Gilteritinib-induced severe immune-related enteritis: a possible case report
PreprintsPan Luo, Huiyin Qiu, Yushan Yang, Jiaqi Wu, Xianmin Song, Guorong Fan, Gaolin Liu, Junwei Gao
Pan Luo, Huiyin Qiu, Yushan Yang, Jiaqi Wu, Xianmin Song, Guorong Fan, Gaolin Liu, Junwei Gao
Fei Yan, Meihua Gong, Fu-Rong Li, Li Yu
Dongjin S Shin, Francesco K Touani, Damon G.K Aboud, Anne Kietzig, Sophie Lerouge, Corinne A Hoesli
Kristi Dietert, Swetha Mahesula, Sheetal Hegde, John Verschelde, Pamela Reed, Shane Sprague, Erzsebet Kokovay, Naomi L Sayre
It could be the world’s tiniest EEG electrode cap, created to measure activity in a brain model the size of a pen dot. Its designers expect the device to lead to better understanding of neural disorders and how potentially dangerous chemicals affect the brain. This engineering feat, led by Johns Hopkins University researchers and detailed today in Science Advances, expands what researchers can accomplish with organoids, including mini brains—the lab-grown balls of human cells that mimic some of a brain’s structure and functionality.
Homa Majd, Sadaf Amin, Zaniar Ghazizadeh, Andrius Cesiulis, Edgardo Arroyo, Karen Lankford, Sina Farahvashi, Angeline K Chemel, Mesomachukwu Okoye, Megan D Scantlen, Jason Tchieu, Elizabeth L Calder, Valerie LeRouzic, Abolfazl Arab,
Lihui Peng, Julien E Gautrot
Tissues contain many different cell types, and it remains challenging to understand how they interact and contribute to tissue function.
When it comes to royalty, things are clear: The monarch's first child inherits the crown. Siblings born later must make do with a less glamorous profession.
Huachuan Zheng, Hang Xue, Ying E, Zhengguo Cui
Yi-Xiao Xiong, Xiaochao Zhang, Jing-Han Zhu, Yuxin Zhang, Yonglong Pan, Yu Wu, Jian-Ping Zhao, Junjie Liu, Yuan-Xiang Lu, Huifang Liang, Zhanguo Zhang, Wanguang Zhang
Gesine Bug, Myriam Labopin, Riitta Niittyvuopio, Matthias Stelljes, Christian Reinhardt, Inken Hilgendorf, Nicolaus Kroeger, Ain Kaare, Wolfgang Bethge, Kerstin Schaefer-Eckart, Mareike Verbeek, Stephan Mielke, Kristina Carlson, Ali
Sahar I Mostafa, Nesma M Abdelfattah, Sayed M Ghorab, Manal F Osman, Noha A Elwassefy
Omer Jamy, John Dasher, Alice Chen, Donna Salzman, Ravi Bhatia, Smita Bhatia
Jessica Crowe, Lara Edbrooke, Amit Khot, Linda Denehy, Jill J Francis
Koya Obara, Kyoumi Shirai, Yuko Hamada, Nobuko Arakawa, Ayami Hasegawa, Nanao Takaoka, Ryoichi Aki, Robert M. Hoffman, Yasuyuki Amoh
Arina A. Nikitina, Alexandria Van Grouw, Tanya Roysam, Danning Huang, Facundo M. Fernandez, Melissa L. Kemp
The successful generation of endodermal, ectodermal, and most mesodermal lineages from pluripotent stem cells has resulted in basic discoveries and regenerative medicine clinical trials of cell-based therapies.
: Mesenchymal stromal cells are essential components of hematopoietic stem and progenitor cell (HSPC) niches, regulating HSPC proliferation and fate decisions.
Jasmine Moshiri, Ailsa Craven, Sara Mixon, Manuel Amieva, Karla Kirkegaard
Zhipeng Sun, Todd Nystul, Guohua Zhong
Guoqiang Yang, Jiraporn Kantapan, Maryam Mazhar, Xue Bai, Yuanxia Zou, Honglian Wang, Bingfeng Huang, Sijing Yang, Nathupakorn Dechsupa, Li Wang
Liangwen Zhong, Miriam Gordillo, Xingyi Wang, Yiren Qin, Yuanyuan Huang, Alexey Soshnev, Ritu Kumar, Gouri Nanjangud, Daylon James, C. David Allis, Todd Evans, Bryce Carey, Duancheng Wen
Silvio Ligia, Salvatore Giacomo Morano, Francesca Kaiser, Alessandra Micozzi, Maria Luisa Moleti, Walter Barberi, Fiorina Giona, Antonio Chistolini, Valentina Arena, Alfonso Piciocchi, Maurizio Forgione, Giulia Gasperini, Marco Fabbri, Anna Maria Testi
Ehsaneh Azaryan, Samira Karbasi, Mansoore Saharkhiz, Mohammad Yahya Hanafi-Bojd, Asghar Zarban, Fariba Emadian Razavi, Mohsen Naseri
DNA damage caused by factors such as ultraviolet radiation affect nearly three-quarters of all stem cell lines derived from human skin cells, say Cambridge researchers, who argue that whole genome sequencing is essential for confirming if cell lines are usable.
