The liver is the front line organ of the immune system.The liver contains the largest collection of phagocytic cells in the body that detect both pathogens that enter through the gut and endogenously produced antigens...The liver is the front line organ of the immune system.The liver contains the largest collection of phagocytic cells in the body that detect both pathogens that enter through the gut and endogenously produced antigens.This is possible by the highly developed differentiation capacity of the liver immune system between self-antigens or non-self-antigens,such as food antigens or pathogens.As an immune active organ,the liver functions as a gatekeeping barrier from the outside world,and it can create a rapid and strong immune response,under unfavorable conditions.However,the liver's assumed immune status is anti-inflammatory or immuno-tolerant.Dynamic interactions between the numerous populations of immune cells in the liver are key for maintaining the delicate balance between immune screening and immune tolerance.The anatomical structure of the liver can facilitate the preparation of lymphocytes,modulate the immune response against hepatotropic pathogens,and contribute to some of its unique immunological properties,particularly its capacity to induce antigen-specific tolerance.Since liver sinusoidal endothelial cell is fenestrated and lacks a basement membrane,circulating lymphocytes can closely contact with antigens,displayed by endothelial cells,Kupffer cells,and dendritic cells while passing through the sinusoids.Loss of immune tolerance,leading to an autoaggressive immune response in the liver,if not controlled,can lead to the induction of autoimmune or autoinflammatory diseases.This review mentions the unique features of liver immunity,and dysregulated immune responses in patients with autoimmune liver diseases who have a close association with inborn errors of immunity have also been the emphases.展开更多
Inborn errors of metabolism are identified in 5%-26% of infants and children with cardiomyopathy. Although fatty acid oxidation disorders, lysosomal and glycogen storage disorders and organic acidurias are well-known ...Inborn errors of metabolism are identified in 5%-26% of infants and children with cardiomyopathy. Although fatty acid oxidation disorders, lysosomal and glycogen storage disorders and organic acidurias are well-known to be associated with cardiomyopathies, emerging reports suggest that mitochondrial dysfunction and congenital disorders of glycosylation may also account for a proportion of cardiomyopathies. This review article clarifies when primary care physicians and cardiologists should suspect inborn errors of metabolism in a patient with cardiomyopathy, and refer the patient to a metabolic specialist for a further metabolic work up, with specific discussions of "red flags" which should prompt additional evaluation.展开更多
Inborn errors of metabolism(IEMs) are a large group of inherited disorders characterized by disruption of metabolic pathways due to deficient enzymes, cofactors, or transporters. The rapid advances in the understand...Inborn errors of metabolism(IEMs) are a large group of inherited disorders characterized by disruption of metabolic pathways due to deficient enzymes, cofactors, or transporters. The rapid advances in the understanding of the molecular pathophysiology of many IEMs, have led to significant progress in the development of many new treatments. The institution and continued expansion of newborn screening provide the opportunity for early treatment, leading to reduced morbidity and mortality. This review provides an overview of the diverse therapeutic approaches and recent advances in the treatment of IEMs that focus on the basic principles of reducing substrate accumulation, replacing or enhancing absent or reduced enzyme or cofactor, and supplementing product deficiency. In addition, the challenges and obstacles of current treatment modalities and future treatment perspectives are reviewed and discussed.展开更多
