Toxicology studies of sodium bromate (CAS No. 7789-38-0) in genetically modified (FVB Tg.AC Hemizygous) mice (dermal and drinking water studies) and carcinogenicity studies of sodium bromate in genetically modified [B6.129-Trp53tm1Brd (N5) haploinsufficient] mice (drinking water studies).

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Sodium bromate was nominated for toxicity and carcinogenicity studies in transgenic mouse models by the United States Environmental Protection Agency and the National Institute of Environmental Health Sciences. Male and female Tg.AC hemizygous mice received sodium bromate by dermal application for 26 or 39 weeks and by exposure in drinking water for 27 or 43 weeks. Male and female p53 haploinsufficient mice were exposed to sodium bromate (at least 99% pure) in drinking water for 27 or 43 weeks. Genetic toxicology studies were conducted in mouse peripheral blood erythrocytes. 26- and 39-WEEK DERMAL STUDIES IN Tg.AC HEMIZYGOUS MICE: Groups of 15 male and 15 female Tg.AC hemizygous mice received dermal applications of 0, 64, 128, or 256 mg sodium bromate/kg body weight in ethanol/water, 5 days per week for 26 weeks. Additional groups of 10 male and 10 female Tg.AC hemizygous mice were dermally administered the same doses for 39 weeks. Survival of dosed groups was similar to that of vehicle control groups at 26 and 39 weeks. Mean body weights of 256 mg/kg males were less than those of the vehicle control group in both studies. Mean body weights of all dosed groups of females were less than those of the vehicle controls at 39 weeks. Minimal decreases in hematocrit and hemoglobin concentration values occurred in 128 mg/kg females and 256 mg/kg males and females at 26 weeks. A minimal decrease in erythrocyte count also occurred in 256 mg/kg males. These decreases in erythron were accompanied by a minimal decrease in mean cell hemoglobin and mean cell hemoglobin concentration values, primarily in the females. Reticulocyte counts were significantly increased in 128 mg/kg females and 256 mg/kg males and females. There were no increased incidences of neoplasms in male or female Tg.AC hemizygous mice exposed to sodium bromate dermally. Relative kidney weights were significantly increased in 256 mg/kg males at 26 weeks and in all dosed groups of males at 39 weeks. Absolute testis weights in 256 mg/kg males and absolute kidney weights in 256 mg/kg females were decreased at 39 weeks. Nephropathy occurred in 14 of 15 males receiving 128 and 256 mg/kg at 26 weeks and in all 256 mg/kg females in both studies. In the thyroid gland, the incidences of follicular cell hypertrophy in all dosed groups of males and females, follicular secretory depletion in 128 and 256 mg/kg females, and lymphocytic cellular infiltrate in 256 mg/kg females were significantly increased in both studies. Splenic hematopoietic cell proliferation occurred with a significantly increased incidence in 128 and 256 mg/kg females at 26 weeks. The incidence of germinal epithelium degeneration in the testis was significantly increased in 256 mg/kg males at 39 weeks. 27- AND 43-WEEK DRINKING WATER STUDIES IN Tg.AC HEMIZYGOUS MICE: Groups of 15 male and 15 female Tg.AC hemizygous mice were exposed to drinking water containing 0, 80, 400, or 800 mg/L sodium bromate for 27 weeks (equivalent to average daily doses of approximately 13, 63, and 129 mg/kg to male mice and 15, 72, and 148 mg/kg to female mice). Additional groups of 10 male and 10 female Tg.AC hemizygous mice were exposed to drinking water containing 0, 80, 400, or 800 mg/L sodium bromate for 43 weeks (equivalent to average daily doses of approximately 11, 52, and 131 mg/kg to male mice and 15, 65, and 152 mg/kg to female mice). Survival of exposed groups was similar to that of control groups at 27 weeks. Survival was decreased in 400 mg/L females and 800 mg/L males and females at 43 weeks. Mean body weights of 400 mg/L males and 800 mg/L males and females were less than those of the control groups in both studies. Water consumption by exposed mice was generally similar to that by control groups throughout both studies. Minimal decreases in hematocrit, hemoglobin concentration, and erythrocyte count values occurred primarily in 400 and 800 mg/kg females at 27 weeks. There were also decreases in mean cell hemoglobin and mean cell hemoglobin concentration values, but these