Meta-analysis of the effect of duration of labour on postpartum haemorrhage.

OBJECTIVES: To evaluate the relationship between stages of labour and the risk of postpartum haemorrhage (PPH) and provide evidence for clinical application. MATERIAL AND METHODS: Manual searches were undertaken, and computer searches of PubMed, MEDLINE, Web of Science, CNKI, Wanfang and Wipu databases with a search window from database creation to April 2022 were conducted to procure relevant studies on the relationship between labour phase and PPH. The articles included in this study were evaluated for quality, and RevMan 5.3 software was used for meta-analysis. RESULTS: Meta-analysis showed that the incidence of PPH in women with weak uterine contractions was 27.5%, compared with 18.1% in women with normal contractions [relative risk (RR) = 1.60; 95% confidence interval (CI) 1.38, 1.85; p < 0.01]. There was a statistically significant difference in the incidence of PPH in pregnant women with a prolonged second stage of labour (≥ 2 h) (34.5%) compared with those whose second stage of labour was normal in duration (15.9%) (RR = 0.20; 95% CI 0.15, 0.25; p < 0.01). The incidence of PPH was 52.1% in pregnant women with a prolonged third stage of labour (≥ 15 min) compared with 20.9% in those whose third stage of labour was of normal duration (RR = 3.53; 95% CI 2.75, 4.52; p < 0.01). The difference in the incidence of a prolonged third stage of labour in pregnant women with weak contractions compared with those with normal contractions was statistically significant (72.3% vs 15.5%) (RR = 0.47; 95% CI 0.35, 0.60; p < 0.01). CONCLUSIONS: Duration of labour is associated with the development of PPH, and the risk of PPH is increased in women with weak contractions or with a prolonged second or third stage of labour.

Optimization Strategy in Hydrogen Storage Performance of Ti─V─Cr─Mn Alloys via LiAlH4.

V-based solid solution materials hold a significant position in the realm of hydrogen storage materials because of its high hydrogen storage capacity. However, the current dehydrogenation temperature of V-based solid solution exceeds 350 °C, making it challenging to fulfill the appliance under moderate conditions. Here advancements in the hydrogen storage properties and related mechanisms of TiV1.1Cr0.3Mn0.6 + x LiAlH4 (x = 0, 5, 8, 10 wt.%) composites is presented. According to the first principle calculation analysis, the inclusion of Al and Li atoms will lower the binding energy of hydride, thus enhancing the hydrogen absorption reaction and significantly decreasing the activation difficulty. Furthermore, based on crystal orbital Hamilton population (COHP) analysis, the strength of the V─H and Ti─H bonds after doping LiAlH4 are reduced, leading to a decrease of the hydrogen release activation energy (Ea) for the V-based solid solution material, thus the hydrogen release process is easier to carry out. Additionally, the structure of doped LiAlH4 exhibits an outstanding hydrogen release rate of 2.001 wt.% at 323 K and remarkable cycling stability.

Interfacial Engineering of Fluorinated TiO2 Nanosheets with Abundant Oxygen Vacancies for Boosting the Hydrogen Storage Performance of MgH2.

The interaction between fluorinated surface in the partially reduced nano-crystallite titanium dioxide (TiO2-x (F)) and MgH2 is studied for the first time. Compared with pristine MgH2 (416 °C), the onset desorption temperature of MgH2 +5 wt.% TiO2-x (F) composite can be dramatically lowered to 189 °C. In addition, the composite exhibits remarkable dehydrogenation kinetics, which can release 6.0 wt.% hydrogen thoroughly within 6 min at 250 °C. The apparent activation energy for dehydriding is decreased from 268.42 to 119.96 kJ mol-1 . Structural characterization and theoretical calculations indicate that the synergistic effect between multivalent Ti species, and the in situ formed MgF2 and MgF2-x Hx is beneficial for improving the hydrogen storage performance of MgH2 . Moreover, oxygen vacancies can accelerate the electron transportation and facilitate hydrogen diffusion. The study provides a novel perspective on the modification of MgH2 by fluorinated transition metal oxide catalyst.

Fetal origins of obesity: a novel pathway of regulating appetite neurons in the hypothalamus of growth-restricted rat offspring.

