儿童肾囊性疾病的诊治

Potter分型将儿童肾囊性疾病分为4型:常染色体隐性遗传性多囊性肾病、多囊性肾发育不良、常染色体显性遗传性多囊性肾病、梗阻性囊性发育不良肾.此外,单纯性肾囊肿、发生在肾肿瘤及其他伴囊性肾病的综合征也可引起肾脏呈囊性改变.这类病由于其发病机制和病理基础不同,临床诊断及治疗方案选择亦不同,要正确诊断这类疾病,需要仔细分类并查明病因.该文就儿童常见的肾囊性疾病进行综述.     

Morphometric studies of cystic and tubulointerstitial kidney diseases with hepatic fibrosis in children

Portal tract fibrosis with biliary ductular enlargement or proliferation occurs in a number of genetic diseases that have cystic or tubulointerstitial renal lesions. These include some with renal cystic disease such as autosomal recessive diseases (e.g., infantile polycystic disease, juvenile polycystic disease, and Meckel's syndrome), autosomal dominant diseases (e.g., adult polycystic disease) and, rarely, tuberose sclerosis and dominant glomerulocystic disease. Portal tract fibrosis with biliary enlargement and proliferation occurs also with tubulointerstitial kidney diseases. These probably include at least three disorders in the category nephronophthisis-congenital hepatic fibrosis (one autosomal recessive disease and two either autosomal or X-linked recessive diseases) plus Jeune's syndrome (the tubulointerstitial diseases Fanconi's familial nephronophthisis and anti-tubular membrane antibody disease do not regularly cause hepatic fibrosis). Morphometric data on ratios of bile ductules to connective tissue in hepatic portal tracts show high values for infantile polycystic disease (mean, 0.616) compared to lower values for juvenile polycystic disease (mean, 0.286). That the cystic renal lesions of the first two diseases differ in type and time course is known. Similar data on ratios of glomeruli plus tubules to connective tissue in renal cortices and of tubules to connective tissue in outer medullary zones of kidneys, respectively, are as follows: for Fanconi's nephronophthisis, 0.445 and 0.197; for anti-tubular basement membrane antibody disease, 0.585 and 0.164; and for the three types of nephronophthisis-congenital hepatic fibrosis studied, 0.668 and 0.446, 1.39 and 0.921, and 1.18 and 0.12. These data support clinical impressions that the category nephrophthisis-congenital hepatic fibrosis includes more than one disease entity.     

Morphometric Studies of Cystic and Tubulointerstitial Kidney Diseases with Hepatic Fibrosis in Children

Portal tract fibrosis with biliary ductular enlargement or proliferation occurs in a number of genetic diseases that have cystic or tubulointerstitial renal lesions. These include some with renal cystic disease such as autosomal recessive diseases (e.g., infantile polycystic disease, juvenile polycystic disease, and Meckel's syndrome), autosomal dominant diseases (e.g., adult polycystic disease), and, rarely, tuberose sclerosis and dominant glomerulocystic disease. Portal tract fibrosis with biliary enlargement and proliferation occurs also with tubulointerstitial kidney diseases. These probably include at least three disorders in the category nephronophthisis-congenital hepatic fibrosis (one autosomal recessive disease and two either autosomal or X-linked recessive diseases) plus Jeune's syndrome (the tubulointerstitial diseases Fanconi's familial nephronophthisis and anti-tubular membrane antibody disease do not regularly cause hepatic fibrosis). Morphometric data on ratios of bile ductules to connective tissue in hepatic portal tracts show high values for infantile polycystic disease (mean, 0.616) compared to lower values for juvenile polycystic disease (mean, 0.286). That the cystic renal lesions of the first two diseases differ in type and time course is known. Similar data on ratios of glomeruli plus tubules to connective tissue in renal cortices and of tubules to connective tissue in outer medullary zones of kidneys, respectively, are as follows: for Fanconi's nephronophthisis, 0.445 and 0.197; for anti-tubular basement membrane antibody disease, 0.585 and 0.164; and for the three types of nephronophthisis-congenital hepatic fibrosis studied, 0.668 and 0.446, 1.39 and 0.921, and 1.18 and 0.12. These data support clinical impressions that the category nephrophthisis-congenital hepatic fibrosis includes more than one disease entity.     

