小鼠腹部心脏移植模型的制作与改进

目的建立并改进小鼠腹部异位心脏移植模型,为器官移植研究提供技术支持。方法SPF级近交系小鼠112只进行心脏移植手术,在传统方法的基础上进行改进,观察改进后手术效果并分析其优势。结果手术成功率为89.28％。总手术时间（103.9±16.5）min,受体手术时间（73.0±7.9）min。改进的方法简化了操作步骤,降低了手术难度。结论改进的小鼠腹部异位心脏移植技术是一种简便、有效、成功率高的模型制作方法。     

大鼠腹腔异位心脏移植模型建立及改进

目的:建立一种快速有效的大鼠腹腔异位心脏移植模型。方法:采用SD大鼠作为受体,Wistar大鼠作为供体,行同种异位腹腔心脏移植,术后给以CsA5 mg/kg/d灌服,心脏移植手术方法采用改良的Ono术式,观察改良的腹腔异位心脏移植各步骤所需时间、术后成功率及主要并发症发生率。结果:共建立40只大鼠异位心脏移植模型,手术成功率92.5%。动脉吻合时间12.5±2.3min,静脉吻合时间12.3±1.5 min,供心缺血时间37±3.5 min,受体血管阻断时间34.2±2.6 min,总手术时间90.2±4.8 min,出现的主要并发症为出血和供心复跳失败(各占5%、2.5%)。结论:改进的大鼠腹部异位心脏移植技术是一种简便、快速、有效、成功率高的模型制作方法。     

Ascending Aortic Constriction in Rats for Creation of Pressure Overload Cardiac Hypertrophy Model

Ascending aortic constriction is the most common and successful surgical model for creating pressure overload induced cardiac hypertrophy and heart failure. Here, we describe a detailed surgical procedure for creating pressure overload and cardiac hypertrophy in rats by constriction of the ascending aorta using a small metallic clip. After anesthesia, the trachea is intubated by inserting a cannula through a half way incision made between two cartilage rings of trachea. Then a skin incision is made at the level of the second intercostal space on the left chest wall and muscle layers are cleared to locate the ascending portion of aorta. The ascending aorta is constricted to 50–60% of its original diameter by application of a small sized titanium clip. Following aortic constriction, the second and third ribs are approximated with prolene sutures. The tracheal cannula is removed once spontaneous breathing was re-established. The animal is allowed to recover on the heating pad by gradually lowering anesthesia. The intensity of pressure overload created by constriction of the ascending aorta is determined by recording the pressure gradient using trans-thoracic two dimensional Doppler-echocardiography. Overall this protocol is useful to study the remodeling events and contractile properties of the heart during the gradual onset and progression from compensated cardiac hypertrophy to heart failure stage.     

A Computational Model of Aging and Calcification in the Aortic Heart Valve

The aortic heart valve undergoes geometric and mechanical changes over time. The cusps of a normal, healthy valve thicken and become less extensible over time. In the disease calcific aortic stenosis (CAS), calcified nodules progressively stiffen the cusps. The local mechanical changes in the cusps, due to either normal aging or pathological processes, affect overall function of the valve. In this paper, we propose a computational model for the aging aortic valve that connects local changes to overall valve function. We extend a previous model for the healthy valve to describe aging. To model normal/uncomplicated aging, leaflet thickness and extensibility are varied versus age according to experimental data. To model calcification, initial sites are defined and a simple growth law is assumed. The nodules then grow over time, so that the area of calcification increases from one model to the next model representing greater age. Overall valve function is recorded for each individual model to yield a single simulation of valve function over time. This simulation is the first theoretical tool to describe the temporal behavior of aortic valve calcification. The ability to better understand and predict disease progression will aid in design and timing of patient treatments for CAS.     

一种新型大鼠心脏移植模型的制作体会

目的采用腹部套管法建立大鼠心脏移植模型,并分析该方法优劣,为器官移植研究提供合适的动物模型。方法SD大鼠60只,参照Baxter的报道进行同种腹部异位心脏移植,成功制作了该模型并总结了经验。结果共实施手术30例,成功27例,成功率90%;移植心存活30 d以上。结论新型的大鼠心脏移植模型简单易行,成功率高,适合用于器官移植研究,值得推广应用。     

Orthotopic Aortic Transplantation: A Rat Model to Study the Development of Chronic Vasculopathy

