.[40] In 2005, the Council and the Parliament compromised to propose a ban on three types of phthalates (DINP, DIDP, and DNOP) "in toys and childcare articles which can be placed in the mouth by children". Therefore, more products than initially planned will thus be affected by the directive.[41] In 2008, six substances were considered to be of very high concern (SVHCs) and added to the Candidate List including musk xylene, MDA, HBCDD, DEHP, BBP, and DBP. In 2011, those six substances have been listed for Authorization in Annex XIV of REACH by Regulation (EU) No 143/2011.[42] According to the regulation, phthalates including DEHP, BBP and DBP will be banned from February 2015.[43]

In 2012, Danish Environment Minister Ida Auken announced the ban of DEHP, DBP, DIBP and BBP, pushing Denmark ahead of the European Union which has already started a process of phasing out phthalates.[44] However, it was postponed by two years and would take effect in 2015 and not in December 2013, which was the initial plan. The reason is that the four phthalates are far more common than expected and that producers cannot phase out phthalates as fast as the Ministry of Environment requested.[45]

In 2012, France became the first country in the EU to ban the use of DEHP in pediatrics, neonatal, and maternity wards in hospitals.[46]

DEHP has now been classified as a Category 1B reprotoxin,[47] and is now on the Annex XIV of the European Union's REACH legislation. DEHP has been phased out in Europe under REACH[48] and can only be used in specific cases if an authorization has been granted. Authorizations are granted by the European Commission, after obtaining the opinion of the Committee for Risk Assessment (RAC) and the Committee for Socio-economic Analysis (SEAC) of the European Chemicals Agency (ECHA).

California

DEHP is classified as a "chemical known to the State of California to cause cancer and birth defects or other reproductive harm" (in this case, both) under the terms of Proposition 65.[49]

References

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  2. ^ Bis(2-ethylhexyl)phthalate
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Further reading

  • Maradonna, Francesca; Evangelisti, Matteo; Gioacchini, Giorgia; et al. (2013). "Assay of vtg, ERs and PPARs as endpoint for the rapid in vitro screening of the harmful effect of Di-(2-ethylhexyl)-phthalate (DEHP) and phthalic acid (PA) in zebrafish primary hepatocyte cultures". Toxicology in Vitro. 27 (1): 84–91. doi:10.1016/j.tiv.2012.09.018. PMID 23063876.

External links

  • ATSDR ToxFAQs
  • CDC - NIOSH Pocket Guide to Chemical Hazards
  • accessed 25 March 2014
  • accessed 25 March 2014
  • ChemSub Online : Bis(2-ethylhexyl) phthalate -DEHP

January 25, 2023
ethylhexyl, phthalate, ethylhexyl, phthalate, diethylhexyl, phthalate, diisooctyl, phthalate, dehp, incorrectly, dioctyl, phthalate, diop, organic, compound, with, formula, c6h4, co2c8h17, dehp, most, common, member, class, phthalates, which, used, plasticizer. Bis 2 ethylhexyl phthalate di 2 ethylhexyl phthalate diethylhexyl phthalate diisooctyl phthalate DEHP incorrectly dioctyl phthalate DIOP is an organic compound with the formula C6H4 CO2C8H17 2 DEHP is the most common member of the class of phthalates which are used as plasticizers It is the diester of phthalic acid and the branched chain 2 ethylhexanol This colorless viscous liquid is soluble in oil but not in water Bis 2 ethylhexyl phthalate NamesPreferred IUPAC name Bis 2 ethylhexyl benzene 1 2 dicarboxylateOther names Bis 2 ethylhexyl phthalateDi sec octyl phthalate 1 archaic DEHPIsooctyl phthalate di 2 IdentifiersCAS Number 117 81 7 Y3D model JSmol Interactive imageChEBI CHEBI 17747 NChEMBL ChEMBL402794 NChemSpider 21106505 YECHA InfoCard 100 003 829EC Number 204 211 0 617 060 4KEGG C03690 YPubChem CID 8343RTECS number TI0350000UNII C42K0PH13C YCompTox Dashboard EPA DTXSID5020607InChI InChI 1S C24H38O4 c1 5 9 13 19 7 3 17 27 23 25 21 15 11 12 16 22 21 24 26 28 18 20 8 4 14 10 6 2 h11 12 15 16 19 20H 5 10 13 14 17 18H2 1 4H3 NKey BJQHLKABXJIVAM