xColorectal cancer (CRC) is common, affecting >40,000 people a year in the UK. Most cancers are sporadic but a few, such as those occurring at a younger age, have a clear genetic basis. Most are situated in the rectum or rectosigmoid and cause rectal bleeding, often with a looser or more frequent stool. Right-sided cancers typically result in anaemia, because the blood in the stool is occult and unnoticed by the patient. Almost all symptoms of malignancy can also be caused by benign disease. Diagnosis relies on luminal imaging, with colonoscopy being the gold standard.
xColorectal cancer (CRC) is common, affecting >40,000 people a year in the UK. Most cancers are sporadic but a few, such as those occurring at a younger age, have a clear genetic basis. Most are situated in the rectum or rectosigmoid and cause rectal bleeding, often with a looser or more frequent stool. Right-sided cancers typically result in anaemia, because the blood in the stool is occult and unnoticed by the patient. Almost all symptoms of malignancy can also be caused by benign disease. Diagnosis relies on luminal imaging, with colonoscopy being the gold standard.
The journal’s logo depicts the Rod of Asclepius crossed over a quill pen. The dates on the logo represent the founding of the components of the New England Journal of Medicine: 1812 for the New England Journal of Medicine and Surgery and Collateral Branches of Medical Science, 1823 for the Boston Medical Intelligencer, 1828 for the Boston Medical and Surgical Journal, and 1928 for the New England Journal of Medicine.
In September 1811, John Collins Warren, a Boston physician,[2] along with James Jackson, submitted a formal prospectus to establish the New England Journal of Medicine and Surgery and Collateral Branches of Science as a medical and philosophical journal.[3] Subsequently, the first issue of the New England Journal of Medicine and Surgery and the Collateral Branches of Medical Science was published in January 1812.[4] The journal was published quarterly.
The journal’s logo depicts the Rod of Asclepius crossed over a quill pen. The dates on the logo represent the founding of the components of the New England Journal of Medicine: 1812 for the New England Journal of Medicine and Surgery and Collateral Branches of Medical Science, 1823 for the Boston Medical Intelligencer, 1828 for the Boston Medical and Surgical Journal, and 1928 for the New England Journal of Medicine.
xColorectal cancer (CRC) is common, affecting >40,000 people a year in the UK. Most cancers are sporadic but a few, such as those occurring at a younger age, have a clear genetic basis. Most are situated in the rectum or rectosigmoid and cause rectal bleeding, often with a looser or more frequent stool. Right-sided cancers typically result in anaemia, because the blood in the stool is occult and unnoticed by the patient. Almost all symptoms of malignancy can also be caused by benign disease. Diagnosis relies on luminal imaging, with colonoscopy being the gold standard.
Patients with interstitial lung disease associated with systemic sclerosis were treated with usual care plus placebo or nintedanib. The annual rate of change in forced vital capacity assessed over a 52-week period was −52.4 ml per year with nintedanib and −93.3 ml per year with placebo. There were no differences in other measures of systemic sclerosis. 

In September 1811, John Collins Warren, a Boston physician,[2] along with James Jackson, submitted a formal prospectus to establish the New England Journal of Medicine and Surgery and Collateral Branches of Science as a medical and philosophical journal.[3] Subsequently, the first issue of the New England Journal of Medicine and Surgery and the Collateral Branches of Medical Science was published in January 1812.[4] The journal was published quarterly.
xColorectal cancer (CRC) is common, affecting >40,000 people a year in the UK. Most cancers are sporadic but a few, such as those occurring at a younger age, have a clear genetic basis. Most are situated in the rectum or rectosigmoid and cause rectal bleeding, often with a looser or more frequent stool. Right-sided cancers typically result in anaemia, because the blood in the stool is occult and unnoticed by the patient. Almost all symptoms of malignancy can also be caused by benign disease. Diagnosis relies on luminal imaging, with colonoscopy being the gold standard.
Elsevier’s Medicine is a continually updated, evidence-based learning resource for trainees. It is an essential tool to help trainees achieve their postgraduate medical qualification, wherever you are in the world. It provides a concise overview of the latest medical knowledge and practice based upon the UK Core Medical Training curriculum, with each article written by invited qualified experts. Given its comprehensive coverage of internal medicine, this resource is also an ideal companion for GPs and consultants in the acute medicine setting.
xColorectal cancer is common with a lifetime risk of 5% and remains the second most common cause of cancer death, with low 5-year survival (55%). Early detection through bowel screening and surveillance of high-risk groups aims to identify early disease. Specialist surgery, despite the associated morbidity and mortality, offers the best chance of cure. Isolated multiorgan metastatic disease is increasingly resected, with good results. This article summarizes management of colorectal cancer, with a focus on early rectal and polyp cancers, which can pose management dilemmas.
In November 1846, Henry Jacob Bigelow, a Boston surgeon, reported a breakthrough in the search for surgical anesthetics with the first uses of inhaled ether in 1846. This allowed patients to remain sedated during operations ranging from dental extraction to amputation.[8] "A patient has been rendered completely insensible during an amputation of the thigh, regain consciousness after a short interval," Bigelow wrote. "Other severe operations have been performed without the knowledge of the patients."
In the early 2000s, the New England Journal of Medicine was involved in a controversy around problems with research on the drug Vioxx. A study was published in the journal in November 2000 which noted an increase in myocardial infarction amongst those taking Vioxx.[27] According to Richard Smith, the former editor of the British Medical Journal, concerns about the correctness of that study were raised with the journal's editor, Jeff Drazen, as early as August 2001. That year, both the US Food and Drug Administration and the Journal of the American Medical Association also cast doubt on the validity of the data interpretation that had been published in the NEJM.[28] Merck withdrew the drug from market in September 2004. In December 2005, NEJM published an expression of concern about the original study following discovery that the authors knew more about certain adverse events than they disclosed at the time of publication. From the Expression of Concern: "Until the end of November 2005, we believed that these were late events that were not known to the authors in time to be included in the article published in the Journal on November 23, 2000. It now appears, however, from a memorandum dated July 5, 2000, that was obtained by subpoena in the Vioxx litigation and made available to the Journal, that at least two of the authors knew about the three additional myocardial infarctions at least two weeks before the authors submitted the first of two revisions and 4 1/2 months before publication of the article."[29] During the five-year period between publication and Expression of Concern, it has been estimated that Merck paid NEJM as much as US$836,000 for article reprints that Merck used for promotional purposes.[30] The journal was publicly rebuked for its response to the research issues in editorials appearing in publications including the British Medical Journal[28] and the Journal of the Royal Society of Medicine.[31]
In April 2001, Druker et al. reported a targeted therapy for chronic myelogenous leukemia. Based on the knowledge that BCR-ABL, a constitutively activated tyrosine kinase, causes CML, the authors tested with success an inhibitor of this tyrosine kinase in patients who had failed first-line therapy. The finding helped begin the era of designing cancer drugs to target specific molecular abnormalities.[18]
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