occurred primarily in treated males. Reticulocyte counts were increased in 400 mg/kg males and 800 mg/kg males and females. There were no increased incidences of neoplasms in male or female Tg.AC hemizygous mice exposed to sodium bromate in the drinking water. Absolute kidney weights were significantly decreased in 800 mg/L females and relative kidney weights were increased in 400 and 800 mg/L males at 27 weeks. Absolute testis weights were significantly decreased in 800 mg/L males at 43 weeks. Thyroid gland follicular cell hypertrophy and follicular secretory depletion occurred in most 400 and 800 mg/L males and females at 27 weeks and in most exposed females at 43 weeks, and the incidences of thyroid gland follicular cell hypertrophy were significantly increased in all exposed groups of males at 43 weeks. The incidences of thyroid gland lymphocytic cellular infiltrates were significantly increased in 400 and 800 mg/L females in both studies and in 800 mg/L males at 43 weeks. The incidences of nephropathy were significantly increased in all exposed groups of males and in 400 and 800 mg/L females at 27 weeks. Renal tubule degeneration occurred with significantly increased incidences in 800 mg/L males and females in both studies. The incidences of renal tubule hypertrophy were significantly increased in 400 and 800 mg/L females at 27 weeks and in 800 mg/L males and females at 43 weeks. Pituitary gland pars distalis hypertrophy occurred with a significantly increased incidence in 800 mg/L females in both studies. The incidence of hyperkeratosis of the forestomach epithelium was significantly increased in 800 mg/L females at 43 weeks. The incidences of tubular degeneration of the epididymis and germinal epithelium degeneration of the testis were significantly increased in 800 mg/L males at 43 weeks. 27- AND 43-WEEK DRINKING WATER STUDIES IN p53 HAPLOINSURFFICIENT MICE: Groups of 15 male and 15 female p53 haploinsufficient mice were exposed to drinking water containing 0, 80, 400, or 800 mg/L sodium bromate for 27 weeks (equivalent to average daily doses of approximately 8, 39, and 74 mg/kg to males and 13, 72, and 136 mg/kg to females). Additional groups of 10 male and 10 female p53 haploinsufficient mice were exposed to drinking water containing 0, 80, 400, or 800 mg/L sodium bromate for 43 weeks (equivalent to average daily doses of approximately 7, 37, and 65 mg/kg to males and 11, 58, and 107 mg/kg to females). In both studies, survival of exposed groups was similar to that of control groups. Mean body weights of 400 and 800 mg/L females were less than those of the control groups during most of the studies. Water consumption by exposed mice was generally similar to that by control groups in both studies. No neoplasms or nonneoplastic lesions in male or female p53 haploinsufficient mice were attributed to exposure to sodium bromate in either study.</p><p><strong>Genetic toxicology: </strong>Sodium bromate exposure resulted in significantly increased frequencies of micronucleated erythrocytes in male and female Tg.AC hemizygous and p53 haploinsufficient mice administered the chemical in drinking water for 27 weeks or by dermal application for 26 weeks. Tg.AC hemizygous mice were treated by both routes; p53 haploinsufficient mice were exposed only through drinking water. In all three micronucleus tests, a clear dose response was observed in male and female mice. Significant increases in the percentage of polychromatic erythrocytes among total erythrocytes were observed in male and female Tg.AC hemizygous mice exposed via drinking water and in male Tg.AC hemizygous mice dosed dermally with sodium bromate. The percentage of polychromatic erythrocytes was not significantly altered in male or female p53 mice.</p><p><strong>Conclusions: </strong>Under the conditions of these drinking water studies, there was no evidence of carcinogenic activity of sodium bromate in male or female p53 haploinsufficient mice exposed to 80, 400, or 800 mg/L for 27 or 43 weeks. No treatment-related neoplasms were seen in male or female Tg.AC hemizygous mice exposed dermally to 64, 128, or 256 mg sodium bromate/kg body weight for 26 or 39 weeks. No treatment-related neoplasms were seen in male or female Tg.AC hemizygous mice exposed by drinking water to 80, 400, or 800 mg sodium bromate/L for 27 or 43 weeks. In drinking water and dermal studies in Tg.AC hemizygous mice there were increased incidences of nonneoplastic lesions in the thyroid gland and kidney.</p>","PeriodicalId":18898,"journal":{"name":"National Toxicology Program genetically modified model report","volume":" 6","pages":"1-169"},"PeriodicalIF":0.0000,"publicationDate":"2007-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"National Toxicology Program genetically modified model report","FirstCategoryId":"1085","ListUrlMain":"","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0

