Marc Ghannoum, Paula J Waters, Knut Erik Hovda, Gabrielle Choquette, Katja Benedikte Prestø Elgstøen, Ilah Nygaard, Helge Rootwelt, Dean Hickey, Mazyar Yazdani, Danielle K Bourque
{"title":"人类会产生内源性乙二醇吗?对成年单卵双胞胎姐妹的详细调查。","authors":"Marc Ghannoum, Paula J Waters, Knut Erik Hovda, Gabrielle Choquette, Katja Benedikte Prestø Elgstøen, Ilah Nygaard, Helge Rootwelt, Dean Hickey, Mazyar Yazdani, Danielle K Bourque","doi":"10.1080/15563650.2024.2401076","DOIUrl":null,"url":null,"abstract":"<p><strong>Introduction: </strong>To the best of our knowledge, clinically significant endogenous ethylene glycol production has never been reported in humans, very seldom reported in other animals or microorganisms, and then only under rare and specific conditions. We describe the detailed investigations we undertook in two adult monozygotic twin sisters to ascertain whether they were producing endogenous ethylene glycol.</p><p><strong>Methods: </strong>Two previously healthy monozygotic adult twin sisters presented with recurrent episodes of apparent ethylene glycol poisoning beginning at age 35, requiring chronic hemodialysis to remove ethylene glycol and its metabolites as well as to restore metabolic homeostasis. The sisters denied ingestion or exposure to ethylene glycol. At their request, they were admitted to hospital under strict supervision to exclude surreptitious ingestion of ethylene glycol and to evaluate the need for treatment. Hemodialysis was withheld during this prospective study. Twin A was admitted for 14 days and twin B for 11 days. Serial biochemical analyses were performed in blood and urine. Clinical exome sequencing and mitochondrial deoxyribonucleic acid sequencing were also completed.</p><p><strong>Results: </strong>In both twins, ethylene glycol was detected in urine, along with intermittent increases in concentrations of lactate, glycolate, and glycine in blood and/or urine. Blood ethylene glycol concentrations, however, remained <62 mg/L (<1 mmol/L) but became positive soon after discharge. The oxalate concentration remained normal in blood and urine. Plasma and urine amino acid profiles showed intermittent small increases in glycine, serine, taurine, proline, and/or alanine concentrations. Exome sequencing and mitochondrial deoxyribonucleic acid sequencing were non-diagnostic. Neither twin has been admitted with metabolic acidosis nor ethylene glycol poisoning since chronic hemodialysis was started. Twin A developed a calcium oxalate dihydrate lithiasis.</p><p><strong>Discussion: </strong>Mitochondrial disease, methylmalonic/propionic/isovaleric aciduria, primary hyperoxaluria, and analyte error were all excluded in these twins, as were obvious common environmental exposures.</p><p><strong>Conclusion: </strong>Detailed investigations were performed in adult monozygotic twin sisters to ascertain whether they were producing endogenous ethylene glycol. Alternative explanations were excluded to the very best of our efforts and knowledge. Global metabolomics, gut microbiome analyses, and whole genome sequencing are pending.</p>","PeriodicalId":10430,"journal":{"name":"Clinical Toxicology","volume":" ","pages":"698-706"},"PeriodicalIF":3.0000,"publicationDate":"2024-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Can endogenous ethylene glycol production occur in humans? 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We describe the detailed investigations we undertook in two adult monozygotic twin sisters to ascertain whether they were producing endogenous ethylene glycol.</p><p><strong>Methods: </strong>Two previously healthy monozygotic adult twin sisters presented with recurrent episodes of apparent ethylene glycol poisoning beginning at age 35, requiring chronic hemodialysis to remove ethylene glycol and its metabolites as well as to restore metabolic homeostasis. The sisters denied ingestion or exposure to ethylene glycol. At their request, they were admitted to hospital under strict supervision to exclude surreptitious ingestion of ethylene glycol and to evaluate the need for treatment. Hemodialysis was withheld during this prospective study. Twin A was admitted for 14 days and twin B for 11 days. Serial biochemical analyses were performed in blood and urine. Clinical exome sequencing and mitochondrial deoxyribonucleic acid sequencing were also completed.