Diagnosis and Treatment of Anaplastic Mammary Carcinoma in a Sugar Glider (Petaurus breviceps)

A 9-year-old female sugar glider (Petaurus breviceps) was evaluated for a tissue mass near the marsupium. Ultrasonography identified a vascular mass originating from the right mammary gland. Fine-needle aspiration was suggestive of a malignant neoplasm. The glider was anesthetized and the tumor was removed, and this was followed by strontium-90 plesiotherapy to the tumor bed in an attempt to decrease local recurrence. Histopathology revealed an anaplastic mammary carcinoma. The glider was euthanized less than 14 days after the procedure owing to self-mutilation behavior of unknown etiology. This report is the first to describe the clinical presentation, diagnostics, therapeutics, and treatment response for a sugar glider with mammary neoplasia.     

苦参碱对奶牛乳腺上皮细胞增殖、凋亡及抗氧化能力的影响

【目的】探究苦参碱对体外培养的奶牛乳腺上皮细胞(BMECs)增殖、凋亡及抗氧化能力的影响。【方法】利用含0(A组),25(B组),50(C组),75(D组)和100μg/mL(E组)苦参碱的培养基培养奶牛乳腺上皮细胞。通过四甲基偶氮唑盐(MTT)法检测BMECs活性,采用流式细胞仪(AnnexinV/PI双染法)检测苦参碱对BMECs凋亡的影响,并检测苦参碱对BMECs抗氧化酶活性及丙二醛(MDA)含量的影响,采用real-time PCR对BMECs中Caspase-3、p53、STAT1和SOCS3基因的相对表达量进行检测。【结果】用药5d时,低质量浓度(25和50μg/mL)苦参碱对BMECs增殖具有促进作用,高质量浓度(75和100μg/mL)苦参碱对细胞增殖具有抑制作用;B~E组BMECs的凋亡率均极显著高于A组(P0.01);B~E组BMECs培养上清液中NO和乳酸脱氢酶(LDH)水平明显高于A组。B~E组BMECs的过氧化氢酶(CAT)活性均比A组高,其中C组极显著高于A组(P0.01);B~E组的谷胱甘肽过氧化物酶(GSH-Px)活性均极显著高于A组(P0.01),E组的超氧化物歧化酶(SOD)水平极显著高于A组(P0.01),各组MDA含量无显著性差异。与A组相比,苦参碱上调了B~E组BMECs中Caspase-3、p53、STAT1和SOCS3基因的相对表达量。【结论】低质量浓度苦参碱能够促进BMECs增殖,高质量浓度苦参碱则会抑制BMECs增殖;不同质量浓度苦参碱均可提高BMECs的抗氧化能力,其中50μg/mL苦参碱提高BMECs抗氧化能力的效果最明显。     

Effect Comparison of Adenovirus Vector Transfer into Different Buffalo Cells

Buffalo mammary epithelial cell,cumulus cell and fibroblasts were transfected by adenovirus vectors and compared their transfection efficiency.293 cells were transfected with pBHGloxdelE13cre and pDC316-eGFP by liposome,the virus was collected and titer was detected.Buffalo mammary epithelial cell,cumulus cell and fibroblasts were exposed to different multiplicity of infection (MOI) of adenovirus vectors.After 72 h,the cells were observed with inverted fluorescence microscope,and transfection efficiency was calculated.When the MOI was 25,50,100,200 and 400,the transfection efficiency of fibroblasts were 0.7%,7.0%,9.0%,12.5% and 34.0%,the transfection efficiency of cumulus cells were 42.5%,55.3%,57.4%,76.0% and 80.0%,the transfection efficiency of mammary epithelial cells were 88.7%,100%,100%,100% and 100%.The results showed that the transfection efficiency of mammary epithelial cell was the best,followed by cumulus cell,and fibroblast was poor.     

