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1.
The role of fetal surgery in the management of congenital anomalies and intrauterine abnormalities is appropriately restricted on the basis of feasibility and risk-to-benefit analyses of intrauterine intervention. Recently, the authors demonstrated that in utero cleft palate repair of the congenital caprine model is technically feasible and results in scarless healing of the mucoperiosteum and velum, with subsequent development of a potentially functional bilaminar palate with distinct oral and nasal mucosal layers, following single-layer repair of the fetal mucoperiosteal flaps. A slight indentation at the site of repair was the only remaining evidence of a cleft. At 6 months of age, normal palatal architecture, including that of mucosal, muscular, and glandular elements, was seen grossly and histologically. The present work investigated the ultrastructural and functional aspects of the palate following in utero cleft repair to determine what benefits might be derived from fetal intervention. Six goats pregnant with twins were gavaged twice daily for 10 days (gestational days 32 to 41; term, 145 days) with dry, ground Nicotiana glauca plant delivering between 2.4 and 14 mg/kg per day of anabasine, doses that were adjusted in response to mater-nal toxicity. At 85 days' gestation, six fetuses underwent in utero palatoplasty using a modified von Langenbeck technique with elevation of bilateral mucoperiosteal flaps and lateral relaxing incisions. A single-layer repair of the mucoperiosteal flaps was performed using interrupted 6-0 Vicryl sutures. Six fetuses remained as unrepaired clefted controls. Six months after in utero palatoplasty, each group of goats underwent nasoendoscopy to evaluate palatal function; two unclefted 6-month-old goats served as controls. Subsequently, soft palate muscle was harvested from each of the goats and was evaluated by light and electron microscopy. Velar muscle was also harvested from the unclefted control goats and was similarly studied. Nasoendoscopy demonstrated functional palates capable of dynamic velopharyngeal closure following in utero cleft repair; this motion was similar to that observed in unclefted animals. Unrepaired clefted goats did not demonstrate any evidence of velar motion or velopharyngeal closure. Soft palate muscle from this group demonstrated evidence of myofibril degeneration, atrophy, and loss compared with unclefted control velar muscle. Ultrastructural changes included sarcomere "scalloping, " partial Z-line degeneration and loss, and progressive I-band degeneration and loss. Repaired clefted soft palate muscle was remarkably similar to unclefted control muscle. Significantly less myofibril, Z-line, and I-band degeneration and loss were observed with minimal evidence of sarcomere scalloping. In utero cleft palate repair results in a functional soft palate with restoration of ultrastructural architecture of the velum. These findings were attributed to reconstitution of the velar muscular sling, which is disrupted during the clefting process and remains abnormally inserted into the posterior edge of the palatal bone and along the bony cleft. Although repaired velar muscle does demonstrate some evidence of ultrastructural change compared with control muscle, these findings are significantly less pronounced than those observed in the unrepaired clefted muscle.  相似文献   