UHFFFAOYSA N NSMILES O C OCC CC CCCC C1 CC CC C1C OCC CC CCCC OPropertiesChemical formula C 24H 38O 4Molar mass 390 564 g mol 1Appearance Colorless oily liquid 3 Density 0 99 g mL 20 C 3 Melting point 50 C 58 F 223 K Boiling point 385 C 725 F 658 K Solubility in water 0 00003 23 8 C 3 Vapor pressure lt 0 01 mmHg 20 C 3 Refractive index nD 1 4870 4 HazardsOccupational safety and health OHS OSH Main hazards Irritant teratogenGHS labelling 6 PictogramsSignal word DangerHazard statements H360FDPrecautionary statements P201 P202 P280 P308 P313 P405 P501NFPA 704 fire diamond 010Flash point 216 C 420 F 489 K open cup 3 Explosive limits 0 3 3 Lethal dose or concentration LD LC LD50 median dose 34 000 mg kg oral rabbit 26 000 mg kg oral guinea pig 30 600 mg kg oral rat 30 000 mg kg oral mouse 5 NIOSH US health exposure limits PEL Permissible TWA 5 mg m3 3 REL Recommended Ca TWA 5 mg m3 ST 10 mg m3 3 IDLH Immediate danger Ca 5000 mg m3 3 Except where otherwise noted data are given for materials in their standard state at 25 C 77 F 100 kPa N verify what is Y N Infobox references Contents 1 Production 2 Use 3 Environmental exposure 3 1 Use in medical devices 3 2 Metabolism 4 Effects on living organisms 4 1 Toxicity 4 2 Endocrine disruption 4 3 Development 4 4 Obesity 4 5 Cardiotoxicity 4 6 Other health effects 5 Government and industry response 5 1 Taiwan 5 2 European Union 5 3 California 6 References 7 Further reading 8 External linksProduction EditDi 2 ethylhexyl phthalate is produced commercially by the reaction of excess 2 ethylhexanol with phthalic anhydride in the presence of an acid catalyst such as sulfuric acid or para toluenesulfonic acid It was first produced in commercial quantities in Japan around 1933 and in the United States in 1939 7 As 2 ethylhexanol is produced as a racemic mixture DEHP consists of the R R and S S diasteromers and the meso isomer Use Edit PVC is used extensively in sewage pipe due to its low cost chemical resistance and ease of jointing Phthalate plasticizers are essential for the utility of PVC which is too brittle otherwise 8 Due to its suitable properties and the low cost DEHP is widely used as a plasticizer in manufacturing of articles made of PVC 8 Plastics may contain 1 to 40 of DEHP It is also used as a hydraulic fluid and as a dielectric fluid in capacitors DEHP also finds use as a solvent in glowsticks Approximately three million tonnes are produced and used annually worldwide 8 Manufacturers of flexible PVC articles can choose among several alternative plasticizers offering similar technical properties as DEHP These alternatives include other phthalates such as diisononyl phthalate DINP di 2 propyl heptyl phthalate DPHP diisodecyl phthalate DIDP and non phthalates such as 1 2 cyclohexane dicarboxylic acid diisononyl ester DINCH dioctyl terephthalate DOTP and citrate esters 9 Environmental exposure EditDEHP is a component of many household items including tablecloths floor tiles shower curtains garden hoses rainwear dolls toys shoes medical tubing furniture upholstery and swimming pool liners 10 DEHP is an indoor air pollutant in homes and schools Common exposures come from the use of DEHP as a fragrance carrier in cosmetics personal care products laundry detergents colognes scented candles and air fresheners 11 The most common exposure to DEHP comes through food with an average consumption of 0 25 milligrams per day 12 It can also leach into a liquid that comes in contact with the plastic it extracts faster into nonpolar solvents e g oils and fats in foods packed in PVC Fatty foods that are packaged in plastics that contain DEHP are more likely to have higher concentrations such as milk products fish or seafood and oils 10 The US FDA therefore permits use of DEHP containing packaging only for foods that primarily contain water DEHP can leach into drinking water from discharges from rubber and chemical factories The US EPA limits for DEHP in drinking water is 6 ppb 12 It is also commonly found in bottled water but unlike tap water the EPA does not regulate levels in bottled