BACKGROUND Inborn error of bile acid synthesis type 4 is a peroxisomal disease with impaired bile acid synthesis caused by a-methylacyl-CoA racemase(AMACR)gene mutation.The disease is usually found in children with mi...BACKGROUND Inborn error of bile acid synthesis type 4 is a peroxisomal disease with impaired bile acid synthesis caused by a-methylacyl-CoA racemase(AMACR)gene mutation.The disease is usually found in children with mild to severe liver disease,cholestasis and poor fat-soluble vitamin absorption.At present,there is no report of inborn errors of bile acid synthesis type 4 in adults with liver disease and poor fat-soluble vitamin absorption.CASE SUMMARY A 71-year-old man was hospitalized in our department for recurrent liver dysfunction.The clinical manifestations were chronic liver disease and yellow skin and sclera.Serum transaminase,bilirubin and bile acid were abnormally increased;and fat-soluble vitamins decreased.Liver cirrhosis and ascites were diagnosed by computed tomography.The patient had poor coagulation function and ascites and did not undergo liver puncture.Genetic testing showed AMACR gene missense mutation.The patient was diagnosed with inborn error of bile acid synthesis type 4.He was treated with ursodeoxycholic acid,liver protection and vitamin supplementation,and jaundice of the skin and sclera was reduced.The indicators of liver function and the quality of life were significantly improved.CONCLUSION When adults have recurrent liver function abnormalities,physicians should be alert to genetic diseases and provide timely treatment.展开更多
Inborn errors of metabolism (IEM) include a broad spectrum of defects of various gene products that affect interme-diary metabolism in the body. Studying the molecular and biochemical mechanisms of those inherited dis...Inborn errors of metabolism (IEM) include a broad spectrum of defects of various gene products that affect interme-diary metabolism in the body. Studying the molecular and biochemical mechanisms of those inherited disorder, systematically summarizing the disease phenotype and natural history, providing diagnostic rationale and methodology and treatment strategy comprise the context of human biochemical genetics. This session focused on: (1) manifestations of representative metabolic disorders; (2) the emergent technology and application of newborn screening of metabolic disorders using tandem mass spec-trometry; (3) principles of managing IEM; (4) the concept of carrier testing aiming prevention. Early detection of patients with IEM allows early intervention and more options for treatment.展开更多
BACKGROUND Type B lactic acidosis and hypoglycemia can occur in various pediatric conditions.In young children with a history of fasting preceding these metabolic derangements,inborn errors of metabolism should be pri...BACKGROUND Type B lactic acidosis and hypoglycemia can occur in various pediatric conditions.In young children with a history of fasting preceding these metabolic derangements,inborn errors of metabolism should be primarily considered.However,the Warburg effect,a rare metabolic complication,can also manifest in children with hematologic malignancies.Only a few reports of this condition in children have been published in the literature.AIM To identify the clinical course,treatment strategies,and outcomes of childhood hematologic malignancies with type B lactic acidosis.METHODS We performed a comprehensive search of the PubMed,Scopus,and Cochrane databases without any time restriction but limited to English language articles.The databases were last accessed on July 1st,2023.RESULTS A total of 20 publications were included in the analysis,all of which were case reports or case series.No higher quality evidence was available.Among children with hematologic malignancies and Warburg effect,there were 14 cases of acute lymphoblastic leukemia and 6 cases of non-Hodgkin’s lymphoma including our illustrative case.Lactic acidosis occurred in 55%of newly diagnosed cases and 45%of relapsed cases.The mean age was 10.3±4.5 years,and 80%of cases were male.The mean serum lactate was 16.9±12.6 mmol/L,and 43.8%of the cases had concomitant hypoglycemia.Lactic acidosis initially subsided in 80%of patients receiving chemotherapy compared to 60%in the contrast group.The mortality rate of newly diagnosed cases was 45.5%,while the relapsed cases represented a 100%mortality rate.All 8 patients reported before 2001 died from disease-related complications.However,patients described in reports published between 2003 and 2023 had a 54.5%rate of complete remission.CONCLUSION This complication has historically led to fatal outcome;however,patients who received chemotherapy showed a more favorable response.Therefore,it is crucial to promptly initiate specific treatment in this context.展开更多