Abstract

Unlabelled: Bromate is a drinking water disinfection by-product formed during the ozonation of source water containing bromide. Sodium bromate is also used as an analytical reagent, in the oxidation of sulfur and vat dyes, and for cleaning boilers. As a mixture with sodium bromide, it is used for dissolving gold from its ores. The cosmetic industry uses sodium bromate and potassium bromate as neutralizers or oxidizers in hair wave preparations. Sodium bromate was nominated for toxicity and carcinogenicity studies in transgenic mouse models by the United States Environmental Protection Agency and the National Institute of Environmental Health Sciences. Male and female Tg.AC hemizygous mice received sodium bromate by dermal application for 26 or 39 weeks and by exposure in drinking water for 27 or 43 weeks. Male and female p53 haploinsufficient mice were exposed to sodium bromate (at least 99% pure) in drinking water for 27 or 43 weeks. Genetic toxicology studies were conducted in mouse peripheral blood erythrocytes. 26- and 39-WEEK DERMAL STUDIES IN Tg.AC HEMIZYGOUS MICE: Groups of 15 male and 15 female Tg.AC hemizygous mice received dermal applications of 0, 64, 128, or 256 mg sodium bromate/kg body weight in ethanol/water, 5 days per week for 26 weeks. Additional groups of 10 male and 10 female Tg.AC hemizygous mice were dermally administered the same doses for 39 weeks. Survival of dosed groups was similar to that of vehicle control groups at 26 and 39 weeks. Mean body weights of 256 mg/kg males were less than those of the vehicle control group in both studies. Mean body weights of all dosed groups of females were less than those of the vehicle controls at 39 weeks. Minimal decreases in hematocrit and hemoglobin concentration values occurred in 128 mg/kg females and 256 mg/kg males and females at 26 weeks. A minimal decrease in erythrocyte count also occurred in 256 mg/kg males. These decreases in erythron were accompanied by a minimal decrease in mean cell hemoglobin and mean cell hemoglobin concentration values, primarily in the females. Reticulocyte counts were significantly increased in 128 mg/kg females and 256 mg/kg males and females. There were no increased incidences of neoplasms in male or female Tg.AC hemizygous mice exposed to sodium bromate dermally. Relative kidney weights were significantly increased in 256 mg/kg males at 26 weeks and in all dosed groups of males at 39 weeks. Absolute testis weights in 256 mg/kg males and absolute kidney weights in 256 mg/kg females were decreased at 39 weeks. Nephropathy occurred in 14 of 15 males receiving 128 and 256 mg/kg at 26 weeks and in all 256 mg/kg females in both studies. In the thyroid gland, the incidences of follicular cell hypertrophy in all dosed groups of males and females, follicular secretory depletion in 128 and 256 mg/kg females, and lymphocytic cellular infiltrate in 256 mg/kg females were significantly increased in both studies. Splenic hematopoietic cell proliferation occurred with a significantly increased incidence in 128 and 256 mg/kg females at 26 weeks. The incidence of germinal epithelium degeneration in the testis was significantly increased in 256 mg/kg males at 39 weeks. 