The prevalence of cleft in the Netherlands and Northern Netherlands in 1997-2007:Trend analysis of data from three Dutch registries

Objective. To investigate the prevalence of oral cleft live births in the Netherlands, we analyzed time-trends in the Netherlands and Northern Netherlands (NNL) over the period 1997-2007 and stratified these trends by cleft category (cleft lip/alveolus ± cleft palate: CL±P; cleft palate only: CP). Methods. Patients born alive with oral clefts in the Netherlands during 1997-2007 were included from three Dutch registries on congenital anomalies/oral clefts. The estimated annual percentage change (EAPC) in prevalence was calculated using Poisson regression. Results. The overall prevalence of oral clefts per 10,000 live births was 16.6 in the Netherlands and 21.4 in NNL. During 1997-2007, the live-birth prevalence of oral clefts in the Netherlands decreased significandy (EAPC -2.0%; 95% CI: -3.0% to -0.90%), as did the CL±P prevalence (EAPC -2.1%; 95% CI: -3.4% to -0.80%), while no significant trend in CP was found. The rates of the region NNL showed no significant trends. Discussion. The national decrease in prevalence may be explained by two hypotheses: 1) greater prenatal detection of congenital anomalies including oral clefts has led to more pregnancy terminations; and 2) increased periconceptional folic acid use has reduced the risk of oral clefts. Both hypotheses would mainly apply to the category CL±P, since, unlike CP, this category can be detected prenatally by 2D ultrasound and develops during the period recommended for folic acid use. Conclusion. Because the CL±P prevalence in the Netherlands decreased, that of all oral clefts decreased. Although the rates in the region NNL were higher, they showed no significant trends

The Exstrophy-epispadias complex

Exstrophy-epispadias complex (EEC) represents a spectrum of genitourinary malformations ranging in severity from epispadias (E) to classical bladder exstrophy (CEB) and exstrophy of the cloaca (EC). Depending on severity, EEC may involve the urinary system, musculoskeletal system, pelvis, pelvic floor, abdominal wall, genitalia, and sometimes the spine and anus. Prevalence at birth for the whole spectrum is reported at 1/10,000, ranging from 1/30,000 for CEB to 1/200,000 for EC, with an overall greater proportion of affected males. EEC is characterized by a visible defect of the lower abdominal wall, either with an evaginated bladder plate (CEB), or with an open urethral plate in males or a cleft in females (E). In CE, two exstrophied hemibladders, as well as omphalocele, an imperforate anus and spinal defects, can be seen after birth. EEC results from mechanical disruption or enlargement of the cloacal membrane; the timing of the rupture determines the severity of the malformation. The underlying cause remains unknown: both genetic and environmental factors are likely to play a role in the etiology of EEC. Diagnosis at birth is made on the basis of the clinical presentation but EEC may be detected prenatally by ultrasound from repeated non-visualization of a normally filled fetal bladder. Counseling should be provided to parents but, due to a favorable outcome, termination of the pregnancy is no longer recommended. Management is primarily surgical, with the main aims of obtaining secure abdominal wall closure, achieving urinary continence with preservation of renal function, and, finally, adequate cosmetic and functional genital reconstruction. Several methods for bladder reconstruction with creation of an outlet resistance during the newborn period are favored worldwide. Removal of the bladder template with complete urinary diversion to a rectal reservoir can be an alternative. After reconstructive surgery of the bladder, continence rates of about 80% are expected during childhood. Additional surgery might be needed to optimize bladder storage and emptying function. In cases of final reconstruction failure, urinary diversion should be undertaken. In puberty, genital and reproductive function are important issues. Psychosocial and psychosexual outcome depend on long-term multidisciplinary care to facilitate an adequate quality of life

Frontoethmoidal encephaloceles, a study of their pathogenesis

A prospective clinical study of 30 patients with frontoethmoidal encephaloceles was performed in order to find support for a proposed theory concerning its pathogenesis, based on a previously performed embryological study and relevant findings in the literature. According to this proposed theory the pathogenesis of frontoethmoidal encephaloceles is primarily based on a disturbance in separation of neural and surface ectoderm at the site of final closure of the rostral neuropore during the final phase of neurulation in the 4th week of gestation. An insufficient occurrence of apoptosis might cause this disturbance in separation. The nonseparation of neural and surface ectoderm will result secondarily in a midline mesodermal defect. This mesodermal defect is reflected in the median skull defect at the site of the foramen caecum. The outgrowth of the nasal septum with the concomitant forward displacement of epidermis (surface ectoderm) and attached brain tissue (neural ectoderm) may act as herniating force. The patient study consisted of a clinical investigation, radiological investigations (X skull and CT scans), and surgical treatment in order to obtain specimens which were examined histologically. Clinical findings supportive of the proposed hypothesis are (1) the consistency in the location of the internal skull defect, (2) the close relationship between epidermal structures and glial tissue in 15 out of 29 specimens, and (3) the presence of a normally developed nose in combination with interorbital hypertelorism in all patients. A discussion of these findings is presented with special reference to the embryological aspects

Clubbed fingers: the claws we lost?

Item does not contain fulltextClubbed digits resemble the human embryonic fingers and toes, which took like the digits of a claw. Clubbed digits, thus, may represent the return of the embryonic claw and may even represent the claws man has lost during evolution, if ontogenesis realty recapitulates phylogenesis. We put forward the hypothesis that secondary clubbing, Like gynecomastia, is caused by a pathologic condition, which alters hormone levels in the blood, leading to the activation of 'dormant' genes, resulting in the development of an organ. However, the nature of the diseases that cause clubbing suggests that these hormones may actually be cytokines, acting as hormones. The nature of these cytokines is not known. They may be identified by comparing their blood levels or the combination of their blood levels to the presence or absence of clubbing, but also to the degree of clubbing and its disappearance after treatment of the primary disease. (C) 2003 Elsevier Ltd. All rights reserved

Normal development of the male anterior urethra

A histological study was performed on serially sectioned human and mouse embryos to study the influences of programmed cell death (PCD) during morphogenesis for clarifying the existing controversies on the morphology and basic processes involved in the embryonic development of the male anterior urethra. The following new insights into the development of the anterior urethra could be established. The formation of the urethra starts with the early adhesion of the arms of the genital tubercle. In this way an epithelial plate is formed, located in the ventral midline, that is in continuity with the cloacal membrane. Male sex differentiation takes place following rupture of this cloacal membrane through programmed cell death. Fusion of the urogenital swellings with primary luminization gives rise to the penile urethra, whereas the glandular part of the urethra is formed through secondary luminization of the epithelial cord that is formed during fusion of the arms of the genital tubercle, i.e., the glans. In both fusion processes, apoptosis plays a key role. The consequence of fusion of the urogenital swellings is that their mesodermal cores unite on the ventral aspect of the penile urethra, where they differentiate into the integumental structures. The prepuce starts to develop as a fold of ectoderm with a mesodermal core after complete fusion of the entire urethra. Finally, the scrotum was found to develop through merging of the labioscrotal swellings and not by fusion. (C) 2000 Wiley-Liss, Inc