Defekt von Femur und Fibula mit Amelie,Peromelie oder ulnaren Strahldefekten der Arme Ein Syndrom

Six cases are described in which defects of the femora are associated with deformities of the upper limbs. From the available literature all cases (55) were selected in which femoral defects were associated with upper limb deformities. It became apparent that most if not all of these cases belong to a well defined syndrome. Arm deformities associated with femoral defect do not usually include the most common types, but specific rare types, namely amelia, peromelia ending at the level of the elbow, brachioradial synostosis and ulnar defects. In the syndrome in question sometimes either arm shows a different type of these deformities, which is further evidence that all cases may be considered to represent one category. In the majority of cases there is also a defect of the fibula and the fibular rays. The etiology is unknown. Familial occurrence has not been observed. Parental age does not appear to be a factor. In no case was there a thalidomide history. A history of radiation exposure during pregnancy was present in two previously published cases. Other limb deformities associated with radiation exposure in utero are quoted from the literature. Some of them are similar, but not exactly identical to the syndrome in question.Thalidomide deformities, in which the radial and tibial rays are preferentially affected, are clearly distinct. Similar defects of the femorae and fibulae but not of the arms are occasionally seen in children born to diabetic mothers.     

Absence of limbs and gross body wall defects: an epidemiological study of related rare malformation conditions.

The study is based on almost 10 million births and reports on 215 infants with two unusual malformations: amelia and gross body wall defect. Amelia without body wall defect was present in 116 cases, 67 had body wall defects without amelia, and 32 had both. The total rate was 2.2 per 100,000 births. The infants were divided into five mutually exclusive groups. There were 40 infants (0.4 per 100,000) with agenesis of the body stalk, 18 with amelia and other types of gross body wall defects (0.2 per 100,000), 56 with amelia and malformations other than gross body wall defects (0.6 per 100,000), 41 with amelia (with or without other limb reduction defects) but no nonlimb malformations (0.4 per 100,000), and 60 infants with gross body wall defects of a type other than agenesis of body stalk and without amelia (0.6 per 100,000). A weak trend of decreasing prevalence of these malformations was found during the observation period. Infants with agenesis of the body stalk and infants with amelia combined with other types of gross body wall defects occurred at an increased rate in infants of young women. This maternal age effect is also found with gastroschisis, but not with omphalocele, and may indicate etiological or pathogenetic similarities between gastroschisis and the two former groups of defect. In infants with amelia, additional limb reduction defects could be of any type: transverse, longitudinal, or intercalary. Therefore, amelia may be the end result of different types of disturbances of limb morphogenesis. There was an increased rate of twinning. The relationship with amniotic band syndrome is discussed.     

Anomalies of the forebrain with radial limb defects: Garcia‐Lurie‐Steinfeld syndrome?

BACKGROUND: Severe anomalies of the forebrain together with radial limb anomalies have been reported in Steinfeld syndrome, XK aprosencephaly, and partial monosomy 13q. Steinfeld syndrome is an extremely variable autosomal dominant condition that, in severe cases, is characterized by holoprosencephaly, radial limb defects, and renal and/or cardiac defects. In mild cases there may be only thumb hypoplasia, ocular coloboma, or oral clefts. XK aprosencephaly, also called Garcia-Lurie syndrome (GLS), is a usually sporadic disorder with radial limb defects and aprosencephaly/atelencephaly. Based on two atypical sibships, autosomal recessive inheritance has been suggested. Two patients with variations of monosomy 13q have been described with atelencephaly but, generally, Steinfeld and XK aprosencephaly patients are chromosomally normal. Holoprosencephaly in 13q deletion patients appears to be due to ZIC2 mutations, but ZIC2 has not been previously tested in Steinfeld syndrome or GLS patients. CASES: We report three sporadic cases with clinical features intermediate between Steinfeld and GLS, including severe forebrain malformations and radial limb defects. All had normal karyotypes, and mutations in ZIC2 were absent in the two cases tested. CONCLUSIONS: In our cases and in the literature there is significant clinical overlap between Steinfeld syndrome and GLS. We propose these conditions may not be nosologically or etiologically distinct. The spectrum of severe forebrain anomalies in these conditions is broader than previously thought and may include some neural tube defects. Mild cases are difficult to identify and the full range of expression remains unknown. Autosomal dominant inheritance with incomplete penetrance and frequent new mutations is postulated. Thorough clinical evaluation is recommended for children with severe forebrain and radial limb defects.     