water 11 DEHP levels in some European samples of milk were found at 2000 times higher than the EPA Safe Drinking Water limits 12 000 ppb Levels of DEHP in some European cheeses and creams were even higher up to 200 000 ppb in 1994 13 Additionally workers in factories that utilize DEHP in production experience greater exposure 10 The U S agency OSHA s limit for occupational exposure is 5 mg m3 of air 14 Use in medical devices Edit DEHP is the most common phthalate plasticizer in medical devices such as intravenous tubing and bags IV catheters nasogastric tubes dialysis bags and tubing blood bags and transfusion tubing and air tubes DEHP makes these plastics softer and more flexible and was first introduced in the 1940s in blood bags For this reason concern has been expressed about leachates of DEHP transported into the patient especially for those requiring extensive infusions or those who are at the highest risk of developmental abnormalities e g newborns in intensive care nursery settings hemophiliacs kidney dialysis patients neonates premature babies lactating and pregnant women According to the European Commission Scientific Committee on Health and Environmental Risks SCHER exposure to DEHP may exceed the tolerable daily intake in some specific population groups namely people exposed through medical procedures such as kidney dialysis 15 The American Academy of Pediatrics has advocated not to use medical devices that can leach DEHP into patients and instead to resort to DEHP free alternatives 16 In July 2002 the U S FDA issued a Public Health Notification on DEHP stating in part We recommend considering such alternatives when these high risk procedures are to be performed on male neonates pregnant women who are carrying male fetuses and peripubertal males noting that the alternatives were to look for non DEHP exposure solutions 17 they mention a database of alternatives 18 The CBC documentary The Disappearing Male raised concerns about sexual development in male fetal development miscarriage and as a cause of dramatically lower sperm counts in men 19 A review article in 2010 in the Journal of Transfusion Medicine showed a consensus that the benefits of a lifesaving treatments with these devices far outweigh the risks of DEHP leaching out of these devices Although more research is needed to develop alternatives to DEHP that gives the same benefits of being soft and flexible which are required for most medical procedures If a procedure requires one of these devices and if patient is at high risk to suffer from DEHP then a DEHP alternative should be considered if medically safe 20 Metabolism Edit DEHP hydrolyzes to mono ethylhexyl phthalate MEHP and subsequently to phthalate salts The released alcohol is susceptible to oxidation to the aldehyde and carboxylic acid 8 Effects on living organisms EditToxicity Edit The acute toxicity of DEHP is low in animal models 30 g kg in rats oral and 24 g kg in rabbits dermal 8 Concerns instead focus on its potential as an endocrine disruptor Endocrine disruption Edit DEHP along with other phthalates is believed to cause endocrine disruption in males through its action as an androgen antagonist 21 and may have lasting effects on reproductive function for both childhood and adult exposures Prenatal phthalate exposure has been shown to be associated with lower levels of reproductive function in adolescent males 22 In another study airborne concentrations of DEHP at a PVC pellet plant were significantly associated with a reduction in sperm motility and chromatin DNA integrity 23 Additionally the authors noted the daily intake estimates for DEHP were comparable to the general population indicating a high percentage of men are exposed to levels of DEHP that may affect sperm motility and chromatin DNA integrity The claims have received support by a study 24 using dogs as a sentinel species to approximate human exposure to a selection of chemical mixtures present in the environment The authors analyzed the concentration of DEHP and other common chemicals such as PCBs in testes from