目的分析亲体肝移植治疗儿童遗传代谢病(inborn errors of metabolism,IEM)的临床效果。方法回顾性分析新疆医科大学第一附属医院2021年1月至2024年7月间18例行亲体肝移植手术的遗传代谢病患儿(为遗传代谢病组)临床资料,分析其治疗效果...目的分析亲体肝移植治疗儿童遗传代谢病(inborn errors of metabolism,IEM)的临床效果。方法回顾性分析新疆医科大学第一附属医院2021年1月至2024年7月间18例行亲体肝移植手术的遗传代谢病患儿(为遗传代谢病组)临床资料,分析其治疗效果及并发症情况,并与本中心同期21例行亲体肝移植的非遗传代谢病患儿(为非遗传代谢病组)进行术前资料与累计生存率的比较,同时比较遗传代谢病组患儿术前、术后6个月的体重Z评分、身高Z评分。结果18例遗传代谢病患儿原发病包括:肝豆状核变性8例、酪氨酸血症2例、先天性肝纤维化4例、枫糖尿病1例、Caroli病1例、糖原累积症Ⅰ型1例、Alagille综合征1例。遗传代谢病组患儿与非遗传代谢病组患儿移植月龄分别为114.00(96.00,132.00)个月、6.57(5.68,77.00)个月,身高Z评分分别为(-0.77±1.62)分、(-1.91±2.30)分;差异均有统计学意义(P<0.05)。遗传代谢病组中术后有7例出现不同程度并发症,经对症治疗后治愈;1例围手术期因弥散性血管内凝血死亡。两组中位随访时间19.75个月,遗传代谢病组与非遗传代谢病组患儿术后累计生存率分别为87.5%和84.6%,差异无统计学意义(P>0.05);遗传代谢病组术前和术后6个月身高、体重Z评分分别为(-0.77±1.62)分和(-1.22±2.26)分、(-0.27±1.29)分和(0.03±0.92)分,差异均具有统计学意义(P<0.05)。结论亲体肝移植可以有效治疗部分遗传代谢病,改善患儿生长发育迟缓,提高患儿的生存率和生活质量。展开更多
Tooth agenesis constitutes one of the most common developmental anomalies in man. Oligodontia is defined as congenital absence of six or more teeth. Based on the studies of our team in cooperation with Peking Universi...Tooth agenesis constitutes one of the most common developmental anomalies in man. Oligodontia is defined as congenital absence of six or more teeth. Based on the studies of our team in cooperation with Peking University Center for Human Disease Genomics in the past five years, this article reviews the current research progress in clinical phenotypes and case collection, epidemiological investigation and etiological genetic studies of oligodontia. The symptoms of oligodontia were classified into syndromic and non-syndromic according to the occurrence of tooth agenesis with or without systemic developmental defects. As for the advancement of theories and techniques of molecular genetics, a number of gene mutations have been identified to be the direct etiological factors causing some specified diseases, especially those with developmental defects. Here, this article summarized the outcomes of molecular genetic study of some cases we collected. Of the systemic oligondontia patients, a new four-base-deletion mutation in PITX2 was identified in a large kindred with typical symptoms of Rieger Syndrome; four different gene mutations in ED1 casing X-linked hypohidrotic ectodermal displasia were found in five nucleus families. Compared with the former, non-syndromic oligodontia has more genetic heterogeneity rather than some specific virulence gene. PAX9 and MSX1 are the identified genes associated with family tooth agenesis without systemic syndrome. Also, in our research, three gene mutations in CBFA1 were detected in four cleidocranial dysplasia families, which is a systemic developmental disease including the symptoms of tooth eruption abnormality and accessory teeth.展开更多
文摘The liver is the front line organ of the immune system.The liver contains the largest collection of phagocytic cells in the body that detect both pathogens that enter through the gut and endogenously produced antigens.This is possible by the highly developed differentiation capacity of the liver immune system between self-antigens or non-self-antigens,such as food antigens or pathogens.As an immune active organ,the liver functions as a gatekeeping barrier from the outside world,and it can create a rapid and strong immune response,under unfavorable conditions.However,the liver's assumed immune status is anti-inflammatory or immuno-tolerant.Dynamic interactions between the numerous populations of immune cells in the liver are key for maintaining the delicate balance between immune screening and immune tolerance.The anatomical structure of the liver can facilitate the preparation of lymphocytes,modulate the immune response against hepatotropic pathogens,and contribute to some of its unique immunological properties,particularly its capacity to induce antigen-specific tolerance.Since liver sinusoidal endothelial cell is fenestrated and lacks a basement membrane,circulating lymphocytes can closely contact with antigens,displayed by endothelial cells,Kupffer cells,and dendritic cells while passing through the sinusoids.Loss of immune tolerance,leading to an autoaggressive immune response in the liver,if not controlled,can lead to the induction of autoimmune or autoinflammatory diseases.This review mentions the unique features of liver immunity,and dysregulated immune responses in patients with autoimmune liver diseases who have a close association with inborn errors of immunity have also been the emphases.