Thalidomide‐induced limb defects: resolving a 50‐year‐old puzzle

Despite the recent discovery that thalidomide causes limb defects by targeting highly angiogenic, immature blood vessels, several challenges still remain and new ones have arisen. These include understanding the drug's species specificity, determining molecular target(s) in the endothelial cell, shedding light on the molecular basis of phocomelia and producing a form of the drug that is clinically effective without having side effects. Now that the trigger of thalidomide‐induced teratogenesis has been uncovered, a framework is proposed, incorporating and uniting previous models of thalidomide action, explaining how thalidomide causes not just limb defects, but also all the other defects it induces.     

Epidemiological surveillance of birth defects compatible with thalidomide embryopathy in Brazil

The thalidomide tragedy of the 1960s resulted in thousands of children being born with severe limb reduction defects (LRD), among other malformations. In Brazil, there are still babies born with thalidomide embryopathy (TE) because of leprosy prevalence, availability of thalidomide, and deficiencies in the control of drug dispensation. Our objective was to implement a system of proactive surveillance to identify birth defects compatible with TE. Along one year, newborns with LRD were assessed in the Brazilian hospitals participating in the Latin-American Collaborative Study of Congenital Malformations (ECLAMC). A phenotype of LRD called thalidomide embryopathy phenotype (TEP) was established for surveillance. Children with TEP born between the years 2000-2008 were monitored, and during the 2007-2008 period we clinically investigated in greater detail all cases with TEP (proactive period). The period from 1982 to 1999 was defined as the baseline period for the cumulative sum statistics. The frequency of TEP during the surveillance period, at 3.10/10,000 births (CI 95%: 2.50-3.70), was significantly higher than that observed in the baseline period (1.92/10,000 births; CI 95%: 1.60-2.20), and not uniformly distributed across different Brazilian regions. During the proactive surveillance (2007-2008), two cases of suspected TE were identified, although the two mothers had denied the use of the drug during pregnancy. Our results suggest that TEP has probably increased in recent years, which coincides with the period of greater thalidomide availability. Our proactive surveillance identified two newborns with suspected TE, proving to be a sensitive tool to detect TE. The high frequency of leprosy and the large use of thalidomide reinforce the need for a continuous monitoring of TEP across Brazil.     

The effect of hypoxia in development

There is increasing evidence that the oxygen supply to the human embryo in the first trimester is tightly controlled, suggesting that too much oxygen may interfere with development. The use of hypoxia probes in mammalian embryos during the organogenic period indicates that the embryo is normally in a state of partial hypoxia, and this may be essential to control cardiovascular development, perhaps under the control of hypoxia-inducible factor (HIF). A consequence of this state of partial hypoxia is that disturbances in the oxygen supply can more easily lead to a damaging degree of hypoxia. Experimental mammalian embryos show a surprising degree of resilience to hypoxia, with many organogenic stage embryos able to survive 30-60 min of anoxia. However, in some embryos this degree of hypoxia causes abnormal development, particularly transverse limb reduction defects. These abnormalities are preceded by hemorrhage/edema and tissue necrosis. Other parts of the embryo are also susceptible to this hypoxia-induced damage and include the genital tubercle, the developing nose, the tail, and the central nervous system. Other frequently observed defects in animal models of prenatal hypoxia include cleft lip, maxillary hypoplasia, and heart defects. Animal studies indicate that hypoxic episodes in the first trimester of human pregnancy could occur by temporary constriction of the uterine arteries. This could be a consequence of exposure to cocaine, misoprostol, or severe shock, and there is evidence that these exposures have resulted in hypoxia-related malformations in the human. Exposure to drugs that block the potassium current (IKr) can cause severe slowing and arrhythmia of the mammalian embryonic heart and consequently hypoxia in the embryo. These drugs are highly teratogenic in experimental animals. There is evidence that drugs with IKr blockade as a side effect, for example phenytoin, may cause birth defects in the human by causing periods of embryonic hypoxia. The strongest evidence of hypoxia causing birth defects in the human comes from studies of fetuses lacking hemoglobin (Hb) F. These fetuses are thought to be hypoxic from about the middle of the first trimester and show a range of birth defects, particularly transverse limb reduction defects.     

