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Fetus
Kinds of Fetus Selected AbstractsPrenatal Development of Interlimb Motor Learning in the Rat FetusINFANCY, Issue 3 2008Scott R. Robinson The role of sensory feedback in the early ontogeny of motor coordination remains a topic of speculation and debate. On E20 of gestation (the 20th day after conception, 2 days before birth), rat fetuses can alter interlimb coordination after a period of training with an interlimb yoke, which constrains limb movement and promotes synchronized, conjugate movement of the yoked limbs. The aim of this study was to determine how the ability to express this form of motor learning may change during prenatal development. Fetal rats were prepared for in vivo study at 4 ages (E18,21) and tested in a 65-min training-and-testing session examining hind limb motor learning. A significant increase in conjugate hind limb activity was expressed by El9, but not El 8 fetuses, with further increases in conjugate hind limb activity on E20 and E21. These findings suggest substantial development of the ability of fetal rats to modify patterns of interlimb coordination in response to kinesthetic feedback during motor training before birth. [source] Fetus with osteogenesis imperfecta presenting as increased nuchal translucency thickness in the first trimesterJOURNAL OF CLINICAL ULTRASOUND, Issue 2 2008Charles Tsung-Che Hsieh MD Abstract Type II osteogenesis imperfecta (OI) is a perinatally lethal disorder due to type I collagen abnormalities that has been diagnosed successfully in the second trimester. We report a case of type II OI that was confirmed on postmortem histology and radiography presenting as increased nuchal translucency in the first trimester. © 2007 Wiley Periodicals, Inc. J Clin Ultrasound, 2008 [source] Parents' Experiences, Reactions and Needs Regarding a Nonviable Fetus Diagnosed at a Second Trimester Routine UltrasoundJOURNAL OF OBSTETRIC, GYNECOLOGIC & NEONATAL NURSING, Issue 4 2008Maria Ekelin ABSTRACT Objective: To conceptualize women's and their partners' experiences and ways of handling the situation before, during, and after second trimester ultrasound examination with the diagnosis of a nonviable fetus. Design: A grounded theory study. Setting: A Swedish regional hospital. Participants: Nine women and 6 men (n=15) were interviewed within a year of the event. Results: The core category was Unexpected change in life. Four categories that were encompassed by the core category emerged: (a) Deceived by a false sense of security; (b) Confronting reality; (c) Grieving; and (d) Reorientation. Conclusion: These parents were unprepared for the diagnosis of a nonviable fetus. In addition to the crisis reaction, they realized that the sense of security they had experienced was false. As different care givers were involved, the need for a care plan was evident. Support from care givers was a very important factor. [source] X-Linked dominant chondrodysplasia punctata: prenatal diagnosis and autopsy findingsPRENATAL DIAGNOSIS, Issue 13 2006Shalini Umranikar Abstract Objective To report our experience of the prenatal diagnosis of X-linked dominant chondrodysplasia punctata (CDPX2) and highlight its variable phenotypic presentation. Methods We report the sonographic features of three female fetuses affected with CDPX2. The ultrasound, radiographic and pathological findings were compared. Results Family 1: Two affected pregnancies, both terminated. Fetus 1: Presented with epiphyseal stippling involving the vertebrae, upper and lower limbs, asymmetric shortening of the long bones and flat facial profile. Fetus 2: Prenatal findings included premature epiphyseal stippling, paravertebral cartilaginous calcific foci, mild shortening of the long bones and flat facies. Mutation analysis of the mother and both fetuses revealed mutation in the emopamil-binding protein (EBP) gene. Family 2: Prenatal sonography showed scattered epiphyseal stippling, minimal vertebral segmentation anomalies, mild asymmetric limb shortening and flat facies. Female infant delivered at 39 weeks of gestation. Biochemical analysis in all three fetuses showed increased levels of serum 8(9)-cholestenol consistent with delta (8), delta (7)-isomerase deficiency and CDPX2. Conclusion Prenatal diagnosis of CDPX2 is difficult because of marked phenotypic variation. Epiphyseal stippling, ectopic paravertebral calcifications, asymmetric shortening of long bones and dysmorphic flattened facies are crucial for prenatal diagnosis. DNA analysis of the CDPX2 gene and biochemical determination of the serum 8(9)-cholestenol level are important for diagnosis, especially if future pregnancies are planned. Copyright © 2006 John Wiley & Sons, Ltd. [source] OPINION: Some Severe Maternal Diseases Might be Caused by Fetal-Versus-Maternal Disease (FVMD)AMERICAN JOURNAL OF REPRODUCTIVE IMMUNOLOGY, Issue 3 2010Lei Yan Citation Yan L, Zuo C, Wei D, Zhao X. Some severe maternal diseases might be caused by fetal-versus-maternal disease (FVMD). Am J Reprod Immunol 2010; 63: 189,192 Pregnancy-related disease is a