Radiologic features of “adult type” polycystic kidney disease in the neonate

Two cases are reported of adult type polycystic renal disease (autosomal dominant) presenting in the newborn as a unilateral abdominal mass. The radiographic findings in the involved kidney simulated the ectatic tubules of infantile polycystic disease, yet histologic examination was consistent with the adult variety and both infants had other family members with adult type polycystic kidneys. These cases emphasize some of the ambiguities that exist in the definition and classification of polycystic renal disease.     

Association of congenital hepatic fibrosis with autosomal dominant polycystic kidney disease

The association of autosomal recessive polycystic kidney disease (ARPKD) with congential hepatic fibrosis (CHF) is well known; a rare occurrence is that of congenital hepatic fibrosis with autosomal dominant polycystic kidney disease (ADPKD). We report a family with ADPKD in which congenital hepatic fibrosis with severe portal hypertension (PHT) presented in a 4-year-old girl; the kidneys were initially normal. Typical changes of autosomal dominant polycystic kidney disease developed in the next decade and were also found in the mother and sister (neither of whom had any evidence of portal hypertension). Severe variceal bleeding was treated by sclerotherapy and beta receptor blocade.     

Polycystic kidney disease in children

Polycystic renal diseases in children include 2 pathologically and genetically distinct diseases: autosomal recessive polycystic kidney disease (ARPKD), incorrectly called the "infantile form", characterized by a constant hepato-renal involvement, and autosomal dominant polycystic kidney disease, often termed the "adult form", which is more and more frequently detected in children as a result of advances in renal imaging techniques. The differential diagnosis is not based on age at discovery, clinical symptoms or renal imaging, which may all be similar in the 2 diseases, but on the presence, detected by either pathology or ultrasonography, of the biliary dysgenesis specific to ARPKD, and mainly on the mode of inheritance, confirmed by the results of ultrasonography in parents and grandparents.     

Renal cystic disease: new insights for the clinician

This article cannot comprehensively cover the enormous strides made in defining the molecular and cellular basis of renal cystic diseases over the last decade. Therefore, it provides a brief overview and categorization of inherited, developmental, and acquired renal cystic diseases, providing a relevant, up-to-date bibliography as well as a useful list of informative Internet Web sites. Its major focus is the translational biology of polycystic kidney disease. It demonstrates how emerging molecular and cellular knowledge of the pathophysiology of particular diseases such as autosomal dominant polycystic kidney disease (ADPKD) and autosomal recessive polycystic kidney disease (ADPKD) can translate into innovative therapeutic insights.     

Dominant and recessive polycystic kidney disease in children: Classification by intravenous pyelography,ultrasound, and computed tomography

Both dominant and recessive polycystic kidney disease appear in childhood. We have analyzed findings of intravenous pyelography, ultrasound and computed tomography in genetically classified cases of dominant (13 children) and recessive polycystic kidney disease (5 children) and thus defined criteria by which sporadic cases of childhood polycystic kidney disease can be classified to dominant or recessive polycystic kidney disease.     

Polycystic kidney disease and other genetic kidney disorders

Cystic kidney diseases encompass a range of genetic disorders in which the primary cilia of the cells are affected and thereby cysts form as a result. There are an increasing range of cystic renal diseases recognized due to the advances in genomics. The most common genetic kidney condition is autosomal dominant polycystic kidney disease (ADPKD). ADPKD leads to renal failure in adulthood. In children, hypertension is common and if treated, may slow down renal decline. The most common cystic kidney disease causing renal failure in children is autosomal recessive polycystic kidney disease (ARPKD). ARPKD also affects the liver. These conditions often have extra-renal features which also need to be addressed. Until recently, treatments were mainly supportive but now it is possible to slow down development of cyst formation and renal decline in ADPKD. This raises hope for treatment for other cystic renal conditions as more genes are identified and underlying mechanisms defined.     