27- AND 43-WEEK DRINKING WATER STUDIES IN Tg.AC HEMIZYGOUS MICE: Groups of 15 male and 15 female Tg.AC hemizygous mice were exposed to drinking water containing 0, 80, 400, or 800 mg/L sodium bromate for 27 weeks (equivalent to average daily doses of approximately 13, 63, and 129 mg/kg to male mice and 15, 72, and 148 mg/kg to female mice). Additional groups of 10 male and 10 female Tg.AC hemizygous mice were exposed to drinking water containing 0, 80, 400, or 800 mg/L sodium bromate for 43 weeks (equivalent to average daily doses of approximately 11, 52, and 131 mg/kg to male mice and 15, 65, and 152 mg/kg to female mice). Survival of exposed groups was similar to that of control groups at 27 weeks. Survival was decreased in 400 mg/L females and 800 mg/L males and females at 43 weeks. Mean body weights of 400 mg/L males and 800 mg/L males and females were less than those of the control groups in both studies. Water consumption by exposed mice was generally similar to that by control groups throughout both studies. Minimal decreases in hematocrit, hemoglobin concentration, and erythrocyte count values occurred primarily in 400 and 800 mg/kg females at 27 weeks. There were also decreases in mean cell hemoglobin and mean cell hemoglobin concentration values, but these occurred primarily in treated males. Reticulocyte counts were increased in 400 mg/kg males and 800 mg/kg males and females. There were no increased incidences of neoplasms in male or female Tg.AC hemizygous mice exposed to sodium bromate in the drinking water. Absolute kidney weights were significantly decreased in 800 mg/L females and relative kidney weights were increased in 400 and 800 mg/L males at 27 weeks. Absolute testis weights were significantly decreased in 800 mg/L males at 43 weeks. Thyroid gland follicular cell hypertrophy and follicular secretory depletion occurred in most 400 and 800 mg/L males and females at 27 weeks and in most exposed females at 43 weeks, and the incidences of thyroid gland follicular cell hypertrophy were significantly increased in all exposed groups of males at 43 weeks. The incidences of thyroid gland lymphocytic cellular infiltrates were significantly increased in 400 and 800 mg/L females in both studies and in 800 mg/L males at 43 weeks. The incidences of nephropathy were significantly increased in all exposed groups of males and in 400 and 800 mg/L females at 27 weeks. Renal tubule degeneration occurred with significantly increased incidences in 800 mg/L males and females in both studies. The incidences of renal tubule hypertrophy were significantly increased in 400 and 800 mg/L females at 27 weeks and in 800 mg/L males and females at 43 weeks. Pituitary gland pars distalis hypertrophy occurred with a significantly increased incidence in 800 mg/L females in both studies. The incidence of hyperkeratosis of the forestomach epithelium was significantly increased in 800 mg/L females at 43 weeks. The incidences of tubular degeneration of the epididymis and germinal epithelium degeneration of the testis were significantly increased in 800 mg/L males at 43 weeks. 27- AND 43-WEEK DRINKING WATER STUDIES IN p53 HAPLOINSURFFICIENT MICE: Groups of 15 male and 15 female p53 haploinsufficient mice were exposed to drinking water containing 0, 80, 400, or 800 mg/L sodium bromate for 27 weeks (equivalent to average daily doses of approximately 8, 39, and 74 mg/kg to males and 13, 72, and 136 mg/kg to females). Additional groups of 10 male and 10 female p53 haploinsufficient mice were exposed to drinking water containing 0, 80, 400, or 800 mg/L sodium bromate for 43 weeks (equivalent to average daily doses of approximately 7, 37, and 65 mg/kg to males and 11, 58, and 107 mg/kg to females). In both studies, survival of exposed groups was similar to that of control groups. Mean body weights of 400 and 800 mg/L females were less than those of the control groups during most of the studies. Water consumption by exposed mice was generally similar to that by control groups in both studies. No neoplasms or nonneoplastic lesions in male or female p53 haploinsufficient mice were attributed to exposure to sodium bromate in either study.

Genetic toxicology: Sodium bromate exposure resulted in significantly increased frequencies of micronucleated erythrocytes in male and female Tg.AC hemizygous and p53 haploinsufficient mice administered the chemical in drinking water for 27 weeks or by dermal application for 26 weeks. Tg.AC hemizygous mice were treated by both routes; p53 haploinsufficient mice were exposed only through drinking water. In all three micronucleus tests, a clear dose response was observed in male and female mice. Significant increases in the percentage of polychromatic erythrocytes among total erythrocytes were observed in male and female Tg.AC hemizygous mice exposed via drinking water and in male Tg.AC hemizygous mice dosed dermally with sodium bromate. The percentage of polychromatic erythrocytes was not significantly altered in male or female p53 mice.

