| 1869 |
Boston Children’s Hospital opens as a 20-bed facility at 9 Rutland Street in Boston’s South End. |
| 1891 |
Children’s establishes the nation’s first laboratory for the modification and production of bacteria-free milk. |
| 1920 |
Dr. William Ladd devises procedures for correcting various congenital defects such as intestinal malformations, launching the specialty of pediatric surgery. |
| 1922 |
Dr. James Gamble analyzes the composition of body fluids and develops a method for intravenous feeding that saves the lives of thousands of infants at risk of dehydration from diarrhea. |
| 1932 |
Dr. Louis Diamond characterizes Rh disease, in which a fetus’s blood is incompatible with its mother’s. Diamond later develops exchange transfusion to treat the disease. |
| 1938 |
Dr. Robert Gross performs the world’s first successful surgical procedure to correct a congenital cardiovascular defect, ushering in the era of modern pediatric cardiac surgery. |
| 1947 |
Dr. Sidney Farber achieves the world’s first successful remission of acute leukemia. He goes on to found the Dana-Farber Cancer Institute. |
| 1954 |
Dr. John Enders and his colleagues win the Nobel Prize for successfully culturing the polio virus in 1949, making possible the development of the Salk and Sabin vaccines. Enders and his team went on to culture the measles virus. |
| 1971 |
Dr. Judah Folkman publishes “Tumor angiogenesis: therapeutic implications” in the New England Journal of Medicine. It is the first paper to describe Folkman’s theory that tumors recruit new blood vessels in order to grow. |
| 1978 |
Dr. Stuart Orkin develops restriction endonuclease mapping to diagnose thalassemia in utero. A similar technique led to the development of prenatal tests for sickle cell anemia in 1982. |
| 1983 |
Children’s physicians report the first surgical correction of hypoplastic left heart syndrome, a defect in which an infant is born without a left ventricle. The procedure is the first to correct what previously had been a fatal condition. |
| 1985 |
The Howard Hughes Medical Institute funds a major research program in molecular genetics, the first HHMI program at a pediatric hospital. |
| 1986 |
Children’s surgeons perform the hospital’s first heart transplant. |
| 1986 |
Drs. Louis Kunkel and Stuart Orkin and their research teams develop the technique of positional cloning to identify the genes responsible for Duchenne muscular dystrophy and chronic granulomatous disease, respectively. |
| 1989 |
Researchers in Neurology and Genetics discover that beta amyloid, a protein that accumulates in the brains of people with Alzheimer’s disease, is toxic to neurons, indicating the possible cause of the degenerative disease. |
| 1990 |
Dr. Joseph Murray, chief of Plastic Surgery emeritus, wins the Nobel Prize for his pioneering work in organ transplantation. |
| 1996 |
Boston Combined Residency Program (BCRP) formed. |
| 1997 |
Endostatin, one of the most potent inhibitors of angiogenesis, is discovered by Drs. Michael O’Reilly and Judah Folkman. |
| 1998 |
Dr. Anthony Atala successfully transplants laboratory-grown bladders into dogs, a major advance in the growing field of tissue engineering. |
| 1998 |
Dr. Evan Snyder clones the first neural stem cells from the human central nervous system. |
| 1999 |
Dr. Todd Golub first uses gene expression microarrays to differentiate cancers. |
| 1999 |
The FDA approves the use of CardioSEAL, a minimally invasive device invented by Dr. James Lock that closes holes in the hearts of the most seriously ill cardiac patients. |
| 2000 |
Dr. Frederick Alt finds that end-joining proteins maintain the stability of DNA, helping to prevent the chromosomal changes that precede cancer. |
| 2001 |
Children’s performs the world’s first successful fetal repair of hypoplastic left heart syndrome in a 19-week-old fetus. |
| 2002 |
Dr. Nader Rifai co-authors a landmark study showing that a simple and inexpensive blood test for C-reactive protein is a more powerful predictor of a person’s risk of heart attack or stroke than LDL cholesterol. |
| 2002 |
Drs. Scott Pomeroy and Todd Golub use microarray gene expression profiling to identify different types of brain tumors and predict clinical outcomes. |
| 2003 |
Drs. Heung Bae Kim and Tom Jaksic develop, test and successfully perform the world’s first-ever serial transverse enteroplasty (STEP) procedure, a potential lifesaving surgical procedure for patients with short bowel syndrome. |
| 2005 |
Dr. Stephen Harrison and colleagues show how a key part of the human immunodeficiency virus (HIV) changes shape, triggering other changes that allow the AIDS virus to enter and infect cells. |
| 2005 |
Dr. Raif Geha discovers a gene mutation that causes common variable Immunodeficiency (CVID) and IgA deficiency. |
| 2006 |
Dr. Scott Armstrong identifies self-renewal genes that turn a normal blood cell progenitor into a leukemic stem cell. |
| 2006 |
