Ammanamanchi Niyatie, Yester Jessie, Bargaje Anita P, Thomas Dawn, Little Kathryn C, Janzef Shannon, Francis Kimberly, Weinberg Jacqueline, Johnson Jennifer, Seery Thomas, Harris Tyler Hutchinson, Funari Bryan J, Rose-Felker Kirsten, Zinn Matthew, Miller Susan A, West Shawn C, Feingold Brian, Zhou Hairu, Steinhauser Matthew L, Csernica Timothy, Michener Robert, Kühn Bernhard
Division of Pediatric Cardiology, Pediatric Institute for Heart Regeneration and Therapeutics (I-HRT), UPMC Children's Hospital of Pittsburgh, Pittsburgh, PA, United States of America.
Department of Pediatrics, University of Pittsburgh School of Medicine, Pittsburgh, PA, United States of America.
PLoS One. 2024 Jan 25;19(1):e0295651. doi: 10.1371/journal.pone.0295651. eCollection 2024.
We have developed a new clinical research approach for the quantification of cellular proliferation in human infants to address unanswered questions about tissue renewal and regeneration. The approach consists of oral 15N-thymidine administration to label cells in S-phase, followed by Multi-isotope Imaging Mass Spectrometry for detection of the incorporated label in cell nuclei. To establish the approach, we performed an observational study to examine uptake and elimination of 15N-thymidine. We compared at-home label administration with in-hospital administration in infants with tetralogy of Fallot, a form of congenital heart disease, and infants with heart failure.
We examined urine samples from 18 infants who received 15N-thymidine (50 mg/kg body weight) by mouth for five consecutive days. We used Isotope Ratio Mass Spectrometry to determine enrichment of 15N relative to 14N (%) in urine.
RESULTS/FINDINGS: 15N-thymidine dose administration produced periodic rises of 15N enrichment in urine. Infants with tetralogy of Fallot had a 3.2-fold increase and infants with heart failure had a 4.3-fold increase in mean peak 15N enrichment over baseline. The mean 15N enrichment was not statistically different between the two patient populations (p = 0.103). The time to peak 15N enrichment in tetralogy of Fallot infants was 6.3 ± 1 hr and in infants with heart failure 7.5 ± 2 hr (mean ± SEM). The duration of significant 15N enrichment after a dose was 18.5 ± 1.7 hr in tetralogy of Fallot and in heart failure 18.2 ± 1.8 hr (mean ± SEM). The time to peak enrichment and duration of enrichment were also not statistically different (p = 0.617 and p = 0.887).
The presented results support two conclusions of significance for future applications: (1) Demonstration that 15N-thymidine label administration at home is equivalent to in-hospital administration. (2) Two different types of heart disease show no differences in 15N-thymidine absorption and elimination. This enables the comparative analysis of cellular proliferation between different types of heart disease.
我们开发了一种新的临床研究方法,用于量化人类婴儿的细胞增殖,以解决有关组织更新和再生的未解决问题。该方法包括口服15N-胸腺嘧啶核苷以标记处于S期的细胞,随后采用多同位素成像质谱法检测细胞核中掺入的标记物。为建立该方法,我们进行了一项观察性研究,以检查15N-胸腺嘧啶核苷的摄取和消除情况。我们比较了法洛四联症(一种先天性心脏病)婴儿和心力衰竭婴儿在家中给予标记物与在医院给予标记物的情况。
我们检查了18名连续五天口服15N-胸腺嘧啶核苷(50mg/kg体重)的婴儿的尿液样本。我们使用同位素比率质谱法测定尿液中15N相对于14N的富集率(%)。
结果/发现:给予15N-胸腺嘧啶核苷剂量后,尿液中15N富集出现周期性升高。法洛四联症婴儿的平均峰值15N富集比基线增加了3.2倍,心力衰竭婴儿增加了4.3倍。两组患者群体的平均15N富集在统计学上无差异(p = 0.103)。法洛四联症婴儿达到15N富集峰值的时间为6.3±1小时,心力衰竭婴儿为7.5±2小时(平均值±标准误)。给药后15N显著富集的持续时间在法洛四联症中为18.5±1.7小时,在心力衰竭中为18.2±1.8小时(平均值±标准误)。达到富集峰值的时间和富集持续时间在统计学上也无差异(p = 0.617和p = 0.887)。
所呈现的结果支持对未来应用具有重要意义的两个结论:(1)证明在家中给予15N-胸腺嘧啶核苷标记物与在医院给予等效。(2)两种不同类型的心脏病在15N-胸腺嘧啶核苷的吸收和消除方面无差异。这使得能够对不同类型心脏病之间的细胞增殖进行比较分析。
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