Thursday, February 02, 2023

Autonomic dysfunction as a cause of cardiovascular disease

 

This free full text review focuses on neurodegenerative synucleinopathies and briefly, in addition, touches on other disorders such as POTS, vasovagal syncope and inappropriate sinus tachycardia.


Synucleinopathies result from misfolded protein aggregates of α-synuclein. The normal function of α-synuclein in the nervous system is not well understood.


The synucleinopathies are parkinson disease, lewy body dementia, pure autonomic failure and multiple system atrophy. Any of these disorders can be accompanied by autonomic dysfunction.


Orthostatic hypotension, supine hypertension, or both may occur. All of the long-term consequences of hypertension may be associated with the supine hypertension seen in autonomic dysfunction. Use of a short acting antihypertensive administered at night is a suggested treatment strategy.


Nucleic acid testing for viral pathogens in community-acquired pneumonia

 

The American thoracic Society has published a guideline for this in the American Journal of Respiratory and Critical Care Medicine. These are soft recommendations based on low-level evidence.

The guideline does not address influenza or covid.  For influenza, the IDSA community-acquired pneumonia guidelines recommend influenza PCR testing during flu season (in preference to antigen testing ). The  guidelines did not address covid-19 as there was insufficient data at the time of the literature review.

The guideline calls for viral PCR panel testing in the following groups of patients: those with neutropenia, those undergoing active cancer therapy, those with a transplant history, those with advanced HIV,  those with a history of chronic immunosuppression including systemic corticosteroids, and those whose community-acquired pneumonia is classified as severe.


Criteria for severity overlap with some of those just mentioned and include the presence of septic shock or need for mechanical ventilation. Absent these two conditions three of the following minor criteria denote severity: impaired respiratory physiology in the form of either a respiratory rate greater than 30 or a PO2 to Fio2 ratio below 250, multilobar infiltrates, altered mental status, BUN greater than 20, white blood cell count less than 4,000, platelet count less than 100,000,  hypothermia less than 36.8 centigrade or hypotension requiring aggressive fluid resuscitation.


Could aspergillus be hiding out in your critically ill patient?

 

An issue from the American Journal of respiratory and Critical Care Medicine contains two articles and a related an editorial addressing this subject.


This study looked for evidence of aspergillus infection in patients diagnosed with VAP:



Rationale: Aspergillus infection in patients with suspected ventilator-associated pneumonia remains uncharacterized because of the absence of a disease definition and limited access to sensitive diagnostic tests.

Objectives: To estimate the prevalence and outcomes of Aspergillus infection in adults with suspected ventilator-associated pneumonia.

Methods: Two prospective UK studies recruited 360 critically ill adults with new or worsening alveolar shadowing on chest X-ray and clinical/hematological parameters supporting suspected ventilator-associated pneumonia. Stored serum and BAL fluid were available from 194 nonneutropenic patients and underwent mycological testing. Patients were categorized as having probable Aspergillus infection using a definition comprising clinical, radiological, and mycological criteria. Mycological criteria included positive histology or microscopy, positive BAL fluid culture, galactomannan optical index of 1 or more in BAL fluid or 0.5 or more in serum.

Measurements and Main Results: Of 194 patients evaluated, 24 met the definition of probable Aspergillus infection, giving an estimated prevalence of 12.4% (95% confidence interval, 8.1–17.8). All 24 patients had positive galactomannan in serum (n = 4), BAL fluid (n = 16), or both (n = 4); three patients cultured Aspergillus sp. in BAL fluid. Patients with probable Aspergillus infection had a significantly longer median duration of critical care stay (25.5 vs. 15.5 d, P = 0.02). ICU mortality was numerically higher in this group, although this was not statistically significant (33.3% vs. 22.8%; P = 0.23).

Conclusions: The estimated prevalence for probable Aspergillus infection in this geographically dispersed multicenter UK cohort indicates that this condition should be considered when investigating patients with suspected ventilator-associated pneumonia, including patient groups not previously recognized to be at high risk of aspergillosis.


Another study in the same issue looked at the prevalence of aspergillus in patients on mechanical ventilation with covid-19. They found it in over 20% of patients.


