Institution
Boston Children's Hospital
Healthcare•Boston, Massachusetts, United States•
About: Boston Children's Hospital is a healthcare organization based out in Boston, Massachusetts, United States. It is known for research contribution in the topics: Population & Medicine. The organization has 165409 authors who have published 215589 publications receiving 6885627 citations.
Topics: Population, Medicine, Transplantation, Poison control, Intensive care
Papers published on a yearly basis
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University of Alabama at Birmingham1, University of Michigan2, University of Wisconsin-Madison3, University of Pittsburgh4, Johns Hopkins University School of Medicine5, University of Texas Health Science Center at Houston6, Rowan University7, University of Pennsylvania8, Georgia Regents University9, Cornell University10, Boston Children's Hospital11, Wayne State University12
TL;DR: IDSA considers adherence to these guidelines to be voluntary, with the ultimate determination regarding their application to be made by the physician in the light of each patient's individual circumstances.
Abstract: It is important to realize that guidelines cannot always account for individual variation among patients. They are not intended to supplant physician judgment with respect to particular patients or special clinical situations. IDSA considers adherence to these guidelines to be voluntary, with the ultimate determination regarding their application to be made by the physician in the light of each patient's individual circumstances.
2,367 citations
University of Oxford1, Harvard University2, Boston Children's Hospital3, Northeastern University4, Universidad San Francisco de Quito5, University of Southampton6, Institute for Health Metrics and Evaluation7, Pasteur Institute8, University of Paris9, Institute for Scientific Interchange10, Beijing Normal University11, Royal Veterinary College12
TL;DR: Real-time mobility data from Wuhan and detailed case data including travel history are used to elucidate the role of case importation in transmission in cities across China and to ascertain the impact of control measures.
Abstract: The ongoing coronavirus disease 2019 (COVID-19) outbreak expanded rapidly throughout China. Major behavioral, clinical, and state interventions were undertaken to mitigate the epidemic and prevent the persistence of the virus in human populations in China and worldwide. It remains unclear how these unprecedented interventions, including travel restrictions, affected COVID-19 spread in China. We used real-time mobility data from Wuhan and detailed case data including travel history to elucidate the role of case importation in transmission in cities across China and to ascertain the impact of control measures. Early on, the spatial distribution of COVID-19 cases in China was explained well by human mobility data. After the implementation of control measures, this correlation dropped and growth rates became negative in most locations, although shifts in the demographics of reported cases were still indicative of local chains of transmission outside of Wuhan. This study shows that the drastic control measures implemented in China substantially mitigated the spread of COVID-19.
2,362 citations
TL;DR: A dimer of the class II αβ heterodimers is seen in the crystal forms of HLA-DR1, suggesting class II HLA dimerization as a mechanism for initiating the cytoplasmic signalling events in T-cell activation.
Abstract: The three-dimensional structure of the class II histocompatibility glycoprotein HLA-DR1 from human B-cell membranes has been determined by X-ray crystallography and is similar to that of class I HLA. Peptides are bound in an extended conformation that projects from both ends of an 'open-ended' antigen-binding groove. A prominent non-polar pocket into which an 'anchoring' peptide side chain fits is near one end of the binding groove. A dimer of the class II alpha beta heterodimers is seen in the crystal forms of HLA-DR1, suggesting class II HLA dimerization as a mechanism for initiating the cytoplasmic signalling events in T-cell activation.
2,313 citations
Boston Children's Hospital1, University of Washington2, Emory University3, GeneDx4, National Institutes of Health5, University of Utah6, Wellcome Trust Sanger Institute7, Salisbury University8, University of California, San Francisco9, Uppsala University10, University of British Columbia11, Johns Hopkins University School of Medicine12, Drexel University13, University of Groningen14, University of Pennsylvania15, University of California, Santa Cruz16, Brigham and Women's Hospital17, The Centre for Applied Genomics18, Research Triangle Park19, Mayo Clinic20, Katholieke Universiteit Leuven21, University of Chicago22, American College of Medical Genetics23
TL;DR: Chromosomal microarray (CMA) is increasingly utilized for genetic testing of individuals with unexplained developmental delay/intellectual disability (DD/ID), autism spectrum disorders (ASD), or multiple congenital anomalies (MCA).
Abstract: Chromosomal microarray (CMA) is increasingly utilized for genetic testing of individuals with unexplained developmental delay/intellectual disability (DD/ID), autism spectrum disorders (ASD), or multiple congenital anomalies (MCA). Performing CMA and G-banded karyotyping on every patient substantially increases the total cost of genetic testing. The International Standard Cytogenomic Array (ISCA) Consortium held two international workshops and conducted a literature review of 33 studies, including 21,698 patients tested by CMA. We provide an evidence-based summary of clinical cytogenetic testing comparing CMA to G-banded karyotyping with respect to technical advantages and limitations, diagnostic yield for various types of chromosomal aberrations, and issues that affect test interpretation. CMA offers a much higher diagnostic yield (15%–20%) for genetic testing of individuals with unexplained DD/ID, ASD, or MCA than a G-banded karyotype (~3%, excluding Down syndrome and other recognizable chromosomal syndromes), primarily because of its higher sensitivity for submicroscopic deletions and duplications. Truly balanced rearrangements and low-level mosaicism are generally not detectable by arrays, but these are relatively infrequent causes of abnormal phenotypes in this population (<1%). Available evidence strongly supports the use of CMA in place of G-banded karyotyping as the first-tier cytogenetic diagnostic test for patients with DD/ID, ASD, or MCA. G-banded karyotype analysis should be reserved for patients with obvious chromosomal syndromes (e.g., Down syndrome), a family history of chromosomal rearrangement, or a history of multiple miscarriages.
2,294 citations
TL;DR: The 14 kb human Duchenne muscular dystrophy cDNA corresponding to a complete representation of the fetal skeletal muscle transcript has been cloned and the majority of deletions are concentrated in a single genomic segment corresponding to only 2 kb of the transcript.
2,266 citations
Authors
Showing all 165661 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Walter C. Willett | 334 | 2399 | 413322 |
| Frederick E. Shelton | 327 | 1485 | 295883 |
| Robert Langer | 281 | 2324 | 326306 |
| Graham A. Colditz | 261 | 1542 | 256034 |
| Frank B. Hu | 250 | 1675 | 253464 |
| George M. Whitesides | 240 | 1739 | 269833 |
| Eugene Braunwald | 230 | 1711 | 264576 |
| Ralph B. D'Agostino | 226 | 1287 | 229636 |
| Mark J. Daly | 204 | 763 | 304452 |
| Eric B. Rimm | 196 | 988 | 147119 |
| Virginia M.-Y. Lee | 194 | 993 | 148820 |
| Bernard Rosner | 190 | 1162 | 147661 |
| Stuart H. Orkin | 186 | 715 | 112182 |
| Mark Hallett | 186 | 1170 | 123741 |
| Ralph Weissleder | 184 | 1160 | 142508 |