dogs from five different world regions The results showed that regional differences in concentration of the chemicals are reflected in dog testes and that pathologies such as tubule atrophy and germ cells were more prevalent in testes of dogs proveining from regions with higher concentrations Development Edit Numerous studies of DEHP have shown changes in sexual function and development in mice and rats DEHP exposure during pregnancy has been shown to disrupt placental growth and development in mice resulting in higher rates of low birthweight premature birth and fetal loss 25 In a separate study exposure of neonatal mice to DEHP through lactation caused hypertrophy of the adrenal glands and higher levels of anxiety during puberty 26 In another study pubertal administration of higher dose DEHP delayed puberty in rats reduced testosterone production and inhibited androgen dependent development low doses showed no effect 27 Obesity Edit When DEHP is ingested intestinal lipases convert it to MEHP which then is absorbed MEHP is suspected to have an obesogenic effect Rodent studies and human studies have shown DEHP to be a possible disruptor of thyroid function which plays a key role in energy balance and metabolism Exposure to DEHP has been associated with lower plasma thyroxine levels and decreased uptake of iodine in thyroid follicular cells Previous studies have shown that slight changes in thyroxine levels can have dramatic effects on resting energy expenditure similar to that of patients with hypothyroidism which has been shown to cause increased weight gain in those study populations 28 Cardiotoxicity Edit Even at relatively low doses of DEHP cardiovascular reactivity was significantly affected in mice 29 A clinically relevant dose and duration of exposure to DEHP has been shown to have a significant impact on the behavior of cardiac cells in culture This includes an uncoupling effect that leads to irregular rhythms in vitro Untreated cells had fast conduction velocity along with homogenous activation wave fronts and synchronized beating Cells treated with DEHP exhibited fractured wave fronts with slow propagation speeds This is observed in conjunction with a significant decrease in the amount of expression and instability of gap junctional connexin proteins specifically connexin 43 in cardiomyocytes treated with DEHP 30 The decrease in expression and instability of connexin 43 may be due to the down regulation of tubulin and kinesin genes and the alteration of microtubule structure caused by DEHP all of which are responsible for the transport of protein products Also DEHP caused down regulation of several growth factors such as angiotensinogen transforming growth factor beta vascular endothelial growth factor C and A and endothelial 1 The DEHP induced down regulation of these growth factors may also contribute to the reduced expression and instability of connexin 43 31 DEHP has also been shown in vitro using cardiac muscle cells to cause activation of PPAR alpha gene which is a key regulator in lipid metabolism and peroxisome proliferation both of which can be involved in atherosclerosis and hyperlipidemia which are precursors of cardiovascular disease 32 Once metabolized into MEHP the molecule has been shown to lengthen action potential duration and slow epicardial conduction velocity in Langendorff perfused rodent hearts 33 Other health effects Edit Studies in mice have shown other adverse health effects due to DEHP exposure Ingestion of 0 01 DEHP caused damage to the blood testis barrier as well as induction of experimental autoimmune orchitis 34 There is also a correlation between DEHP plasma levels in women and endometriosis 35 DEHP is also a possible cancer causing agent in humans although human studies remain inconclusive due to the exposure of multiple elements and limited research In vitro and rodent studies indicate that DEHP is involved in many molecular events including increased cell proliferation decreased apoptosis oxidative damage and selective clonal expansion of the initiated cells all of