PURPOSE: Fetal growth restriction causes a series of sequelae, some of which, such as hyperphagia, reduced satiety and postnatal obesity, are believed to be associated with embryonic hypothalamic neurons impairment. The mechanisms underlying the linkage of fetal brain injuries to break the energy homeostasis have not been elucidated completely. Here, we aim to investigate the effect of intrauterine energy restriction on remodeling appetite neurons in the hypothalamus of fetal and postnatal infant rats. METHODS: Low-protein (8%) diet combined with 75% energy restriction was used to establish an animal model. Rats offspring brain tissues, harvested from embryo day 18 and postnatal infant day 1, were sampled for dependent regulator analyses and master neuron assessment. RESULTS: Growth-restricted rats showed the increased expression of Bsx and NPY in the hypothalamus as well as remodeling hypothalamic neurons differentiation compared to controls. Intriguingly, in cells cultured in vitro test, we found that activated effects of Bsx and NPY could be exacerbated by DNMT1 inhibitor. CONCLUSIONS: In embryonic and early postnatal stage of FGR rats, we detected high concentrations of orexigenic neurons in the hypothalamus. DNMT1 activity is correlated with early embryonic neurogenesis by mediating the expression of Bsx and NPY. It may be one of the reasons for the abnormal development of the appetite regulation pathway and higher susceptibility to obesity in FGR offspring.

Salivary carbonic anhydrase II in winged aphid morph facilitates plant infection by viruses.

Aphids are the most common insect vector transmitting hundreds of plant viruses. Aphid wing dimorphism (winged vs. wingless) not only showcases the phenotypic plasticity but also impacts virus transmission; however, the superiority of winged aphids in virus transmission over the wingless morph is not well understood. Here, we show that plant viruses were efficiently transmitted and highly infectious when associated with the winged morph of Myzus persicae and that a salivary protein contributed to this difference. The carbonic anhydrase II (CA-II) gene was identified by RNA-seq of salivary glands to have higher expression in the winged morph. Aphids secreted CA-II into the apoplastic region of plant cells, leading to elevated accumulation of H+. Apoplastic acidification further increased the activities of polygalacturonases, the cell wall homogalacturonan (HG)-modifying enzymes, promoting degradation of demethylesterified HGs. In response to apoplastic acidification, plants accelerated vesicle trafficking to enhance pectin transport and strengthen the cell wall, which also facilitated virus translocation from the endomembrane system to the apoplast. Secretion of a higher quantity of salivary CA-II by winged aphids promoted intercellular vesicle transport in the plant. The higher vesicle trafficking induced by winged aphids enhanced dispersal of virus particles from infected cells to neighboring cells, thus resulting in higher virus infection in plants relative to the wingless morph. These findings imply that the difference in the expression of salivary CA-II between winged and wingless morphs is correlated with the vector role of aphids during the posttransmission infection process, which influences the outcome of plant endurance of virus infection.

Effects of Wx Genotype, Nitrogen Fertilization, and Temperature on Rice Grain Quality.

Quality is a complex trait that is not only the key determinant of the market value of the rice grain, but is also a major constraint in rice breeding. It is influenced by both genetic and environmental factors. However, the combined effects of genotypes and environmental factors on rice grain quality remain unclear. In this study, we used a three-factor experimental design to examine the grain quality of different Wx genotypes grown under different nitrogen fertilization and temperature conditions during grain development. We found that the three factors contributed differently to taste, appearance, and nutritional quality. Increased Wx function and nitrogen fertilization significantly reduced eating quality, whereas high temperature (HT) had almost no effect. The main effects of temperature on appearance quality and moderate Wx function at low temperatures (LTs) contributed to better appearance, and higher nitrogen fertilization promoted appearance at HTs. With regard to nutritional quality, Wx alleles promoted amylose content (AC) as well as starch-lipids content (SLC); nitrogen fertilization increased storage protein content (PC); and higher temperature increased lipid content but decreased the PC. This study helps to broaden the understanding of the major factors that affect the quality of rice and provides constructive messages for rice quality improvement and the cultivation of high-quality rice varieties.

Excellent Vacuum Pulsed Flashover Characteristics Achieved in Dielectric Insulators Functionalized by Electronegative Halogen-Phenyl and Naphthyl Groups.