Body growth in children with polycystic kidney disease

We analysed the body growth of 121 prepubertal children with polycystic kidney disease participating in a longitudinal multicentre study. The patients were followed from an age of 1 to 9 years in girls and 1 to 10 years in boys over a mean period of 3.6 years. Children with end-stage renal disease were excluded. Fifty-four patients had the autosomal dominant form of the disease and 67 the autosomal recessive form. At last observation, 2% of patients with the dominant form and 28% of those with the recessive form had an estimated glomerular filtration rate of < 60 ml/(min 1.73 m²). At first observation, the mean height SD score (SDS) in patients with the dominant form was almost the same as in controls, whilst in those with the recessive form it was significantly decreased (girls –0.82 SDS, boys -0.68 SDS, p < 0.001). During the follow-up the height SDS decreased slightly in both groups (NS). In patients with autosomal recessive kidney disease the degree of growth retardation appeared to be related to renal function: at last observation the height of girls with an estimated glomerular filtration rate of < 60ml/(min 1.73 m²) was more retarded than that of boys (mean -2.1 SDS versus -1.5 SDS, NS). The height SDS and renal function at last observation correlated in girls ( r = 0.83, p < 0.001) but not in boys ( r = 0.55) with the recessive form. No correlation was found between the height SDS and hypertension. The weight-for-height SDS at onset was significantly reduced in patients with the recessive form with decreased renal function. Our data suggest that the autosomal recessive, but not the dominant, form of polycystic kidney disease is associated with early growth retardation, which seems to be more severe in girls, probably due to the more rapid deterioration of renal function.     

Choroby wątroby i nerek w przebiegu ciliopatii

Ciliopathies constitute a group of disorders characterized by cilia abnormalities and an extremely heterogeneous clinical presentation. The liver and kidneys are the most commonly affected organs and the term hepatorenal fibrocystic disorders is used to describe ciliopathies with combined liver and kidney involvement. Liver disorders in ciliopathies can be grouped into three categories: congenital hepatic fibrosis, Caroli's disease and polycystic liver disease. Kidney disorders related to primary cilia abnormalities include autosomal dominant and recessive polycystic kidney diseases and nephronophthisis.     

Nephrocalcinosis in a child with autosomal dominant polycystic kidney disease and a prolapsing ectopic ureterocele

Although autosomal dominant polycystic kidney disease commonly presents in adults, it can occur in children. Usually, renal calcification in patients with autosomal dominant polycystic kidney disease is manifested as calculi or as hemorrhage into a renal cyst. An ectopic ureterocele is a well-known finding in patients with renal duplication. To our knowledge, this is the first case report of a child who had combined findings of autosomal dominant polycystic kidney disease, nephrocalcinosis, and an obstructing ectopic ureterocele.     

Unilateral abdominal mass: an unusual presentation of autosomal dominant polycystic kidney disease in children

Autosomal dominant polycystic kidney disease is rarely diagnosed in infancy or childhood. The renal involvement is typically bilateral. We describe two children with ADPKD (autosomal dominant polycystic kidney disease) presenting with a unilateral renal mass. The value of a careful genetic history and the role of sonography will be discussed.     

Congenital hepatic fibrosis: a very uncommon cause of pancytopenia in children

The disease presentation of autosomal recessive polycystic kidney disease (OMIM #263200, ARPKD) is highly variable and includes polycystic kidneys, pulmonary hypoplasia, and congenital hepatic fibrosis. The authors report an unusual case of ARPKD presenting with hepatosplenomegaly and cytopenia mimicking acute leukemia.     

