Effects of maternal methyl donor intake during pregnancy on ileum methylation and function in an intrauterine growth restriction pig model

Background Intrauterine growth retardation(IUGR)affects intestinal growth,morphology,and function,which leads to poor growth performance and high mortality.The present study explored whether maternal dietary methyl donor(MET)supplementation alleviates IUGR and enhances offspring’s growth performance by improving intestinal growth,function,and DNA methylation of the ileum in a porcine IUGR model.Methods Forty multiparous sows were allocated to the control or MET diet groups from mating until delivery.After farrowing,8 pairs of IUGR and normal birth weight piglets from 8 litters were selected for sampling before suckling colostrum.Results The results showed that maternal MET supplementation tended to decrease the IUGR incidence and increased the average weaning weight of piglets.Moreover,maternal MET supplementation significantly reduced the plasma concentrations of isoleucine,cysteine,urea,and total amino acids in sows and newborn pig-lets.It also increased lactase and sucrase activity in the jejunum of newborn piglets.MET addition resulted in lower ileal methionine synthase activity and increased betaine homocysteine S-methyltransferase activity in the ileum of newborn piglets.DNA methylation analysis of the ileum showed that MET supplementation increased the methyla-tion level of DNA CpG sites in the ileum of newborn piglets.Down-regulated differentially methylated genes were enriched in folic acid binding,insulin receptor signaling pathway,and endothelial cell proliferation.In contrast,up-regulated methylated genes were enriched in growth hormone receptor signaling pathway and nitric oxide biosyn-thetic process.Conclusions Maternal MET supplementation can reduce the incidence of IUGR and increase the weaning litter weight of piglets,which may be associated with better intestinal function and methylation status.

Concerns about the application of resistance exercise with blood-flow restriction and thrombosis risk in hemodialysis patients

Background:Hemodialysis(HD) per se is a risk factor for thrombosis.Considering the growing body of evidence on blood-flow restriction(BFR) exercise in HD patients,identification of possible risk factors related to the prothrombotic agent D-dimer is required for the safety and feasibility of this training model.The aim of the present study was to identify risk factors associated with higher D-dimer levels and to determine the acute effect of resistance exercise(RE) with BFR on this molecule.Methods:Two hundred and six HD patients volunteered for this study(all with a glomerular filtration rate of <15 mL/min/1.73 m2).The RE+BFR session consisted of 50% arterial occlusion pressure during 50 min sessions of HD(intradialytic exercise).RE repetitions included concentric and eccentric lifting phases(each lasting 2 s) and were supervised by a strength and conditioning specialist.Results:Several variables were associated with elevated levels of D-dimer,including higher blood glucose,citrate use,recent cardiovascular events,recent intercurrents,higher inflammatory status,catheter as vascular access,older patients(>70 years old),and HD vintage.Furthermore,RE+BFR significantly increases D-dimer after 4 h.Patients with borderline baseline D-dimer levels(400-490 ng/mL) displayed increased risk of elevating D-dimer over the normal range(≥500 ng/mL).Conclusion:These results identified factors associated with a heightened prothrombotic state and may assist in the screening process for HD patients who wish to undergo RE+BFR.D-dimer and/or other fibrinolysis factors should be assessed at baseline and throughout the protocol as a precautionary measure to maximize safety during RE+BFR.

Mechanisms underlying the role of endoplasmic reticulum stress in the placental injury and fetal growth restriction in an ovine gestation model