common challenging clinical problem. From our review and clinical experience, we hypothesize that many severe pregnancy-related complications might be caused by a fetal-versus-maternal disease (FVMD), based on the fact that maternal disease is related to immunity and that fetal cells are present in maternal blood. Fetus is a semi-antigen and can be considered as a tumor or graft. The pathophysiology of FVMD must be complex. We speculate it to be a three-step process: impaired maternal immunological function, fetal T-cell activation and injury of target organs. More experiments and research will be needed to prove our hypothesis. [source] Radiological protection for diagnostic examination of pregnant womenCONGENITAL ANOMALIES, Issue 1 2002Tomoko Kusama ABSTRACT, Application of diagnostic X-ray examination to pregnant women is complicated since risks to both mother and embryo/fetus must be considered. Embryos and fetuses are more sensitive to radiation than adults or children. The threshold doses for fetal death, malformations and mental retardation which are deterministic effects, are reported to be 100,200 mGy or higher. The relative risk for childhood cancer due to radiation at an absorbed dose of 10 mGy during embryonic/fetal development has been estimated at 1.4. However, the absorbed dose of the embryo/fetus during X-ray diagnostic examination in which the X-ray beam does not irradiate the embryo/fetus directly such as maternal skull and chest X-ray is extremely low, less than 0.01 mGy. Thus these diagnostic procedures are not a problem from the perspective of radiological protection of the embryo/fetus. However, for pelvic CT scan and barium enema in which the uterus is directly within the X-ray beam, the absorbed doses to the embryo/fetus are about 20,80 mGy and 10,20 mGy, respectively. Therefore, medical staff must pay careful attention to the embryo/fetus in application of these examinations. Pregnant women who were not aware of pregnancy at the time of their diagnostic exposure have great anxiety about radiation from such X-ray examinations. However, fetal doses below 100 mGy should not be considered a reason for terminating a pregnancy. [source] Reciprocal chemokine receptor and ligand expression in the human placenta: Implications for cytotrophoblast differentiationDEVELOPMENTAL DYNAMICS, Issue 4 2004Penelope M. Drake Abstract At the onset of pregnancy, the human placenta, which forms the interface between the embryo/fetus and the mother, must rapidly develop into a life-sustaining organ. The many unusual processes entailed in placental development include the poorly understood phenomenon of maternal tolerance of the hemiallogeneic cells of the conceptus, including, most remarkably, placental trophoblasts that invade the uterine wall. To investigate whether this fetal organ exerts control over the maternal immune system at the level of leukocyte trafficking, we examined placental expression of chemokines, well-known cytokine regulators of leukocyte movements. In situ hybridization revealed abundant expression of 13 chemokines in the stromal but not the trophoblast compartment of chorionic villi. Potential roles for these molecules include recruitment of the resident macrophage (Hofbauer cell) population to the villi. In parallel, cytotrophoblast production of a panel of nine chemokine receptors was assessed by using RNase protection assays. The numerous receptors detected suggested the novel possibility that the paracrine actions of chemokine ligands derived from either the villous stroma or the decidua could mediate general aspects of placental development, with specific contributions to cytotrophoblast differentiation along the pathway that leads to uterine invasion. Developmental Dynamics 229:877,885, 2004. © 2004 Wiley-Liss, Inc. [source] Using drinking in the dark to model prenatal binge-like exposure to ethanol in C57BL/6J miceDEVELOPMENTAL PSYCHOBIOLOGY, Issue 6 2008Stephen L. Boehm II Abstract Animal models of prenatal ethanol exposure are necessary to more fully understand the effects of ethanol on the developing embryo/fetus. However, most models employ procedures that may produce additional maternal stress beyond that produced by ethanol alone. We employed a daily limited-access ethanol intake model called Drinking in the Dark (DID) to assess the effects of voluntary maternal binge-like ethanol intake on the developing mouse. Evidence suggests that binge exposure may be particularly harmful to the embryo/fetus, perhaps due to the relatively higher blood ethanol concentrations achieved. Pregnant females had mean daily ethanol intakes ranging from 4.2 to 6.4 g/kg ethanol over gestation, producing blood ethanol concentrations ranging from 115 to 182 mg/dL. This level of ethanol intake produced behavioral alterations among adolescent offspring that disappeared by adulthood, including altered sensitivity to ethanol's hypnotic actions. The DID model may provide a useful tool for studying the effects of prenatal ethanol exposure in mice. © 2008 Wiley Periodicals, Inc. Dev Psychobiol 50: 566,578, 2008. [source] Phagocyte