Monday, 22 February 2016

NEJM Week of 11th February 2016 (#29)

Professor Brian Andrews NEJM Recommendations for Medical Students and Tutors
Week of the 11th February 2016 (#29)
University of Notre Dame Australia
(Fremantle Campus)


Occasional Editorial Comment
As you are aware, I have had difficulty with the mechanics of constructing this blog and if it were not for the help that I had received from Frank Bate, the newly appointed Director of MEDSU, I would still be floundering. My thanks go to Frank for his help and encouragement.
The articles that interested the students the most this week were:
i)              Review of Urinary Tract Infections in Older Men
ii)             The Perspective and Framingham study data on the Decline of Dementia in specific populations
iii)            The perspective on Polio
You will see that I was particularly carried away by the two articles on the Nanobody for use in TTP and epitope binding by monoclonal antibodies in MGUS and myeloma: however, neither of these articles were assessed as relevant by the medical students, unfortunately.

Must Read Articles
CLINICAL PRACTICE

Urinary Tract Infections in Older Men

http://www.nejm.org/doi/full/10.1056/NEJMcp1503950

 

Effective treatment of urinary tract infection in men requires determining whether the infection site is the kidney, bladder, or prostate; the duration and choice of therapy vary with presentation. Chronic bacterial prostatitis requires prolonged antimicrobial therapy

 

This is an excellent review article on UTIs in older men. In general practice, urology and nursing home patients this is a significant problem. The review discusses the causes, types, frequency, asymptomatic bacteriuria, therapeutic options of which most can be applied generally to the population, and also acute and chronic prostatitis. The hyperlink for this review should be saved in your database.


Articles Recommended for Medical Students

Perspective
HISTORY OF MEDICINE

Is Dementia in Decline? Historical Trends and Future Trajectories

http://www.nejm.org/doi/full/10.1056/NEJMp1514434

 

The potential decline of dementia, seen in light of the rise and fall of other major diseases, raises a tantalizing prospect: Can we control our burden of disease? The history of the debate on CAD decline carries important lessons for emerging reports of dementia's decline


ORIGINAL ARTICLE

Incidence of Dementia over Three Decades in the Framingham Heart Study



In the Framingham Heart Study, the incidence of dementia among participants 60 years of age or older has declined over three decades; the 5-year cumulative hazard rate declined from 3.6 per 100 persons in the 1970s and 1980s to 2.0 per 100 persons in the 2000s and 2010s.

The Perspective and the Original Article focus on the apparent decline in the incidence of dementia overall in the Framingham study over a thirty year period. From the data, the decline is most significant in vascular dementia (P value <0.004).  In the Framingham population, Alzheimer’s dementia is approximately three times more common than vascular dementia, though there still appears to be a reduction in incidence of AD over thirty years ( P value of 0.052) although not as marked as with vascular dementia. At a minimum, the data indicate that there is no increase in the incidence of Alzheimer’s dementia in this selected population. They indicate that the frequency of dementia is lower in the population who graduate from high school compared to those who do not and stress that this data only applies to high-income countries e.g. Europe, US, and Australia.
The article describes the Framingham Heart Study which is a unique community-based longitudinal cohort study which began in 1971. The cohort is overwhelmingly of European ancestry and thus the findings cannot be interpreted for other races and ethnic backgrounds. The neurological and dementia assessment is as thorough as could be done. In the Discussion section which should be carefully read, the authors discuss the strengths and limitations of their study and also stress that still the worldwide burden of dementia will continue to increase rapidly as the average life expectancy continues to increase. They indicate that although many vascular risk factors are improving, the incidence of diabetes mellitus and obesity are markedly increasing and that the specific factor(s) resulting in this decline are not all apparent. Stay tuned for further studies.       

Perspective

A World Free of Polio — The Final Steps


Because oral polio vaccine has been associated with cases of paralysis, it is essential to discontinue its use after polio eradication has been certified. The first step is a shift from a trivalent OPV to a bivalent one, which requires a multipronged global strategy.