Background Exposure to bisphenol A(BPA),an environmental pollutant known for its endocrine-disrupting properties,during gestation has been reported to increase the risk of fetal growth restriction(FGR)in an ovine model of pregnancy.We hypothesized that the FGR results from the BPA-induced insufficiency and barrier dysfunction of the placenta,oxidative stress,inflammatory responses,autophagy and endoplasmic reticulum stress(ERS).However,precise mechanisms underlying the BPA-induced placental dysfunction,and subsequently,FGR,as well as the potential involvement of placental ERS in these complications,remain to be investigated.Methods In vivo experiment,16 twin-pregnant(from d 40 to 130 of gestation)Hu ewes were randomly distributed into two groups(8 ewes each).One group served as a control and received corn oil once a day,whereas the other group received BPA(5 mg/kg/d as a subcutaneous injection).In vitro study,ovine trophoblast cells(OTCs)were exposed to 4 treatments,6 replicates each.The OTCs were treated with 400μmol/L BPA,400μmol/L BPA+0.5μg/m L tunicamycin(Tm;ERS activator),400μmol/L BPA+1μmol/L 4-phenyl butyric acid(4-PBA;ERS antagonist)and DMEM/F12 complete medium(control),for 24 h.Results In vivo experiments,pregnant Hu ewes receiving the BPA from 40 to 130 days of pregnancy experienced a decrease in placental efficiency,progesterone(P4)level and fetal weight,and an increase in placental estrogen(E2)level,together with barrier dysfunctions,OS,inflammatory responses,autophagy and ERS in type A cotyledons.In vitro experiment,the OTCs exposed to BPA for 24 h showed an increase in the E2 level and related protein and gene expressions of autophagy,ERS,pro-apoptosis and inflammatory response,and a decrease in the P4 level and the related protein and gene expressions of antioxidant,anti-apoptosis and barrier function.Moreover,treating the OTCs with Tm aggravated BPA-induced dysfunction of barrier and endocrine(the increased E2 level and decreased P4 level),OS,inflammatory responses,autophagy,and ERS.However,treating the OTCs with 4-PBA reversed the counteracted effects of Tm mentioned above.Conclusions In general,the results reveal that BPA exposure can cause ERS in the ovine placenta and OTCs,and ERS induction might aggravate BPA-induced dysfunction of the placental barrier and endocrine,OS,inflammatory responses,and autophagy.These data offer novel mechanistic insights into whether ERS is involved in BPA-mediated placental dysfunction and fetal development.

Diet restriction and exercise alleviate cognitive reduction of high fat diet (HFD)-induced obese mice by rescuing inflammation-mediated compromised insulin signaling pathway through activating AMPK/SIRT1 signal pathway and suppressing TLR4 signal pathway

Obesity,caused by excessive energy,leads to body weight gain and various diseases,including cognitive impairment.Current studies suggest that diet restriction such as optimal fasting and regular exercise are crucial for improving cognitive capacity.However,further exploration is needed to understand the specific mechanisms of high fat diet(HFD)-induced cognitive decline in obesity.In the present study,4-month-old mice were subjected to HFD feeding for 18 weeks,followed by aerobic exercise and high-intensity intermittent exercise,regular diet feeding,and intermittent fasting for 8 weeks,and then used to evaluate cognitive capacity,inflammation,compromised insulin signaling pathway,and apoptosis in hippocampal tissue,as well as AMPK/SIRT1 and TLR4 signal pathways.Obese mice revealed impaired cognitive capacity as compared with mice fed with regular diets.In contrast,aerobic exercise,high-intensity intermittent exercise,regular diet,and intermittent fasting could inhibit apoptosis caused by inflammation-mediated compromised insulin signaling pathway in hippocampal tissues through activating the AMPK/SIRT1 signal pathway and suppressing the TLR4 signal pathway,thereby rescuing the cognitive impairment of obese mice.Therefore,diet restriction and exercise interventions may play a positive role in reverting obesity-induced cognitive impairment.

The Effect of Macronutrient Restrictions on Gut Microbiome and Biochemical Parameters of Wistar Albino Rats