The accompanying editorial cited additional evidence all of which suggests that aspergillus infection is under-diagnosed in critically ill patients.

Patients need not be immunosuppressed in the traditional sense although the use of corticosteroids, even short-term, is a major risk factor. The main use of corticosteroids  was for treatment of COPD exacerbations.


Antimicrobial resistance in critically ill patients

 

This review focuses mainly on gram-negative bacteria. Although it approaches the problem in light of the covid-19 pandemic it has general applicability.


First a few definitions.


ESKAPE microorganisms : Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa and Enterobacter spp


Enterobacterales: new term for enterobacteriaceae


MDR: resistant to at least one antibiotic in three or more categories


XDR (extensive drug-resistant): resistant to at least one antibiotic in all but two or fewer categories


PDR (pan drug-resistant): resistant to all antibiotics


Difficult to treat resistant pathogens: resistant to front line agents and requiring second-line agents of greater toxicity and often lower efficacy (eg aminoglycosides, colistin).



Rates of infections due to ESBL producing organisms and carbapenemase producing organisms are rising. K. pneumoniae carbapenemase (KPC) producing bacteria are the ones predominant in the United States. The New Delhi Metallo-beta-lactamase (NDM) and the OXA-48 carbapenemase are rising in importance.


Acinetobacter is a complex and rising concern. From the review:


Finally,A. baumannii complex frequently causes nosocomial infections, particularly in ICUs where the incidence has increased over time. The SENTRY program evaluated the frequency of cases and anti-microbial susceptibility profiles of the A. baumannii collection from medical centers registered in this program [13]. This study showed that these isolates were recovered mainly from patients with pneumonia and bloodstream infections and evidenced reduced susceptibility to most antimicrobials tested. In all regions, colistin was the most active agent followed by minocycline.


Despite this seemingly grim picture the pipeline seems to have kept up with these trends reasonably well. Newer agents include:


Ceftolozane and tazobactam (Zerbaxa) Enhanced pseudomonas activity; activity against ESBL organisms but significant resistance rates; no activity against carbapenemase producing bacteria. (If used for intra abdominal infections coadministration of metronidazole is required).


Ceftazidime–avibactam (Avycaz) and imipenem–relebactam (Recarbrio) are active against most carbapenemase producing bacteria.


Not mentioned were fosfomycin (not yet available in IV form in the US) and omadacycline (Nuzyra). Omadacycline, though expected to be bacteriostatic, has an impressive spectrum. From another paper:


Omadacycline maintains activity against difficult-to-treat pathogens, including methicillin-resistant Staphylococcus aureus (MRSA), vancomycin-resistant enterococci (VRE), Enterobacteriaceae that produce extended-spectrum β-lactamases (ESBLs) and carbapenemases, and multidrug-resistant (resistant to greater than or equal to 3 classes of agents) strains of Acinetobacter spp. and Stenotrophomonas maltophilia (2).


ANCA testing in eosinophilic granulomatosis with polyangiitis (EGPA)

 

The American Journal of Respiratory and Critical Care Medicine published a consensus statement on the use of ANCA testing in patients with eosinophilic granulomatosis with polyangiitis  (EGPA,formerly Churg Strauss syndrome).  The article serves is a helpful update and review on some aspects of EGPA.

First some Basics about the ANCA test. The two main types have two different nomenclatures of designation depending on the assay used. In the ELISA test, which uses specific antigens, the two antibodies are proteinase three (pr3) and myeloperoxidase (MPO).  These correlate mainly (and there are some exceptions) with the immunofluorescent patterns of C and P ANCA respectively.


What about disease associations? Granulomatosis with polyangiitis (formerly known as Wegener's granulomatosis) is generally associated with C ANCA. Microscopic polyangiitis (MPA) is generally associated with P ANCA. The same is true of pauci immune  renal limited vasculitis. These categories are not absolute.

When it comes to EGPA it's a little more complex. Only 40% or so of patients with EGPA are ANCA  positive and the predominant pattern is ANCA P.  Test characteristics of ANCA for GPA,  MPA and renal limited vasculitis are pretty good. This, as is evident from the above, is not the case for EGPA.