Research models of chronic rejection are essential to investigate pathobiological and pathophysiological processes during the development of transplant vasculopathy (TVP).The commonly used animal model for cardiovascular chronic rejection studies is the heterotopic heart transplant model performed in laboratory rodents. This model is used widely in experiments since Ono and Lindsey (3) published their technique. To analyze the findings in the blood vessels, the heart has to be sectioned and all vessels have to be measured.Another method to investigate chronic rejection in cardiovascular questionings is the aortic transplant model (1, 2). In the orthotopic aortic transplant model, the aorta can easily be histologically evaluated (2). The PVG-to-ACI model is especially useful for CAV studies, since acute vascular rejection is not a major confounding factor and Cyclosporin A (CsA) treatment does not prevent the development of CAV, similar to what we find in the clinical setting (4). A7-day period of CsA is required in this model to prevent acute rejection and to achieve long-term survival with the development of TVP.This model can also be used to investigate acute cellular rejection and media necrosis in xenogeneic models (5).Download video file.^{(51M, mov)}     

猪心脏移植中供体急性脑死亡模型的初步研究

目的建立猪心脏移植供体的急性脑死亡模型,观察急性脑死亡前及后1、5、10 min时的血流动力学和血浆中儿茶酚胺释放的变化并进行初步探讨。方法采用30~40 kg的猪8只,急性脑死亡前为对照组,急性脑死亡后为实验组。测定脑死亡前基础水平及脑死亡后1、5、10 min时血流动力学改变和血浆中儿茶酚胺释放的变化,并对二者的变化进行初步探讨。结果急性脑死亡后1 min时血流动力学及儿茶酚胺水平改变最明显,心率增加了88%,收缩压升高了132%,心排量增加了80%,肾上腺素(E)和去甲肾上腺素(NE)分别升高240%和241%,多巴胺(DA)没有明显增加。随后二者均持续下降,至10 min时已降至基础水平以下。血流动力学改变的程度及时间分布与儿茶酚胺中的肾上腺素和去甲肾上腺素一致。结论急性脑死亡可造成机体血流动力学及血浆儿茶酚胺水平的剧烈改变,血中儿茶酚胺含量升高是造成急性脑死亡后血流动力学改变的原因,其中E和NE与血流动力学改变直接相关。     

Poly(ADP-ribose) Polymerase Activation and Cell Injury in the Course of Rat Heart Heterotopic Transplantation

Free radicals and other reactive species generated during reperfusion of ischemic tissues may cause DNA damage and, consequently, the activation of the nuclear enzyme poly(ADP-ribose) polymerase (PARP). An excessive PARP activation may result in a depletion of intracellular NAD + and ATP, hence cell suffering and, ultimately, cell death. The present study is aimed at clarifying the role of PARP in a heart transplantation procedure and the contribution of myocyte necrosis and/or apoptosis to this process. In our experimental model, rat heart subjected to heterotopic transplantation, low temperature global ischemia (2 h) was followed by an in vivo reperfusion (30 or 60 &#117 min). Under these conditions clear signs of oxidative stress, such as lipoperoxidation and DNA strand breaks, were evident. In addition to a marked activation, accompanied by a significant NAD + and ATP depletion, PARP protein levels significantly increased after 60 &#117 min of reperfusion. Ultrastructural analysis showed nuclear clearings, intracellular oedema and plasma membrane discontinuity. Other relevant observations were the absence of typical signs of apoptosis like caspase-3 activation and PARP cleavage, random DNA fragmentation, rise in serum levels of heart damage markers. Our results suggest that during heart transplantation, the activation of PARP, causing energy depletion, results in myocardial cell injury whose dominant feature, at least in our experimental model, is necrosis rather than apoptosis.     

部分股骨移植:一个新的带血管的骨髓移植模型

目的:大鼠后肢移植是带血管的骨髓移植的主要模型,同时含有骨髓和骨髓微环境,有利于免疫耐受的诱导.但其成分复杂,为研究其中骨髓的作用,构建一个成分相对单一的带血管的骨髓移植模型.方法:以MHC不相符的近交系Lewis和BN大鼠分别作为供体或受体,将含血管蒂的供体2/3股骨移植到受体腹股沟区,显微吻合供受体间的股动静脉.实验分为3组:同基因移植组Lewis→Lewis;排斥组Lewis→BN;免疫抑制组Lewis→BN,术后给予环孢素A.通过大体和病理学检查观察各组移植物存活情况,外周血流式监测排斥组和免疫抑制组的嵌合水平.结果:术后7d,排斥组排斥反应显著,骨髓细胞明显减少、坏死,外周血嵌合水平几乎为0,而同基因移植组股骨存活良好,骨髓HE染色大致正常,可见髓腔内有大量的嗜碱性骨髓细胞;术后60 d,同系移植组和免疫抑制组的大体观察及组织病理学大致相同,均证实移植物存活良好,同时流式可见免疫抑制组术后7、28、60 d外周血中存在供体特异性的嵌合.结论:带血管蒂的部分股骨移植物是一个简便可靠的带血管的骨髓移植模型,嵌合分析表明其具有诱导耐受的潜能,有利于阐明异体复合组织中骨髓对免疫耐受诱导的作用和机制.     