2.
The role of fetal surgery in the treatment of non-life-threatening congenital anomalies remains a source of much debate. Before such undertakings can be justified, models must be established that closely resemble the respective human anomalies, and the feasibility and safety of these in utero procedures must be demonstrated. The authors recently described and characterized a congenital model of cleft palate in the goat. The present work demonstrates the methodology they developed to successfully repair these congenital cleft palates in utero, and it shows palatal healing and development after repair. A surgically created cleft model was developed for comparative purposes. Palatal shelf closure normally occurs at approximately day 38 of gestation in the caprine species. Six pregnant goats were gavaged twice daily during gestational days 32 to 41 (term, 145 days) with a plant slurry of Nicotiana glauca containing the piperidine alkaloid anabasine; the 12 fetuses had complete congenital clefts of the secondary palate. Repair of the congenital clefts was performed at 85 days of gestation using a modified von Langenbeck technique employing lateral relaxing incisions with elevation and midline approximation of full-thickness, bilateral, mucoperiosteal palatal flaps followed by single-layer closure. Six congenitally clefted fetuses underwent in utero repair, six remained as unrepaired controls. Twelve normal fetuses underwent surgical cleft creation by excision of a 20 x 3 mm full-thickness midline section of the secondary palate extending from the alveolus to the uvula, at 85 days of gestation. Six surgically clefted fetuses underwent concurrent repair of the cleft at that time; six clefted fetuses remained as unrepaired controls. At 2 weeks of age, no congenitally or surgically created clefts repaired in utero demonstrated gross or histologic evidence of scar formation. A slight indentation at the site of repair was the only remaining evidence of a cleft. At 6 months of age, normal palatal architecture, including that of mucosal, muscular, and glandular elements, was seen grossly and histologically. Cross-section through the mid-portion of the repaired congenitally clefted palates demonstrated reconstitution of a bilaminar palate, with distinct oral and nasal mucosal layers, after single-layer repair. In utero cleft palate repair is technically feasible and results in scarless healing of the mucoperiosteum and velum. The present work represents the first in utero repair of a congenital cleft palate model in any species. The use of a congenital cleft palate model that can be consistently reproduced with high predictability and little variation represents the ideal experimental situation. It provides an opportunity to manipulate specific variables, assess the influence of each change on the outcome and, subsequently, extrapolate such findings to the clinical arena with a greater degree of relevance.  相似文献   

3.
Cerebral arteries of newborn pigs and baboons constrict to acetylcholine, suggesting that endothelium-dependent dilator mechanisms may be lacking in immature cerebral arteries. The present study tested this possibility in the immature sheep by examining the response of cerebral arterioles in fetal and newborn sheep to endothelium-dependent dilator, acetylcholine. Pial arteriolar diameter was measured in 9 anaesthetized foetuses in utero (4 preterm, 90-111 days gestation and 5 term, 128-143 days gestation) and in 5 anaesthetized, newborn lambs (14 days) using a closed cranial window with intravital microscopy. Application of acetylcholine to the pial surface induced dose-dependent increase in pial arteriolar diameter in all age groups; EC50 for acetylcholine was 0.10 +/- 0.03, 0.28 +/- 0.08 and 0.26 +/- 0.17 microM for preterm fetal, term fetal, and newborn lambs, respectively. The data demonstrate a sensitive dilator response to acetylcholine in immature fetuses as well as newborn lambs suggesting that cholinergic-mediated release of endothelium-dependent relaxing factor is functional early in gestation. The contractile response to acetylcholine observed in newborn pigs and premature baboons may reflect a species difference rather than maturational lack of endothelium-dependent dilator mechanisms.  相似文献   

4.
Transforming growth factor-beta (TGF-B1) may play an important role in developmentally active tissues in which it is found in high concentrations. We localized TGF-B1 in the developing fetal mouse palate immunohistochemically using a polyclonal antibody. Mouse fetal palates at 12-17 days (inclusive) of gestation were examined and specific focal concentrations of TGF-B1 identified regions undergoing active morphogenesis. The association of TGF-B1 with aggregates of mesenchymal cells in the palate and chondroblasts, rhabdomyocytes, and epithelia of the craniofacial complex strongly implicates its role in proliferation and differentiation in the developing mouse palate. We believe these findings have important bearing on the normal development of the palate as well as cleft anomalies.  相似文献   

5.
P A Holst  B G Mills 《Teratology》1975,11(1):57-63
One theory of the development of cleft palate in rats involves the action of lysosomal enzymes secreted by epithelial cells at the time of fusion of the palatal shelves. To test this theory we studied the biochemistry of the palates of fetal rats daily between days 14 and 19 (from 3 days before to 3 days after palate closure). Triamcinolone was administered once im on gestation day 14 to Wistar rats; 0.5 mg/kg body weight produced approximately 50% cleft palates. Pooled control palatal tissue was compared with pooled experimental tissue; that from fetuses with clefts being pooled separately from those not affected. Acid phosphatase and beta-glucuronidase were assayed. Concentration vs. time curves for both enzymes were very similar. Prior to the time of palate closure both enzymes were present in low concentration. Between days 16 and 17, the normal time of closure, there was an abrupt increased in enzyme concentration, with experimental tissue showing a significant elevation over control tissue on days 17 and 18. Alkaline phosphatase was also present in small amounts before closure and significantly higher in control tissue on day 17. Protein was depressed in palates having clefts on day 17; thus the ratio of enzyme activities to protein synthesis was significantly elevated at a critical time. Unaffected experimental palates had a normal ratio. These results suggest imbalanced acid phosphatase, beta-glucuronidase, and alkaline phosphatase activity compared with protein synthesis at the time of palate closure following triamcinolone in rats.  相似文献   