Macronutrients serve as a source of energy for both gut microbiota and its host. An increase or decrease in macronutrients can either increase or decrease the composition of gut microbiota, leading to gut dysbiosis which has been implicated in many diseases state including non-communicable diseases. To achieve this, seven diets were formulated by restricting 60% of each macronutrient. These diets were fed on 42 albino rats (Wistar), divided into 7 groups of 6 rats each. Group 1 was fed on a normal laboratory chow diet (ND), group 2 received a fat-restricted diet (FRD), group 3 received a protein-restricted diet, (PFD), group 4 received a carbohydrate-restricted diet (CRD), group 5 received a protein and fat-restricted diet (PFRD), group 6 re-ceived a carbohydrate and fat-restricted diet (CFRD) and group 7 received a carbohydrate and protein-restricted diet (CPRD). Feed and water intake were given ad libitum and daily weight and food intake were recorded. The experiment went on for 4 weeks after which animals were sacrificed and intestinal content and blood were collected for analysis (gut microbial composition, glucose, insulin levels, serum lipid, and enzyme). Compared to the control group results showed a decrease in Bacteroides (40.50 - 14.00 CFU), HDL (68.20 - 40.40 mg/dl), and AST (66.62 - 64.74 U/L) in FRD. An increase in AST (66.6 - 69.43 U/L), Bifidobacterial (59.50 - 92.00 CFU) and decreased Bacteroides (40.5 - 19.5 CFU) for PRD was also recorded. CRD reduced Lactobacillus (73 - 33.5 CFU), total bacterial count (129 - 48 CFU), HDL (68.2 - 30.8 mg/dl), and cholesterol (121.44 - 88.65 mg/dl) whereas intestinal composition of E. coli (30.5 - 51.5 CFU) increased. PFRD increased Lactobacillus (73.00 - 102.5 CFU), Bifidobacterial (59.5 - 100 CFU), HDL (68.2 - 74.7 mg/dl), and Triglyceride (111.67 - 146.67 mg/dl) concentration. Meanwhile, a reduction in Bifidobacterial (59.5 - 41.5 CFU), and an increasing of AST (66.62 - 70.30 U/l) were recorded for CFRD. However, Bacteroides (40.5 69.5 CFU), LDL (30.95 - 41.98 mg/dl) increased and Bifidobacterial (59.5 - 38.00 CFU) and HDL (68.2 - 53.5 mg/dl) decreased for CPRD. This work, therefore, concludes that macronutrient restriction causes significant changes in serum marker and enzyme profile, and gut microbial composition which can cause gut dysbiosis and later on could expose the host to inflammatory diseases in the long run.

Associations of serum D-dimer and glycosylated hemoglobin levels with third-trimester fetal growth restriction in gestational diabetes mellitus

BACKGROUND Gestational diabetes mellitus(GDM)is a special type of diabetes that commonly occurs in women during pregnancy and involves impaired glucose tolerance and abnormal glucose metabolism;GDM is diagnosed for the first time during pregnancy and can affect fetal growth and development.AIM To investigate the associations of serum D-dimer(D-D)and glycosylated hemoglobin(HbA1c)levels with third-trimester fetal growth restriction(FGR)in GDM patients.METHODS The clinical data of 164 pregnant women who were diagnosed with GDM and delivered at the Obstetrics and Gynecology Hospital of Fudan University from January 2021 to January 2023 were analyzed retrospectively.Among these women,63 whose fetuses had FGR were included in the FGR group,and 101 women whose fetuses had normal body weights were included in the normal body weight group(normal group).Fasting venous blood samples were collected from the elbow at 28-30 wk gestation and 1-3 d before delivery to measure serum D-D and HbA1c levels for comparative analysis.The diagnostic value of serum D-D and HbA1c levels for FGR was evaluated by receiver operating characteristic analysis,and the influencing factors of third-trimester FGR in GDM patients were analyzed by logistic regression.RESULTS Serum fasting blood glucose,fasting insulin,D-D and HbA1c levels were significantly greater in the FGR group than in the normal group,while the homeostasis model assessment of insulin resistance values were lower(P<0.05).Regarding the diagnosis of FGR based on serum D-D and HbA1c levels,the areas under the curves(AUCs)were 0.826 and 0.848,the cutoff values were 3.04 mg/L and 5.80%,the sensitivities were 81.0%and 79.4%,and the specificities were 88.1%and 87.1%,respectively.The AUC of serum D-D plus HbA1c levels for diagnosing FGR was 0.928,and the sensitivity and specificity were 84.1%and 91.1%,respectively.High D-D and HbA1c levels were risk factors for third-trimester FGR in GDM patients(P<0.05).CONCLUSION D-D and HbA1c levels can indicate the occurrence of FGR in GDM patients in the third trimester of pregnancy to some extent,and their combination can be used as an important index for the early prediction of FGR.