Lymphatic Territories (Lymphosomes) in a Canine: An Animal Model for Investigation of Postoperative Lymphatic Alterations

Background

Lymph node dissection is often performed as a part of surgical treatment for breast cancer and malignant melanoma to prevent malignant cells from traveling via the lymphatic system. Currently little is known about postoperative lymphatic drainage pattern alterations. This knowledge may be useful for management of recurrent cancer and prevention of breast cancer related lymphedema. We mapped the complete superficial lymphatic system of a dog and used this canine model to perform preliminary studies of lymphatic architectural changes in postoperative condition.

Methods

Lymphatic territories (lymphosomes) were mapped with 4 female mongrel carcasses using an indocyanine green (ICG) fluorescent lymphography and a radiographic microinjection technique. Two live dogs were then subjected to unilateral lymph node dissection of lymph basins of the forelimb, and ICG lymphography and lymphangiogram were performed 6 months after the surgery to investigate lymphatic changes. Lymphatic patterns in the carcass were then compared with postoperative lymphatic patterns in the live dogs.

Results

Ten lymphosomes were identified, corresponding with ten lymphatic basins. Postoperative fluorescent lymphographic images and lymphangiograms in the live dogs revealed small caliber lymphatic network fulfilling gaps in the surgical area and collateral lymphatic vessels arising from the network connecting to lymph nodes in the contralateral and ipsilateral neck in one dog and the ipsilateral subclavicular vein in another dog.

Conclusion

Our canine lymphosome map allowed us to observe lymphatic collateral formations after lymph node dissection in live dogs. This canine model may help clarify our understanding of postoperative lymphatic changes in humans in future studies.     

A New Instrument for Control of Hemorrhage by Aortic Compression: A Preliminary Report

After laparotomy, immediate compression of the aorta with the heel of the hand just above the bifurcation of the common iliac arteries is a quick and effective way of controlling catastrophic pelvic hemorrhage. This maneuver, which can be maintained for several hours without any harmful sequelae, enables the surgeon to remove the blood from the peritoneal cavity and take definitive steps to stop the bleeding, and the loss of administered blood is halted. An instrument for aortic compression is described which is easily applied to the aorta; it is controlled by a handle outside the abdomen and does not obstruct the operative field. It has been found to be valuable, not only in the control of serious pelvic hemorrhage, but also in pelvic surgery where considerable blood loss is anticipated.     

Altered Mechanical Environment of Bone Cells in an Animal Model of Short- and Long-Term Osteoporosis

Alterations in bone tissue composition during osteoporosis likely disrupt the mechanical environment of bone cells and may thereby initiate a mechanobiological response. It has proved challenging to characterize the mechanical environment of bone cells in vivo, and the mechanical environment of osteoporotic bone cells is not known. The objective of this research is to characterize the local mechanical environment of osteocytes and osteoblasts from healthy and osteoporotic bone in a rat model of osteoporosis. Using a custom-designed micromechanical loading device, we apply strains representative of a range of physical activity (up to 3000 με) to fluorescently stained femur samples from normal and ovariectomized rats. Confocal imaging was simultaneously performed, and digital image correlation techniques were applied to characterize cellular strains. In healthy bone tissue, osteocytes experience higher maximum strains (31,028 ± 4213 με) than osteoblasts (24,921 ± 3,832 με), whereas a larger proportion of the osteoblast experiences strains >10,000 με. Most interestingly, we show that osteoporotic bone cells experience similar or higher maximum strains than healthy bone cells after short durations of estrogen deficiency (5 weeks), and exceeded the osteogenic strain threshold (10,000 με) in a similar or significantly larger proportion of the cell (osteoblast, 12.68% vs. 13.68%; osteocyte, 15.74% vs. 5.37%). However, in long-term estrogen deficiency (34 weeks), there was no significant difference between bone cells in healthy and osteoporotic bone. These results suggest that the mechanical environment of bone cells is altered during early-stage osteoporosis, and that mechanobiological responses act to restore the mechanical environment of the bone tissue after it has been perturbed by ovariectomy.     