6.
C A Lorente  S A Miller 《Teratology》1978,18(2):277-284
Retinoic acid or retinyl acetate was administered to pregnant rats in doses sufficient to induce a 90% incidence of cleft palate. In another study, a delay in the reorientation of the palatal shelves was observed to be longer with the more potent teratogen, retinoic acid. On day 16 of gestation, 24 hours after final dosage with vitamin A, the synthesis of DNA and protein was studied in fetal carcass, mandible, and palate, and that of sulfated mucopolysaccharides (S-MPS) and glycoproteins (GP) in fetal head, mandible, and palate. Increases in DNA synthesis in fetal palate and in GP synthesis in fetal palate were found; thus, the mechanism of action of vitamin A in inducing cleft palates in rats may be caused by interference with the normal biochemical synthetic pattern of the palatal shelves.  相似文献   

7.
妊娠晚期胎羊宫内外科手术的实验研究   总被引:2,自引:0,他引:2  
目的 以妊娠晚期孕羊为研究对象 ,探讨宫内外科手术的可行性 ,为开展胎儿外科研究建立动物实验模型。方法 通过对妊娠 12 0d左右的 4只双胎孕羊进行宫腔手术 ,切除双胎中 1只胎羊的脚趾或唇部皮肤 ,观察妊娠结果。并取分娩后羔羊脑组织及手术切除部位皮肤作组织形态学观察和评价。结果 妊娠羊经阴道足月分娩后羔羊均成活 ,脚趾及唇部切除处未见疤痕形成 ,皮肤组织形态学观察对照组与实验组未见明显差异 ;脑组织形态学检查仅有 1例实验组羔羊有轻度病理学变化 ,与对照羔羊有差异 ,其余 3例实验羔羊与对照羔羊脑组织结构均正常 ,未见有明显的病理学改变。结论 妊娠羊经宫内胎羊外科手术后能够持续妊娠状态并经阴道自然分娩 ,产出羔羊的精神状态及病理组织学观察结果表明 ,利用妊娠晚期孕羊进行胎儿外科动物实验研究是可行的 ,为进一步开展人类先天性畸形胎儿的早期治疗奠定了动物实验基础  相似文献   

8.
Ontogeny of the circadian variation of plasma prolactin in sheep   总被引:1,自引:0,他引:1  
The ontogeny of circadian rhythms is unknown. The newborn sheep has a circadian rhythm of temperature; to study the ontogeny of other rhythms, we examined the 24-h variation of plasma prolactin concentration in fetal and newborn sheep. To this effect, we measured plasma prolactin concentration in chronically catheterized fetuses (n = 7) and in newborn lambs raised under short day nycthemeral (12 light:12 dark, n = 13) or constant light conditions (n = 5). Indwelling catheters were implanted into the jugular vein and carotid artery of late gestation fetuses (0.9 gestation) and newborns (5-29 days old). Experiments were performed 4 or more days after surgery. Lambs were kept in a canvas sling and were fed cow's milk either by mouth or through a nasogastric catheter at established time intervals. Haematocrit, pH, and blood gases were measured before and after the experiments in all cases and remained within normal values. Lights were on and room temperature was maintained constant during the whole experiment. Samples were obtained every 1-2 h for 24 h in fetuses and newborn lambs under nycthemeral conditions and every hour for 48 h in newborn lambs kept under constant light. Plasma prolactin was measured by radioimmunoassay. The presence of a 24 h rhythm was determined by Cosinor analysis. Fetuses, aged 129 +/- 6 days (SD) n = 7, showed a variation in plasma prolactin concentration with a period of 24 h that fits the equation: plasma prolactin (ng ml-1) = 97.0 + 15.4 cos 15 (t-23.0), P = 0.035.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