Cystic kidneys in children

From 1976-1987 a total of 26 infants and children with polycystic kidney disease were treated at the Children's Hospital of the Medical School Hannover. 13 of them suffered from infantile recessive polycystic kidney disease (IRPKD), and 13 from adult dominant polycystic kidney disease (ADPKD). IRPKD was diagnosed at a median age of 0.33 years (range 1 day-13 years), ADPKD at 6.0 years (3 days-14 years). Of those with IRPKD two infants died from bacterial infection and two others developed terminal renal insufficiency at the age of 8 years, while the others are living and 1-20 years old. All those suffer from severe arterial hypertension and have reduced renal function, but only 5 developed signs of liver fibrosis. Of those with ADPKD one infant died from sepsis and renal insufficiency, while the others are well and now 2-17 years old. Only one child needs an antihypertensive treatment. The most important criteria to differentiate IRKPD and ADKPD in children are the genetic transmission, age of first manifestation, hypertension and renal function. The prognosis is much more severe in IRPKD than in ADPKD, but is not as infaust in IRPKD as often assumed.     

Pediatric renal transplantation with considerations for successful outcomes

Renal transplantation in the pediatric population, although conceptually similar to that in adults, differs in many aspects. This review will focus on the issues unique to the pediatric recipient. In particular, we will focus on the incidence and etiology of end stage renal disease in children, and the results as measured by patient and graft survival. Pretransplant surgical considerations of timing of the transplant, management of congenital urologic abnormalities and the abnormal bladder will be addressed. Etiologies of renal failure unique to the pediatric population will be discussed, including autosomal recessive polycystic kidney disease, congenital nephrotic syndrome, inferior vena cava thrombosis, and primary hyperoxaluria Type 1. Lastly, special transplant surgical considerations including transplantation of an adult-size kidney (ASK) into an infant or small child and ureteral implantation, management of the urinary bladder, and fluid management in infants and small children will be discussed.     

MOLECULAR BIOLOGY OF AUTOSOMAL DOMINANT POLYCYSTIC KIDNEY DISEASE

Among the prevalent human genetic disorders, human autosomal dominant polycystic kidney disease is certainly one of the most challenging, both from a clinical and a fundamental perspective. In the recent years, important progress opened novel research avenues to elucidate the genetic basis, the cellular pathophysiologic mechanisms and the molecular function of genes and proteins involved in autosomal dominant polycystic kidney disease.     

Pyramidal hyperechogenicity in autosomal recessive polycystic kidney disease resembling medullary nephrocalcinosis

Striking pyramidal hyperechogenicity resembling the sonographic appearance of medullary nephrocalcinosis was found in autosomal recessive polycystic kidney disease (ARPKD). This sonographic pattern is distinctly different from those described previously in ARPKD.     

A 4-year-old girl with autosomal dominant polycystic kidney disease complicated by a ruptured intracranial aneurysm

In patients with autosomal dominant polycystic kidney disease (ADPKD), intracranial aneurysms (ICAs) are extrarenal manifestations and may result in serious and potentially fatal outcome following rupture. Although ICAs are a well-known complication of ADPKD, nearly all cases of ICA occurring in the context of ADPKD are adults. Here, we report the case of a Japanese girl with ADPKD who developed a subarachnoid haemorrhage (SAH) due to a ruptured ICA at the age of 4 years. Conclusion:This report is intended to raise awareness that the use of noninvasive screening techniques such as three-dimensional CT angiography or magnetic resonance angiography to detect intracranial aneurysms should also be performed in paediatric patients with autosomal dominant polycystic kidney disease.     

Meckel syndrome with Caroli disease and choledochal cysts

Meckel syndrome is a lethal autosomal recessive disorder characterized by the triad of cystic renal dysplasia, occipital encephalocele, or other anomaly of the central nervous system and post-axial polydactyly. Malformation of the ductal plate is an integral component of Meckel syndrome. Ductal plate malformations include congenital hepatic fibrosis, biliary hamartoma, autosomal dominant polycystic liver disease, Caroli disease, and choledochal cyst. The occurrence of cystic hepatic disease, Caroli disease, and choledochal cyst have not been highlighted. This is a report of a 26-week fetus with features of Meckel syndrome, Caroli disease, and choledochal cyst.