早期营养干预改善IUGR大鼠胰岛素抵抗及其与血清瘦素的关系

【目的】探讨生后早期不同饮食构成喂养对宫内生长迟缓(IUGR)大鼠胰岛素抵抗的远期影响及其与瘦素、腹部内脏脂肪的相关关系。【方法】IUGR新生雌鼠48只和正常新生雌鼠10只随机分为5组予下述相应饮食饲料喂养母鼠3周:①IUGR模型组(S/N组)予常规饮食,②IUGR高碳水化合物饮食组(A组),③IUGR高脂肪饮食组(B组),④IUGR高蛋白质饮食组(C组)⑤正常对照组(C/N组)予常规饮食。第4周起各组幼鼠断乳后均予常规饮食饲料喂养至实验结束。各组大鼠于12周(成年期)分别测定体质量、肾周脂肪质量(肾脂)、血清瘦素、血糖、胰岛素并计算胰岛素敏感指数(ISI)、胰岛素抵抗指数(IRI)。【结果】12周时IUGR模型组大鼠肾脂增多,血清瘦素和IRI升高、ISI下降(P<0.05)。IUGR高蛋白饮食组体质量(242.6±17.5)g虽高于C/N组(192.1±37.2)g,但与S/N组(213.4±27.3)g比较无显著性差异(P>0.05),且不伴肾脂(1.46±0.67)g增多,血清瘦素(0.43±0.26)μg/L、ISI(4.47±0.45)和IRI(0.78±0.45)也与正常对照组(1.41±0.42)g,(0.42±0.34)μg/L,4.46±0.42和0.77±0.31比较差异无统计学意义(P>0.05)。【结论】生后哺乳期给予高蛋白质饮食早期营养干预然后恢复正常饮食,可使IUGR大鼠既能达到体格追赶生长。

乳源性生物活性肽对新生IUGR仔猪肝脏抗氧化功能的影响

本试验选择苏太初生IUGR仔猪10窝共20头,配对分为4组:胰岛素组(I组)、牛乳组(M组)、酪蛋白酶解产物组(CH组)和酪蛋白组(C组),饲喂3d后宰杀。另选5只初生IUGR仔猪立即宰杀,作为0d对照组(A组)。M组喂牛乳,I组在牛乳中添加2.5mg/L胰岛素;C组用1.5%酪蛋白水溶液取代10%(V/V)的牛乳,CH组用1.5%酪蛋白酶解液取代10%(V/V)的牛乳。宰杀后分析肝脏和血浆中SOD活性和MDA含量以及血浆中GPT和GOT水平。试验结果显示:酪蛋白酶解物可显著降低肝脏和血浆MDA含量,提高SOD活性(P<0.05),胰岛素可显著降低血浆中MDA含量(P<0.05);3日龄仔猪GPT和GOT均高于初生仔猪,其中I组、C组和CH组GPT均显著高于M组(P<0.05)。结果提示:胰岛素和酪蛋白酶解物可提高IUGR仔猪肝脏的抗氧化功能,促进肝细胞的生长发育。

IUGR动物模型建立及宫内胚胎心电改变的研究

目的为探索混合型胎儿宫内发育迟缓(IUGR)动物模型的建立及探讨胚胎心电在大鼠IUGR中的改变。方法将SD雌性大鼠分为2组,实验组:母鼠从妊娠第1天起限食、第7天起饮酒;对照组:妊娠第20天,采用引导母鼠宫内胚胎心电的方法记录胎鼠心电信号后,剖宫取胎,测量胎鼠的各项生长发育指标。结果实验组胎鼠各项发育指标均明显低于对照组(P<0.05),实验组IUGR发生率高于对照组(P<0.05),胚胎心电频率较对照组减缓且心电电压减低(P<0.05)。结论孕早期限食、饮酒可产生混合型IUGR动物模型,且IUGR的发病可导致胚胎心电频率及电压的改变。