9.
In adult rats, when plasma osmolality increases, water flows across the blood-brain barrier down its concentration gradient from brain to plasma, and brain volume deceases. The brain responds to this stress by gaining osmotically active solutes, which limit water loss. This phenomenon is termed brain volume (water) regulation. We tested the hypothesis that brain volume regulation is more effective in young lambs and adult sheep than in fetuses, premature lambs, and newborn lambs. Brain water responses to acute hyperosmolality were measured in the cerebral cortex, cerebellum, and medulla of fetuses at 60 and 90% of gestation, premature ventilated lambs at 90% of gestation, newborn lambs, young lambs at 20-30 days of age, and adult sheep. After exposure of the sheep to increases in systemic osmolality with mannitol plus NaCl, brain water content and electrolytes were quantified. The ideal osmometer is a system in which impermeable solutes do not enter or leave in response to an osmotic stress. There were significant differences from an ideal osmometer in the cerebral cortex of fetuses at 90% of gestation, cerebral cortex, and cerebellum of newborn lambs, and cerebral cortex, cerebellum, and medulla of young lambs and adult sheep; however, there were no differences in the brain regions of fetuses at 60% of gestation and premature lambs, cerebellum and medulla of fetuses at 90% of gestation, and medulla of newborn lambs. We conclude that 1) brain water loss is maximal and brain volume regulation impaired in most brain regions of fetuses at 60 and 90% of gestation and premature lambs; 2) brain volume regulation develops first in the cerebral cortex of the fetuses at 90% of gestation and in the cerebral cortex and cerebellum of newborn lambs, and then it develops in the medulla of the lambs at 20-30 days of age; 3) brain water loss is limited and volume regulation present in the brain regions of young lambs and adult sheep; and 4) the ability of the brain to exhibit volume regulation develops in a region- and age-related fashion.  相似文献   

10.
Brief but severe asphyxia in late gestation or at the time of birth may lead to neonatal hypoxic ischemic encephalopathy and is associated with long-term neurodevelopmental impairment. We undertook this study to examine the consequences of transient in utero asphyxia in late gestation fetal sheep, on the newborn lamb after birth. Surgery was undertaken at 125 days gestation for implantation of fetal catheters and placement of a silastic cuff around the umbilical cord. At 132 days gestation (0.89 term), the cuff was inflated to induce umbilical cord occlusion (UCO), or sham (control). Fetal arterial blood samples were collected for assessment of fetal wellbeing and the pregnancy continued until birth. At birth, behavioral milestones for newborn lambs were recorded over 24 h, after which the lambs were euthanased for brain collection and histopathology assessments. After birth, UCO lambs displayed significant latencies to (i) use all four legs, (ii) attain a standing position, (iii) find the udder, and (iv) successfully suckle - compared to control lambs. Brains of UCO lambs showed widespread pathologies including cell death, white matter disruption, intra-parenchymal hemorrhage and inflammation, which were not observed in full term control brains. UCO resulted in some preterm births, but comparison with age-matched preterm non-UCO control lambs showed that prematurity per se was not responsible for the behavioral delays and brain structural abnormalities resulting from the in utero asphyxia. These results demonstrate that a single, brief fetal asphyxic episode in late gestation results in significant grey and white matter disruption in the developing brain, and causes significant behavioral delay in newborn lambs. These data are consistent with clinical observations that antenatal asphyxia is causal in the development of neonatal encephalopathy and provide an experimental model to advance our understanding of neuroprotective therapies.  相似文献   