Now on to the paper.


Despite the poor test characteristics the consensus panel recommends testing on all patients or suspected EGPA patients because it may point to the correct diagnosis and has implications for disease phenotype. Here's the specific recommendation, from the abstract of the paper:


MPO-ANCA should be tested with antigen-specific immunoassays in any patient with eosinophilic asthma and clinical features suggesting EGPA, including constitutional symptoms; purpura; polyneuropathy; unexplained heart, gastrointestinal, or kidney disease; and/or pulmonary infiltrates or hemorrhage. A positive MPO-ANCA result contributes to the diagnostic workup for EGPA. Patients with MPO-ANCA–associated EGPA have vasculitis features, such as glomerulonephritis, neuropathy, and skin manifestations, more frequently than patients with ANCA-negative EGPA. However, the presence of MPO-ANCA is neither sensitive nor specific enough to identify whether a patient should be subclassified as having “vasculitic” or “eosinophilic” EGPA. At present, ANCA status cannot guide treatment decisions, that is, whether cyclophosphamide, rituximab, or mepolizumab should be added to conventional glucocorticoid treatment. In EGPA, monitoring of ANCA is only useful when MPO-ANCA was tested positive at disease onset.


According to the paper there are some important clinical correlations. EGPA patients who are anca positive tend more to have a vasculitic  manifestations such as glomerulonephritis, neuropathy, pulmonary Hemorrhage and skin lesions. Those who are negative tend more toward the infiltrative aspects of the disease which translates into cardiac involvement and pulmonary granulomas.


Treatment decisions are made more on clinical grounds than on the basis of the ANCA test. Again, from the paper:


Glucocorticoids  are  the  cornerstone  of  therapy  for  EGPA.  Additional  immunosuppressive agents  (e.g.,  cyclophosphamide)  should  be  prescribed  for  patients  with  life-  and/or  organ-threatening manifestations, such as heart disease, glomerulonephritis, alveolar hemorrhage or mononeuritis  multiplex,  and  can  be  considered  for  selected  patients  with  glucocorticoid dependence  or  recurrent  disease  [51].



Friday, July 08, 2022

Myths and facts in antibiotic stewardship

The current issue of the American Journal of Medicine (the Green Journal) has an article titled Top Myths of Diagnosis andManagement of Infectious Diseases in Hospital Medicine. This is one of the better articles pertaining to antibiotic stewardship that I have seen. Ten myths are listed. They are not complete myths (exceptions apply to just about all of these principles); rather, they are misconceptions.


Myth one: antibiotics do no harm. High-level data refute this myth. For example, a recent metaanalysis showed that the use of procalcitonin guidance to shorten the duration of antibiotic therapy was associated with lower mortality.


Myth two: antibiotic durations of 7, 14, or 21 days are typically necessary. Although these are common recommendations, evidence is lacking. In many situations (and there are exceptions) shorter duration therapy is as good as longer duration. Examples include 3 to 5 days for community acquired pneumonia; eight days for nosocomial pneumonia; 5 to 7 days for pyelonephritis; four days for intraabdominal infection; five days for acute exacerbations of COPD and 5 to 6 days for cellulitis. There are notable exceptions. Certain deep-seated and difficult to eradicate infections are not candidates for either shorter duration or procalcitonin guidance for discontinuation. These include tuberculosis, meningitis, prosthetic joint infections, staphylococcal bacteremia, endocarditis and invasive fungal infections. The same caution applies to some immunocompromised patients.


Myth three: if one drug is good two (or more!) must be better. This requires nuance.There are some indications for combination therapy. They are exceptions rather than the rule. The main indication for combination therapy is initial empiric treatment for life-threatening infection such as sepsis. The rationale is to cover all likely pathogens. De-escalation is appropriate if and when culture and sensitivity results indicate that a single agent would be appropriate. This principle is also applied in meningitis where in patients 50 years of age or older we include listeria coverage such that in non pen allergic patients ampicillin is added to the combination of ceftriaxone and vancomycin. Also in meningitis the combination of ceftriaxone and vancomycin accommodates the possibility of relative resistance of strep pneumo which might cause treatment failure with cephalosporin monotherapy. In community acquired pneumonia requiring hospitalizations the guidelines call for combination cephalosporin and macrolid therapy. For patients admitted to ICU it is recommended that MRSA coverage be added (this is in the IDSA MRSA guideline, not the pneumonia guidelines).