L-精氨酸对IUGR仔猪胰岛结构及功能的调控研究

本试验旨在研究L-精氨酸(L-Arg)对子宫内发育迟缓(IUGR)仔猪胰腺生长发育的调控。试验选取12头IUGR仔猪和6头正常仔猪,哺乳至7d时断奶,将IUGR仔猪随机分为2组,分别饲喂基础人工乳(IUGR组)、基础人工乳+0.6%Arg(IUGR+Arg组),正常仔猪饲喂基础人工乳(NBW组)。饲喂至14d时每组选取4头屠宰取样,并对胰腺发育相关指标进行测定。结果表明:受IUGR影响,仔猪胰腺组织中胰岛素(Ins)含量、胰岛面积及β细胞质量均显著降低(P<0.05),胰岛细胞数目、Ins染色阳性率、Ins阳性表达面积及Ins阳性表达细胞数目均极显著减少(P<0.01)。IUGR猪补充Arg后,胰腺绝对重量显著增加(P<0.05);Ins含量、胰岛面积、胰岛细胞数目、β细胞质量、Ins染色阳性率、Ins阳性表达面积也明显增加(P<0.01),且均与NBW猪相比差异不显著(P>0.05);胰岛平均染色光密度明显增加(P<0.01),且显著高于NBW猪(P<0.01)。结果提示,IUGR损害仔猪胰腺发育,补充Arg后,IUGR仔猪胰岛结构得到改善,胰岛β细胞数量增加,胰岛素合成增多。

IUGR孕妇血E_3、HPL、TXB_2、6-keto-PGF_(1α)水平的测定及川芎嗪治疗后改变

检测了58例IUGR孕妇血不同孕周血E_3、HPL、TXB_2、6-keto—PGF_(1α)水平,其中47经川芎嗪(TMPZ)治疗后观察其变化,并以89例正常孕妇结果作对照。结果表明IUGR孕妇自30周后E_3、HPL显著低于正常(p<0.001)。TXB_2/6-keto-PGF_(1α)失衡,主要表现为6-keto-PGF_(1α)随孕周增加明显减少(p<0.001)。并对IUGR病理生理变化进行初步探讨。经TMPZ治疗组E_3、HPL接近或超过正常水平,TXB_2/6-keto-PGF_(1α)失衡得到明显改善(p<0.05),表明TMPZ具有调节TXA_2/PGI_2平衡,改善胎盘功能等作用。

早期营养对IUGR大鼠糖耐量和胰岛素敏感性的远期影响

【目的】了解宫内发育迟缓(IUGR)和生后早期蛋白质营养不良对IUGR大鼠糖耐量和胰岛素敏感指数(ISI)及胰岛素抵抗指数(IRI)的远期影响。【方法】采用被动吸烟法制作IUGR大鼠动物模型,新生正常鼠仔102只和IUGR鼠仔105只随机分为4组:①正常对照组;②IUGR模型组;③正常大鼠低蛋白饮食组(CLP组);④IUGR大鼠低蛋白饮食组(SLP组)。观察各组大鼠在生后4周(幼年期)、12周(成年期)和48周龄(老年期)时糖耐量和胰岛素释放试验变化。【结果】①SLP组大鼠宫内发育迟缓和生后早期蛋白质营养不良其远期葡萄糖-胰岛素代谢功能受损明显,至48周时空腹血糖(5.2±1.4)mmol/L已升高,胰岛素(31. 2±3.4)mU/L水平明显升高,ISI(1.7±0.4)明显下降,IRI(8.7±1.8)明显升高,与正常对照组[(4.5±1.1)mmol/L,(12.9±1.0)mU/L和2.8±0.2,2.3±0.41比较均有显著性差异(P<0.05或P<0.01)。②CLP组大鼠生后早期单纯蛋白质营养不良的远期影响主要表现为糖负荷后胰岛素对血糖升高的应答分泌反应延迟和糖耐量减低。③IUGR模型组大鼠生后即给予正常营养供给,其葡萄糖-胰岛素代谢紊乱的程度减轻,但仍有糖耐量减低。【结论】在宫内和/或生后早期机体发育的关键时期,蛋白质营养不良将对葡萄糖-胰岛素代谢功能产生长期的不良影响。