Dr. Hannah Kinney links sudden infant death syndrome (SIDS) to abnormalities in the brainstem serotonin system, which regulates breathing, blood pressure, body heat and arousal. |
| 2006 |
Children’s urologists successfully implant laboratory grown bladders, the first completely tissue-engineered organs to be implanted in humans, in seven children with spina bifida. |
| 2007 |
Dr. Charles Nelson proves that abandoned children do much better cognitively if moved from institutions to foster care. |
| 2007 |
Dr. Len Zon discovers that prostaglandin E2 greatly stimulates the growth of blood and probably other tissue stem cells. |
| 2007 |
Dr. Lois Smith finds that omega-3-polyunsaturated fatty acids reduce pathological retinal angiogenesis and are a potential therapy for retinopathy of prematurity. |
| 2007 |
Dr. David Ludwig demonstrates that diets rich in rapidly digested carbohydrates not only expand waistlines, but may also cause fatty liver disease. |
| 2007 |
Cardiac surgeons Drs. Virna Sales and John Mayer create living, growing heart valves in an animal model using tissue engineering techniques. |
| 2008 |
Dr. George Daley discovers how to reprogram human somatic cells to pleuripotent stem cells with defined transcription factors. |
| 2008 |
Dr. Chris Walsh and his colleagues identify several genetic loci that cause autism. |
| 2008 |
Drs Vijay Sankaran and Stuart Orkin discover that the fetal hemoglobin to adult hemoglobin switch is controlled by the BCL11A transcription factor. This solves a decades old problem in hematology and has important implications for the treatment of sickle cell disease and thalassemias. |
| 2008 |
Dr. Zhi He observes that stimulation of the mTOR pathway greatly increases axon regeneration after CNS injury. Subsequently, in 2012, Dr. He describes methods for achieving robust and sustained axon regeneration. |
| 2008 |
Neurobiology researchers at Children’s successfully get damaged nerves to recover and regrow in a mouse model by temporarily silencing genes that normally prevent regeneration. |
| 2008 |
Manton Center for Orphan Disease Research founded. |
| 2009 |
Immune Disease Institute joins Boston Children’s Hospital as the Program in Cellular and Molecular Medicine. |
| 2009 |
Drs. George Daley and Richard Gregory show that the microRNA, Lin 28, plays an important role in germ cell development and cancer. |
| 2009 |
Drs. Len Zon and George Daley discover that blood flow triggers development of hematopoietic stem cells. |
| 2011 |
Drs. Stuart Orkin, Vijay Sankaran and their colleagues are able to correct sickle cell disease in mice by silencing BCL11A, which shows that the fetal hemoglobin switch can be reversed. |
| 2011 |
Drs. Luigi Notarangelo, Sung-Yun Pai and David Williams achieve the first successful treatment of severe combined immunodeficiency by gene therapy in the US. |
| 2012 |
Dr. Heung Bae Kim develops novel method to stretch arteries in vivo for repair of arterial defects. |
| 2013 |
Drs. Amy Starmer, Ted Sectish and Chris Landrigan develop a patient handoff method (I-PASS) that greatly reduces medical errors and preventable adverse events |
| 2013 |
Dr. Dan Bauer discovers an erythroid specific enhancer of BCL11A whose deletion raises fetal hemoglobin without affecting BCL11A in the brain and lymphocytes where it is needed. The discovery opens the door to gene editing of BCL11A as a treatment for sickle cell disease and thalassemia. |
| 2013 |
Dr. Joseph Majzoub finds that MRAP2, a protein that regulates melanocortin signaling, is involved in body weight regulation in humans. |
| 2014 |
Drs. Jeff Burns and Tracy Wolbrink launch OPENPediatrics, an innovative web-based digital learning platform linking physicians and nurses across the world |
| 2014 |
Dr. Fernando Camargo discovers that the Hippo- signaling pathway maintains the differentiated hepatocyte state. Loss of Hippo causes hepatocytes to revert to a progenitor state. |
| 2014 |
Dr. Carla Kim identifies mechanisms that drive the differentiation of lung stem cells and contribute to alveolar repair after injury. |
| 2015 |
Dr. Joel Hirschhorn and others identify a large number of genes that contribute to obesity and body fat distribution. |
| 2015 |
Dr. Len Zon defines the perivascular hematopoietic stem cell niche and shows that epoxyeicosatrienoic acid lipids enhance HSC engraftment. |
| 2015 |
Dr. Beth Stevens wins MacArthur “Genius” Award for defining the role of microglia in synapse pruning in development and Alzheimer’s disease. |
| 2015 |
Dr. Len Zon shows that reversion to a neural crest identity initiates the first cancerous cell in melanoma. |
| 2015 |
Dr. Hao Wu visualizes the structure of the inflammasome, which activates innate immunity, and how it is assembled. |
| 2016 |
Dr. Beth Stevens reports the important discovery that the complement pathway and microglia, which prune excess synapses during normal brain development, are inappropriately activated and cause synaptic loss early in Alzheimer’s disease. |