which take place in multiple sites of the human body 36 Government and industry response EditTaiwan Edit In October 2009 Consumers Foundation Taiwan CFCT published test results 37 that found 5 out of the sampled 12 shoes contained over 0 1 of phthalate plasticizer content including DEHP which exceeds the government s Toy Safety Standard CNS 4797 CFCT recommend that users should first wear socks to avoid direct skin contact In May 2011 the illegal use of the plasticizer DEHP in clouding agents for use in food and beverages has been reported in Taiwan 38 An inspection of products initially discovered the presence of plasticizers As more products were tested inspectors found more manufacturers using DEHP and DINP 39 The Department of Health confirmed that contaminated food and beverages had been exported to other countries and regions which reveals the widespread prevalence of toxic plasticizers Further information 2011 Taiwan food scandal European Union Edit Concerns about chemicals ingested by children when chewing plastic toys prompted the European Commission to order a temporary ban on phthalates in 1999 the decision of which is based on an opinion by the Commission s Scientific Committee on Toxicity Ecotoxicity and the Environment CSTEE A proposal to make the ban permanent was tabled Until 2004 EU banned the use of DEHP along with several other phthalates DBP BBP DINP DIDP and DNOP in toys for young children 40 In 2005 the Council and the Parliament compromised to propose a ban on three types of phthalates DINP DIDP and DNOP in toys and childcare articles which can be placed in the mouth by children Therefore more products than initially planned will thus be affected by the directive 41 In 2008 six substances were considered to be of very high concern SVHCs and added to the Candidate List including musk xylene MDA HBCDD DEHP BBP and DBP In 2011 those six substances have been listed for Authorization in Annex XIV of REACH by Regulation EU No 143 2011 42 According to the regulation phthalates including DEHP BBP and DBP will be banned from February 2015 43 In 2012 Danish Environment Minister Ida Auken announced the ban of DEHP DBP DIBP and BBP pushing Denmark ahead of the European Union which has already started a process of phasing out phthalates 44 However it was postponed by two years and would take effect in 2015 and not in December 2013 which was the initial plan The reason is that the four phthalates are far more common than expected and that producers cannot phase out phthalates as fast as the Ministry of Environment requested 45 In 2012 France became the first country in the EU to ban the use of DEHP in pediatrics neonatal and maternity wards in hospitals 46 DEHP has now been classified as a Category 1B reprotoxin 47 and is now on the Annex XIV of the European Union s REACH legislation DEHP has been phased out in Europe under REACH 48 and can only be used in specific cases if an authorization has been granted Authorizations are granted by the European Commission after obtaining the opinion of the Committee for Risk Assessment RAC and the Committee for Socio economic Analysis SEAC of the European Chemicals Agency ECHA California Edit DEHP is classified as a chemical known to the State of California to cause cancer and birth defects or other reproductive harm in this case both under the terms of Proposition 65 49 References Edit Diethylhexyl ester of phthalic acid Bis 2 ethylhexyl phthalate a b c d e f g h i NIOSH Pocket Guide to Chemical Hazards 0236 National Institute for Occupational Safety and Health NIOSH Alfa Aesar 117 81 7 Bis 2 ethylhexyl phthalate 98 Dioctyl phthalate Phthalic acid bis 2 ethylhexyl ester A10415 www alfa com Thermo Fischer Scientific Retrieved 30 April 2020 Di sec octyl phthalate Immediately Dangerous to Life or Health Concentrations IDLH National Institute for Occupational Safety and Health NIOSH 4 December 2014 Retrieved 17 March 2015 Sigma Aldrich Co Bis 2 ethylhexyl phthalate Retrieved on 2022 05 12 IARC Monographs on the Evaluation of the Carcinogenic Risk of Chemicals to