Effects of isotretinoin (13-cis-retinoic acid) on the development of mouse limbs in vivo and in vitro.

Isotretinoin (13-cis-RA) is known to be teratogenic in humans and laboratory animals. The relatively low potency of 13-cis-RA in NRMI mice in comparison to the all-trans isomer has been proposed to be due to minimal transfer across the placenta (Creech-Kraft et al., '87). To further delineate the teratogenic potential of 13-cis-RA, a dose-response, temporal study was conducted in vivo and in vitro using submerged limb culture and image analysis evaluation of development. Dose-dependent embryotoxicity was produced by treatment on GD 7, while later treatments produced inconsistent effects on resorption rate and fetal weight. Treatment on either GD 7 or GD 8 produced a number of malformations in dose-dependent manner. Most common were tail and cleft palate defects, which were produced by 13-cis-RA on each of the days tested (GD 7-GD 11), with peak malformations occurring on GD 9 and GD 10 for tail and cleft palate, respectively. Most limb defects were produced after GD 10 and GD 11 exposure. The observed frequency of defects confirmed that in ICR mice 13-cis-RA is about 10-fold less potent than all-trans-RA as a limb teratogen (Kwasigroch and Kochhar, '80; Kochhar and Penner, '87). Effects observed via image analysis following maintenance of limbs in serum-free culture medium were dose dependent. Low dose treatment produced occasional polydactyly. The intermediate dose caused somewhat variable region-dependent increases in cartilaginous bone anlagen area. The high dose of 13-cis-RA produced irregular limb outlines, a reduction in bone anlagen area, and an inhibition of alcian blue staining of cartilage without affecting morphogenesis of bone anlagen. These results confirm that, when the effects of the administered doses are evaluated, 13-cis-RA is a much less potent teratogen in comparison to the all-trans isomer. More importantly, the results show that retinoids can enhance (at low and intermediate doses), depress (at high doses), or eliminate (high dose) chondrogenenic expression during limb morphogenesis in vitro. This indicates that retinoids such as 13-cis-RA can manipulate events in development in a variety of ways (i.e., produce malformations, interfere with chondrogenic expression without affecting morphogenesis, and stimulate growth) in a dose- and time-dependent manner. Although the ability of RA to act as a true morphogen has recently been questioned (Wanek et al., '91; Noji et al., '91), the results presented here support the position that RA can modulate the development of the limb (and probably other organ systems) in several vertebrate species.     

Prenatal exposure to environmental factors and congenital limb defects

Limb congenital defects afflict approximately 0.6:1000 live births. In addition to genetic factors, prenatal exposure to drugs and environmental toxicants, represents a major contributing factor to limb defects. Examples of well‐recognized limb teratogenic agents include thalidomide, warfarin, valproic acid, misoprostol, and phenytoin. While the mechanism by which these agents cause dymorphogenesis is increasingly clear, prediction of the limb teratogenicity of many thousands of as yet uncharacterized environmental factors (pollutants) remains inexact. This is limited by the insufficiencies of currently available models. Specifically, in vivo approaches using guideline animal models have inherently deficient predictive power due to genomic and anatomic differences that complicate mechanistic comparisons. On the other hand, in vitro two‐dimensional (2D) cell cultures, while accessible for cellular and molecular experimentation, do not reflect the three‐dimensional (3D) morphogenetic events in vivo nor systemic influences. More robust and accessible models based on human cells that accurately replicate specific processes of embryonic limb development are needed to enhance limb teratogenesis prediction and to permit mechanistic analysis of the adverse outcome pathways. Recent advances in elucidating mechanisms of normal development will aid in the development of process‐specific 3D cell cultures within specialized bioreactors to support multicellular microtissues or organoid constructs that will lead to increased understanding of cell functions, cell‐to‐cell signaling, pathway networks, and mechanisms of toxicity. The promise is prompting researchers to look to such 3D microphysiological systems to help sort out complex and often subtle interactions relevant to developmental malformations that would not be evident by standard 2D cell culture testing. Birth Defects Research (Part C) 108:243–273, 2016. © 2016 Wiley Periodicals, Inc.     