Jianjun Cheng, Daxiong Zeng, Ting Zhang, Lu Zhang, Xiu Han, Peng Zhou, Lin Wang, Jun He, Qingzhen Han
Robin Canac, Bastien Cimarosti, Aurore Girardeau, Virginie Forest, Pierre Olchesqui, Jeremie Poschmann, Richard Redon, Patricia Lemarchand, Nathalie Gaborit, Guillaume Lamirault
Malte Loos, Birgit Klampe, Thomas Schulze, Xiaoke Yin, Konstantinos Theofilatos, Bärbel Ulmer, Carl Schulz, Charlotta Behrens, Tessa Van Bergen, Eleonora Adami, Henrike Maatz, Michaela Schweizer, Susanne Brodesser, Boris Skryabin,
Jiansheng Gao, Yuli Liang, Jiabao Chen, Huihui Shen, Hua Liu
Pasquale Nigro, Maria Vamvini, Jiekun Jackie Yang, Tiziana Caputo, Li-Lun Ho, Danae Papadopoulos, Nicholas Philip Carbone, Royce Colin, Jie He, Hirshman Frederick Michael, Joseph Daniel White, Jacques Robidoux, Robert Hickner, Soeren
Melis Asal, Gamze Koçak, Vedat Sarı, Tuba Reçber, Emirhan Nemutlu, Canan Aslı Utine, Sinan Guven
Anusha Vittal, Nehna Abdul Majeed, Elizabeth Garabedian, Jamie Marko, David E Kleiner, Rob Sokolic, Fabio Candotti, Harry Malech, Theo Heller, Christopher Koh
Alexander Chervov, Andrei Zinovyev
Ying Cao
Troy Yi, Jeffrey Steinberg, Scott Olson, Howaida El-Said, Jun Mo, Eric Anderson, Nicholas Gloude, Deborah Schiff
Zijie Wang, Chuying Chen, Jiayi Zhang, Jiangdie He, Lin Zhang, Jiayuan Wu, Zhihui Tian
Qing Li, Fanfei Kong, Rong Cong, Jian Ma, Cuicui Wang, Xiaoxin Ma
Rahul Naithani
Kseniia Sarieva, Theresa Kagermeier, Shokoufeh Khakipoor, Ezgi Atay, Zeynep Yentuer, Katharina Becker, Simone Mayer
MADISON — For the first time, researchers can get a high-resolution view of single blood stem cells thanks to a little help from microscopy and zebrafish.Researchers at the University of Wisconsin–Madison and the University of California San Diego have developed a method for scientists to track a single blood stem cell in a live organism and then describe the ultrastructure, or architecture, of that same cell using electron microscopy.
Devanjan Dey, Vadanya Shrivastava, Diksha Joshi, Chitra Mohinder Singh Singal, Sagar Tyagi, Muzaffer Ahmed Bhat, Paritosh Jaiswal, Jai Bhagwan Sharma, Jayanth Kumar Palanichamy, Subrata Sinha, Pankaj Seth, Sudip Sen
Fan-Yan Wei, Asuka Inoue, Akiko Ogawa, Seiya Ohira, Tatsuya Ikuta, Yuri Kato, Shota Yanagida, Yukina Ishii, Yasunari Kanda, Motohiro Nishida
Vahedeh Hosseini, Mahdi Paryan, Ameneh Koochaki, Henry Manuel Cesaire, Samira Mohammadi-Yeganeh
Ruisong Wang, Ziyi Qin, Long Huang, Huiling Luo, Han Peng, Xinyu Zhou, Zhixiang Zhao, Mingyao Liu, Pinhong Yang, Tieliu Shi
Zesheng Peng, Yuxi Wu, Jiajing Wang, Sujie Gu, Yihao Wang, Bingzhou Xue, Peng Fu, Wei Xiang
Joana Rodrigues Dantas, Débora Batista Araújo, Karina Ribeiro Silva, Débora Lopes Souto, Maria De Fátima Carvalho Pereira, RonirRaggio LUIZ, Cesar Claudio-Da-Silva, Carlos Eduardo Barra Couri, Angelo Maiolino, Carmen Lúcia Kuniyoshi Rebelatto, Débora Regina Daga, Alexandra Cristina Senegaglia,
The University of Wisconsin–Madison's Cell-Inspired Personalized Therapeutic (CIPT) Lab has developed a powerful immunity-boosting postoperative treatment that could transform the odds for patients with glioblastoma.