Designing electrical insulation materials with excellent surface flashover strength in a vacuum environment is crucial for high-power equipment and aerospace devices. In the present paper, the effect of two types of electronegative groups, the halogen-phenyl groups and the aromatic π-conjugated naphthyl groups, is used to greatly improve the vacuum flashover characteristics of polystyrene (PS), a commonly used polymer dielectric material in high-power devices. By polymerization of the monomers containing these electronegative groups, the bulk insulation material as a whole is modified expediently. In comparison to the base polymer PS, the electron affinity of the structures containing strong electronegative groups is studied with first-principles calculations based on the density functional theory. The nanosecond pulsed vacuum flashover testing results show that the vacuum flashover strength is increased by 10% after replacing the PS pendant phenyl groups with fluorophenyl groups and increased by 44% when replaced with the naphthyl groups. Furthermore, the thermally stimulated current and secondary electron emission yield spectroscopies are measured, to study the influence of strong electronegative groups on the trapping characteristics and further the electron-emitting features of the polymer dielectrics, which are closely related to the charged particle multiplication process during the vacuum flashover. The results prove that introducing strong electronegative groups can inhibit the triggering of vacuum flashover, suppress the electron emission, delay the flashover process, and thus greatly increase the vacuum flashover voltage. The study of this paper not only puts forward two groups of easily processable polymers with excellent vacuum flashover strength but also paves ways for the future material design of special insulation polymers.

FoxO1 Regulates Neuropeptide Y and Pro-opiomelanocortin in the Hypothalamus of Rat Offspring Small for Gestational Age.

Adulthood obesity, diabetes, and metabolic diseases are associated with small for gestational age (SGA) newborns. This association could be related to abnormal appetite signaling pathways in the hypothalamus. This study investigated the appetite regulation by the hypothalamus of SGA newborns by establishing an SGA rat model and culturing SGA neural progenitor cells (NPCs) in vitro. Models of SGA were established by maternal food restriction embryonic day 10 (E10). At E18, postpartum day 1 (P1), and P5, hypothalamic neural precursor cells (NPCs) of offspring were cultured in vitro. Immunofluorescence, Western blot (WB), and qRT-PCR were used to assess NPY, POMC, and FoxO1 expression levels. The effects on mRNA expression of the FoxO1-specific inhibitor AS1842856 were examined. The results indicated that compared with controls, NPY was higher, and POMC was lower at embryonic day 18 (E18), postpartum day 1 (P1), and P5. The proliferation and migration of NPCs in the third ventricle of SGA hypothalami were lower than in controls. After treatment with the FoxO1 inhibitor AS1842856, the differences in the mRNA expression of NPY and POMC between the two groups disappeared. NPY and POMC mRNA levels in the SGA group treated with AS1842856 were not significantly different compared with the control group without AS1842856 treatment. In conclusion, SGA pups showed an increase in appetite-promoting NPY and a decrease in appetite-reducing POMC, probably contributing to adulthood weight gain, obesity, and endocrine disorders.

LC-MS-based metabolomics reveals metabolite dynamic changes during irradiation of goat meat.

The current study applied an untargeted metabolomics approach by ultra high performance liquid chromatography quadrupole-orbitaltrap high resolution mass spectrometry (UHPLC-Q-Oritrap-MS) to identify the chemical composition of irradiated goat meat and investigate the effect of irradiation on its metabolic profile and meat quality. A total of 103 metabolites were identified as differential metabolites responsible for metabolic changes in irradiated goat meat, which were involved in phenylalanine, tyrosine and tryptophan biosynthesis, phenylalanine metabolism and purine metabolism. Differential metabolites comprising amino acids, nucleotides and their derivatives were determined as the discriminating factors responsible for the meat quality during irradiation. Specifically, the levels of L-phenylalanine, L-isoleucine, L-histidine, guanosine, guanine, creatinine, glutathione and nicotinic acid were increased while inosine 5'-monophosphate (IMP) and guanosine 5'-monophosphate (GMP) were decreased. Overall, except for L-phenylalanine and guanine, other related metabolites significantly decreased with storage. This study contributes to a comprehensive understanding of the effect of irradiation doses and storage time on goat meat metabolism at the molecular level, so as to assess the quality of irradiated goat meat. Satisfactory results with linearity (R2 > 0.995), precision (RSD less than 8.9%) and recovery (83%-106%) were obtained, demonstrating that the untargeted mebabolomics approach was appropriate for monitoring the changes of small molecular metabolites in irradiated goat meat and irradiation is a feasible method for goat meat preservation.

Fas, Caspase-8, and Caspase-9 pathway-mediated bile acid-induced fetal cardiomyocyte apoptosis in intrahepatic cholestasis pregnant rat models.