Effect of gestational sex steroid exposure on limb development and endochondral ossification in the pregnant C57Bl/6J mouse: I. Medroxyprogesterone acetate

Although data supporting the teratogenic potential of intrauterine progestin exposure is lacking, concern persists among some individuals within the scientific community that these drugs have the potential for nongenital teratogenesis, especially with regard to limb reduction defects. Our laboratory has been interested in the ontogeny of steroid receptors in the developing embryo and in the role of steroid-receptor interactions in limb development, particularly the process of endochondral ossification. Since limb reduction defects can be produced from abnormal processes that are operative during organogenesis or during midgestation (vascular disruption) we have designed an animal study whereby embryos were exposed to sex steroids throughout organogenesis and fetal development. The present study assesses the effects of medroxyprogesterone acetate (MPA) on intrauterine endochrondral bone development specifically, as well as overall embryo-fetal development. Primagravid C57Bl/6J mice were treated via subdermal pellets which deliver MPA at dosages of 5.0, 50.0, and 500.0 mg/kg/day on gestational days 7 through 19. These doses were 25-, 250-, and 2,500-fold higher on a mg/kg basis than the human dose equivalent (HDE). No increases in nongenital malformations were noted at any evaluated MPA dosage level. At 25 X the HDE, MPA did not influence endochondral bone development as evidenced by a lack of significant effects on assessed bone growth parameters. In the 250- and 2,500-fold HDE dosage groups, MPA was shown to exert an embryotoxic effect inducing 48 and 100% resorptions respectively. Mean embryo weights/litter were significantly reduced by MPA exposure at 250 X the HDE. Intrauterine exposure to 250 X the MPA HDE induced reductions in humeral and femoral diaphyseal length in proportion to a reduction in overall growth. The data demonstrate that MPA, administered at dosages of up to several orders of magnitude in excess of the HDE and which permitted embryo survival, did not induce increases in the frequency of nongenital teratogenesis at any dose or gestational stage. Importantly, limb reduction defects were not noted even in instances where the dosage of MPA induced an inhibition of endochondral bone growth.     

Limb reduction defects in the first generation and deafness in the second generation of intrauterine exposed fetuses to diethylstilbestrol

Maternal treatment with diethylstilbestrol (DES) during pregnancy can produce vaginal adenocarcinoma and other abnormalities of the vagina in her daughters when they reach adolescence or adulthood, miscarriages and absence of full term infants. Concerning malformations in newborns whose mothers were treated with DES, clitoromegaly and malformations of the uterus were reported in females and genital lesions in males. However, the frequencies of major congenital anomalies were not greater than expected. We report three cases of limb reduction defects (LRD) in the first generation of children whose mothers were treated with DES during pregnancy, and two children (one male, one female) with deafness in the second generation after intrauterine exposure to DES. The LRD were not associated with other congenital anomalies. The malformed children with LRD were born between 1965 and 1973. The deafness was also isolated. The two mothers who have no hearing problems and who are healthy were exposed in utero to DES in 1963 and 1965, respectively. Their children were born in 1989 and 1994, respectively. In conclusion, the association of LRD and hearing loss with intrauterine exposure to DES could be coincidental. However, some hypothesis may explain these associations. Congenital hearing loss in the second generation may suggest a transgenerational effect.     

Joint study on the teratogenic sensitivity of the Pika (Ochotona rufescens rufescens) to selected drugs

A collaborative study was conducted to investigate the teratological susceptibility of the Pika (Ochotona rufescens rufescens) to selected teratogenic chemicals: cyclophosphamide, 6-mercaptopurine, 5-fluorouracil, 6-aminonicotinamide, actinomycin D, ethylurethan, ampicillin, tetracycline, thalidomide, diphenylhydantoin, hypervitaminosis A, aspirin, dexamethasone, betamethasone and bredinin. Some of the chemicals were shown to be teratogenic in the Pika, but this animal was generally more resistant to their teratogenicity than the rabbit and rodents. In the Pika, thalidomide did not induce any typical limb defects, which have been produced in the rabbit. Pikas reproduce well and appear to have no substantial disadvantages as an animal species for teratological studies. Thus, the Pika may be useful as a new non-rodent species for teratological testings.     