Humans Volume 29 Some industrial chemicals and dyestuffs PDF Lyon International Agency for Research on Cancer 1982 p 271 ISBN 978 92 832 1229 4 a b c d e Lorz Peter M Towae Friedrich K Enke Walter et al 2007 Phthalic Acid and Derivatives Ullmann s Encyclopedia of Industrial Chemistry doi 10 1002 14356007 a20 181 pub2 ISBN 978 3527306732 Plasticizers ExxonMobil Product Solutions www exxonmobilchemical com Retrieved 2022 06 18 a b c ATSDR ToxFAQs Di 2 ethylhexyl phthalate DEHP www atsdr cdc gov Retrieved 2015 10 27 a b EHHI Plastics EHHI Releases Original Research Report Plastics That May be Harmful to Children and Reproductive Health www ehhi org Retrieved 2015 10 27 a b OW US EPA 21 September 2015 Basic Information about Di 2 ethylhexyl phthalate in Drinking Water water epa gov Retrieved 2015 10 27 Sharman M Read WA Castle L Gilbert J 1994 Levels of di 2 ethylhexyl phthalate and total phthalate esters in milk cream butter and cheese Food Additives and Contaminants 11 3 375 85 doi 10 1080 02652039409374236 PMID 7926171 Chemical Sampling Information Di 2 Ethylhexyl phthalate www osha gov Retrieved 2015 10 27 Phthalates in school supplies GreenFacts Website Retrieved 2009 06 10 Shea Katherine M 2003 Pediatric exposure and potential toxicity of phthalate plasticizers Pediatrics 111 6 Pt 1 1467 74 doi 10 1542 peds 111 6 1467 PMID 12777573 FDA Public Health Notification PVC Devices Containing the Plasticizer DEHP USFDA July 12 2002 Products for Hazard DEHP Archived 2010 07 15 at the Wayback Machine Sustainable Hospitals The Disappearing Male Sunday February 14 2010 at 3 pm on CBC TV CBC Sampson J de Korte D 2011 DEHP plasticised PVC relevance to blood services Transfusion Medicine 21 2 73 83 doi 10 1111 j 1365 3148 2010 01056 x PMID 21143327 S2CID 32481051 CDC Main 7 September 2021 Biomonitoring Summary Phthalates Overview Axelsson Jonatan Rylander Lars Rignell Hydbom Anna et al 2015 Prenatal phthalate exposure and reproductive function in young men Environmental Research 138 264 70 Bibcode 2015ER 138 264A doi 10 1016 j envres 2015 02 024 PMID 25743932 Huang Li Ping Lee Ching Chang Hsu Ping Chi Shih Tung Sheng 2011 The association between semen quality in workers and the concentration of di 2 ethylhexyl phthalate in polyvinyl chloride pellet plant air Fertility and Sterility 96 1 90 4 doi 10 1016 j fertnstert 2011 04 093 PMID 21621774 Sumner R N Byers A Zhang Z 2021 Environmental chemicals in dog testes reflect their geographical source and may be associated with altered pathology Scientific Reports 11 7361 7361 Bibcode 2021NatSR 11 7361S doi 10 1038 s41598 021 86805 y PMC 8016893 PMID 33795811 Lin Ming Lu Wang Dean Chuan Chen Shih Chieh April 2013 Lactational exposure to DEHP induced adrenocortical hypertrophy and anxiety like behavior in rats The FASEB Journal 27 1 Supplement 936 15 doi 10 1096 fasebj 27 1 supplement 936 15 Zong Teng Lai Lidan Hu Jia et al 2015 Maternal exposure to di 2 ethylhexyl phthalate disrupts placental growth and development in pregnant mice Journal of Hazardous Materials 297 25 33 doi 10 1016 j jhazmat 2015 04 065 PMID 25935407 Noriega N C Howdeshell K L Furr J et al 2009 Pubertal Administration of DEHP Delays Puberty Suppresses Testosterone Production and Inhibits Reproductive Tract Development in Male Sprague Dawley and Long Evans Rats Toxicological Sciences 111 1 163 78 doi 10 1093 toxsci kfp129 PMID 19528224 Kim Shin Hye Park Mi Jung 2014 Phthalate exposure and childhood obesity Annals of Pediatric Endocrinology amp Metabolism 19 2 69 75 doi 10 6065 apem 2014 19 2 69 PMC 4114051 PMID 25077088 Jaimes Rafael 2017 Plastics and cardiovascular health phthalates may disrupt heart rate variability and cardiovascular reactivity Am J Physiol Heart Circ Physiol 313 5 H1044 H1053 doi 10 1152 ajpheart 00364 2017 PMC 5792203 PMID 28842438 Gillum Nikki Karabekian Zaruhi Swift Luther M et al 2009 Clinically relevant concentrations of di 2 ethylhexyl phthalate DEHP uncouple cardiac syncytium Toxicology and Applied Pharmacology 236 1 25 38 doi 10 1016 j taap 2008 12 027 PMC 2670944 PMID 19344669 Yang