Increases in exposure calls related to selected cleaners and disinfectants at the onset of the COVID-19 pandemic: data from Canadian poison centres. / Augmentation du nombre d'appels relatifs à une exposition à certains nettoyants et désinfectants au début de la pandémie de COVID-19 : données des centres antipoison canadiens.

Little is known about the use or misuse of cleaning products during the COVID-19 pandemic. We compiled data from January to June in 2019 and 2020 from Canadian poison centres, and report on calls regarding selected cleaning products and present year-overyear percentage change. There were 3408 (42%) calls related to bleaches; 2015 (25%) to hand sanitizers; 1667 (21%) to disinfectants; 949 (12%) to chlorine gas; and 148 (2%) to chloramine gas. An increase in calls occurred in conjunction with the onset of COVID-19, with the largest increase occurring in March. Timely access to Canadian poison centre data facilitated early communication of safety messaging for dissemination to the public.

The Canadian Surveillance System for Poison Information (CSSPI) led by Health Canada is a developing network of poison centres, health authorities and regulatory agencies that facilitates early detection of poisoning incidents and alerting at the national level to inform harm reduction interventions. In response to the COVID-19 pandemic, concerns were raised over the potential for misuse of cleaning products and disinfectants; the CSSPI network monitored and assessed these concerns. An overall increase in calls about select cleaning products and disinfectants occurred concurrently with the pandemic, with percentage increases for selected products as high as 400% compared to the same period in the previous year.

Le Système canadien de surveillance des données sur les intoxications (SCSDI), dirigé par Santé Canada, est un réseau en développement composé de centres antipoison, d'autorités sanitaires et d'organismes de réglementation, qui facilite la détection précoce des incidents d'empoisonnement et une alerte rapide au niveau national afin d'éclairer les interventions en matière de réduction des risques. En réponse à la pandémie de COVID-19, des préoccupations ayant émergé quant au risque de mauvaise utilisation de produits de nettoyage et de désinfectants, le SCSDI a surveillé et évalué ces préoccupations. Une augmentation globale du nombre d'appels concernant plusieurs produits de nettoyage et désinfectants a eu lieu en concomitance avec la pandémie, certaines augmentations pouvant atteindre jusqu'à 400 % pour certains produits par rapport à la même période de l'année précédente.

Effect of mdr2 mutation with combined tandem disruption of canalicular glycoprotein transporters by cyclosporine A on bile formation in mice.

UNLABELLED: The inhibition of canalicular glycoprotein transporters has been suggested as the cause of familial intrahepatic cholestasis. Mutations in multidrug resistance 3-glycoprotein (MDR3) gene induce progressive familial intrahepatic cholestasis type 3 (PFIC3). Phenotypically, mutation in mdr2 in mice resembles the disruption of MDR3 in human. Secondly, mutation in the bile salt exporting pump (BSEP)/sister of P-glycoprotein (spgp) gene causes progressive familial intrahepatic cholestasis type 2 in human. However, in spgp knock-out mice only a mild persistent cholestasis occurs. The aim of this study is to evaluate the effects of various P-glycoprotein (Pgp) transporters on bile formation and the canalicular transport of taurocholic acid (TCA) in an attempt to understand the combined role of these transporters in the pathogenesis of familial intrahepatic cholestasis. Total bile acid (TBA) and cholic acid secretion rate were decreased in the mdr2 knock-out mice. However, bile flow (BF) and the secretion of muricholic acids were increased. Secretion of cholesterol was negligible and no phospholipids were detected in bile of mdr2 knock-out mice. Treatment with cyclosporine A (CsA) decreased the BF, and the biliary secretion of bile salts (BS) and phospholipids as compared to wild type mice, but after the injection of TCA+CsA, the BF, and the biliary secretion of BS and lipids were increased as compared to the wild type mice treated with CsA alone. In the mdr2 knock-out mice, CsA treatment decreased the BF and the secretion of BS but after the injection of TCA+CsA, the BF and the biliary secretion of BS were increased and the phospholipid secretion was slightly stimulated as compared to the mdr2 knock-out mice treated with CsA alone. CONCLUSION: Disruption of the mdr2 gene and the inhibition of glycoprotein transporters by CsA induce cholestasis in mice which is characterized by reduced BF, BS and biliary lipid secretion. However, CsA treatment did not significantly increase the cholestatic effect in the mdr2 knock-out mice. The injection of TCA decreased the cholestatic effect in the mdr2 knock-out mice as well as the inhibition of glycoproteins transporters by CsA. These data suggest that mutation in the canalicular mdr2 is an important factor during the development of progressive familial cholestasis.

Phosphatidylcholine-enriched diet prevents gallstone formation in mice susceptible to cholelithiasis.

