国产房缺封堵器治疗多孔型房缺

目的：评估国产封堵器治疗多孔型房缺的可行性及安全性。方法：在X线及超声引导下对19例多孔型房缺植入国产房缺封堵器,术后常规进行心电图及经胸心脏超声随访半年。结果：所有患者均成功进行了房缺封堵,其中5例放置1枚国产普通型房缺封堵器,7例放置2枚国产普通型房缺封堵器,另7例则分别放置1枚细腰大边型房缺封堵器,术后即刻超声检查1例仍有少许分流,术后1月时随访分流消失,所有患者随访半年未出现明显并发症。结论：国产房缺封堵器可安全应用于多孔型房缺患者的封堵治疗,在经验丰富的先心病介入治疗专科中心,封堵治疗可做为部分多孔型房缺患者的首选治疗。     

rhBMP-2 诱导异位软骨修复重建兔气管缺损的实验研究

目的:探讨重组人骨形成蛋白-2(rhBMP-2)作为激活物诱导异位软骨修复并重建兔气管缺损的可行性。方法:取24只新西兰大白兔,制备气管前壁软骨1/3缺损模型。随机分为A、B组,每组12只,A组为实验组,在气管缺损处前壁颈前肌肉修补,多点注射rhBMP-2;B组于气管软骨缺损部位直接颈前肌群修补。术后观察动物一般情况,于4、8、12周取材进行大体观察、HE染色观察重建区域情况。结果:术后A组动物均存活至实验完成,B组因气道感染及气道分泌物堵管潴留致使实验兔死亡,其余动物出现皮下气肿,呼吸不畅等情况。组织学观察A组有明显的新生软骨细胞及少量软骨样组织,可见结缔组织包绕,周围肌肉组织完整,排列整齐,未见明显坏死组织,有少量淋巴细胞浸润。B组未见软骨组织生成,可见大量肉芽组织增生,结缔组织排列紊乱,伴少量坏死组织,大量淋巴浸润。结论:rhBMP-2可通过注射到颈前肌肉修补肌群中诱导软骨细胞和软骨样组织生成,减轻炎症反应,联合颈前肌瓣修复重建气管缺损能充分维持修复重建后的气道形态,具有减少术后皮下气肿、气管狭窄的作用,有望用于临床修复重建气管组织缺损。     

Transgenic expression of <Emphasis Type="Italic">CECR1</Emphasis> adenosine deaminase in mice results in abnormal development of heart and kidney

Cat eye syndrome is a rare developmental defect associated with duplication of chromosome 22q11. The patients demonstrate specific abnormalities of heart, kidney, and eye. Here we attempted to produce a model for this defect by expressing CECR1 adenosine deaminase, a gene duplicated in cat eye syndrome patients, in mice. The transgenic mice expressed CECR1 under the control of either β-actin promoter for ubiquitous expression or myosin heavy chain for heart-specific expression. The transgenics expressing CECR1 in the heart demonstrated high rate of embryonic and neonatal lethality. The mice from all the lines examined showed enlargement of the heart. Abnormalities of the kidney and eye were also detected in mice expressing CECR1 under control of the actin promoter.     

Fgf15 is required for proper morphogenesis of the mouse cardiac outflow tract

Evidence in animal models indicates that signaling networks functioning in the developing pharyngeal arches regulate stereotyped processes critical for proper development of the aortic arch and cardiac outflow tract. Here, we describe the phenotype of mice lacking fibroblast growth factor 15 (Fgf15), which encodes a secreted signaling molecule expressed within the developing pharyngeal arches. Homozygous Fgf15 mutants present heart defects consistent with malalignment of the aorta and pulmonary trunk. These defects correlate with early morphological defects of the outflow tract due to aberrant behavior of the cardiac neural crest. We demonstrate that Fgf15 expression within the pharyngeal arches is unaltered by a loss of Tbx1, a key regulator of pharyngeal arch development implicated in DiGeorge syndrome. In addition, Fgf15 and Tbx1 do not interact genetically, suggesting that Fgf15 operates through a pathway independent of Tbx1. These studies reveal a novel role of Fgf15 during development of the cardiac outflow tract.     