兔在体心脏缺血再灌注模型的制作方法的改进

目的建立兔在体心脏缺血再灌注模型的新方法。方法40只新西兰大白兔随机分为缺血再灌注组（25只）,假手术组（15只）。缺血再灌注组采用＂二线二结＂法结扎心脏左前降支30 min,然后恢复心肌灌注3h;假手术组仅将线从左前降支周围心肌中穿过,但并不结扎。实验中连续描记心电图。两组分别于结扎（穿线）前和再灌注（穿线）后1 h从股静脉取血1 mL测定血清肌钙蛋白。实验结束时取心肌行2,3,5-氯化三苯基四氮唑和苏木精-伊红染色。结果缺血再灌注组心电图存在ST-T的动态演变,再灌注1 h后血清肌钙蛋白浓度明显高于术前（0.47±0.35 vs.0.33±0.31,P=0.002）。两种染色方法均证明存在心肌坏死。结论＂二线二结＂法能够既方便又成功地建立兔在体心脏缺血再灌注模型。     

A Tractable Experimental Model for Study of Human and Animal Scabies

Background

Scabies is a parasitic skin infestation caused by the burrowing mite Sarcoptes scabiei. It is common worldwide and spreads rapidly under crowded conditions, such as those found in socially disadvantaged communities of Indigenous populations and in developing countries. Pruritic scabies lesions facilitate opportunistic bacterial infections, particularly Group A streptococci. Streptococcal infections cause significant sequelae and the increased community streptococcal burden has led to extreme levels of acute rheumatic fever and rheumatic heart disease in Australia''s Indigenous communities. In addition, emerging resistance to currently available therapeutics emphasizes the need to identify potential targets for novel chemotherapeutic and/or immunological intervention. Scabies research has been severely limited by the availability of parasites, and scabies remains a truly neglected infectious disease. We report development of a tractable model for scabies in the pig, Sus domestica.

Methodology/Principal Findings

Over five years and involving ten independent cohorts, we have developed a protocol for continuous passage of Sarcoptes scabiei var. suis. To increase intensity and duration of infestation without generating animal welfare issues we have optimised an immunosuppression regimen utilising daily oral treatment with 0.2mg/kg dexamethasone. Only mild, controlled side effects are observed, and mange infection can be maintained indefinitely providing large mite numbers (>6000 mites/g skin) for molecular-based research on scabies. In pilot experiments we explore whether any adaptation of the mite population is reflected in genetic changes. Phylogenetic analysis was performed comparing sets of genetic data obtained from pig mites collected from naturally infected pigs with data from pig mites collected from the most recent cohort.

Conclusions/Significance

A reliable pig/scabies animal model will facilitate in vivo studies on host immune responses to scabies including the relations to the associated bacterial pathogenesis and more detailed studies of molecular evolution and host adaption. It is a most needed tool for the further investigation of this important and widespread parasitic disease.     

Stem Cell Transplantation in Traumatic Spinal Cord Injury: A Systematic Review and Meta-Analysis of Animal Studies

Spinal cord injury (SCI) is a devastating condition that causes substantial morbidity and mortality and for which no treatments are available. Stem cells offer some promise in the restoration of neurological function. We used systematic review, meta-analysis, and meta-regression to study the impact of stem cell biology and experimental design on motor and sensory outcomes following stem cell treatments in animal models of SCI. One hundred and fifty-six publications using 45 different stem cell preparations met our prespecified inclusion criteria. Only one publication used autologous stem cells. Overall, allogeneic stem cell treatment appears to improve both motor (effect size, 27.2%; 95% Confidence Interval [CI], 25.0%–29.4%; 312 comparisons in 5,628 animals) and sensory (effect size, 26.3%; 95% CI, 7.9%–44.7%; 23 comparisons in 473 animals) outcome. For sensory outcome, most heterogeneity between experiments was accounted for by facets of stem cell biology. Differentiation before implantation and intravenous route of delivery favoured better outcome. Stem cell implantation did not appear to improve sensory outcome in female animals and appeared to be enhanced by isoflurane anaesthesia. Biological plausibility was supported by the presence of a dose–response relationship. For motor outcome, facets of stem cell biology had little detectable effect. Instead most heterogeneity could be explained by the experimental modelling and the outcome measure used. The location of injury, method of injury induction, and presence of immunosuppression all had an impact. Reporting of measures to reduce bias was higher than has been seen in other neuroscience domains but were still suboptimal. Motor outcomes studies that did not report the blinded assessment of outcome gave inflated estimates of efficacy. Extensive recent preclinical literature suggests that stem-cell–based therapies may offer promise, however the impact of compromised internal validity and publication bias mean that efficacy is likely to be somewhat lower than reported here.     