activation in preterm infants following premature rupture of the membranes or chorioamnionitisACTA PAEDIATRICA, Issue 10 2000I Nupponen Phagocyte activation was studied in 48 preterm infants, gestational age 27.3 ± 0.3 wk, birthweight 968 ± 40 g, during the first postnatal week. Human neutrophil lipocalin as a marker of neutrophil activation was measured in plasma and tracheal aspirate fractions; and lysozyme, as a marker of monocyte and macrophage activation, in plasma. The concentration of plasma human neutrophil lipocalin was 69 (46,126) ,g/l (median and quartiles), tracheal aspirate fraction fluid 213 (71,433) (,g/l and plasma lysozyme 1337 (923,1764) ,g/l. Infants born to mothers with premature rupture of the membranes or clinical chorioamnionitis (group A, n 20) had significantly higher plasma [73 (58,151) vs 53 (38,108) ,g/l; p 0.027], and tracheal aspirate fraction human neutrophil lipocalin [319 (129,540) vs 190 (57,324) ,g/l; p= 0.019], and plasma lysozyme [1739 (1356,2021) vs 1140 (739,1557) ,g/l; p 0.0001] than did infants whose mothers had intact membranes and who had no suspicion of infection (Group B, n 28). In infants born to mothers receiving corticosteroids ante partum, correlations existed between time from treatment to delivery and plasma (r 0.322, p 0.0256) and tracheal aspirate fraction human neutrophil lipocalin (r= 0.314, p 0.0096). Infants born to mothers with at risk of infection are exposed to the potentially harmful effects of activated neutrophils. Premature rupture of the membranes, even without signs of clinical infection of the mother or the fetus, is associated with phagocyte activation that may begin already in utero. Corticosteroid treatment of the mother may cause transient inhibition of neutrophil activation in the newborn. [source] Acute phase reaction in the fetus and newbornACTA PAEDIATRICA, Issue 9 2000R Bracci First page of article [source] The mother-offspring dyad and the immune systemACTA PAEDIATRICA, Issue 3 2000LÅ Hanson A. The mother and the fetus. The mother's immune system reacts against the fetus and there is therefore a risk of destruction of or damage to the fetus. We are now beginning to understand some of the mechanisms that protect the fetus, but, when these are defective, intrauterine growth retardation or abortions may ensue. However, the cytokines of this maternal immune response to the fetus also monitor different phases of pregnancy, starting with effects on the ovarium and involving preparation of the decidua for the implantation of the fertilized egg, the growth of the trophoblasts, the production of hormones important for the pregnancy and finally of the prostaglandins that induce delivery. B. The mother and the child. Human milk contains anti-idiotypic antibodies which after transfer to the offspring are capable of enhancing antibody responses. Human milk contains numerous leucocytes especially during early lactation. There is increasing evidence that milk lymphocytes are taken up by the breastfed infant, which seems to have become tolerant to maternal HLA. Breastfeeding mothers are therefore good donors of renal transplants to their breastfed offspring in adult age, too. Conclusion: It is suggested that the milk lymphocytes may be taken up by the offspring and that immunological information is thereby carried over from the mother. This mechanism may explain why breastfeeding seems to confer enhanced protection against infections also some years after the termination of breastfeeding. [source] Development of olfactory epithelium in the human fetus: Scanning electron microscopic observationsCONGENITAL ANOMALIES, Issue 3 2009Mitsuhiro Kimura ABSTRACT Aims:, Human olfactory epithelium becomes functional at birth, but prenatal development remains unclear. In the present study, we aimed to clarify the development of human olfactory epithelium using scanning electron microscopy (SEM). Methods:, The development of human olfactory epithelium was observed in 24 externally normal fetuses, which were formalin-fixed and long-preserved, with a crown-rump length (CRL) of 102,336 mm (gestational week 14,38). The olfactory mucosa in the superior wall of the nasal septum near the choana were dissected and observed under SEM. We examined the number of olfactory vesicles per unit area, diameter of olfactory vesicles, and number and length of cilia on olfactory vesicles. Results:, At circa (ca) CRL 100 mm (ca 14 weeks), olfactory epithelium displayed several olfactory vesicles with 1,2 short cilia per unit area. At ca CRL 150 mm (ca 18 weeks), olfactory vesicles were present in small clusters, and cilia were longer. At CRL lager than 225 mm (ca 26 weeks), olfactory vesicles became located separately from each other, while length and number of cilia per olfactory vesicle were further increased. Conclusion:, The present findings suggest that fetal olfactory epithelium becomes morphologically almost the same as that in adults in late gestation, much later than previously thought. [source] Heart changes in 17-day-old fetuses of diabetic ICR (Institute of Cancer Research) mothers: Improvement with maternal immune stimulationCONGENITAL ANOMALIES, Issue 1 2009Juan Claudio Gutierrez ABSTRACT Maternal diabetes mellitus is associated with increased fetal teratogenesis, including cardiovascular defects. Non-specific maternal immune stimulation with Freund's complete adjuvant (FCA) or interferon gamma (IFN,) has been associated with protection against birth malformations. Using a diabetic mouse model, late-gestation fetal heart and great vessel morphology were analyzed. Four groups of mice were used: non-diabetic females as a control group, hyperglycemic females induced by streptozotocin as a diabetic group, and diabetic females injected either with FCA or IFN,. At day 17 of gestation, females were euthanized and one fetus was arbitrarily selected per litter for fixation and sectioning. Treatment-induced changes in cardiac development were assessed from digital images of serial sections taken at standardized levels in the thorax. One-way parametric and non-parametric ANOVA and ordinal logistic regression were performed to compare the difference among groups (P < 0.05). Maternal hyperglycemia altered morphology of the late-gestation fetal mouse heart by causing ventricular chamber dilation, sectional myocardial reduction, and an increase in transversal aortic area. FCA protected the fetal heart from cavitary dilation in diabetic mothers. FCA and IFN, protected the fetal heart against reduction of myocardial area, and ascending thoracic aorta dilation. Consequences of late gestation heart chamber dilation and myocardial reduction are not yet known. Maternal immune stimulation partially protected against these developmental defects by mechanisms that remain unclear. [source] Ethanol neurotoxicity and dentate gyrus developmentCONGENITAL ANOMALIES, Issue 3 2008Takanori Miki ABSTRACT Maternal alcohol ingestion during pregnancy adversely affects the developing fetus, often leading to fetal alcohol syndrome (FAS). One of the most severe consequences of FAS is brain damage that is manifested as cognitive, learning, and behavioral deficits. The hippocampus plays a crucial role in such abilities; it is also known as one of the brain regions most vulnerable to ethanol-induced neurotoxicity. Our recent studies using morphometric techniques have further shown that ethanol neurotoxicity appears to affect the development of the dentate gyrus in a region-specific manner; it was found that early postnatal ethanol exposure causes a transitory deficit in the hilus volume of the dentate gyrus. It is strongly speculated that such structural modifications, even transitory ones, appear to result in developmental abnormalities in the brain circuitry and lead to the learning disabilities observed in FAS children. Based on reports on possible factors deciding ethanol neurotoxicity to the brain, we review developmental neurotoxicity to the dentate gyrus of the hippocampal formation. [source] Hyperthermia in utero due to maternal influenza is an environmental risk factor for schizophreniaCONGENITAL ANOMALIES, Issue 3 2007Marshall J. Edwards ABSTRACT A hypothesis is presented that the association between maternal influenza and other causes of fever during the second trimester of pregnancy and the subsequent development of schizophrenia in the child is due to the damage caused by hyperthermia to the developing amygdalohippocampal complex and associated structures in the fetal brain. Hyperthermia is a known cause of congenital defects of the central nervous system and other organs after sufficiently severe exposures during early organogenesis. The pathogenic mechanisms include death of actively dividing neuroblasts, disruption of cell migration and arborization and vascular damage. In experimental studies, hyperthermia during later stages of central nervous system development also caused damage to the developing brainstem that was associated with functional defects. This damage usually results in hypoplasia of the parts undergoing active development at the time of exposure. Recent studies have shown no evidence of direct invasion of the fetus by the influenza virus. Factors that might interact with hyperthermia include familial liability to schizophrenia, season of birth, maternal nutrition, severe stress and medications used to alleviate the symptoms of fevers. The time of the development of the fetal amygdalohippocampal complex and the changes found in its structure and associated areas of the brain are compatible with the known effects of hyperthermia. [source] Micro-focus X-ray computed tomography images of the 3D structure of the cranium of a fetus with asymmetric double malformationCONGENITAL ANOMALIES, Issue 1 2006Takashi Shibata ABSTRACT,, Reconstructed micro computed tomography (Micro-CT, µ-CT) images have revealed the detailed three-dimensional structure of the cranium of human fetal congenital anomalies for the first time. The objects were a head and a cervix of female autosite and a parasite consisting of only a head conjoined to the scapular region of the autosite of an asymmetric double malformation (asymmetric conjoined twins, heteropagus