文摘Inborn errors of metabolism are identified in 5%-26% of infants and children with cardiomyopathy. Although fatty acid oxidation disorders, lysosomal and glycogen storage disorders and organic acidurias are well-known to be associated with cardiomyopathies, emerging reports suggest that mitochondrial dysfunction and congenital disorders of glycosylation may also account for a proportion of cardiomyopathies. This review article clarifies when primary care physicians and cardiologists should suspect inborn errors of metabolism in a patient with cardiomyopathy, and refer the patient to a metabolic specialist for a further metabolic work up, with specific discussions of "red flags" which should prompt additional evaluation.
文摘Inborn errors of metabolism(IEMs) are a large group of inherited disorders characterized by disruption of metabolic pathways due to deficient enzymes, cofactors, or transporters. The rapid advances in the understanding of the molecular pathophysiology of many IEMs, have led to significant progress in the development of many new treatments. The institution and continued expansion of newborn screening provide the opportunity for early treatment, leading to reduced morbidity and mortality. This review provides an overview of the diverse therapeutic approaches and recent advances in the treatment of IEMs that focus on the basic principles of reducing substrate accumulation, replacing or enhancing absent or reduced enzyme or cofactor, and supplementing product deficiency. In addition, the challenges and obstacles of current treatment modalities and future treatment perspectives are reviewed and discussed.
文摘BACKGROUND Inborn error of bile acid synthesis type 4 is a peroxisomal disease with impaired bile acid synthesis caused by a-methylacyl-CoA racemase(AMACR)gene mutation.The disease is usually found in children with mild to severe liver disease,cholestasis and poor fat-soluble vitamin absorption.At present,there is no report of inborn errors of bile acid synthesis type 4 in adults with liver disease and poor fat-soluble vitamin absorption.CASE SUMMARY A 71-year-old man was hospitalized in our department for recurrent liver dysfunction.The clinical manifestations were chronic liver disease and yellow skin and sclera.Serum transaminase,bilirubin and bile acid were abnormally increased;and fat-soluble vitamins decreased.Liver cirrhosis and ascites were diagnosed by computed tomography.The patient had poor coagulation function and ascites and did not undergo liver puncture.Genetic testing showed AMACR gene missense mutation.The patient was diagnosed with inborn error of bile acid synthesis type 4.He was treated with ursodeoxycholic acid,liver protection and vitamin supplementation,and jaundice of the skin and sclera was reduced.The indicators of liver function and the quality of life were significantly improved.CONCLUSION When adults have recurrent liver function abnormalities,physicians should be alert to genetic diseases and provide timely treatment.
文摘Inborn errors of metabolism (IEM) include a broad spectrum of defects of various gene products that affect interme-diary metabolism in the body. Studying the molecular and biochemical mechanisms of those inherited disorder, systematically summarizing the disease phenotype and natural history, providing diagnostic rationale and methodology and treatment strategy comprise the context of human biochemical genetics. This session focused on: (1) manifestations of representative metabolic disorders; (2) the emergent technology and application of newborn screening of metabolic disorders using tandem mass spec-trometry; (3) principles of managing IEM; (4) the concept of carrier testing aiming prevention. Early detection of patients with IEM allows early intervention and more options for treatment.