Heart on a Plate: Histological and Functional Assessment of Isolated Adult Zebrafish Hearts Maintained in Culture

The zebrafish is increasingly used for cardiovascular genetic and functional studies. We present a novel protocol to maintain and monitor whole isolated beating adult zebrafish hearts in culture for long-term experiments. Excised whole adult zebrafish hearts were transferred directly into culture dishes containing optimized L-15 Leibovitz growth medium and maintained for 5 days. Hearts were assessed daily using video-edge analysis of ventricle function using low power microscopy images. High-throughput histology techniques were used to assess changes in myocardial architecture and cell viability. Mean spontaneous Heart rate (HR, min⁻¹) declined significantly between day 0 and day 1 in culture (96.7±19.5 to 45.2±8.2 min⁻¹, mean±SD, p = 0.001), and thereafter declined more slowly to 27.6±7.2 min⁻¹ on day 5. Ventricle wall motion amplitude (WMA) did not change until day 4 in culture (day 0, 46.7±13.0 µm vs day 4, 16.9±1.9 µm, p = 0.08). Contraction velocity (CV) declined between day 0 and day 3 (35.6±14.8 vs 15.2±5.3 µms⁻¹, respectively, p = 0.012) while relaxation velocity (RV) declined quite rapidly (day 0, 72.5±11.9 vs day 1, 29.5±5.8 µms⁻¹, p = 0.03). HR and WMA responded consistently to isoproterenol from day 0 to day 5 in culture while CV and RV showed less consistent responses to beta-agonist. Cellular architecture and cross-striation pattern of cardiomyocytes remained unchanged up to day 3 in culture and thereafter showed significant deterioration with loss of striation pattern, pyknotic nuclei and cell swelling. Apoptotic markers within the myocardium became increasingly frequent by day 3 in culture. Whole adult zebrafish hearts can be maintained in culture-medium for up to 3 days. However, after day-3 there is significant deterioration in ventricle function and heart rate accompanied by significant histological changes consistent with cell death and loss of cardiomyocyte cell integrity. Further studies are needed to assess whether this preparation can be optimised for longer term survival.     

基质结合区与转基因动物的基因表达

基质结合区(MAR)在稳定转染的细胞系中的研究结果显示,能缓冲在其侧翼的染色质某些拮抗作用.这为外源基因在染色体中随机整合的转基因动物研究提供了新的方向.文章对其在转基因动物中的探索性研究及可能的机理进行综述.指出在转基因动物中,MAR的应用能导致建立独立的基因活性结构域.它对基因高效表达无疑具有重要作用.MAR可能是一种新的顺式作用元件,与增强子、启动子协同作用调节基因的表达.     

Reconstruction of Auto-Tissue-Engineered Lamellar Cornea by Dynamic Culture for Transplantation: A Rabbit Model

To construct an auto-tissue-engineered lamellar cornea (ATELC) for transplantation, based on acellular porcine corneal stroma and autologous corneal limbal explants, a dynamic culture process, which composed of a submersion culture, a perfusion culture and a dynamic air-liquid interface culture, was performed using appropriate parameters. The results showed that the ATELC-Dynamic possessed histological structure and DNA content that were similar to native lamellar cornea (NLC, p>0.05). Compared to NLC, the protein contents of zonula occludens-1, desmocollin-2 and integrin β4 in ATELC-Dynamic reached 93%, 89% and 73%, respectively. The basal cells of ATELC-Dynamic showed a better differentiation phenotype (K3⁻, P63⁺, ABCG2⁺) compared with that of ATELC in static air-lift culture (ATELC-Static, K3⁺, P63⁻, ABCG2⁻). Accordingly, the cell-cloning efficiency of ATELC-Dynamic (9.72±3.5%) was significantly higher than that of ATELC-Static (2.13±1.46%, p<0.05). The levels of trans-epithelial electrical resistance, light transmittance and areal modulus variation in ATELC-Dynamic all reached those of NLC (p>0.05). Rabbit lamellar keratoplasty showed that the barrier function of ATELC-Dynamic was intact, and there were no signs of epithelial shedding or neovascularization. Furthermore, the ATELC-Dynamic group had similar optical properties and wound healing processes compared with the NLC group. Thus, the sequential dynamic culture process that was designed according to corneal physiological characteristics could successfully reconstruct an auto-lamellar cornea with favorable morphological characteristics and satisfactory physiological function.