twinning) at a gestational age of 8 months. The cranium of the autosite was normal, but that of the parasite was characterized by otocephaly (agnathia, synotia, and monorhina) and almost all the cranial bones were of an abnormal shape. It is suggested that a part of occipital bone (the basioccipital and exoccipital bones), the vomer and cribriform plate were absent and this resulted in the fusion and overlapping of bilateral temporal and craniofacial bones that should have been adjacent to them. This resulted in a reformation and relocation of most of the cranial bones. Micro-CT is a useful tool to visualize the detailed bone structure which has not been clarified by the conventional dissection methods and other imaging technologies and is a powerful instrument for studying congenital anomalies. [source] Management of a Fetal Intrapericardial Teratoma: A Case Report and Review of the LiteratureCONGENITAL HEART DISEASE, Issue 1 2010Angela M. Fagiana MD ABSTRACT Intrapericardial teratomas are rare but potentially fatal. With prenatal ultrasound, early diagnosis and decision for treatment can be accomplished. However, the decision becomes to treat prenatally vs. waiting until the neonatal period for definitive surgical management. The most common sequelae of intrapericardial teratomas are pericardial effusion and often progression to hydrops. It is these sequelae that tend to guide management. Presented here is a case report of the diagnosis and management of a twin fetus with an intrapericardial teratoma, as well as a review of the literature. [source] SELECTIVE ABORTION IN BRAZIL: THE ANENCEPHALY CASEDEVELOPING WORLD BIOETHICS, Issue 2 2007DEBORA DINIZ ABSTRACT This paper discusses the Brazilian Supreme Court ruling on the case of anencephaly. In Brazil, abortion is a crime against the life of a fetus, and selective abortion of non-viable fetuses is prohibited. Following a paradigmatic case discussed by the Brazilian Supreme Court in 2004, the use of abortion was authorized in the case of a fetus with anencephaly. The objective of this paper is to analyze the ethical arguments of the case, in particular the strategy of avoiding the moral status of the fetus, the cornerstone thesis of the Catholic Church. [source] Neurobehavioral assessment from fetus to infant: The NICU network neurobehavioral scale and the fetal neurobehavior coding scaleDEVELOPMENTAL DISABILITIES RESEARCH REVIEW, Issue 1 2005Amy L. Salisbury Abstract This review provides an overview and definition of the concept of neurobehavior in human development. Two neurobehavioral assessments used by the authors in current fetal and infant research are discussed: the NICU Network Neurobehavioral Assessment Scale and the Fetal Neurobehavior Coding System. This review will present how the two assessments attempt to measure similar processes from pre to post-natal life by examining three main components of neurobehavior: neurological, behavioral and stress/reactivity measures. Assessment descriptions, strengths and weaknesses, as well as cautions and limitations are provided. © 2005 Wiley-Liss, Inc. MRDD Research Reviews 2005;11:14,20. [source] Models of white matter injury: Comparison of infectious, hypoxic-ischemic, and excitotoxic insultsDEVELOPMENTAL DISABILITIES RESEARCH REVIEW, Issue 1 2002Henrik Hagberg Abstract White matter damage (WMD) in preterm neonates is strongly associated with adverse outcome. The etiology of white matter injury is not known but clinical data suggest that ischemia-reperfusion and/or infection-inflammation are important factors. Furthermore, antenatal infection seems to be an important risk factor for brain injury in term infants. In order to explore the pathophysiological mechanisms of WMD and to better understand how infectious agents may affect the vulnerability of the immature brain to injury, numerous novel animal models have been developed over the past decade. WMD can be induced by antenatal or postnatal administration of microbes (E. coli or Gardnerella vaginalis), virus (border disease virus) or bacterial products (lipopolysaccharide, LPS). Alternatively, various hypoperfusion paradigms or administration of excitatory amino acid receptor agonists (excitotoxicity models) can be used. Irrespective of which insult is utilized, the maturational age of the CNS and choice of species seem critical. Generally, lesions with similarity to human WMD, with respect to distribution and morphological characteristics, are easier to induce in gyrencephalic species (rabbits, dogs, cats and sheep) than in rodents. Recently, however, models have been developed in rats (PND 1,7), using either bilateral carotid occlusion or combined hypoxia-ischemia, that produce predominantly white matter lesions. LPS is the infectious agent most often used to produce WMD in immature dogs, cats, or fetal sheep. The mechanism whereby LPS induces brain injury is not completely understood but involves activation of toll-like receptor 4 on immune cells with initiation of a generalized inflammatory response resulting in systemic hypoglycemia, perturbation of