AIM: Intrahepatic cholestasis of pregnancy (ICP) is a specific complication in the middle and late pregnancy and has been recognized as one of the high-risk pregnancy for sudden fetal death. In this study, we aimed to investigate the role of Fas, Caspase-8, and Caspase-9 pathways in the internal relations of fetal myocardial apoptosis in ICP rat models, thus resulting in fetal intrauterine death. Furthermore, we researched whether ursodeoxycholic acid (UDCA) promoted benefits in fetal cardiomyocyte apoptosis. MATERIALS AND METHODS: To establish ICP rat models, on the 15th day of pregnancy, rats were injected 17α-ethynyl estradiol (EE2). Meanwhile, in experimental group, pregnant rats were treated with EE2 + UDCA. All rats were sacrificed on the 21st day of pregnancy. The expression levels of Fas, Caspase-8, and Caspase-9 were examined by western blot and real-time polymerase chain reaction analysis. Fetal rat cardiac tissues were removed and stained for pathological evaluation. In addition, we observed fetal myocardial structure by using transmission electron microscopy. RESULTS: We detected high concentrations of bile acids and transaminase in the fetal circulation. And we found increased expression levels of Fas, Caspase-8, and Caspase-9 proteins and mRNA in the fetal cardiomyocyte in EE2-treated group but not in control- or EE2 + UDCA-treated groups. Furthermore, compared to controls, EE2-treated rats exhibited severe fetal myocardial structure damage and the apoptotic bodies by using transmission electron microscopy. UDCA reversed the impairment of fetal cardiomyocytes. CONCLUSION: Our study has led to research into the association between activation of Fas, Caspase-8, and Caspase-9 pathways and bile acid-induced fetal cardiomyocyte apoptosis, which may be one of the mechanisms on fetal cardiac death in ICP. More importantly, UDCA may improve the adverse outcome of fetus.

Effect of irradiation treatment on the lipid composition and nutritional quality of goat meat.

The knowledge of the changes in the lipid species in irradiated goat meat is expected to clarify the beneficial effects of irradiation on meat preservation. This study explored the characteristic lipid composition and the changes in irradiated goat meat based on quantitative lipidomics strategy by LC-MS. Totally, 12 subclasses of 174 lipids were identified with significant differences (p < 0.05, VIP > 1), and the absolute quantitative analysis of characteristic lipids was achieved. Significant lipid variables were involved in the major pathways of glycerophospholipid and sphingolipid metabolism. Moreover, significant increases during irradiation were found in total TG, PC, PE, LPE, Cer, LPC and SPH, while the total DG, PS, PG, PI and SM decreased after irradiation. Noteworthily, DHA-enriched PC (18:4/22:6) + H, a core nutrient for human health, exhibited an increase in the irradiated group. These results provide a basis for lipid quantitative alterations in irradiated goat meat and application of irradiation in meat preservation.

Health risk assessment of total exposure from cadmium in South China.

Heavy metal pollution and hazards are a global major concern. Heavy metals can be directly or indirectly harmful to humans through ingestion, inhalation, and deraml. According to the literature survey, cadmium (Cd) total exposure assessment and health risk assessment were performed in a population group from South China. Results showed that the Cd contents in PM2.5 and vegetables exceeded national standard limits. The same sources of Cd pollution contributed to different media; the main sources were artificial industrial activities such as electroplating, mining and smelting. The average daily dose of Cd via ingestion exceeded the provisional tolerable monthly intake proposed by the Joint Expert Committee on Food Additives (JECFA). Multimedia exposure via all three pathways followed the order 0-5-year-old children (3.26 × 10-3 mg kg-1·d-1)>6-17-year-old children (1.46 × 10-3 mg kg-1·d-1)>adults (1.18 × 10-3 mg kg-1·d-1). The exposure from point source pollution was quite different from the results for nonpoint sources. Ingestion was the exposure pathway that contributes the largest proportion of multipathway and multimedia total exposure, accounting for over 99% of the total exposure in different populations. Staple foods, vegetables and meat were the three main exposure media for ingestion. The hazard quotients of multipathway and multimedia exposure to Cd in different populations were 5.57, 2.87 and 2.26, respectively, all at unacceptable risk levels. This study highlights the importance of multipathway and multimedia in the health risk assessment of heavy metal exposure in South China, and provides risk management measures to reduce noncarcinogenic health risks.

Unraveling proteome changes of irradiated goat meat and its relationship to off-flavor analyzed by high-throughput proteomics analysis.