This was an eye-opener for the students and me regarding the use of the oral polio vaccine in the global eradication of polio: we all thought that the oral vaccine with the herd immunity it produced was a cure-all. Not so! The story is much more complicated and information can be gleamed by reading the article, particularly the difficulties changing from the trivalent to the divalent vaccine oral polio vaccine in large populations and the reasons why this is necessary. 

 

IMAGES IN CLINICAL MEDICINE

Scalp Necrosis Associated with Giant-Cell Arteritis

http://www.nejm.org/doi/full/10.1056/NEJMicm1505378

 

A 74-year-old man presented with headache, jaw claudication, and worsening scalp ulceration. Examination revealed areas of scalp necrosis. He received a diagnosis of scalp necrosis as a complication of giant-cell arteritis

 

This is a well described but rare complication of giant cell arteritis.

 


MEDICINE AND SOCIETy

Falling Together — Empathetic Care for the Dying

http://www.nejm.org/doi/full/10.1056/NEJMms1516444

 

How does one live knowing one will soon die? How can a physician ease this transition between life and death? What is the relationship between empathy and hope? Neurosurgeon Paul Kalanithi explores these questions in the posthumously published When Breath Becomes Air

 

I was pleasantly surprised by the number of students who found this to be a very illuminating and reflective article. It is probably a must-read article as it focuses on what empathy is and discusses how much the physician should give of themselves (“falling together”) to exhibit true empathy with their dying patient.

I was taken aback this week when a final year student came up to me and told me of one of his palliative care patients who was close to death with metastatic pancreatic cancer. The patient asked him to sit down and then asked him “Doctor, what is it like to die?” I was very impressed by the maturity, compassion, understanding, and, yes, empathy that this student exhibited with this patient. I also felt very proud of our medical school and what we appear to be achieving if this is any reflection.

 



Important Articles Related to Mechanisms of Disease and Translational Research
ORIGINAL ARTICLE
BRIEF REPORT

Clonal Immunoglobulin against Lysolipids in the Origin of Myeloma

http://www.nejm.org/doi/full/10.1056/NEJMoa1508808


Monoclonal gammopathies developing during the course of Gaucher's disease are reactive against lyso-glucosylceramide (LGL1), which is elevated as a consequence of the metabolic defect. Binding to this antigen was noted in one third of sporadic human monoclonal gammopathies.

 

This is a fascinating Brief Report for anybody interested in MGUS (monoclonal gammopathy of unknown significance) and/or multiple myeloma. In most cases of monoclonal gammopathy the binding antigen (epitope) for the specific monoclonal protein is unknown. In an occasional patient with myeloma or primary amyloidosis, the antigen may be clotting factor VIII. More recently (see introduction) several newer antigens have been identified as inherited risk factors for plasma-cell dyscrasias.

 

It is known, by some, that patients with i) Gaucher’s disease (an autosomal recessive, inborn error of metabolism associated with a missing enzyme glucocerebrosidase which leads to an accumulation of the proximal substrate lyso-glucosylceramide or LGL1 – this leads to an accumulation of macrophages full of LGL1 in the bone marrow and in the liver and spleen resulting in marked hepatosplenomegaly – there are also two murine experimental models associated with this enzyme deficiency) and now ii) obesity patients, all of whom exhibit a higher frequency of myeloma.

 

This study has found, that in approximately 33% of sporadic, unselected patients with human monoclonal gammopathies that the monoclonal protein binds to LGL1 or another lyso-lipid lysophosphatidlycholine.

 

What is even more interesting in the murine model, is that if the level of LGL1 is reduced with therapy, the level of anti-LGL1 antibodies as well as the frequency of monoclonal antibodies is reduced. It is also known that with substrate-reduction therapy in another experimental model that the risks of B-cell lymphomas is also reduced.

Substrate reduction can also be achieved in human by either enzyme replacement or gene therapy. Can these results be replicated in humans?

 

If specific antigens can be demonstrated to be involved in antigen-driven selection of monoclonal protein proliferation and these can be identified in a specific patient with myeloma, what could be the possible future role of reducing or eliminating the antigen in the potential treatment of myeloma? This is why I have written so much on the fascinating article.



