Author Correction Published: High-Resolution Map of the Human Placenta Reveals Molecular Complexity
A correction has been issued regarding a landmark study detailing the spatial multiomic landscape of the human placenta at molecular resolution.The original research, published previously, provides an unprecedentedly detailed cellular and molecular map of this critical organ, offering new insights into its development and function. The author correction clarifies author affiliations and names.
The study, conducted by a collaborative team spanning institutions including the Broad Institute of MIT and Harvard, Massachusetts Institute of Technology, Cincinnati Children’s Hospital Medical Center, Harvard University, Medical University of Vienna, Memorial Sloan Kettering Cancer Center, and Columbia University, utilized advanced spatial multiomic technologies to analyze the placenta’s cellular composition and gene expression patterns. Key researchers involved in the correction include Johain R.Ounadjela, Claire Callahan, Francesca viggiani, Morgan L. Zvezdov, Johain R. Ownella, Cusky J. Cobayashi-kirschvink,andrew J.C. Russell, Karthick Jagadesish, Naeem nadof, Qiu Gong, Ruth Riachur, Fei Chen, Jian Shu, Koseki J. Kobayashi-Kirschvink,Kang Jin,Andreas I. Lackner, Kushal K. Dey, Theresa Maxian, Anna-Maria Prandstetter, Martin Knöfler, Sandra Haider, Xinwen Liu, and Wei Min.
The research identified a remarkable degree of cellular heterogeneity within the placenta, revealing distinct cell populations and thier spatial organization. This detailed map is expected to serve as a crucial resource for understanding placental development, identifying potential causes of pregnancy complications, and developing new therapeutic strategies. The author correction ensures accurate attribution for this important contribution to the field of placental biology.