文摘BACKGROUND Type B lactic acidosis and hypoglycemia can occur in various pediatric conditions.In young children with a history of fasting preceding these metabolic derangements,inborn errors of metabolism should be primarily considered.However,the Warburg effect,a rare metabolic complication,can also manifest in children with hematologic malignancies.Only a few reports of this condition in children have been published in the literature.AIM To identify the clinical course,treatment strategies,and outcomes of childhood hematologic malignancies with type B lactic acidosis.METHODS We performed a comprehensive search of the PubMed,Scopus,and Cochrane databases without any time restriction but limited to English language articles.The databases were last accessed on July 1st,2023.RESULTS A total of 20 publications were included in the analysis,all of which were case reports or case series.No higher quality evidence was available.Among children with hematologic malignancies and Warburg effect,there were 14 cases of acute lymphoblastic leukemia and 6 cases of non-Hodgkin’s lymphoma including our illustrative case.Lactic acidosis occurred in 55%of newly diagnosed cases and 45%of relapsed cases.The mean age was 10.3±4.5 years,and 80%of cases were male.The mean serum lactate was 16.9±12.6 mmol/L,and 43.8%of the cases had concomitant hypoglycemia.Lactic acidosis initially subsided in 80%of patients receiving chemotherapy compared to 60%in the contrast group.The mortality rate of newly diagnosed cases was 45.5%,while the relapsed cases represented a 100%mortality rate.All 8 patients reported before 2001 died from disease-related complications.However,patients described in reports published between 2003 and 2023 had a 54.5%rate of complete remission.CONCLUSION This complication has historically led to fatal outcome;however,patients who received chemotherapy showed a more favorable response.Therefore,it is crucial to promptly initiate specific treatment in this context.
文摘目的分析亲体肝移植治疗儿童遗传代谢病(inborn errors of metabolism,IEM)的临床效果。方法回顾性分析新疆医科大学第一附属医院2021年1月至2024年7月间18例行亲体肝移植手术的遗传代谢病患儿(为遗传代谢病组)临床资料,分析其治疗效果及并发症情况,并与本中心同期21例行亲体肝移植的非遗传代谢病患儿(为非遗传代谢病组)进行术前资料与累计生存率的比较,同时比较遗传代谢病组患儿术前、术后6个月的体重Z评分、身高Z评分。结果18例遗传代谢病患儿原发病包括:肝豆状核变性8例、酪氨酸血症2例、先天性肝纤维化4例、枫糖尿病1例、Caroli病1例、糖原累积症Ⅰ型1例、Alagille综合征1例。遗传代谢病组患儿与非遗传代谢病组患儿移植月龄分别为114.00(96.00,132.00)个月、6.57(5.68,77.00)个月,身高Z评分分别为(-0.77±1.62)分、(-1.91±2.30)分;差异均有统计学意义(P<0.05)。遗传代谢病组中术后有7例出现不同程度并发症,经对症治疗后治愈;1例围手术期因弥散性血管内凝血死亡。两组中位随访时间19.75个月,遗传代谢病组与非遗传代谢病组患儿术后累计生存率分别为87.5%和84.6%,差异无统计学意义(P>0.05);遗传代谢病组术前和术后6个月身高、体重Z评分分别为(-0.77±1.62)分和(-1.22±2.26)分、(-0.27±1.29)分和(0.03±0.92)分,差异均具有统计学意义(P<0.05)。结论亲体肝移植可以有效治疗部分遗传代谢病,改善患儿生长发育迟缓,提高患儿的生存率和生活质量。
文摘Tooth agenesis constitutes one of the most common developmental anomalies in man. Oligodontia is defined as congenital absence of six or more teeth. Based on the studies of our team in cooperation with Peking University Center for Human Disease Genomics in the past five years, this article reviews the current research progress in clinical phenotypes and case collection, epidemiological investigation and etiological genetic studies of oligodontia. The symptoms of oligodontia were classified into syndromic and non-syndromic according to the occurrence of tooth agenesis with or without systemic developmental defects. As for the advancement of theories and techniques of molecular genetics, a number of gene mutations have been identified to be the direct etiological factors causing some specified diseases, especially those with developmental defects. Here, this article summarized the outcomes of molecular genetic study of some cases we collected. Of the systemic oligondontia patients, a new four-base-deletion mutation in PITX2 was identified in a large kindred with typical symptoms of Rieger Syndrome; four different gene mutations in ED1 casing X-linked hypohidrotic ectodermal displasia were found in five nucleus families. Compared with the former, non-syndromic oligodontia has more genetic heterogeneity rather than some specific virulence gene. PAX9 and MSX1 are the identified genes associated with family tooth agenesis without systemic syndrome. Also, in our research, three gene mutations in CBFA1 were detected in four cleidocranial dysplasia families, which is a systemic developmental disease including the symptoms of tooth eruption abnormality and accessory teeth.