Other articles which should be of interest to medical students

 ORIGINAL ARTICLE

Caplacizumab for Acquired Thrombotic Thrombocytopenic Purpura


Thrombotic thrombocytopenic purpura is often caused by an autoantibody to ADAMTS13, resulting in ultralarge von Willebrand factor, which induces platelet aggregation. Caplacizumab blocks platelet aggregation and speeds recovery when combined with plasma exchange.

EDITORIAL

Von Willebrand Factor — A New Target for TTP Treatment?


Thrombotic thrombocytopenic purpura (TTP), a rare thrombotic microangiopathy, is defined by a mechanical hemolytic anemia, severe thrombocytopenia, and visceral ischemia due to systemic platelet-rich microthrombi. Specifically in TTP microthrombi, von Willebrand factor, not fibrinogen, is the protein that binds to platelets.

When you are interns, or if you are a very inquiring medical student, you may come across an occasional patient in the ICU with the very uncommon entity thrombotic thrombocytopenic purpura (TTP), which still has a mortality rate around 20% with current optimal treatment.

As the name implies there is increased thrombosis, related to aggregation of platelets by interacting with ultralarge von Willebrand multimers; thrombocytopenia, due to platelet consumption in these large aggregates which occlude smaller vessels in the heart, brain and kidney leading to ischemia and purpura, bleeding particularly in mucosal sites due to thrombocytopenia. Here, the name describes the pathology.

But here’s where it gets more interesting. Under normal physiological circumstances, the formation of  ultralarge von Willebrand multimers is inhibited by a circulating proteolytic enzyme ADAMTS13 (for unexplained reasons, once students or interns learn this, many remember it just like dysdiadokokinesis) which breaks down the multimers inhibiting thrombosis. In TTP, there is an inhibitory autoantibody directed against ADAMTS13 leading to large platelet-von Willebrand complexes which block the blood vessels. The principles of current therapy are plasmaphoresis-plasma exchange which removes both the large complexes and the autoantibody and replaces the functional ADAMST13 enzyme in the normal plasma. In addition, autoantibody production is inhibited by the monoclonal antibody Rituximab which binds to the B-cell receptor CD20 and immunosuppressive agents if necessary.

This study introduces two new concepts:
i)              If you can produce a protein small enough (with antibody activity) and which can bind to a specific epitope, it may be able to bind specifically to a catalytic site on an enzyme or, in this case, bind to the A1 domain on von Willebrand factor stopping it interacting with its platelet receptor and inhibiting multimers formation – this is achieved in this single-blind, parallel-design, randomized, placebo-controlled study at 56 sites on 75 patients by the use of  a unique protein called caplacizumab, and
ii)             The concept of single-variable-domain immunoglobulin with a MW of 12-15 kDa called a Nanobody by the manufacturer. This protein does not cross-link binding sites on von Willebrand factor. You might ask, “So what?” This is just the start, so stay tuned and remember this is where many of you heard it first. Trials are currently underway using this nanobody in patients with acute coronary syndrome (ACS) to stop platelet aggregation, but how effective will this be? However, researchers are now able to order their own designer specific nanobody which is easily biologically engineered, provided you have the funding and you have the antigen.


CASE RECORDS OF THE MASSACHUSETTS GENERAL HOSPITAL

Case 4-2016 — A 58-Year-Old Woman with a Skin Ulcer, Fever, and Lymphadenopathy

http://www.nejm.org/doi/full/10.1056/NEJMcpc1508550

 

A 58-year-old woman presented during the summer with fever, neck swelling, and an ulcerated lesion on the forehead. Imaging of the neck showed enlarged, centrally hypodense lymph nodes with infiltration of the surrounding fat. Tests were performed, and a diagnosis was made.

 

If you like reading CPCs and following the clinical reasoning of the discussant, this is a very interesting infectious disease case which focuses on infectious agents particularly prevalent in the US. The only caveat is that three of the agents discussed, including the infection specifically discussed, have been studied for use in biological terrorism and as such should be of some interest.