11.
Mice homozygous for either of two mutations, chondrodysplasia (cho) or cartilage matrix deficiency (cmd), have short-limbed chondrodystrophy. This phenotype includes retrognathia, relative macroglossia, and cleft palate. It has been postulated that the cleft palate in these mice is the result of tongue obstruction during palatogenesis. Agnathia associated with microglossia is an independent spontaneously occurring defect in the strains bearing these mutations. The coincidental occurrence of agnathia-microglossia with chondrodystrophy lends itself to the study of the mechanism of cleft palate formation. We examined approximate midsagittal histological sections of normal and chondrodystrophic newborn mice, both with and without agnathia. Mandibular measurements and examinations of palate closure and tongue structure were made from photographic prints. Typical chondrodystrophic mutants with cleft palates had a mean mandibular length that was 66% of normal and a tongue that appeared large relative to the shortened mandible. Chondrodystrophic mutants with agnathia and microglossia had a mean mandibular length that was further reduced to 30% of normal, yet had a closed palate. We also observed two nonagnathic chondrodystrophic mutants that had slightly decreased mandibular lengths, microglossia, and closed palates. These observations suggest that tongue obstruction during palatogenesis is the pathogenetic mechanism of cleft palate in chondrodystrophic mice. A similar tongue obstruction hypothesis has been proposed as the mechanism of cleft palate formation in the human Pierre Robin sequence, which consists of retrognathia, glossoptosis, and cleft palate. This mechanistic hypothesis has been challenged, but our findings support the tongue obstruction hypothesis in the Robin cleft.  相似文献   

12.
Metabolic and hormonal responses to cooling the fetal sheep in utero   总被引:2,自引:0,他引:2  
The metabolic and hormonal effects of cooling 10 fetal sheep in utero (115-142 days of gestation) for 2h were studied. The fetal core temperature fell by 2.81 +/- 0.14 degrees C while the maternal temperature fell 0.86 +/- 0.15 degrees C. This hypothermia caused a significant rise in the fetal and maternal plasma glucose concentrations (P less than 0.001) and a fall in the fetal insulin concentrations (P less than 0.01). The fetal plasma lactate and cortisol concentrations rose rapidly (P less than 0.01) while the growth hormone fell (P less than 0.01) and remained low until cooling ceased when a rapid rebound occurred. There was no significant change in any of the fetal iodothyronines and no elevation of nonesterified free fatty acid concentrations, in contrast to the rapid rise (P less than 0.01) which occurred when newborn lambs were cooled. These observations demonstrate that appropriate glucose, insulin, lactate and cortisol responses to hypothermia have differentiated by 120 days of gestation. However, neither a thyroid hormone response nor an elevation in free fatty acid levels was observed. Thus not all components of the thermogenic response to hypothermia can be demonstrated in the late gestation fetail sheep in utero.  相似文献   

13.
Spontaneous, long lasting epochs of myometrial contractility, contractures, occur throughout the majority of pregnancy in sheep. Contractures are temporally related to a switch in fetal electroencephalogram (ECoG) patterns from low to high voltage. In late gestation, fetal ECoG increases in voltage. We have previously suggested that contractures may influence fetal ECoG maturation. In the present study, we hypothesized that a sustained increase in the frequency of myometrial contractures in pregnant sheep at 120-140 days gestation would accelerate maturation of the fetal ECoG. Five pregnant ewes were pulsed with oxytocin 600 microU.kg-1.min-1 intravenously for five minutes in every 30 minutes from 127.8 +/- 1.5 days gestational age for a minimum of six days. Six control ewes received pulses of saline. Fetuses of all eleven ewes were instrumented with bilateral electrodes to record fetal ECoG and nuchal muscle activity. Fetal high voltage (HV) ECoG increased in amplitude in both groups but the rate of increase was faster in the fetuses of ewes receiving oxytocin. There were no differences between the two groups in the duration of HV ECoG. The percentage increase in the amount of time the fetal nuchal muscles were active compared with the baseline day before infusion was only significant in the oxytocin infused group on the first day of oxytocin infusion. These findings support the hypothesis that myometrial activity during pregnancy has the capacity to influence fetal neural development.  相似文献   