A frequently asked question is what to do about serious gram negative infections. Traditionally “double coverage“ with two gram-negative agents has been used. For the most part this is not supported by evidence. One exception is in the initial (empiric) antipseudomonal coverage for HAP/VAP., the guidelines for which indicate double coverage initially which should be de-escalated later if microbiologic data allow. In contrast, the CAP guidelines for patients with pseudomonas risk recommend monotherapy---not double coverage--from the start.


Myth four: oral antibiotics are not as good as IV antibiotics for hospitalized patients. This is, in general, a myth but there are exceptions. IV therapy is not inherently better than oral if there’s adequate bioavailability with the oral agent and if susceptibilities allow switch to an oral agent. Cautions apply in bacteremia. Some of these (eg staphylococcal bacteremia ) require intravenous therapy for the entire course. In other bacteremic infections step down to oral agents may be appropriate. Examples include certain streptococcal bacteremias and gram-negative bacteremic urinary tract infections. In such cases a switch to oral therapy can be considered as early as day four.


Myth five: bacteria in the urine signifies a UTI and should be treated. If it is asymptomatic treatment is only warranted in pregnancy and patients about to undergo a urologic procedure.


Myth six: history of penicillin allergy means the patient can never receive a beta lactam antibiotic. Former thinking was that there’s a 10 to 15% cross sensitivity rate between penicillin and cephalosporins. More recent findings indicate that the cross sensitivity rate to penicillin allergy is more like 3% for cephalosporins and 1% for carbapenems. The article provides some general principles for decision making in patients with purported penicillin allergy. For reactions that are mild and non specific a cephalosporin can be given. If the reaction was anaphylactoid either an alternative antibiotic to a cephalosporin or penicillin desensitization is recommended. Severe non anaphylactic reactions such as Stevens-Johnson syndrome, toxic epidermal necrolysis and DRESS syndrome are in a different category. In those cases the use of any beta lactam is contraindicated as is penicillin desensitization.


Myth seven: antibiotics for surgical prophylaxis should be continued for 24 hours or more .


Myth eight: antibiotics must be continued for as long as drains are in place. Although clinical judgment is required here there is no robust evidence to support such a practice.


Myth nine: nitrofurantoin can be used for UTIs only if the creatinine clearance is greater than 60. This is in accordance with product labeling but the data indicate 30 may be more reasonable cut off.


Myth ten: fluoroquinolones are first line agents for many infections. We now have mounting evidence of adverse effects (CNS toxicity,, tendon rupture, dysglycemias, irreversible neuropathy, QT prolongation and aortic dissection) such that fluoroquinolones have been relegated to a lower position in the sequence. They should be used only when safer and equally effective alternatives are not available.


In a related antibiotic stewardship topic this article from Cinical Infectious Disease looked at the utility of MRSA PCR screening. Negative PCR can allow for discontinuation or avoidance of MRSA therapy such as vancomycin in many situations. Those studied in the article were bloodstream infections, intra-abdominal infections, respiratory infections, wound infections and urinary tract infections. Negative predictive value was 93% or better in all those situations.


Wednesday, June 15, 2022

Diagnostic time out

What is a diagnostic time out? Succinctly defined, it’s a deliberate exercise in differential diagnosis and systematic clinical reasoning in the care of an individual patient. But wait, I hear someone say… isn’t that what we do already? Well, no. We’re all familiar with the traditional model for clinical reasoning that we’re taught in medical school but those of us in the real world of practice nowadays, if we’re honest, realize that it seldom happens. There’s just not enough time when you’re forced to see too many patients each day. And hospitalist incentives, with their emphasis on speed and quick adoption of specific diagnostic labels, run in opposition. What do we as hospitalists do instead? Well, aside from all the care pathways and metric incentives that tell us what to do, we rely on clinical instincts and rules of thumb. Because they bypass formal analysis, they save time. They serve as cognitive shortcuts. We call these heuristics. This method of thinking (fast, instinctive, intuitive) is sometimes known as system 1 thinking. It has the advantages of being efficient and fast and sometimes, in critical situations, life saving. But it comes at the cost of a certain error rate. In order to better understand the process of system 1 thinking we have given the various heuristics names and categories. I recently listed some of those in this post