IUGR大鼠胰岛素样生长因子与小肠及体格发育关系的研究

目的 生后早期的生长主要受营养的调控 ,营养物质 胰岛素 胰岛素样生长因子 (IGF)轴在胎儿宫内发育迟缓 (IUGR)生长追赶及胃肠发育中起着重要的作用 ,而胃肠发育又与营养物质的吸收、生长追赶关系密切。目前国内有关IUGR出生时小肠发育状况报道甚少 ,且仅限于IUGR出生时胃肠形态结构的观察。该研究探讨生后早期不同蛋白质和热卡水平的营养干预如何调控IGF系统及影响IUGR大鼠的小肠发育和体格生长追赶 ,并追踪至成年期。方法 采用孕母饥饿法建立IUGR模型。 6 4只IUGR新生鼠随机分为 4组 :IUGR正常饮食组(SC组 ) ,饮食中蛋白含量 2 0 % ;IUGR高蛋白组 (SH组 ) ,饮食中蛋白含量占 30 % ;IUGR低蛋白组 (SL组 ) ,饮食中蛋白含量为 1 0 % ;IUGR高热卡组 (SA组 ) ,饮食中热卡较其它组高 2 0 %。 1 6只正常新生鼠为正常对照组 (C组 )予以正常饮食。幼鼠 3周断乳后继续予原饮食模式 1周 ,第 4周起各组均予正常饮食喂养。分别于出生时及生后第4周、1 2周测定各组大鼠的血清IGF 1、胰岛素生长因子结合蛋白 3(IGFBP 3)浓度及体重、身长和小肠重量、长度。结果 IUGR大鼠虽然宫内营养不良 ,但SH组及SA组呈快速小肠发育和体格生长追赶伴IGFs水平明显升高 ,其中 4周时SH组IGFs水平显著高于其余各组 (P <0 .0 5 ) ;

IUGR的高危因素评分及其相关性探讨(附342例分析)

我们对1984～1990年在本院分娩的342例单胎足月低体重儿进行回顾性分析,并对胎儿宫内发育迟缓(IUGR)的高危因素评分(RFS)进行评价,现总结如下。一、临床资料本组男113例,女229例;孕周为37～44周;体重为1000～2450g。

胰岛素样生长因子对IUGR胎盘功能影响的实验研究

目的通过L-精氨酸孕期干预后IUGR大鼠胎盘IGF-Ⅰ、IGF-Ⅱ及IGFBP-3水平的变化,探讨L-精氨酸的作用及其机制。方法被动吸烟法造IUGR大鼠模型,孕鼠随机分为4组:对照组、模型组、L-精氨酸小剂量和大剂量防治组。应用酶联免疫吸附法检测各组胎盘组织IGF-Ⅰ、IGF-Ⅱ及IGFBP-3含量。结果模型组大鼠胎盘重比对照组明显下降,L-精氨酸防治组与模型组相比,胎盘重量明显增加(P<0.01)。与对照组相比,模型组胎盘组织中IGF-Ⅰ、IGF-Ⅱ含量明显降低,IGFBP-3含量明显增高(P<0.01)。小剂量和大剂量L-精氨酸防治组与模型组相比,IGF-Ⅰ、IGF-Ⅱ含量明显增高,IGFBP-3含量明显降低(P<0.01)。结论L-精氨酸可增高宫内发育迟缓大鼠胎盘组织中IGF-Ⅰ、IGF-Ⅱ的含量,降低IGFBP-3含量,对胎鼠发育起保护作用。

PHYLOGENETIC RELATIONSHIPS AMONG GIANT PANDA AND RELATED SPECIES BASED ON RESTRICTION SITE VARIATIONS IN rDNA SPACERS

In this study, non radioactive Digoxigenin labeled ribosomal DNA(rDNA) probes were used for Southern blotting analysis to study the molecular phylogeny of the giant panda and related species. Restriction maps in the regions of rDNA spacers were compared between giant panda( Ailuropoda melanoleuca ), lesser panda( Ailurus fulgens ), Asiatic black bear( Selenarctos thibetanus ), sun bear( Helarctos malayanus ), raccoon( Procyon lotor ) and lynx( Felis lynx ). Phylogenetic trees for these species were constructed using maximum likelihood and parsimony method. The results show that in respect to rDNA RFLPs, the giant panda is more closely related to bear than to lesser panda; while the lesser panda is slightly related to the raccoon.