coagulation, cerebral hypoperfusion, and activation of inflammatory cells in the CNS. LPS and umbilical cord occlusion both produce WMD with quite similar distribution in 65% gestational sheep. The morphological appearance is different, however, with a more pronounced infiltration of inflammatory cells into the brain and focal microglia/macrophage ("inflammatory WMD") in response to LPS compared to hypoperfusion evoking a more diffuse microglial response usually devoid of cellular infiltrates ("ischemic WMD"). Furthermore, low doses of LPS that by themselves have no adverse effects in 7-day-old rats (maturation corresponding to the near term human fetus), dramatically increase brain injury to a subsequent hypoxic-ischemic challenge, implicating that bacterial products can sensitize the immature CNS. Contrary to this finding, other bacterial agents like lipoteichoic acid were recently shown to induce tolerance of the immature brain suggesting that the innate immune system may respond differently to various ligands, which needs to be further explored. MRDD Research Reviews 2002;8:30,38. © 2002 Wiley-Liss, Inc. [source] MR imaging methods for assessing fetal brain developmentDEVELOPMENTAL NEUROBIOLOGY, Issue 6 2008Mary Rutherford Abstract Fetal magnetic resonance imaging provides an ideal tool for investigating growth and development of the brain in vivo. Current imaging methods have been hampered by fetal motion but recent advances in image acquisition can produce high signal to noise, high resolution 3-dimensional datasets suitable for objective quantification by state of the art post acquisition computer programs. Continuing development of imaging techniques will allow a unique insight into the developing brain, more specifically process of cell migration, axonal pathway formation, and cortical maturation. Accurate quantification of these developmental processes in the normal fetus will allow us to identify subtle deviations from normal during the second and third trimester of pregnancy either in the compromised fetus or in infants born prematurely. © 2008 Wiley Periodicals, Inc. Develop Neurobiol, 2008 [source] Conjugate limb coordination after experience with an interlimb yoke: Evidence for motor learning in the rat fetusDEVELOPMENTAL PSYCHOBIOLOGY, Issue 4 2005Scott R. Robinson Abstract This study investigated the capacity of the E20 rat fetus to adaptively alter patterns of interlimb coordination in a prenatal model of motor learning. Fetal limb movement was manipulated with an interlimb yoke, consisting of a fine thread attached at the ankles, which created a physical linkage between two limbs. Exposure to the yoke resulted in a gradual increase in conjugate movements of the yoked limbs during a 30-min training period, which persisted after removal of the yoke. Training effects were evident when the yoke was applied to two hindlimbs, two forelimbs, or a homolateral forelimb,hindlimb pair. A savings in the rate of acquisition also was observed when fetuses experienced yoke training in a second session. These data argue that the rat fetus can respond to kinesthetic feedback resulting from variation in motor performance, which suggests that experience contributes to the development of coordinated motor behavior before birth. © 2005 Wiley Periodicals, Inc. Dev Psychobiol 47: 328,344, 2005. [source] Emergence of long-term memory for conditioned aversion in the rat fetusDEVELOPMENTAL PSYCHOBIOLOGY, Issue 3 2004Nadège Gruest Abstract Pregnant rats were subjected to garlic essential oil as the conditioned stimulus and 45 min later to LiCl as the unconditioned stimulus either on embryonic Days 15 and 16 (E15 and E16) or on 18 and 19 (E18 and E19). Control dams received only garlic, LiCl, or water. Progenies were tested on garlic drinking 6 weeks after the exposure to the stimuli via the mothers. In the E18 to 19 group, rats that were exposed to paired garlic,LiCl expressed a significant aversion for garlic. In the E15 to 16 group, no significant differences appeared between subgroups. These results confirm that an associative memory can be established before birth and suggests that this ability potentially emerges in a short time window of 3 days at the end of gestation. Moreover, it appears that a long-term memory can be acquired in utero and retained to be expressed postnatally when animals are autonomous. © 2004 Wiley Periodicals, Inc. Dev Psychobiol 44: 189,198, 2004. [source] Associative learning and memory in a chimpanzee fetus: Learning and long-lasting memory before birthDEVELOPMENTAL PSYCHOBIOLOGY, Issue 2 2004Nobuyuki Kawai Abstract We tested whether a chimpanzee fetus could form an association between an extrauterine tone and vibroacoustic stimulation (VAS) using classical conditioning treatment. Two kinds of pure tone were used as the conditioned stimuli, one where a 500-Hz tone was always followed by a VAS of 80 Hz (110 gal), the unconditioned stimulus (US), and another where a 1000-Hz tone was never followed by a VAS. This treatment was repeated 156 times in total until natural labor at 233 days of gestational age. Behavioral