If system 1 is our usual measure of processing to get around time constraints the alternative is system 2: formal clinical reasoning .  System 2 thinking was the topic of a recent paper in CriticalCare Clinics. Although based on a survey of people working in a NICU the article has general applicability. The authors contrast system 1 and system 2 thinking in this manner:


Dual process theory holds that individuals engaging in medical decision-making use one of 2 distinct cognitive processes: a system 1 process based on heuristics – the use of rapid pattern recognition and rules of thumb – or a system 2 process, based on deliberate analytical modeling and hypothesis generation. While invoking system one processes individuals can think fast and reflexively and can even operate at a subconscious level, using pattern recognition to sort vast amounts of clinical information quickly before an illness script that allows for the rapid elaboration of a differential diagnosis. In contrast system 2 processes require focused attention and are purposefully analytical, relying on deliberate counter-factual reasoning to generate hypotheses regarding the pathophysiologic mechanisms by which a patient’s symptoms are produced.


The authors introduced the concept of the diagnostic time out to describe this shift of thinking because it requires deliberate effort. It’s not going to arise spontaneously in the natural course of the ward routine. (The authors were not the first ones to use this term). The diagnostic time out can be considered the cognitive equivalent of the better known procedural time out.


Why is a diagnostic time out needed? Research on diagnostic error has indicated that while some instances are due to system problems (such as failure to communicate test results) most are cognitive errors. These can be linked to the heuristics of system 1 thinking. The diagnostic time out, or the deliberate exercise of system 2 thinking, is a way to complement these cognitive shortcuts with a more analytical process.


Some opinion leaders in the field of diagnostic error have suggested universal adoption of system 2 thinking. This is problematic due to time constraints. Besides, there are some essential benefits of system 1 thinking, particularly in acute life-threatening situations. The real trick is how best to selectively employ system 2 thinking. In other words what are the situations in which system 2 thinking should be used? The authors suggest handoff situations in complex patients including ER to hospitalist, off service/on service and ICU to ward transfers.


How does it work? The authors propose a template but it’s really just the traditional clinical reasoning process. One of their points really got my attention: during the time out diagnostic labels should be removed and replaced by signs, symptoms, manifestations and clinical concerns. This of course is the opposite of what your coders and hospitalist leaders want you to do.


What are some of the barriers to implementation? In addition to time constraints, fear of ambiguity is an important factor. We are afraid to admit what we don’t know. One thing you will never hear a hospitalist say out loud is “I’ll have to think about that.”


Saturday, June 11, 2022

A little more on metacognition

This article from Academic Emergency Medicine, published in 2002, remains applicable today. It makes the point that heuristics in medicine are valuable even though they can lead to error. The article also makes the statement:


The increasing use of clinical decision rules, as well as other aids that reduce uncertainty and cognitive load, e.g., computerized clinical decision support,will improve certain aspects of clinical decision making, but much flesh-and-blood clinical decision making will remain and there will always be a place for intuition and clinical acumen.


It presents an exhaustive list with detailed descriptions of the various cognitive shortcuts.


Indulge me in a little metacognition

I found an interesting post about cognitive shortcuts in medicine. I have a minor objection to the title of the post which is Cognitive Errors. Cognitive shortcuts, known as heuristics, which are examples of fast instinctive thinking (system one), often lead to error. In some cases, however, they can be useful because they are efficient and time saving. There is an up side as well as a down side to system one thinking in medicine.


Let’s go down the list. I’ve skipped some of them.


The first example given is affective error. This refers to an emotional response surpassing objectivity.