14.
We tested the hypothesis that, during acute glucose-induced hyperosmolality, the brain shrinks less than predicted on the basis of an ideal osmometer and that brain volume regulation is present in fetuses, premature and newborn lambs. Brain water responses to glucose-induced hyperosmolality were measured in the cerebral cortex, cerebellum, and medulla of fetuses at 60% of gestation, premature ventilated lambs at 90% of gestation, newborn lambs, and adult sheep. After exposure of the sheep to increases in osmolality with glucose plus NaCl, brain water and electrolytes were measured. The ideal osmometer is a system in which impermeable solutes do not enter or leave in response to an osmotic stress. In the absence of volume regulation, brain solute remains constant as osmolality changes. The osmotically active solute demonstrated direct linear correlations with plasma osmolality in the cerebral cortex of the fetuses at 60% of gestation (r = 0.72, n = 24, P = 0.0001), premature lambs (r = 0.58, n = 22, P = 0.005), newborn lambs (r = 0.57, n = 24, P = 0.004), and adult sheep (r = 0.70, n = 18, P = 0.001). Similar findings were observed in the cerebellum and medulla. Increases in the quantity of osmotically active solute over the range of plasma osmolalities indicate that volume regulation was present in the brain regions of the fetuses, premature lambs, newborn lambs, and adult sheep during glucose-induced hyperosmolality. We conclude that, during glucose-induced hyperosmolality, the brain shrinks less than predicted on the basis of an ideal osmometer and exhibits volume regulation in fetuses at 60% of gestation, premature lambs, newborn lambs, and adult sheep.  相似文献   

15.
Comparative studies of the blood of newly born goats and sheep have indicated a number of mechanisms which are responsible for a decreasing affinity for molecular oxygen in these developing animals during the first 40 to 60 days after birth.
The concentration of 2,3-DPG in the red cells of young goats increases four to sixfold during the first 3 to 4 days of life, and this increase is associated with a marked decrease in the cellular pH; 2,3-DPG does not bind to hemoglobins of goats and the decreased affinity for oxygen of goat blood at this period is apparently due to the lowered pH produced by the large increase of intracellular anions. Similar changes occur in young lambs.
After 15 to 20 days the changes of the dissociation curve are related more to structural differences between adult and fetal hemoglobins; cellular pH moves closer to the values of adult red cells. In goats of this age the predominate hemoglobins are those with β chains and these have dissociation curves shifted further to the right than other adult hemoglobins.
In young lambs Hb-C is found only in association with Hb-A but the amount present seldom exceeds 5 to 10%. The oxygen affinities of sheep Hb-A and Hb-C are identical but higher than that of sheep Hb-B.  相似文献   

16.
17.
Clinical and laboratory observations show that denial of free communication between the amniotic fluid and lung fluid results in pulmonary hypoplasia. Thus, cleft palate resulting from tongue obstruction to palatal shelf elevation might be associated with disturbed lung development. This association exists in the Pena-Shokeir phenotype. The goal of these experiments was to see what effect bromodeoxyuridine (BUdR)-induced cleft palate had on lung development. LACA mice were injected with 500 mg/kg BUdR on E11 or E11 and E12 of gestation, a treatment known to produce a 25% and 50% incidence of cleft palate, respectively. BUdR had a direct retarding effect on lung growth but, when cleft palate occurred as well, the lungs were more severely affected. Morphometry showed that lungs from fetuses with cleft palate had only one-half the saccular volume of controls or of treated fetuses with normal palates. Although hypoplastic, lungs associated with cleft palate had type I and type II pneumocytes, and the latter were shown by electron microscopy to be capable of producing surfactant. Hence, cellular differentiation had not been affected by the treatment. Fetuses with cleft palate had less amniotic fluid than controls but significantly more than those with normal palates after treatment. Thus, the pattern of abnormalities in this animal model bears some resemblance to that of the human Pena-Shokeir phenotype.  相似文献   