Oneyeol Kim Hye Lim Weon Jong Il Seo Young Rok 2015 Endocrine disrupting Chemicals Review of Toxicological Mechanisms Using Molecular Pathway Analysis Journal of Cancer Prevention 20 1 12 24 doi 10 15430 JCP 2015 20 1 12 PMC 4384711 PMID 25853100 Posnack Nikki Gillum Lee Norman H Brown Ronald Sarvazyan Narine 2011 Gene expression profiling of DEHP treated cardiomyocytes reveals potential causes of phthalate arrhythmogenicity Toxicology 279 1 3 54 64 doi 10 1016 j tox 2010 09 007 PMC 3003946 PMID 20920545 Jaimes III R McCullough D Siegel B et al 2019 Plasticizer Interaction with the Heart Chemicals Used in Plastic Medical Devices Can Interfere with Cardiac Electrophysiology Circulation Arrhythmia and Electrophysiology 12 7 e007294 doi 10 1161 CIRCEP 119 007294 PMC 6693678 PMID 31248280 Hirai Shuichi Naito Munekazu Kuramasu Miyuki et al 2015 Low dose exposure to di 2 ethylhexyl phthalate DEHP increases susceptibility to testicular autoimmunity in mice Reproductive Biology 15 3 163 71 doi 10 1016 j repbio 2015 06 004 PMID 26370459 Kim Sung Hoon Chun Sail Jang Jin Yeon et al 2011 Increased plasma levels of phthalate esters in women with advanced stage endometriosis a prospective case control study Fertility and Sterility 95 1 357 9 doi 10 1016 j fertnstert 2010 07 1059 PMID 20797718 Rusyn Ivan Corton J Christopher 2012 Mechanistic considerations for human relevance of cancer hazard of di 2 ethylhexyl phthalate Mutation Research Reviews in Mutation Research 750 2 141 58 doi 10 1016 j mrrev 2011 12 004 PMC 3348351 PMID 22198209 消費者報導雜誌 342期 第4至11頁 跟著流行走 踩著危機走 園丁鞋逾4成可塑劑超量 in Chinese Consumers Foundation Taiwan CFCT FOOD SCARE WIDENS Tainted additives used for two decades manufacturer Taipei Times May 29 2011 生活中心綜合報導 2011 05 23 塑化劑危機 台灣海洋深層水等4廠商飲料緊急下架 in Chinese NOWnews Retrieved 2011 05 25 EU ministers agree to ban chemicals in toys EurActiv com 2004 10 07 Phthalates to be banned in toys and childcare articles EurActiv com 2005 06 27 REACH First Six Substances Subject To Authorisation PDF Sparkle vol 559 Intertek 25 Feb 2011 First REACH substance bans to apply from 2014 European Solvents Industry Group 2011 02 18 Archived from the original on 2015 07 21 Retrieved 2013 10 24 Denmark defies EU with planned ban on phthalate chemicals EurActiv com 2012 08 27 Danish prohibition against four low molecular weight phthalates postponed Press release European Council for Plasticisers and Intermediates Danish Environment Ministry 28 May 2013 Archived from the original on 2 June 2015 The legacy of Healthier Hospitals practicegreenhealth org Retrieved 2021 01 18 Classifications CL Inventory echa europa eu Retrieved 2021 01 18 Timeline of European regulations on DEHP PDF PVC Med Alliance Di 2 ethylhexyl phthalate DEHP oehha ca gov Archived from the original on 2016 07 30 Retrieved 2021 01 18 Further reading EditMaradonna Francesca Evangelisti Matteo Gioacchini Giorgia et al 2013 Assay of vtg ERs and PPARs as endpoint for the rapid in vitro screening of the harmful effect of Di 2 ethylhexyl phthalate DEHP and phthalic acid PA in zebrafish primary hepatocyte cultures Toxicology in Vitro 27 1 84 91 doi 10 1016 j tiv 2012 09 018 PMID 23063876 External links EditFDA Public Health Notification PVC devices containing the plasticizer DEHP archived page ATSDR ToxFAQs CDC NIOSH Pocket Guide to Chemical Hazards National Pollutant Inventory DEHP fact sheet Healthcare without Harm PVC and DEHP accessed 25 March 2014 Healthcare without Harm Weight of the Evidence on DEHP Exposures are a Cause for Concern Especially During Medical Care 6p fact sheet 16 March 2009 accessed 25 March 2014 Spectrum Laboratories Fact Sheet archived page ChemSub Online Bis 2 ethylhexyl phthalate DEHP Safety Assessment of Di 2 ethylhexyl phthalate DEHP Released from PVC Medical Devices Center for Devices and Radiological Health U S Food and Drug Administration archived page Retrieved from https en wikipedia org w index php title Bis 2 ethylhexyl phthalate amp oldid 1127460255, wikipedia, wiki, book, books, library,

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