FFU complex: an analysis of 491 cases

A study of 491 patients with femur-fibula-ulna (FFU) complex is presented. The term FFU complex has been proposed for cases in which the femur, fibula and/or ulna show defects, which tend to be associated. These cases are usually sporadic. Some rare anomalies of the arms which are present are particularly frequent in FFU complex. These are amelia, peromelia of humerus, humeroradial synostosis and defect of ulna. In our study, 491 patients were investigated for involvement of limb malformations. Our results, showing nearly equal proportions of the most common malformations in four analysed groups (with one, two, three and four limbs affected) supports the hypothesis that even if one arm or one leg only is affected, the cases may still be classifiable as FFU complex. There is a striking asymmetry in presence and in degree. All malformations are more often unilateral than bilateral. Upper limbs are affected more often than lower limbs. The right side and the male sex are preferentially affected. The limb malformations present in the FFU complex are different from those seen in most other types of limb defects, so there is virtually no overlap between FFU and other limb malformations. Some arguments in favour of early somatic mutation as a cause are discussed.     

Developmental toxicology - an integral part of safety evaluation of new drugs

The thalidomide tragedy stimulated an intense research in the etiology, prevention and treatment of congenital malformations. The Government requires that drugs and food additives be evaluated pre-clinically for toxicity, including developmental toxicity, before being marketed. The number of compounds which must be tested has increased dramatically with the continuous development of therapeutic, cosmetic and food additive chemicals. Such tests include: in vitro studies which can serve as efficient pre-screens to rank chemicals for further batteries of in vivo tests on pregnant animals. However, the safety of any drug would be determined only by a post-marketing epidemiological survey. Taking into account the altered susceptibility to different drugs in a pregnant individual, it could be said that administration of any drug during the first trimester is an experiment in human teratology.     

Non-confirmation of thalidomide induced teratogenesis in rats and mice

It has been reported that thalidomide, dissolved in a 1:3 mixture of Tween 20 and physiological saline and administered intraperitoneally to pregnant mice and rats induces a variety of malformations, including limb deformaties, characteristic of the primate syndrome. The studies reported herein attempted to confirm these findings without success although the rodent strains used were not the same. A low level of non-specific malformations was observed in the fetuses of both species at dose levels reported to cause a 47 percent and 92 percent rate of malformation in mice and rats respectively. One possible source of difference was Tween 20 which was toxic to the point of lethality in these studies at dose levels reported to be non-toxic in the earlier studies.     

Gestational ethanol exposure disrupts the expression of FGF8 and Sonic hedgehog during limb patterning

BACKGROUND: Ethanol is known to induce a wide variety of gestational anomalies, including skeletal malformations. Gestational ethanol exposure in mice has been shown to induce postaxial digit loss (ectrodactyly). How ethanol induces limb malformations is not understood. To better understand how ethanol effects limb development, we have utilized a transgenic line of mice that expresses beta-galactosidase in the apical ectodermal ridge (AER) of the limbs throughout gestation. METHODS: Pregnant female mice were injected with 2.9, 3.4, or 3.9 gm/kg ethanol at E9.3 and E9.5; embryos were isolated at E11.25, stained for beta-galactosidase activity, and evaluated for AER defects. Based upon the pattern of defects seen, expression of FGF8 in the AER and Sonic hedgehog in the postaxial mesoderm was evaluated by in situ hybridization. RESULTS: Two distinct phenotypes were seen in response to ethanol that were dose dependent. At 2.9 gm/kg ethanol, the most prevalent phenotype was a mislocalization of the AER to regions both dorsal and ventral to the midline. A higher dosage of 3.4 gm/kg ethanol did not increase the mislocalization phenotype, but resulted in a higher frequency of postaxial loss of the AER and associated mesenchymal tissue. The highest dosage utilized (3.9 gm/kg) resulted in a high frequency of both preaxial and postaxial loss of the AER. Through in situ hybridization, we found that ethanol exposure resulted in a concomitant reduction in FGF8 expression in the AER and Sonic hedgehog expression from the zone of polarizing activity (ZPA). CONCLUSIONS: We propose a model where ethanol disrupts the AER/ZPA positive feedback loop to induce postaxial malformations. Preaxial malformations seen at higher ethanol dosage suggest FGF8 as a critical target of ethanol in producing limb defects.     