Irradiation has been regarded as a perspective preservation technology to prolong the shelf life of goat meat. In order to evaluate the effect of irradiation on goat meat, the high-throughput proteomics was applied to observe the proteome profiles changes and off-flavor formation of irradiated goat meat. A total of 207 proteins with significant changes (fold change > 2 or < 0.5, P < 0.05, VIP > 1) was determined in five irradiation doses (0, 1, 2, 4 and 6 kGy). Among them, 26 proteins involving 7 functional enrichments terms were found to be related to off-flavor. Particularly, proteins involved in protein oxidation, cysteine and methionine metabolism lead to irradiation off-flavor formation. However, the irradiation off-flavor will gradually dissipate due to metabolic process during storage. This study was designed to provide a proteomic insight into irradiation off-flavor of goat meat and suggest an underlying connection between off-flavor formation and biological processes.

The effect of maternal high-fat-diet mediated oxidative stress on ovarian function in mice offspring.

A maternal high-fat diet (HFD) has been shown to exert deleterious effects on fetal programming by impairing embryo growth, and exerts a long-term effect on the health of offspring. The present study aimed to evaluate the effect of a maternal HFD on the ovaries of offspring from the perspective of oxidative stress. Female C57BL/6J mice were randomly assigned to four groups fed various HFDs during the preconception (4 weeks) and gestation-lactation periods. Offspring were fed a normal diet after weaning, and serum and ovaries were collected at 10 weeks of age. The developmental status of follicles was observed using hematoxylin and eosin staining. The serum oxidative stress levels and insulin resistance were detected using ELISA test kits. The expression of phosphorylated form of H2AX histone variant (γH2AX), forkhead box protein O3a (FOXO3a), Bcl-2-like protein 11 (Bim)and insulin-like growth factor (IGF)-1 in ovarian tissue was analyzed using reverse transcription-quantitative PCR and western blot analyses to further explore the pathogenic mechanism. Prenatal exposure to a maternal HFD resulted in a reduced number of primordial and preantral follicles in the ovaries of offspring. Exposure to an HFD in the preconception period exerted a greater effect on the offspring compared with exposure to an HFD in the gestation-lactation period. A reduction in fat intake during the preconception, gestation and lactation periods significantly reduced the associated adverse outcomes. The expression of genes (FOXO3a, IGF-1, γH2AX and Bim) involved in oxidative stress showed a decreasing trend (high-fat/high-fat>high-fat/control>control/high-fat >control/control) in the ovaries of offspring. Overall, HFD exposure during the preconception period exerted a greater effect on offspring compared with HFD exposure during the gestation-lactation period. The long-term effect on follicular growth and development may be associated with increased oxidative stress and the activation of the insulin/PI3K/Akt pathway.

Recent advances in Baijiu analysis by chromatography based technology-A review.

Baijiu, a conventional fermented beverage with thousands history, plays a crucial part in physical health of people and social culture in China. The application of high-throughput screening and confirmation of flavor components in the field of authenticity identification and potential function has attracted more and more attention and interest of researchers. With more attention to health, pesticides residues, phthalates, biogenic amines and other hazardous substances remained in Baijiu have also become the quality parameters concerned by consumers. This review aims to present updated and critical overview on the substances analysis of Baijiu by means of hyphenated chromatographic techniques based on various pretreatment approaches in recent years. Subsequently, the advance and main direction of Baijiu composition analysis were evaluated and prospected.

Maternal exposure to a high-fat diet showed unfavorable effects on the body weight, apoptosis and morphology of cardiac myocytes in offspring.

OBJECTIVE: The study intends to explore the functions of maternal high-fat diet exposure on progeny weight and heart. METHODS: Sprague-Dawley (SD) rats, fed on a high-fat diet, were used to establish a model of weight gain before and during pregnancy. The body and cardiac weight of neonatal, 1-month- and 3-month-old rats were measured. The morphology of myocardial cells was observed by hemotoxylin and eosin (H&E) staining. The expression of caspase-3, 8, 9 was measured by qRT-PCR and western blot. RESULTS: Normal pregnant rats, fed on a high-fat diet throughout pregnancy, had a significant increase in body and cardiac weight of their neonates, and more fat deposition in myocardial cells and an increased expression of caspase-3, 8, 9, compared with that of the normal pregnant rats + normal diet group. These phenomena were relieved through later diet control. Pregnant rats, which fed on a high-fat diet throughout pregnancy, showed more adverse effects on neonatal body and cardiac weight, myocardial cell fat deposition, and the expression of caspase-3, 8, 9, compared with pregnant rats exposed to high-fat diet + normal diet and pregnant rats exposed to high-fat diet + normal diet + exercise. These phenomena cannot be fully restored via controlling later diet. CONCLUSIONS: Our results stated that a proper diet before and during pregnancy was important for the cardiac health of offspring.