Conclusions: Under the conditions of these drinking water studies, there was no evidence of carcinogenic activity of sodium bromate in male or female p53 haploinsufficient mice exposed to 80, 400, or 800 mg/L for 27 or 43 weeks. No treatment-related neoplasms were seen in male or female Tg.AC hemizygous mice exposed dermally to 64, 128, or 256 mg sodium bromate/kg body weight for 26 or 39 weeks. No treatment-related neoplasms were seen in male or female Tg.AC hemizygous mice exposed by drinking water to 80, 400, or 800 mg sodium bromate/L for 27 or 43 weeks. In drinking water and dermal studies in Tg.AC hemizygous mice there were increased incidences of nonneoplastic lesions in the thyroid gland and kidney.

溴酸钠(CAS No. 7789-38-0)在转基因(FVB Tg.)中的毒理学研究。AC半合子小鼠(皮肤和饮用水研究)和溴酸钠在转基因[B6.129-Trp53tm1Brd (N5)单倍不足]小鼠(饮用水研究)中的致癌性研究。
未标示:溴酸盐是在含溴化物的水源臭氧化过程中形成的饮用水消毒副产物。溴酸钠也用作分析试剂,用于硫和还原染料的氧化,以及用于锅炉的清洗。作为与溴化钠的混合物,它被用来从矿石中溶解金。化妆品工业使用溴酸钠和溴酸钾作为发波制剂中的中和剂或氧化剂。溴酸钠被美国环境保护局和国家环境健康科学研究所提名用于转基因小鼠模型的毒性和致癌性研究。男、女Tg。AC半合子小鼠经皮肤施用溴酸钠26或39周,饮水暴露27或43周。雄性和雌性p53单倍体缺乏小鼠暴露于饮用水中的溴酸钠(纯度至少为99%)27周或43周。对小鼠外周血红细胞进行了遗传毒理学研究。Tg的26周和39周皮肤研究。AC半合子小鼠:雄性15只,雌性15只。给AC半合子小鼠皮肤施加0、64、128或256 mg /kg体重的溴酸钠乙醇/水,每周5天,连续26周。另外每组10只公Tg和10只母Tg。AC半合子小鼠皮肤给予相同剂量,持续39周。26周和39周时,给药组的生存期与载体对照组相似。在两项研究中,256 mg/kg雄性小鼠的平均体重均低于车辆对照组。在39周时,所有给药组的平均体重都低于对照组。在26周时,128 mg/kg的女性和256 mg/kg的男性和女性的红细胞压积和血红蛋白浓度值出现了最小的下降。256 mg/kg的男性红细胞计数也有轻微下降。红细胞的减少伴随着平均细胞血红蛋白和平均细胞血红蛋白浓度值的轻微下降,主要发生在女性身上。雌性128 mg/kg和雄性和雌性256 mg/kg时网织红细胞计数显著增加。男性和女性Tg的肿瘤发生率均未增加。皮肤暴露于溴酸钠的AC半合子小鼠。256 mg/kg雄性在26周时相对肾脏重量显著增加,所有给药组在39周时均显著增加。256 mg/kg的雄性绝对睾丸重量和256 mg/kg的雌性绝对肾脏重量在39周时下降。在这两项研究中,在26周时接受128和256 mg/kg治疗的15名男性中有14名发生肾病,所有256 mg/kg的女性均发生肾病。在甲状腺中,两项研究中,所有给药组男性和女性的滤泡细胞肥大、128和256 mg/kg女性的滤泡分泌耗损以及256 mg/kg女性的淋巴细胞浸润的发生率均显著增加。在26周时,128和256 mg/kg的雌性小鼠脾脏造血细胞增殖发生率显著增加。256 mg/kg的男性睾丸生殖上皮变性发生率在39周时显著增加。27周和43周的饮用水研究。AC半合子小鼠:雄性15只,雌性15只。