| 2016 |
Dr. Judy Lieberman discovers a new innate pathway for intracellular killing of bacteria by gasdermin D, which binds to the bacterial membrane and forms a lethal pore. |
| 2016 |
Dr. Seth Rakoff-Nahoum discovers that some gut bacteria cooperate by metabolizing nutrients for each other; likely the first of many examples of microbial symbiosis. |
| 2017 |
Children’s hematology/oncology faculty member George Q. Daley becomes Dean of Harvard Medical School. |
| 2017 |
Zhigang He, Larry Benowitz and Clifford Woolf, working independently, show that spinal cord regrowth can occur, raising the real possibility of clinical recovery from spinal cord injury and paralysis. |
| 2017 |
David Williams, Christy Duncan and their colleagues successfully treat cerebral adrenoleukodystrophy with gene therapy. |
| 2017 |
Todd Golub creates a Connectivity Map linking more than a million genes, drugs, and disease states by virtue of their common gene-expression signatures. |
| 2018 |
Thomas Kirchhausen develops a new microscope that achieves remarkable high resolution, noninvasive imaging of subcellular processes in large cell volumes. |
| 2018 |
Bill Pu discovers that serum response factor is a key regulator of embryonic cardiomyocyte maturation. |
| 2019 |
Drs David Williams and Erica Esrick cure a patient with sickle cell disease by expressing a shRNA against BCL11A in his hematopoietic stem cells and reactivating the synthesis of hemoglobin F. |
| 2019 |
Pierre Dupont develops a self-driving robotic catheter that finds its way through blood vessels and a beating heart to a leaky valve without a surgeon’s involvement. |
| 2019 |
Mariella Filbin shows that individual glioblastoma tumor cells exist in four different states representing different neural cell types, which complicates therapy of this dangerous brain tumor. |
| 2019 |
Vijay Sankaran develops a much more powerful method for lineage tracing of human cells using mitochondrial mutations and single cell genomics. |
| 2019 |
Tim Yu successfully develops the first N of 1 therapy for a child with a rare genetic disease |
| 2020 |
Scott Armstrong showed that AML can be prevented by targeted epigenetic therapy of a preleukemic state. |
| 2020 |
Karl Koehler and his colleagues devised a method for generating skin with hair, nerves and glands from pleuripotent stem cells, that can reconstitute skin in vivo. |
| 2021 |
David Ludwig and Cara Ebbeling-Zabilansky show that a low-carb diet outperforms a low-fat diet, debunking an old diet dogma. |
| 2021 |
Basil Darras and his colleagues discover that the oral drug risdaplam improves motor function in infants with severe spinal motor atrophy. |
| 2021 |
Kim Stegmaier publishes a “dependency” map of genes that pediatric cancer cells need for daily survival, which offers a new universe of potential therapeutic targets. |
| 2021 |
Leslie Kean discovers that abatacept prevents graft-versus-host disease opening up many more donor match possibilities, especially for people of color. |
| 2021 |
Carly Ziegler and Jose Ordovas-Montanes discover that failed nasal epithelial anti-viral immunity underlies and precedes severe COVID-19. |
| 2021 |
David Breault and his colleagues discover ways to expand potentially therapeutic enteroendocrine cells from the intestinal stem cells of patients. |
| 2022 |
Chris Walsh and his colleagues discover that neurons in Alzheimer’s disease accumulate mutations from oxidative damage more rapidly than neurons in normal brains. |
| 2022 |
Fred Alt develops a universal antibody that neutralizes all SARS-CoV-2 variants. |
| 2022 |
Judy Lieberman discovers that antibody-mediated SARS-CoV-2 uptake by monocytes and macrophages triggers inflammatory cell death that contributes to COVID-19 pathogenesis. |
| 2022 |
The new Hale Family Building opens, with its state-of-the-art cardiovascular institute. |
| 2022 |
Rachel Grace and her colleagues showed that Mitapivat, a first of a new class of drugs that activate impotent mutant enzymes, is effective in many patients with pyruvate kinase deficiency. |
| 2022 |
Scott Snapper and colleagues developed a screening system to identify environmental factors that cause or control intestinal inflammation and potentially affect inflammatory bowel disease. |
| 2022 |
Siddharth Srivastava and Ann Poduri find that about a quarter of cases of cerebral palsy can be explained by genetic variants. |
| 2022 |
Amy Starmer, Ted Sectish and Chris Landrigan show that the I-PASS handoff program, which they developed, cut adverse events by almost half. |
| 2023 |
Jorge Martin-Rufino and Vijay Sankaran developed a systemic, high throughput method to evaluate the impact of genetic variants on human physiology and disease using massively parallel base-editing screens. |
| 2023 |
Tim Yu develops a method for the identification of individuals with genetic diseases who will benefit from a N of 1 therapy using splice-switching antisense oligonucleotides. |