Cholesterol gallstones affect approximately 10-15% of the adult population in North America. Phosphatidylcholine (PC) is considered to be the main cholesterol solubilizer in bile. This study examined the effect of a PC-enriched diet on gallstone incidence in mice susceptible to cholelithiasis. The result obtained showed that the feeding of a lithogenic (LG) diet for 4 weeks or 8 weeks resulted in cholesterol gallstone incidences of 47% and 89%, respectively. These gallstone incidences were either reduced or prevented when the LG diet was enriched with 2% or 6% PC, respectively. The cholesterol saturation index (CSI) was reduced only in mice fed with LG + 6% PC diet as compared with mice fed the LG diet alone. However, in all groups, the CSI was significantly higher than in mice fed Purina chow diet. The biliary anionic polypeptide fraction (APF) was significantly increased in mice fed the LG + 2% PC diet and was reduced in those fed with LG + 6% PC diet. In conclusion, prevention or delay of gallstone formation was not due to a consistent effect on biliary lipid composition, suggesting a direct effect of PC on cholesterol solubilization and/or the effect of an additional nonlipid biliary component such as APF.

Synergistic role of 3-hydroxy-3-methylglutaryl coenzyme A reductase and cholesterol 7alpha-hydroxylase in the pathogenesis of manganese-bilirubin-induced cholestasis in rats.

Manganese (Mn) and bilirubin (BR) induce intrahepatic cholestasis when injected sequentially. It was suggested that accumulation of newly synthesized cholesterol in the canalicular membrane is an initial step in the development of cholestasis. To clarify the involvement of cholesterol in the pathogenesis of Mn-BR-induced cholestasis, we examined biliary secretion and liver subcellular distribution of lipids in the cholestatic conditions (Mn-BR combination). We also examined hepatic metabolism of cholesterol under cholestatic and noncholestatic (Mn or BR given alone) conditions. The Mn-BR combination reduced bile flow by 50%, and bile acid, phospholipids, and cholesterol output by 42, 75, and 90%, respectively. There was a dramatic impairment of cholate excretion but not chenodeoxycholate excretion. Phosphatidylcholine species secreted into bile were unchanged, and microsomal total phospholipid content was significantly increased. Although there was no changes in liver membrane phospholipid content, the cholesterol/phospholipid ratio was increased by more than 50% in the canalicular fraction. Despite the increased concentration of cholesterol in canalicular membrane the activities of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, key enzyme in cholesterol synthesis, and cholesterol 7alpha-hydroxylase, key enzyme in cholesterol conversion to bile acids, were significantly reduced. However, the injection of Mn alone significantly increased both enzymes, while BR alone inhibited cholesterol 7alpha-hydroxylase by 62%, without affecting HMG-CoA reductase. In conclusion, the critical cholestatic events in Mn-Br-induced cholestasis appear to be mediated through the synergistic effects of Mn and BR acting on synthesis and degradation of cholesterol.

Urinary bile acid profile in children with inborn errors of bile acid metabolism and chronic cholestasis; screening technique using electrospray tandem mass-spectrometry (ES/MS/MS).

BACKGROUND: It is well known that urine becomes the major route for bile acid excretion in liver diseases and thus we examined bile acid profile in urine obtained from normal children and children having chronic liver diseases using electrospray tandem mass spectrometry (ES/MS/MS). MATERIAL/METHODS: Bile acid were extracted from 5 ml of urine obtained from five healthy children or from twenty patients with various liver diseases including patients with unknown chronic liver diseases, Zellweger syndrome, peroxisomal bifunctional protein deficiency disease, tyrosinema type 1, biliary atresia, and patients with progressive familial intrahepatic cholestasis (PFIC) of undetermined type. Identification and quantification of bile acids were achieved in 5 minutes using electrospray tandem mass spectrometry (ES/MS/MS). RESULTS: Urinary bile acid excretion increased in liver diseases an average of 100 times as compared to control values. There was a specific profile for different liver disease which confirms the pathology of the disease and could be used for its diagnosis. The results also show that the ions used for the diagnosis of oxo-steroid reductase deficiency disease were present in other chronic liver diseases suggesting that these atypical bile acids may not be a result of an inborn error of bile acid metabolism. CONCLUSIONS: The urinary bile acid profile obtained in this study by ES/MS/MS can be of use for the diagnosis of certain chronic liver diseases.

Appearance of atypical 3 alpha,6 beta,7 beta,12 alpha-tetrahydroxy-5 beta-cholan-24-oic acid in spgp knockout mice.