Next is aggregate bias. I struggle with this one. The author says that the aggregate bias is the belief that data in the aggregate don’t apply to the patient in front of you. My understanding (maybe I’m wrong) is that aggregate bias, otherwise known as the ecological fallacy, is the opposite. That is, it refers to inappropriate application of population data to an individual. It has more to do with treatment decisions than diagnostic error. Remember, one of the first principles of evidence-based medicine is that clinical reasoning decision making starts with the unique aspects of the individual patient. After looking at a variety of references, it would appear that both definitions have been used. Most medical references define aggregation bias the way the blog author does. Those outside of medicine define it as inappropriate extrapolation.


The ambiguity effect is really a bias against ambiguity. So we tend to stick with things we are more familiar with. That may cause us to ignore other possibilities and take too narrow a view of things. As originally conceived it had to do with probability. That is, people have a tendency to gravitate toward choices in which the probability is known or explicitly stated. Of note, the ambiguity effect was first described by Daniel Ellsberg.


The anchoring heuristic is one of the better known cognitive biases. This refers to the tendency to stick with one’s initial hunch despite new evidence to the contrary. You may be so proud of your initial hunch that you ignore new information. Confirmation bias and diagnostic momentum are related concepts.


Ascertainment bias, as the author points out, is an umbrella category. It encompasses a lot of stereotypes and biases. In essence it’s just—-well, bias. It’s not very useful as a unique category in discussions of cognitive error.


Availability bias is one of the better known cognitive shortcuts. This refers to the influence of prior experience. This causes bias toward the first thing that comes to your mind. For example, if you’ve been burned by having missed a case of aortic dissection you may tend to be over concerned about aortic dissection in every future case of chest pain. The flip side is you may fail to consider things you haven’t seen in a long time.


Base rate neglect is a cognitive shortcut that may be considered harmful and wasteful in ambulatory medicine but may be your friend in the arena of hospital and emergency medicine. It’s a failing to consider the true prevalence of diseases in clinical reasoning. It ignores the old aphorism “common things happen most often.” In the high acuity world of the hospital, where you really need to be risk-averse, base rate neglect may be beneficial. Put another way you and and your patient may be better off if you consider worst case scenario.


Then there’s belief bias. I’m not sure this belongs in a discussion of diagnostic shortcuts as it has more to do with treatment recommendations. I cringe when I hear somebody say they “believe“ in a particular treatment, implying that belief surpasses reasoning from evidence .


Blind spot bias is similar to the Dunning Kruger effect in which we think we're smarter than we really are. Humility is the remedy here. Does this lead to a form of cognitive shortcut? Maybe in that we fail to pause and consider carefully that we might be wrong.


Confirmation bias is akin to anchoring. This is the tendency to be selective in what type of accumulating evidence you consider. That is, you consider mainly evidence that supports your original hunch.


The framing heuristic is another well known shortcut. We are biased toward diagnostic possibilities in accordance with the way the initial presentation is framed. Though it can be useful it restricts our differential diagnosis in a way that excludes a wide range of possibilities. Not every returning travel with fever has a parasite, for example.


The gamblers fallacy, according to the blog author, is “the erroneous belief that chance his self correcting.“ This is a cognitive error that tends in the opposite direction to the availability heuristic.


The order effect is something I was vaguely aware of but had not considered as a cognitive error category. It refers to the tendency to focus on information that is proximate in time and to do so at the expense of the totality of events over time. This typically occurs at the point of hand off in a patient who has had a very long hospital course.


Premature closure is just what it says. It’s a tendency for thinking to stop once a tentative diagnosis has been made. It overlaps with other categories such as anchoring. There is probably a subtle difference between premature closure and anchoring. Anchoring implies an emotional attachment to a diagnosis whereas premature closure implies diagnostic laziness.


Representativeness restraint has also been known as a representativeness heuristic. It is a cognitive shortcut characterized by focusing too much on the prototypical manifestations of a disease. This may cause the clinician to miss atypical presentations.


Search satisfaction is another example of laziness in clinical reasoning. It’s a tendency to stop searching once an answer has been found. The author gives the example of missing a second fracture on an x-ray once the first one is identified.


Sunk cost fallacy is a type of emotional heuristic as well as diagnostic laziness. It is the tendency to ignore new information and not consider alternative diagnoses once the original diagnosis has been arrived at after a great time effort and expense (the sunk cost).


