Miyabara S, Gropp A, Winking H
Teratology. 1982 Jun;25(3):369-80. doi: 10.1002/tera.1420250314.
Murine trisomy (Ts) 16 occurs in the fetal and neonatal progeny of males doubly heterozygous for the Robertsonian metacentric chromosomes Rb(16.17)7Bnr/Rb(9.16)9Rma and "all acrocentric" females. The developmental aspects of this trisomy were studied between day 12 of gestation and birth. So far, postnatal survival longer than a few hours after birth has not been observed. The frequency of Ts 16 among all implants decreased from more than 20% on day 14 to values between 4% and 7% shortly before term. Main features of Ts 16 are moderate general hypoplasia, slight developmental retardation, and cardiovascular anomalies. These latter were found in 96% of the trisomies, the great majority belonging to the transposition type, i.e., riding aorta, double outlet right ventricle (DORV) and transposition of the great arteries (TGA). Association with common atrio ventricular (AV)-canal was frequent. Other anomalies as "open eyelid", hydronephrosis, and hydroureter seem to be attributable to the effects of retardation. Generalized transient edema was frequent in the later gestational stages of Ts 16. Severe cardiovascular malformation is possible one of the factors responsible for late fetal or neonatal death in some cases. Another factor probably contributing to Ts 16 fetal mortality is insufficiency of placental function due to hypoplasia of the fetal vasculature of this organ. The teratological study of Ts 16 demands interest since evidence has been forwarded to consider this trisomy as an animal model of human trisomy 21.
小鼠16三体(Ts)16出现在罗伯逊中着丝粒染色体Rb(16.17)7Bnr/Rb(9.16)9Rma的双杂合雄性与“所有端着丝粒”雌性的胎儿和新生后代中。在妊娠第12天至出生期间研究了这种三体的发育情况。到目前为止,尚未观察到出生后存活超过几小时的情况。在所有着床中,Ts 16的频率从第14天的超过20%下降到足月前不久的4%至7%之间。Ts 16的主要特征是中度全身发育不全、轻度发育迟缓以及心血管异常。后者在96%的三体中被发现,绝大多数属于换位类型,即骑跨主动脉、右心室双出口(DORV)和大动脉转位(TGA)。与常见房室(AV)通道的关联很常见。其他异常如“睁眼”、肾积水和输尿管积水似乎可归因于发育迟缓的影响。在Ts 16的妊娠后期,全身性短暂水肿很常见。严重的心血管畸形可能是某些情况下导致晚期胎儿或新生儿死亡的因素之一。另一个可能导致Ts 16胎儿死亡的因素是由于该器官胎儿血管发育不全导致的胎盘功能不全。由于有证据表明将这种三体视为人类21三体的动物模型,因此对Ts 16的致畸学研究值得关注。