Apoorva Babu

2.7k total citations
24 papers, 1.2k citations indexed

About

Apoorva Babu is a scholar working on Pulmonary and Respiratory Medicine, Molecular Biology and Surgery. According to data from OpenAlex, Apoorva Babu has authored 24 papers receiving a total of 1.2k indexed citations (citations by other indexed papers that have themselves been cited), including 16 papers in Pulmonary and Respiratory Medicine, 13 papers in Molecular Biology and 9 papers in Surgery. Recurrent topics in Apoorva Babu's work include Neonatal Respiratory Health Research (14 papers), Congenital Diaphragmatic Hernia Studies (7 papers) and Congenital heart defects research (5 papers). Apoorva Babu is often cited by papers focused on Neonatal Respiratory Health Research (14 papers), Congenital Diaphragmatic Hernia Studies (7 papers) and Congenital heart defects research (5 papers). Apoorva Babu collaborates with scholars based in United States, Austria and India. Apoorva Babu's co-authors include Michael P. Morley, Edward E. Morrisey, Su Zhou, John P. Leach, Jarod A. Zepp, Terren K. Niethamer, Collin T. Stabler, David B. Frank, Benjamin L. Prosser and Kenneth Bedi and has published in prestigious journals such as Science, Cell and Proceedings of the National Academy of Sciences.

In The Last Decade

Apoorva Babu

24 papers receiving 1.2k citations

Peers

Apoorva Babu
Pascal Trouvé France
Suvi Jauhiainen Finland
Carole Van der Donckt Belgium
Naravat Poungvarin Thailand
Jun Yao China
Mingjie Wu China
Xiaoguang Zhao China
Lisa S. Smit United States
Antje Augstein Germany
Pascal Trouvé France
Apoorva Babu
Citations per year, relative to Apoorva Babu Apoorva Babu (= 1×) peers Pascal Trouvé

Countries citing papers authored by Apoorva Babu

Since Specialization
Citations

This map shows the geographic impact of Apoorva Babu's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Apoorva Babu with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Apoorva Babu more than expected).

Fields of papers citing papers by Apoorva Babu

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Apoorva Babu. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Apoorva Babu. The network helps show where Apoorva Babu may publish in the future.

Co-authorship network of co-authors of Apoorva Babu

This figure shows the co-authorship network connecting the top 25 collaborators of Apoorva Babu. A scholar is included among the top collaborators of Apoorva Babu based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Apoorva Babu. Apoorva Babu is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Niethamer, Terren K., Joseph D. Planer, Michael P. Morley, et al.. (2025). Longitudinal single-cell profiles of lung regeneration after viral infection reveal persistent injury-associated cell states. Cell stem cell. 32(2). 302–321.e6. 6 indexed citations
2.
Morley, Michael P., Dakota L. Jones, Gan Zhao, et al.. (2024). Airway epithelial cell identity and plasticity are constrained by Sox2 during lung homeostasis, tissue regeneration, and in human disease. npj Regenerative Medicine. 9(1). 2–2. 3 indexed citations
3.
Callaway, Danielle, Ian J. Penkala, Su Zhou, et al.. (2024). TGF-β controls alveolar type 1 epithelial cell plasticity and alveolar matrisome gene transcription in mice. Journal of Clinical Investigation. 134(6). 7 indexed citations
4.
Huang, Jessie, Pushpinder Bawa, Konstantinos–Dionysios Alysandratos, et al.. (2024). Generation of human alveolar epithelial type I cells from pluripotent stem cells. Cell stem cell. 31(5). 657–675.e8. 35 indexed citations
5.
Naik, Amruta, Utham K. Valekunja, Soon Yew Tang, et al.. (2023). Circadian regulation of lung repair and regeneration. JCI Insight. 8(16). 7 indexed citations
6.
Niethamer, Terren K., et al.. (2023). Atf3 defines a population of pulmonary endothelial cells essential for lung regeneration. eLife. 12. 19 indexed citations
7.
Cardenas‐Diaz, Fabian L., Derek C. Liberti, John P. Leach, et al.. (2023). Temporal and spatial staging of lung alveolar regeneration is determined by the grainyhead transcription factor Tfcp2l1. Cell Reports. 42(5). 112451–112451. 13 indexed citations
8.
Rodríguez, L. Raposo, Soon Yew Tang, Aditi Murthy, et al.. (2023). PGF2α signaling drives fibrotic remodeling and fibroblast population dynamics in mice. JCI Insight. 8(24). 6 indexed citations
9.
Lin, Susan M., Alexander R. Mukhitov, Maria C. Basil, et al.. (2023). Hyperactive mTORC1 in lung mesenchyme induces endothelial cell dysfunction and pulmonary vascular remodeling. Journal of Clinical Investigation. 134(4). 8 indexed citations
10.
Liberti, Derek C., William A. Liberti, Madison M. Kremp, et al.. (2022). Klf5 defines alveolar epithelial type 1 cell lineage commitment during lung development and regeneration. Developmental Cell. 57(14). 1742–1757.e5. 14 indexed citations
11.
Katzen, Jeremy, L. Raposo Rodríguez, Yaniv Tomer, et al.. (2022). Disruption of proteostasis causes IRE1 mediated reprogramming of alveolar epithelial cells. Proceedings of the National Academy of Sciences. 119(43). e2123187119–e2123187119. 19 indexed citations
12.
Penkala, Ian J., Derek C. Liberti, Aravind Sivakumar, et al.. (2021). Age-dependent alveolar epithelial plasticity orchestrates lung homeostasis and regeneration. Cell stem cell. 28(10). 1775–1789.e5. 87 indexed citations
13.
Zepp, Jarod A., Michael P. Morley, Claudia Loebel, et al.. (2021). Genomic, epigenomic, and biophysical cues controlling the emergence of the lung alveolus. Science. 371(6534). 99 indexed citations
14.
McAfee, Quentin, Yingxian Chen, Yifan Yang, et al.. (2021). Truncated titin proteins in dilated cardiomyopathy. Science Translational Medicine. 13(618). eabd7287–eabd7287. 47 indexed citations
15.
Niethamer, Terren K., Collin T. Stabler, John P. Leach, et al.. (2020). Defining the role of pulmonary endothelial cell heterogeneity in the response to acute lung injury. eLife. 9. 157 indexed citations
16.
Windmueller, Rebecca, John P. Leach, Apoorva Babu, et al.. (2020). Direct Comparison of Mononucleated and Binucleated Cardiomyocytes Reveals Molecular Mechanisms Underlying Distinct Proliferative Competencies. Cell Reports. 30(9). 3105–3116.e4. 46 indexed citations
17.
Poleshko, Andrey, Parisha P. Shah, Mudit Gupta, et al.. (2017). Genome-Nuclear Lamina Interactions Regulate Cardiac Stem Cell Lineage Restriction. Cell. 171(3). 573–587.e14. 158 indexed citations
18.
Herriges, Michael J., David J. Tischfield, Zheng Cui, et al.. (2017). The NANCI–Nkx2.1 gene duplex buffers Nkx2.1 expression to maintain lung development and homeostasis. Genes & Development. 31(9). 889–903. 29 indexed citations
19.
Wada, Shogo, Michael D. Neinast, Cholsoon Jang, et al.. (2016). The tumor suppressor FLCN mediates an alternate mTOR pathway to regulate browning of adipose tissue. Genes & Development. 30(22). 2551–2564. 91 indexed citations
20.
Babu, Apoorva, et al.. (2012). Isolation and in silico evaluation of antidiabetic molecules of Cynodon dactylon (L.). Journal of Molecular Graphics and Modelling. 39. 87–97. 35 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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