A strategy of untargeted foodomics profiling for dynamic changes during Fu brick tea fermentation using ultrahigh-performance liquid chromatography-high resolution mass spectrometry.

During a microbial fermentation process, the chemical composition of Fu brick tea changed substantially. To better profile the unique changes of metabolites and lipids in Fu brick tea at different fermentation stages, a multifaceted strategy combining untargeted foodomics with UHPLC-Q-Orbitrap analysis was developed. The discriminative tea metabolites and lipids were determined by statistical analysis and online database matching. A total of 12 characteristic components (3 metabolic and 9 lipid variables) were found to differ significantly among samples. Quantitative analysis showed that, except for trimyristin and incensole acetate, the content of these compounds gradually increased and finally stabilized with increasing fermentation time. The simultaneous determination of metabolites and lipids in this study provided detailed information for the analysis of multi-component changes in a complex matrix.

Demodulation of an optical fiber MEMS pressure sensor based on single bandpass microwave photonic filter.

In this paper, a demodulation method for optic fiber micro-electromechanical systems (MEMS) extrinsic Fabry-Perot interferometer (EFPI) pressure sensor exploiting microwave photonics filter technique is firstly proposed and experimentally demonstrated. A single bandpass microwave photonic filter (MPF) which mainly consists of a spectrum-sliced light source, a pressurized optical fiber MEMS EFPI, a phase modulator (PM) and a length of dispersion compensating fiber (DCF) is demonstrated. The frequency response of the filter with respect to the pressure is studied. By detecting the resonance frequency shifts of the MPF, the pressure can be determined. The theoretical and experimental results show that the proposed EFPI pressure demodulation method has a higher resolution and higher speed than traditional methods based on optical spectrum analysis. The sensitivity of the sensor is measured to be as high as 86 MHz/MPa in the range of 0-4Mpa. Moreover, the sensitivity can be easily adjusted.

The Interaction of PPARα and CYP7B1 with ERα, ß Impacted the Occurrence and Development of Intrahepatic Cholestasis in Pregnant Rats.

Intrahepatic cholestasis of pregnancy (ICP) is a disorder of bile acid (BA) synthesis, excretion, and metabolism, with systemic accumulation of BAs, which can lead to prematurity, fetal distress, and intrauterine death. Here, we investigate the expression of peroxisome proliferator-activated receptor alpha and cytochrome P450 oxysterol 7alpha-hydroxylase by exposing to 17α-ethynylestradiol with or without the estrogen receptor signaling pathway in pregnant rats with intrahepatic cholestasis. In vivo and in vitro evidences showed that estrogen receptor alpha (ERα) may be the key point of occurrence and development of intrahepatic cholestasis in pregnant rats. Besides, the abnormalities in genes could be reversed by ERα small interfering RNA. Our findings provide the ERα-centered hypothesis on the mechanisms of ICP. New perspectives are emerging for the treatment of estrogen-induced hepatic complication.

Expression of neuropeptide Y and pro-opiomelanocortin in hypothalamic arcuate nucleus in 17α-ethinyl estradiol-induced intrahepatic cholestasis pregnant rat offspring.

AIM: The purpose of this study was to investigate the expression of neuropeptide Y (NPY) and pro-opiomelanocortin (POMC) in the hypothalamic arcuate nucleus of intrahepatic cholestasis pregnant (ICP) offspring. METHODS: The model of ICP rats was established by injecting s.c. 17α-ethinyl estradiol. The expression of NPY and POMC in female offspring was determined by quantitative real-time reverse transcription polymerase chain reaction, western blotting and immunohistochemistry at birthday and 6 months. RESULTS: ICP group offspring had lower bodyweight at birthday. ICP offspring were markedly heavier than control offspring after 6 months. mRNA and protein expression of NPY and POMC significantly increased at 6 months as compared with the birthday among control offspring. Among ICP offspring, mRNA and protein expression of NPY and POMC also were higher at 6 months than at birthday. The mRNA and protein expression of NPY were higher in ICP offspring than that of control offspring at birthday. The mRNA and protein expression of POMC were decreased in ICP offspring than that of control offspring. After 6 months, the mRNA expression and protein expression of NPY also were higher in ICP offspring than that of control offspring. The mRNA expression and protein expression of POMC also were decreased in ICP offspring than that of control offspring. The results were confirmed by immunohistochemistry. CONCLUSION: ICP offspring demonstrated evidence of persistent appetite stimulation with significantly upregulated NPY expression and reduced POMC expression at birthday and 6 months. ICP offspring showed a hunger state and then gained weight.