Isolation and characterization of a novel semi-lethal Arabidopsis thaliana mutant of gene for pentatricopeptide (PPR) repeat-containing protein

A novel Arabidopsis thaliana mutant of one member of the pentatricopeptide repeat (PPR) gene family has been identified among T-DNA insertion lines. Tagging of the At1g53330 gene caused the appearance of a semi-lethal mutation with a complex phenotypic expression from embryo lethality associated with the abnormal pattern of cell division during globular to heart transition to fertile plants with just subtle phenotypic changes. The PPR protein At1g53330.1 was predicted to be targeted to mitochondria by TargetP and MitoProt programs. Complementation analysis confirmed that the phenotype is a result of a single T-DNA integration. A thorough functional analysis of this mutant aimed at finding a particular organelle target of At1g53330.1 protein will follow.     

MLPA: A prenatal diagnostic tool for the study of congenital heart defects?

Congenital heart defects (CHD) represent the most common birth defects, so they are not a rare finding when performing routine ultrasound examinations during pregnancy. Once chromosome abnormalities have been excluded in a fetus with a CHD, chromosome 22q11.2 deletion is usually investigated by FISH, as it is the most frequent microdeletion syndrome and is generally associated with cardiac malformations. If 22q11.2 microdeletion is ruled out, the etiology of the CHD remains generally unexplained, making familial genetic counseling difficult. To evaluate the usefulness of Multiplex Ligation-dependent Probe Amplification (MLPA) kits designed for the study of 22q11.2 and other genomic regions previously associated with syndromic CHD, we performed MLPA in 55 pregnancies with fetuses presenting CHD, normal karyotype and negative FISH results for 22q11.2 microdeletion, which constitutes the largest prenatal series reported. Definitive MLPA results were obtained in 50 pregnancies, and in this setting such MLPA kits did not detect any imbalance. On the other hand, to compare FISH and MLPA techniques for the study of 22q11.2 microdeletions, we performed MLPA in 4 pregnancies known to have 22q11.2 deletions (by FISH). All four 22q11.2 microdeletions were also detected by MLPA, which corroborates that it is a reliable technique for the diagnosis and characterization of 22q11.2 deletions. Finally, we evaluated the possibility of replacing conventional FISH by MLPA for the prenatal diagnosis of CHD, comparing the diagnostic potential, results delivery times, repetition and failure rates and cost of both techniques, and concluded that FISH should still be the technique of choice for the prenatal diagnosis of fetuses with CHD.     

Congenital heart defect and mental retardation in a patient with a 13q33.1-34 deletion

13q deletion syndrome is a rare genetic disorder caused by deletions of the long arm of chromosome 13. Patients with 13q deletion display a variety of phenotypic features. We describe a one-year-old female patient with congenital heart defects (CHD), facial anomalies, development and mental retardation. We identified a 12.75Mb deletion in chromosome region 13q33.1-34 with high resolution SNP Array (Human660W-Quad, Illumina, USA). This chromosome region contains about 55 genes, including EFNB2, ERCC5, VGCNL1, F7, and F10. Comparing our findings with previously reported 13q deletion patients with congenital heart defects, we propose that the 13q33.1-34 deletion region might contain key gene(s) associated with cardiac development. Our study also identified a subclinical deficiency of Factors VII and X in our patient with Group 3 of 13q deletion syndrome.     

Use of human perivascular stem cells for bone regeneration

Human perivascular stem cells (PSCs) can be isolated in sufficient numbers from multiple tissues for purposes of skeletal tissue engineering. PSCs are a FACS-sorted population of 'pericytes' (CD146+CD34-CD45-) and 'adventitial cells' (CD146-CD34+CD45-), each of which we have previously reported to have properties of mesenchymal stem cells. PSCs, like MSCs, are able to undergo osteogenic differentiation, as well as secrete pro-osteogenic cytokines. In the present protocol, we demonstrate the osteogenicity of PSCs in several animal models including a muscle pouch implantation in SCID (severe combined immunodeficient) mice, a SCID mouse calvarial defect and a femoral segmental defect (FSD) in athymic rats. The thigh muscle pouch model is used to assess ectopic bone formation. Calvarial defects are centered on the parietal bone and are standardly 4 mm in diameter (critically sized). FSDs are bicortical and are stabilized with a polyethylene bar and K-wires. The FSD described is also a critical size defect, which does not significantly heal on its own. In contrast, if stem cells or growth factors are added to the defect site, significant bone regeneration can be appreciated. The overall goal of PSC xenografting is to demonstrate the osteogenic capability of this cell type in both ectopic and orthotopic bone regeneration models.