18.
K Harper  R Burns  R P Erickson 《Teratology》1981,23(3):397-401
Concentrations of adenosine 3':5' cyclic monophosphate (cAMP) were measured in the tongues and palates of 14.5-day-old fetuses from control and methylmercury-treated mothers of four inbred lines of mice which represent the four possible combinations of two H-2 alleles and two residual genetic backgrounds. The incidence of cleft palate in fetuses from control and methylmercury-treated mothers was also examined. The H-2 alleles significantly affected the degree of reduction of cAMP concentration in palates seen in fetuses from mothers treated with methylmercury. Neither the H-2 allele nor the residual genetic background played a role in the effect of methylmercury on cAMP concentrations in fetal tongues. The magnitude of increase in the incidence of cleft palate with methylmercury treatment was approximately the same for all lines. Thus, methylmercury-induced cleft palate may not be mediated by the reduction of cAMP. Finally, fetuses with cleft lip had increased palatal cAMP levels, whether or not they were from control or methylmercury treated mothers.  相似文献   

19.
Fetal cardiovascular responses to an altered intrauterine environment of increased myometrial contractures induced by oxytocin (OT) pulses to the ewe over the final 50 days of gestation were studied in chronically instrumented sheep. Ewes received saline (Cntl) or long-term OT treatment (LTOT, 600 microU x kg(-1) x min(-1) in 5-min pulses every 20 min) from 96 days gestational age. Fetal baroreflex responses to sodium nitroprusside (SNP) and phenylephrine (PE) were studied at 133 days gestation. OT increased contractures in LTOT ewes. Fetal blood pressure (FBP) was higher, and fetal heart rate (FHR) and slope of daily change in FBP and FHR were lower in LTOT fetuses. Fetal SNP-induced hypotension resulted in a narrow R-R interval variation range in LTOT fetuses; Cntl fetuses showed early breakdown in compensation. Baroreflex response slope during PE-induced fetal hypertension was lower in LTOT than in Cntl fetuses. Although the cortisol-to-ACTH ratio was lower in LTOT fetuses, fetal plasma ACTH and cortisol changes were similar in control and LTOT fetuses. We hypothesize that contracture-induced alterations in the intrauterine environment accelerate fetal cardiovascular development through mild hypoxemia, repetitive fetal pituitary-adrenal stimulation, and/or physical stimulation.  相似文献   

20.
Studies were performed to test the hypothesis that the absence of adrenal glucocorticoids late in gestation alters sympathetic and baroreflex responses before and immediately after birth. Fetal sheep at 130-131 days gestation (term 145 days) were subjected to bilateral adrenalectomy before the normal prepartum increase in plasma cortisol levels. One group of fetuses (n = 5) received physiological cortisol replacement with a continuous infusion of hydrocortisone (2 mg x day(-1) x kg(-1) for 10 days), whereas the other group received 0.9% NaCl vehicle (n = 5). All animals underwent a second surgery 48 h before the study for placement of a renal nerve recording electrode. Heart rate (HR), mean arterial blood pressure (MABP), renal sympathetic nerve activity (RSNA), and baroreflex control of HR and RSNA were studied before and after cesarean section delivery. At the time of study (140-141 days gestation), fetal plasma cortisol concentration was undetectable in adrenalectomized (ADX) fetuses and 58 +/- 9 ng/ml in animals receiving cortisol replacement (ADX + F). Fetal and newborn MABP was significantly greater in ADX + F relative to ADX animals. One hour after delivery, MABP increased 13 +/- 3 mmHg and RSNA increased 91 +/- 12% above fetal values in ADX + F (both P < 0.05) but remained unchanged in ADX lambs. The midpoint pressures of the fetal HR and RSNA baroreflex function curves were significantly greater in ADX + F (54 +/- 3 and 56 +/- 3 mmHg for HR and RSNA curves, respectively) than ADX fetuses (45 +/- 2 and 46 +/- 3 mmHg). After delivery, the baroreflex curves reset toward higher pressure in ADX + F but not ADX lambs. These results suggest that adrenal glucocorticoids contribute to cardiovascular regulation in the late-gestation fetus and newborn by modulating arterial baroreflex function and sympathetic activity.  相似文献   

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