Plastid Inheritance in Sweet Potato as Revealed by DNA Restriction Fingerprinting

The inheritance of chloroplast DNA (cpDNA) in sweet potato (Ipomoea batatas Lain.) was analyzed using DNA restriction fingerprinting. The cpDNA fingerprints of hybrids from reciprocal crosses between Xushu18 and AB78-1 were found to be identical to those of their female parents, which reveals that cpDNA of sweet potato is maternally inherited in this intervarietal crossing. This maternal cpDNA transmission pattern does not accord with the putative one based on former cytological studies. The plastid inheritance in Convolvulaceae has been briefly reviewed in this study, and the utility of DNA restriction fingerprinting analysis in the study of plastid inheritance is also discussed.

妊娠后期IUGR对蒙古绵羊胎儿肝脏糖代谢的影响

为了研究妊娠后期宫内生长受限对蒙古绵羊胎儿肝脏糖代谢能力的影响,试验采用健康的蒙古绵羊24只,经同期发情和同期受孕,选择6只在妊娠90天时进行屠宰。其余随机分为3组,限制1[0.18 MJ/(BW0.75·d),RG1]组、限制2[0.33 MJ/(BW0.75·d),RG2]组和自由采食[0.67 MJ/(BW0.75·d),CG]组,按各组能量水平进行饲养;至妊娠140天时屠宰,测定胎儿肝脏重、肝脏生长速率及肝脏、血液中的肝糖原、血糖、丙酮酸、乳酸等含量。结果表明:RG1组胎儿肝脏重(P<0.01)、肝脏生长速率(P<0.01)及肝脏中肝糖原含量(P<0.01)、丙酮酸含量(P<0.05)、乳酸含量(P<0.01)均低于CG组,而血液中丙酮酸含量(P<0.01)、乳酸含量(P<0.01)均高于CG组;RG2组胎儿肝脏重(P<0.05)、肝脏生长速率(P<0.05)、肝糖原含量(P<0.01)低于CG组,而血液中乳酸含量高于CG组(P>0.05)。说明妊娠后期宫内生长限制抑制了绵羊胎儿肝脏的生长发育,胎儿肝脏重和生长速率受到严重影响,肝糖原含量降低,糖异生能力增强,血液中乳酸和丙酮酸含量升高,胎儿肝脏糖代谢受到严重影响。

对IUGR早期综合治疗的研究

本文通过应用综合检查数据对３６４８例孕妇进行连续监测，早期筛选出４８例ＩＵＧＲ，给予综合治疗，特别是首次应用川芎嗪。通过临床观察得出：治疗孕周越早效果越好，连续治疗优于一次治疗。

妊娠后期母猪饲粮添加纳米硒和甘草提取物对母猪繁殖性能和后代IUGR仔猪生长性能的影响

文章旨在研究纳米硒和甘草提取物对初产母猪繁殖性能以及后代宫内发育迟缓(IUGR)哺乳仔猪生长性能的影响,选取妊娠90日龄二杂母猪(长×大,1胎)40头,按照体况一致原则随机分为两组,每组20个重复,每个重复1头母猪。对照组饲喂基础饲粮,试验组添加0.3 mg/kg纳米硒+500 mg/kg甘草提取物(以营养包方式添加)。每头母猪每天100 g,每日1次。试验期46 d(妊娠90日龄至哺乳期21 d)。结果显示,2个处理组母猪繁殖性能无显著差异(P>0.05);纳米硒+甘草提取物组仔猪哺乳期窝增重比对照组高5.49 kg(P<0.05);IUGR仔猪哺乳期增重比对照组高0.22 kg(P<0.05)。综合来看,妊娠后期母猪饲粮添加纳米硒和甘草提取物对母猪繁殖性能无影响,但能改善后代IUGR仔猪哺乳期长势。