</p><p><strong>Results: </strong>In both twins, ethylene glycol was detected in urine, along with intermittent increases in concentrations of lactate, glycolate, and glycine in blood and/or urine. Blood ethylene glycol concentrations, however, remained <62 mg/L (<1 mmol/L) but became positive soon after discharge. The oxalate concentration remained normal in blood and urine. Plasma and urine amino acid profiles showed intermittent small increases in glycine, serine, taurine, proline, and/or alanine concentrations. Exome sequencing and mitochondrial deoxyribonucleic acid sequencing were non-diagnostic. Neither twin has been admitted with metabolic acidosis nor ethylene glycol poisoning since chronic hemodialysis was started. Twin A developed a calcium oxalate dihydrate lithiasis.</p><p><strong>Discussion: </strong>Mitochondrial disease, methylmalonic/propionic/isovaleric aciduria, primary hyperoxaluria, and analyte error were all excluded in these twins, as were obvious common environmental exposures.</p><p><strong>Conclusion: </strong>Detailed investigations were performed in adult monozygotic twin sisters to ascertain whether they were producing endogenous ethylene glycol. Alternative explanations were excluded to the very best of our efforts and knowledge. 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引用次数: 0
摘要
导言:据我们所知,临床上从未报道过人类会产生明显的内源性乙二醇,在其他动物或微生物中也鲜有报道,而且都是在罕见的特定条件下。我们描述了对两对成年单卵双胞胎姐妹进行的详细调查,以确定她们是否产生了内源性乙二醇:两对先前健康的单卵成年双胞胎姐妹从 35 岁开始反复出现明显的乙二醇中毒症状,需要进行慢性血液透析来清除乙二醇及其代谢物并恢复代谢平衡。姐妹俩否认摄入或接触过乙二醇。在她们的要求下,医院对她们进行了严格的监护,以排除偷偷摄入乙二醇的可能性,并评估治疗的必要性。在这项前瞻性研究期间,暂不进行血液透析。双胞胎 A 住院 14 天,双胞胎 B 住院 11 天。对血液和尿液进行了连续的生化分析。此外,还完成了临床外显子组测序和线粒体脱氧核糖核酸测序:结果:两对双胞胎的尿液中均检测到乙二醇,同时血液和/或尿液中的乳酸、乙醇酸和甘氨酸浓度间歇性增加。然而,血液中的乙二醇浓度仍处于讨论阶段:这对双胞胎均排除了线粒体疾病、甲基丙二酸/丙酸/异戊酸尿症、原发性高草酸尿症和分析误差,也排除了明显的常见环境暴露:对这对成年单卵双胞胎姐妹进行了详细调查,以确定她们是否产生了内源性乙二醇。我们尽最大努力和所知排除了其他解释。全球代谢组学、肠道微生物组分析和全基因组测序尚未完成。
Can endogenous ethylene glycol production occur in humans? A detailed investigation of adult monozygotic twin sisters.
Introduction: To the best of our knowledge, clinically significant endogenous ethylene glycol production has never been reported in humans, very seldom reported in other animals or microorganisms, and then only under rare and specific conditions. We describe the detailed investigations we undertook in two adult monozygotic twin sisters to ascertain whether they were producing endogenous ethylene glycol.
Methods: Two previously healthy monozygotic adult twin sisters presented with recurrent episodes of apparent ethylene glycol poisoning beginning at age 35, requiring chronic hemodialysis to remove ethylene glycol and its metabolites as well as to restore metabolic homeostasis. The sisters denied ingestion or exposure to ethylene glycol. At their request, they were admitted to hospital under strict supervision to exclude surreptitious ingestion of ethylene glycol and to evaluate the need for treatment. Hemodialysis was withheld during this prospective study. Twin A was admitted for 14 days and twin B for 11 days. Serial biochemical analyses were performed in blood and urine. Clinical exome sequencing and mitochondrial deoxyribonucleic acid sequencing were also completed.
Results: In both twins, ethylene glycol was detected in urine, along with intermittent increases in concentrations of lactate, glycolate, and glycine in blood and/or urine. Blood ethylene glycol concentrations, however, remained <62 mg/L (<1 mmol/L) but became positive soon after discharge. The oxalate concentration remained normal in blood and urine. Plasma and urine amino acid profiles showed intermittent small increases in glycine, serine, taurine, proline, and/or alanine concentrations. Exome sequencing and mitochondrial deoxyribonucleic acid sequencing were non-diagnostic. Neither twin has been admitted with metabolic acidosis nor ethylene glycol poisoning since chronic hemodialysis was started. Twin A developed a calcium oxalate dihydrate lithiasis.
Discussion: Mitochondrial disease, methylmalonic/propionic/isovaleric aciduria, primary hyperoxaluria, and analyte error were all excluded in these twins, as were obvious common environmental exposures.
Conclusion: Detailed investigations were performed in adult monozygotic twin sisters to ascertain whether they were producing endogenous ethylene glycol. Alternative explanations were excluded to the very best of our efforts and knowledge. Global metabolomics, gut microbiome analyses, and whole genome sequencing are pending.
期刊介绍:
clinical Toxicology publishes peer-reviewed scientific research and clinical advances in clinical toxicology. The journal reflects the professional concerns and best scientific judgment of its sponsors, the American Academy of Clinical Toxicology, the European Association of Poisons Centres and Clinical Toxicologists, the American Association of Poison Control Centers and the Asia Pacific Association of Medical Toxicology and, as such, is the leading international journal in the specialty.