Bile formation and its canalicular secretion are essential functions of the mammalian liver. The sister-of-p-glycoprotein (spgp) gene was shown to encode the canalicular bile salt export protein, and mutations in spgp gene were identified as the cause of progressive familial intrahepatic cholestasis type 2. However, target inactivation of spgp gene in mice results in nonprogressive but persistent cholestasis and causes the secretion of unexpectedly large amounts of unknown tetrahydroxylated bile acid in the bile. The present study confirms the identity of this tetrahydroxylated bile acid as 3 alpha,6 beta,7 beta,12 alpha-tetrahydroxy-5 beta-cholan-24-oic acid. The data further show that in serum, liver, and urine of the spgp knockout mice, there is a significant increase in the concentration of total bile salts containing a large amount of tetrahydroxy-5 beta-cholan-24-oic acid. The increase in total bile acids was associated with up-regulation of the mRNA of cholesterol 7 alpha-hydroxylase in male mice only. It is suggested that the lower severity of the cholestasis in the spgp knockout mice may be due to the synthesis of 3 alpha,6 beta,7 beta,12 alpha-tetrahydroxy-5 beta-cholan-24-oic acid, which neutralizes in part the toxic effect of bile acids accumulated in the liver.

Biliary, fecal and plasma deoxycholic acid in rabbit, hamster, guinea pig, and rat: comparative study and implication in colon cancer.

Bile acids are believed to play a role in the etiology of colorectal cancer, and high fecal excretion of secondary bile acids was correlated with increased incidence of colon cancer. Recently, it was also reported that there is an increase in plasma of the secondary bile acid, deoxycholic acid in men with colorectal adenomas. Since deoxycholic acid is formed in the colon and absorbed into the portal systemic circulation, it was suggested that the blood concentration of this bile acid reflects the level of exposure of colonic cells to deoxycholic acid. The objective of this study was to investigate whether plasma deoxycholic acid level represents the fecal content of this bile acid in several animal species with different bile acid composition and deoxycholic acid contribution to the bile acid pool. Eight rabbits, hamsters, guinea pigs, and rats were used in this study. Blood samples and feces were collected on days 1, 3, 5 and 7. Bile samples were obtained only on day 7. The plasma, fecal and biliary bile acids were analyzed by gas chromatography-mass spectrometry. Bile acid composition and deoxycholic acid content varied greatly between the animal species studied. There was a variation in the concentration of total bile acids in the plasma and feces obtained at different times during the experiments, however, the bile acids profile remained constant throughout the study. The data obtained shows that although plasma bile acid profile was not similar to fecal bile acids profile, however, there was a significant correlation between the level of plasma and fecal deoxycholic acid. Plasma deoxycholic acid concentration might be a reliable biomarker for the degree of exposure of colon cells to this bile acid, and may be useful in further studies on the role of secondary bile acids in colon carcinogenesis.

Rapid and improved method for the determination of bile acids in human feces using MS.

A simple method for the determination of bile acids in adult human fecal samples using GC-MS is described. Bile acids are directly extracted from feces by ethanol (95%) containing 0.1 N NaOH. Extracts are purified by passage through a reversed-phase C18 silica cartridge and then analyzed by GC-MS. The present study has shown that lyophilized human feces contain mainly free bile acids, with lithocholic acid (LCA) and deoxycholic acid (DCA) as the major bile acids; however, isomers of LCA and DCA, keto-bile acids, and cholic acid are also present. Any traces of conjugated bile acids are hydrolyzed before the C18 extraction by deconjugating enzymes, which are present in feces and are activated by the addition of water during the homogenization step. Thus, the analysis of fecal bile acids can be performed without the hydrolysis step in less than 4 h in comparison to traditional techniques, which usually require at least 48 h.

Simultaneous evaluation of HMG-CoA reductase and cholesterol 7alpha-hydroxylase activities by electrospray tandem MS.

Simultaneous evaluation of HMG-CoA reductase and cholesterol 7alpha-hydroxylase activities by electrospray tandem mass spectrometry (ES-MS-MS) was performed. The assay was based on the measurement of mevalonolactone (MVL) and 7alpha-hydroxycholesterol (7alpha-OHC) produced by the incubation of HMG-CoA with hepatic microsomes in the presence of NADPH and glucose-6-phosphate dehydrogenase. Following extraction and purification using a cyanopropyl cartridge, MVL and 7alpha-OHC were analyzed, without derivatization, by ES-MS-MS. The analysis was achieved in 5 min. Calibration curves were made for MVL and 7alpha-OHC, and were linear from 0 to 100 microg. The recovery was >97%. The procedure was validated under similar calibration and recovery experiments, by measuring the above mentioned products as dimethylethylsilyl ether derivatives using the classical technique of GC-MS. Data obtained by ES-MS-MS and GC-MS showed a good correlation, with no significant differences. ES-MS-MS is a simple and reliable method for the evaluation of HMG-CoA reductase and cholesterol 7alpha-hydroxylase activities in liver microsomal preparations.