tests on the 33rd and 58th days after birth revealed a differential response to the tones: The infant displayed an exaggerated response to the 500-Hz tone, but not to the 1000-Hz tone. Other naïve chimpanzee infants did not show any response to either tone, which suggests that a chimpanzee fetus can distinguish between tones and form an association, and that it retains such information for at least 2 months after birth. © 2004 Wiley Periodicals, Inc. Dev Psychobiol 44: 116,122, 2004. [source] Classical conditioning in the rat fetus: Involvement of mu and kappa opioid systems in the conditioned responseDEVELOPMENTAL PSYCHOBIOLOGY, Issue 2 2002William P. Smotherman Abstract When the Embryonic Day 20 (E20) rat fetus is given a conditioning trial involving a paired presentation of an artificial nipple (the conditioned stimulus; CS) with an intraoral infusion of milk (the unconditioned stimulus; US), it shows evidence of classical conditioning when again exposed to the CS during a test trial. Specifically, the fetus shows fewer oral grasp responses (the conditioned response; CR) when continuously presented with the artificial nipple. The present study further investigated this classically conditioned reduction in oral grasping. Separate experiments (a) examined the time course of the reduction in oral grasping (Experiment 1), (b) characterized the time course of mu opioid (Experiment 2) and kappa opioid (Experiment 3) involvement in the CR, and (c) described changes in fetal behavior (Experiment 4) associated with mu and kappa opioid effects on responding to the artificial nipple. The results are discussed in terms of opioid involvement in establishing and maintaining early suckling behavior. © 2002 Wiley Periodicals, Inc. Dev Psychobiol 40: 104,115, 2002. DOI 10.1002/dev.10016 [source] Classical conditioning in the rat fetus: Temporal characteristics and behavioral correlates of the conditioned responseDEVELOPMENTAL PSYCHOBIOLOGY, Issue 2 2002William P. Smotherman Abstract This study examined the temporal characteristics and behavioral correlates of the conditioned response (CR) following classical conditioning of the embryonic Day 20 (E20 rat fetus). The conditioning procedure involved pairing of an artificial nipple (the CS) with an infusion of milk (the US) to establish classical conditioning. The test for classical conditioning involved measurement of a stimulus-evoked facial wiping response in a classical conditioning test. Experiment 1 compared the effectiveness of one- and three-trial procedures to establish classical conditioning. Experiment 2, 3, and 4 described the time course for the CR following one- and three-trial conditioning procedures. Experiments 3b and 4b describe the behavioral responses to (a) presentation of the CS at the time of conditioning, (b) infusion of the milk US at the time of conditioning, and (c) reexposure to the CS before the test for classical conditioning. Experiments 5 and 6 exposed the fetus to manipulations that either increased or decreased stretching (a behavior found to be associated with the CR). The results are discussed in terms of the temporal characteristics and behavioral correlates of conditioned and unconditioned responses and their mediation by activity in endogenous mu and kappa opioid systems. © 2002 Wiley Periodicals, Inc. Dev Psychobiol 40: 116,130, 2002. DOI 10.1002/dev.10017 [source] Intermediate metabolism in normal pregnancy and in gestational diabetesDIABETES/METABOLISM: RESEARCH AND REVIEWS, Issue 4 2003G. Di Cianni Abstract Complex though integrated hormonal and metabolic changes characterize pregnancy. In the face of progressive decline in insulin action, glucose homeostasis is maintained through a compensatory increase in insulin secretion. This switches energy production from carbohydrates to lipids, making glucose readily available to the fetus. This precise and entangled hormonal and metabolic condition can, however, be disrupted and diabetic hyperglycemia can develop (gestational diabetes). The increase in plasma glucose level is believed to confer significant risk of complications to both the mother and the fetus and the newborn. Moreover, exposition of fetal tissues to the diabetic maternal environment can translate into an increased risk for development of diabetes and/or the metabolic syndrome in the adult life. In women with previous gestational diabetes, the risk of developing type 2 diabetes is greatly enhanced, to the point that GDM represents an early stage in the natural history of type 2 diabetes. In these women, accurate follow-up and prevention strategies are needed to reduce the subsequent development of overt diabetes. This paper will review current knowledge on the modifications occurring in normal pregnancy, while outlining the mechanisms. In this paper, we will review the changes of intermediary metabolism occurring during pregnancy. In particular, we will outline the mechanisms responsible for gestational diabetes; the link between these alterations and associated maternal and neonatal morbidity will be examined. Copyright © 2003 John Wiley & Sons, Ltd. [source] Prediabetes and the big baby,DIABETIC MEDICINE, Issue 1 2008D. R. Hadden Abstract The concept of prediabetes has come to the fore again with the worldwide epidemic of Type 2 diabetes. The careful observations of W. P. U. Jackson and his colleagues in Cape Town, South Africa 50 years ago still deserve attention. Maternal hyperglycaemia cannot be the only cause of fetal macrosomia, and the pathophysiological reason for the unexplained stillbirth in late diabetic pregnancy still eludes us. The biochemical concepts of ,facilitated anabolism' and ,accelerated starvation' were developed by Freinkel as explanations of the protective mechanisms for the baby during the stresses of pregnancy. Some of these nutritional stresses may also occur in the particular form of early childhood malnutrition known in Africa as kwashiorkor, where subcutaneous fat deposition, carbohydrate intolerance, islet hyperplasia and sudden death may follow a period of excess carbohydrate and deficient protein intake. Different feeding practices in different parts of the world make comparisons uncertain, but there is evidence for insulin resistance in both the macrosomic fetus of the hyperglycaemic mother and in the child with established kwashiorkor. These adaptive changes in early development may play both a physiological and a pathological role. Worldwide studies of hyperglycaemia in pregnancy are gradually establishing acceptable diagnostic criteria, appropriate screening procedures and an evidence base for treatment. Nevertheless the challenge of prediabetes and the big baby is still with us,in Jackson's words,,diabetes mellitus is a fascinating condition,the more we know about it the less we understand it'. [source] Metformin use and diabetic pregnancy,has its time come?DIABETIC MEDICINE, Issue 3 2006G. Hawthorne Abstract The prevalence of Type 2 diabetes in women of childbearing age continues to grow as the incidence of Type 2 diabetes increases. Recent evidence shows that treatment of gestational diabetes ensures the best possible outcome for pregnancy complicated by gestational diabetes. Metformin is a logical treatment in these circumstances but there has always been concern about its safety for the fetus, particularly as it crosses the placenta and it may increase the risk of teratogenesis. Although evidence is accumulating that metformin is useful and has a role in polycystic ovary syndrome, a condition of insulin resistance, it is not yet accepted as treatment for Type 2 diabetes in pregnancy and gestational diabetes. Observational data supports the use of metformin in Type 2 diabetes in pregnancy and its role in gestational diabetes is currently under investigation. Metformin may become an important treatment for women with either gestational or Type 2 diabetes in pregnancy and indeed may have additional important benefits for women, including reducing insulin resistance, body weight and long-term risk of diabetes. There is a need for a randomized controlled trial in women with Type 2 diabetes in pregnancy with long-term follow-up of both mothers and children. Until then the best advice remains that optimized glycaemic control prior to conception and during pregnancy is the most important intervention for best possible pregnancy outcome. [source] Simultaneous Chlamydia trachomatis and HPV infection in pregnant womenDIAGNOSTIC CYTOPATHOLOGY, Issue 6 2010Sônia Maria Miranda Pereira B.Sc. Pregnancy is associated with HPV infection and with Chlamydia trachomatis (CT) infection mostly due to the natural immunosuppression. In addition, pregnancy associated to CT infection can lead to adverse conditions to the woman and fetus, and CT is also believed to be a co-factor in human immunodeficiency virus infection and HPV-induced cervical cancer. The aim of this study was to establish the odds ratios (OR) of CT infection in to HPV-infected pregnant women and vice versa of women stratified by age (<25 years) and marital status. This work is part of a national multicentric transversal study carried out in six Brazilian cities supported by the Ministry of Health of Federal Government of Brazil in 2003. Cervical scrapes of 371 pregnant women were sampled. We performed a hybrid capture-2 technique to diagnose these samples on HPV and CT infection, and the women responded a questionnaire. Significant association was observed between nonstable marital status and hr-HPV infection [OR = 2.61 (1.38,4.97) P = 0.003)], and age <25 years old [OR = 2.26 (1.09,4.71) P = 0.029]. Nonstable marital status was also associated with lr-HPV infection [OR = 2.67 (1.59,4.50) P < 0.001), and age <25 years old [OR = 2.55 (1.51,4.32) P < 0.001). Fifty of the 371 pregnant women were infected with hr-HPV (13.5%) and 111 (30.0%) were infected with lr-HPV. The coinfections of HPV and CT were found in 31 women, that is, 8.36% of the pregnant women (P < 0.001). The high rate of simultaneous CT and HPV infection in pregnant women favors the recommendation to screen pregnant women for both CT and HPV. Diagn. Cytopathol. 2010. © 2009 Wiley-Liss, Inc. [source] | |||||||||||||||||||