New multiple congenital anomalies syndrome in a stillborn infant of consanguinous parents and a prediabetic pregnancy

The status of diabetic embryopathy

Diabetic embryopathy is a theoretical enigma and a clinical challenge. Both type 1 and type 2 diabetic pregnancy carry a significant risk for fetal maldevelopment, and the precise reasons for the diabetes-induced teratogenicity are not clearly identified. The experimental work in this field has revealed a partial, however complex, answer to the teratological question, and we will review some of the latest suggestions.

Congenital anomalies in diabetic pregnancy

Congenital malformations are more common in infants of diabetic women than in children of non-diabetic women. The etiology, pathogenesis and prevention of the diabetes-induced malformations have spurred considerable clinical and basic research efforts. The ultimate aim of these studies has been to obtain an understanding of the teratogenic process, which may enable precise preventive therapeutic measures in diabetic pregnancies. The results of the clinical and basic studies support the view of an early gestational induction of the malformations in diabetic pregnancy by a teratogenic process of multifactorial etiology. There may be possible targets for new therapeutic efforts revealed by the research work. Thus, future additions to the therapeutic efforts may include supplementation with antioxidants and/or folic acid, although more research is needed to delineate the dosages and compounds to be used. As the research into genetic predisposition for the teratogenic induction of malformations by maternal diabetes starts to reveal new genes and gene products involved in the etiology of the malformations, a set of new targets for intervention may arise.

Diaphragmatic defects and limb deficiencies - taking sides

Diaphragmatic defects and limb deficiencies usually occur as independent anomalies, as a polytopic field defect (in which ipsilateral anomalies might be expected) or as wider pattern of defects, potentially involving disturbance of laterality or the midline (in which bilateral or contralateral defects would occur). Data on cases from previous studies and/or the literature were used to determine whether there is an association between the sides involved in the defects. The 88 adequately described cases identified included 20 with de Lange syndrome, seven with Poland anomaly, four with trisomy 18, 52 with other patterns of multiple malformations and five with diaphragmatic and limb defects alone. Evaluation of the position of the limb (left, right, bilateral) and the diaphragmatic defects (left, right, bilateral) did not show significant association in patterns of sidedness (P = 0.48). In 56% of cases, the limb deficiencies were bilateral. Among the 32 unilateral cases, 19 (59%) were ipsilateral (15 left; 4 right) and 13(41%) were contralateral (P = 0.38). Eleven of the 13 contralateral cases had left sided diaphragmatic defects and right sided limb deficiency; four had de Lange syndrome and nine had other patterns of multiple anomalies. Only cases with Poland anomaly or otherwise isolated defects showed a trend towards ipsilateral defects. Most cases with multiple congenital anomalies, had limbs defects on both the right and left (57%) or both sides of the diaphragm were affected (an additional 10%), indicating a widespread dysmorphogenetic process rather than a more restricted field defect. In other cases, defects were bilateral or, if unilateral, reflected the propensities for diaphragmatic defects to more often involve the left side, and limb defects, the right.

The PDAC syndrome (pulmonary hypoplasia/agenesis, diaphragmatic hernia/eventration, anophthalmia/microphthalmia, and cardiac defect) (Spear syndrome, Matthew-Wood syndrome): Report of eight cases including a living child and further evidence for autosomal recessive inheritance

The combination of pulmonary agenesis/dysgenesis/hypoplasia, microphthalmia/anophthalmia, and a diaphragmatic defect (agenesis or eventration) is a rare syndrome presumed to have an autosomal recessive mode of inheritance based on a report of affected siblings born to unaffected parents [Seller et al., 1996]. The condition is known as Spear syndrome and Matthew-Wood syndrome, although genetic heterogeneity cannot be ruled out. We report on eight patients with this condition including a living child, three sibs and three isolated cases. Most presented with fetal ultrasound findings of microphthalmia/anophthalmia, and diaphragmatic eventration/hernia and in five, cardiac abnormalities were also found. The earliest detection was at 20 weeks gestation. This is the second report of sibs affected with this condition, which supports an autosomal recessive mode of inheritance. We present the first and only reported living patient with this condition and expand the intrafamilial, interfamilial, and ethnic variability of this condition. We suggest changing the condition's name to PDAC to reflect the most important components of this condition.