将AC半合子小鼠暴露于含有0、80、400或800 mg/L溴酸钠的饮用水中27周(相当于雄性小鼠的平均日剂量约为13、63和129 mg/kg,雌性小鼠的平均日剂量为15、72和148 mg/kg)。另外每组10只公Tg和10只母Tg。将AC半合子小鼠暴露于含有0、80、400或800 mg/L溴酸钠的饮用水中43周(相当于雄性小鼠的平均日剂量约为11、52和131 mg/kg,雌性小鼠的平均日剂量为15、65和152 mg/kg)。暴露组27周存活率与对照组相近。在43周时,400 mg/L的雌性和800 mg/L的雄性和雌性的存活率下降。在两项研究中,400 mg/L男性和800 mg/L男性和女性的平均体重都低于对照组。在两项研究中,暴露小鼠的饮水量与对照组大致相似。最小的红细胞压积、血红蛋白浓度和红细胞计数值的下降主要发生在27周时400和800 mg/kg的女性。平均细胞血红蛋白和平均细胞血红蛋白浓度值也有所下降,但这主要发生在接受治疗的男性身上。400 mg/kg雄性和800 mg/kg雄性和雌性网织红细胞计数增加。男性和女性Tg的肿瘤发生率均未增加。接触饮用水中溴酸钠的AC半合子小鼠。在27周时,800 mg/L剂量组雌鼠绝对肾重显著降低,400和800 mg/L剂量组雄鼠相对肾重显著升高。800 mg/L的雄性在43周时睾丸绝对重量显著降低。 大多数400和800 mg/L的雄性和雌性在27周和大多数暴露于43周的雌性中都出现了甲状腺滤泡细胞肥大和滤泡分泌物耗竭,并且在43周时,所有暴露组的雄性甲状腺滤泡细胞肥大的发生率都显著增加。在这两项研究中,400和800 mg/L的女性以及800 mg/L的男性在43周时甲状腺淋巴细胞浸润的发生率显著增加。所有暴露组的男性以及400和800 mg/L的女性在27周时肾病的发生率显著增加。在两项研究中,800mg /L的男性和女性的肾小管变性发生率显著增加。400和800 mg/L雌鼠27周时肾小管肥大的发生率显著增加,800 mg/L雌鼠43周时肾小管肥大的发生率显著增加。在两项研究中,800 mg/L的女性垂体远端部肥大的发生率显著增加。剂量为800 mg/L的雌性小鼠在43周时前胃上皮角化过度的发生率显著增加。睾酮浓度为800 mg/L的雄性在43周时,附睾小管变性和睾丸生殖上皮变性的发生率显著增加。在p53单倍缺乏小鼠中进行27周和43周的饮用水研究:每组15只雄性和15只雌性p53单倍缺乏小鼠暴露于含有0、80、400或800 mg/L溴酸钠的饮用水中27周(相当于雄性平均日剂量约为8、39和74 mg/kg,雌性平均日剂量为13、72和136 mg/kg)。另外,每组10只雄性和10只雌性p53单倍体缺陷小鼠暴露于含有0、80、400或800 mg/L溴酸钠的饮用水中43周(相当于雄性平均日剂量约为7、37和65 mg/kg,雌性平均日剂量约为11、58和107 mg/kg)。在这两项研究中,暴露组的存活率与对照组相似。在大多数研究中,400和800 mg/L女性的平均体重低于对照组。在两项研究中,暴露的小鼠的饮水量与对照组大致相似。在两项研究中,雄性或雌性p53单倍体不足小鼠均未发现与溴酸钠暴露有关的肿瘤或非肿瘤性病变。遗传毒理学:溴酸钠暴露导致男性和女性Tg微核红细胞频率显著增加。AC半合子和p53单倍体不足的小鼠在饮用水中给予27周或皮肤应用26周。Tg。AC半合子小鼠经两种途径处理;P53单倍体不足小鼠仅通过饮水暴露。在所有三次微核试验中,在雄性和雌性小鼠中观察到明显的剂量反应。在男性和女性Tg中观察到红细胞中多染红细胞的百分比显著增加。经饮水接触的AC半合子小鼠和雄性Tg。AC半合子小鼠皮下注射溴酸钠。在雄性和雌性p53小鼠中,多染红细胞的百分比没有显著改变。结论:在这些饮用水研究的条件下,没有证据表明溴酸钠在暴露于80,400或800 mg/L 27或43周的雄性或雌性p53单倍体不足小鼠中具有致癌活性。男女Tg均未见治疗相关肿瘤。AC半合子小鼠皮肤暴露于64、128或256 mg /kg体重的溴酸钠26或39周。男女Tg均未见治疗相关肿瘤。AC半合子小鼠在饮用水中暴露于80,400或800 mg /L的溴酸钠27或43周。在饮用水和皮肤研究中的Tg。AC半合子小鼠甲状腺和肾脏非肿瘤性病变发生率增加。
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