Further evidence for the role of free radicals in the limb teratogenicity of L-NAME

BACKGROUND: L-NAME (N(G)-nitro-(L)-arginine methyl ester), a nitric oxide synthase inhibitor, causes severe limb reduction malformations when gravid rats are treated intraperitoneally on gd-17. Hemorrhages, appearing within hours of L-NAME administration, and defects at term can be significantly reduced by co-treatment with PBN (alpha-phenyl-N-t-butylnitrone), a spin trap antioxidant. We have proposed that limb defects result from ischemia-reperfusion injury. We examine the role of xanthine oxidase and ROS formation in the limb effects of L-NAME. METHODS: Gravidas were treated with L-NAME (50 mg/kg) in the presence or absence of allopurinol, a xanthine oxidase inhibitor. Spatial patterns of limb hemorrhage were determined promptly and at term as was digit length at the latter interval. Xanthine oxidase activities were assayed in control and treated limbs with and without allopurinol co-treatment. RESULTS: Allopurinol significantly reduced hemorrhage severity in a dose-responsive fashion when fetuses were examined at term. Higher doses of allopurinol significantly preserved digit length. Xanthine oxidase activities in fetal limb were significantly increased by L-NAME treatment whereas co-treatment with allopurinol restored activities to near-control levels. CONCLUSIONS: These findings support the role of excess reactive oxygen species (ROS) formation in L-NAME-induced limb reduction. We propose that nitric oxide (NO) depletion by L-NAME interferes with vascular integrity, and causes vasoconstriction. Resultant hypoxia stimulates superoxide formation and nitric oxide formation catalyzed by the inducible isoform of nitric oxide synthase. The reduction products of superoxide or the products of its reaction with nitric oxide oxidize or nitrate endothelial components resulting in limb reduction defects.     

Processes involved in retinoic acid production of small embryonic palatal shelves and limb defects

All-trans-retinoic acid (RA) is teratogenic to the embryonic mouse, producing malformations in many developing systems, including the limb bud and palate. High incidences of limb defects and cleft palate are induced at doses which are not maternally toxic and do not increase resorptions. Exposure to RA on gestational day (GD) 10 results in small palatal shelves, which fail to make contact on GD 14. The formation of small shelves could be a consequence of increased cell death, reduced proliferation, a combination of these effects, or some other effect such as inhibition of extracellular matrix production. After exposure to 100 mg RA/kg on GD 10, proliferation in mesenchymal cells of the palatal shelves was not reduced from GD 12 to GD 14 and the levels of cell death in control and treated shelves did not differ when observed by light and electron microscopy. The present study examines the effects of RA on cell death and proliferation from GDs 10-12 and compares the effects in palatal shelves and limb buds. Embryonic mice were exposed to RA suspended in corn oil (100 mg/kg on GD 10), a dose that was teratogenic but not maternally toxic or embryolethal. Embryos were collected at 4, 12, 24, 36, or 48 hr postexposure, and tissues which form the palate or limb were dissected from the embryos, stained by a modified Feulgen procedure, and whole mounted on slides. Mitotic index (MI) and percentage dead cells were determined for mesenchymal cells of the first visceral arch, maxillary process, or palatal shelf (depending on stage of development) and forelimb buds. In the palatal tissues from GD 10 to GD 12, RA did not significantly alter MI and percentage dead cells was significantly increased only at 4 hr postexposure. Some whole embryos were prepared for scanning electron microscopy (SEM). At 48 hr (GD 12) a reduction in the size of the shelves was not apparent on SEM. In the limb buds, RA did not increase percentage dead cells, but MI was significantly decreased. A decreasing rate of proliferation was detected in control facial tissues as development progressed, and this agrees with findings in rat and chick. Thus it appears that mesenchymal cell death and reduced proliferation are not responsible for the small palatal shelves seen on GD 14. RA did not increase cell death but inhibited proliferation in the limb bud, and this effect may contribute to the retarded development and malformations occurring in the limb.     

Major limb malformations following intrauterine exposure to ethanol: two additional cases and literature review

Two children are reported in whom major limb malformations were identified and whose mothers had consumed large quantities of alcohol in the first trimester of pregnancy. In one there was complete amelia of the upper limbs, while the other had preaxial polydactyly of both hands. These cases, taken together with previously reported instances of major limb anomalies following intrauterine ethanol exposure, as well as animal investigations that have demonstrated virtually identical limb malformations following ethanol administration, suggest that maternal ethanol abuse may be casually related to these limb malformations. We suggest that interruption of blood supply to the developing limb may be caused by ethanol exposure and may result in all of the various limb malformations described.