蜜腺发达Ogura晚抽薹不结球白菜雄性不育系的鉴定

本试验以Ogura晚抽薹不结球白菜薹ms等为材料,通过观察和比较熊蜂对不同白菜品种访花次数和访花滞留时间的差异,选择出能吸引熊蜂访花且访花滞留时间长的Ogura薹ms植株。对选择出植株的蜜腺大小和开花结实特性进行了进一步鉴定,结果表明选出的薹ms株蜜腺发达,开花结实正常,为选育优良晚抽薹胞质不结球白菜雄性不育系奠定了基础。     

消化酶及胎牛血清对奶牛乳腺上皮细胞培养的影响

试验研究了不同浓度及组合消化酶对奶牛乳腺组织分离的影响以及不同FBS浓度培养基对奶牛乳腺上皮细胞纯化和生长的影响。试验结果表明,0.25%胰酶＋0.20%Ⅱ胶原酶对组织块分离效果最好,乳腺上皮细胞生长最多,5%与10%浓度FBS对奶牛乳腺上皮细胞纯化效果最好,5%与10%浓度FBS对细胞生长没有明显的差异（P〉0.05...     

Effect of feed restriction on dairy cow milk production: a review

In the dairy cow, negative energy balance affects milk yield and composition as well as animal health. Studying the effects of negative energy balance on dairy cow milk production is thus essential. Feed restriction (FR) experiments attempting to reproduce negative energy balance by reducing the quantity or quality of the diet were conducted in order to better describe the animal physiology changes. The study of FR is also of interest since with climate change issues, cows may be increasingly faced with periods of drought leading to a shortage of forages. The aim of this article is to review the effects of FR during lactation in dairy cows to obtain a better understanding of metabolism changes and how it affects mammary gland activity and milk production and composition. A total of 41 papers studying FR in lactating cows were used to investigate physiological changes induced by these protocols. FR protocols affect the entire animal metabolism as indicated by changes in blood metabolites such as a decrease in glucose concentration and an increase in non-esterified fatty acid or β-hydroxybutyrate concentrations; hormonal regulations such as a decrease in insulin and insulin-like growth factor I or an increase in growth hormone concentrations. These variations indicated a mobilization of body reserve in most studies. FR also affects mammary gland activity through changes in gene expression and could affect mammary cell turnover through cell apoptosis, cell proliferation, and exfoliation of mammary epithelial cells into milk. Because of modifications of the mammary gland and general metabolism, FR decreases milk production and can affect milk composition with decreased lactose and protein concentrations and increased fat concentration. These effects, however, can vary widely depending on the type of restriction, its duration and intensity, or the stage of lactation in which it takes place. Finally, to avoid yield loss and metabolic disorders, it is important to identify reliable biomarkers to monitor energy balance.     

Diagnosis and treatment of mastitis in mares

Infection and inflammation of the udder (mastitis) is a common condition affecting all domestic mammals, but it appears to be less prevalent in mares than in dairy cows and dairy goats. The seemingly reduced incidence of mastitis in mares can be partially explained by the smaller size and relatively concealed location of the mare’s udder, coupled with a smaller storage capacity than cows and goats. Mastitis can affect lactating, peripartum, dry mares, mares at dry-off or prepubertal foals. Common clinical signs include swollen mammary tissue, abnormal mammary gland secretion, fever and anorexia; less common signs are hindlimb lameness and a swollen mammary vein. On rare occasions, mastitis pathogens can severely affect the nursing foal and mares may develop fibrotic tissue and consequent agalactia in the side(s) or quarter(s) affected. Based on the clinical presentation, mastitis can be classified as acute or chronic, and clinical or subclinical. Diagnosis is based on the clinical signs aided with aerobic culture and cytological evaluation of the gland secretion. In addition, these ancillary tests can also be used to assess prognosis and duration of treatment. Mares suffering from mastitis may present neutrophilia and hyperfibrinogenaemia. Treatment for mastitis includes antimicrobial therapy (systemic and/or locally), nonsteroidal anti-inflammatory drugs, frequent milking and cold hosing with/without hot-packing applied on the gland. While the frequent monitoring of mares after weaning and reducing food intake should be part of common practices at weaning, cleaning of the udder, control of insect populations and frequent milking of mares with a foal unable to nurse can also aid in preventing mastitis.