Probable identity of Goltz syndrome and Van Allen-Myhre syndrome: evidence from phenotypic evolution

We describe a girl who was diagnosed with split foot-split hand anomaly prenatally, in whom at birth the diagnosis of Van Allen-Myhre syndrome was made, and who at 8 months of age was recognized to have Goltz syndrome. Based on the evolution of clinical features in this infant, we suggest that our case, as well as that reported by Van Allen and Myhre, is an example of unusually severe Goltz syndrome.

Unilateral bowing of long bones and multiple congenital anomalies in a child born to a mother with gestational diabetes

We report on a new-born girl with multiple congenital anomalies consisting of major skeletal anomalies restricted to the left side, cleft palate, ventricular and atrial septal defect, retromicrognathia, short neck, dysplastic low-set ears and large birth weight. The left-side bony anomalies include shortening and bowing of the femur and tibia, hypoplasia of the fibula, hip dislocation, clubfoot and mild shortening of the long tubular bones in the left arm with elbow dislocation. The pregnancy was complicated by insulin-dependent gestational diabetes mellitus in the mother. The radiographic features were not consistent with the diagnosis of campomelic dysplasia, kyphomelic dysplasia or other skeletal dysplasias characterized by bowing and shortening of the long bones. To our knowledge, the multiple congenital anomalies, including major skeletal malformations, present in our case have never been simultaneously reported until now. A maternal diabetes syndrome in this infant is probable. The occurrence of major congenital malformations in offspring of women with gestational diabetes is reviewed and discussed. We provide evidence that gestational diabetes mellitus could be teratogenic. We recommend a careful diabetic control in every woman with a history of gestational diabetes.

Pathogenesis of diabetes-induced congenital malformations

The increased rate of fetal malformation in diabetic pregnancy represents both a clinical problem and a research challenge. In recent years, experimental and clinical studies have given insight into the teratological mechanisms and generated suggestions for improved future treatment regimens. The teratological role of disturbances in the metabolism of inositol, prostaglandins, and reactive oxygen species has been particularly highlighted, and the beneficial effect of dietary addition of inositol, arachidonic acid and antioxidants has been elucidated in experimental work. Changes in gene expression and induction of apoptosis in embryos exposed to a diabetic environment have been investigated and assigned roles in the teratogenic processes. The diabetic environment appears to simultaneously induce alterations in several interrelated teratological pathways. The complex pathogenesis of diabetic embryopathy has started to unravel, and future research efforts will utilize both clinical intervention studies and experimental work that aim to characterize the human applicability and the cell biological components of the discovered teratological mechanisms.

Split hand/split foot, syndactyly, urinary tract obstruction, radial, diaphragmatic, and neural tube defects: Czeizel-Losonci syndrome?

We report on a baby girl with absence of the left hemidiaphragm, lumbosacral myelomeningocele, syndactyly with limb deficiencies, and bilateral hydronephrosis. A similar array of malformations was described previously by Czeizel and Losonci [Hum Genet 77:203-204, 1987] in a single family which showed a transmission pattern suggesting autosomal dominant inheritance with variable expressivity. The presence of limb abnormalities and the location of the neural tube defects in these cases suggest that the underlying pathogenesis probably does not involve the same disturbances of midline field development which have been postulated to occur in the schisis association.

Segmentation anomalies of the vertebras and ribs: a developmental field defect: epidemiologic evidence

Opitz has defined developmental field defects (DFD) as "any dysmorphogenetically reactive unit of the developing organism that leads to final structure." We have incorporated in our coding system specific codes to identify individual DFDs in each child, irrespective of the cause or type of the MCA pattern (i.e., chromosomal, mendelian, environmental, or unknown). Using this approach, we can analyze the group of defects included in the expression of each DFD as a discrete unit. To confirm our hypothesis that vertebral and rib anomalies constitute a DFD, we have studied all of our cases with segmentation anomalies of the spine and ribs, including hemivertebrae, fused or absent vertebrae, and "crab-like" thorax, all of which fall into the loosely defined groups of spondylothoracic dysplasia, costovertebral dysplasia, Jarcho-Levin syndrome, and others. The study was performed using the 18,743 malformed children from the ECEMC data files, 110 of them having vertebral/rib anomalies.

Case reports of malformations associated with maternal diabetes: history and critique

Several malformations and malformation complexes have been alleged to be associated with maternal type 1 diabetes mellitus: in particular, sacral dysplasia, caudal regression/sirenomelia, femoral dysplasia, and holoprosencephaly. For some of the malformations the claim rests on case material, and for others on theoretical considerations. The history and evolution of these ideas are presented.