Sutton’s slip might be the dark side of Sutton’s law (going where the money is). Pursuing the obvious might lead to error because of other possibilities being ignored.


Zebra retreat is the avoidance of rare diagnoses to a fault. It’s an opposite of base rate neglect.



Wednesday, May 04, 2022

Stepford doctors

Ever since variation was declared to be an enemy of medicine there has been a multifaceted unrelenting effort to constrain the autonomy of clinicians.

In an article in the Medical Humanities journal titled “Stepford doctors”: an allegory GM Sayers described this trend creeping towards the ultimate creation of a workforce of Stepford doctors. 

From the paper:

The Stepford Wives, a novel by Ira Levin, provides the theme for this allegory. The men of Stepford belong to the Men’s Association. Their wives are “perfect”, in that they do nothing other than clean, cook, preen, and provide satisfaction without argument for their husbands. They are, furthermore, content with their lot, and believe that their previous interests and freedoms were self indulgent.


Applying the allegory to hospital medicine, Sayers wrote:
In the hospitals, doctors were pooled and moved like pawns to fill clinical slots, by masters who controlled both board and pieces...


The masters were not doctors; they were experts in managing time, costs, and doctors. They had not studied medicine, bioethics, or humanities; they were devoid of empathy. They did not treat patients, perform operations or do clinical research. They did not break bad news or get consent from patients for surgery. Nevertheless, they knew what sort of doctors they wanted—‘‘Stepford doctors’’. These were not ‘‘excellent’’ doctors, but ‘‘good enough’’ doctors, who would devote themselves to the masters’ objective of expediency, and the masters’ duty to balance the budget.


It is not completely clear how the masters changed the thinking and acting of so many doctors, but they did. Some of the doctors accepted the superficial plausibility of the reasoning that informed the masters’ demands. Some of the doctors themselves became masters, and they persuaded other doctors that the way the masters saw medicine was the way medicine should be.

 

The article was published in 2006 and might be considered dated but the premise is even more relevant today. In the words of the author: “This allegory cannot be concluded because it is on going.”

Monday, May 02, 2022

Are internal medicine’s core values effectively applied in today’s hospitalist practice?

Hospital medicine has changed. The change has been brought by business and regulatory pressures rather than the core values of internal medicine. Internal medicine’s core values are timeless.

Phillip Tumulty was famous as one of internal medicine’s great teachers. He was a lead faculty member in the department of internal medicine at Johns Hopkins for over 20 years. He published an article in JAMAInternal Medicine in 1977 in which he laid out some of the core values of internal medicine. Tumulty, an exemplar of internal medicine if their ever was one, had these things to say (paraphrasing from some of the points he made):


An internist is meticulous in the application of expertise in history and physical examination.

An internist develops a “referral practice” which leads to distinction among peers. (In other words, an internist is a specialist).

An internist “must not nod, nor grow bored, but sustain his enthusiasm through constantly searching for the unexpected in the seemingly obvious. Its occasional discovery in a patient’s problem hitherto passed over as routine brings self renewal.“ In other words the internist’s professional satisfaction feeds on being able to spot zebras in the morass of “bread and butter“ problems.

The internist should not be regarded “merely as some useful indispensable medical work horse, ably attending to the daily clinical chores.“

Tumulty summarizes his points this way: “some may say this is all very well but only as an idealistic concept of a kind of clinician and care that is no longer practical. I agree; it is indeed a concept of excellence. However, in the care of the sick, should one plan for less?“

Are the pressures and expectations placed on hospitalists today aligned with these core principles and values of internal medicine as articulated by Tumulty?


Wednesday, August 11, 2021

Update on management of the acute abdomen in critically ill patients

 

From a recent review in Current Opinion in Critical Care Medicine:



Purpose of review


The aim of this study was to describe important features of clinical examination for the surgical abdomen, relevant investigations, and acute management of common surgical problems in the critically ill.


Recent findings


Lactate remains a relatively nonspecific marker of gut ischemia. Dual energy computed tomography (DECT) scan can improve diagnosis of bowel ischemia. Further evidence supports intravenous contrast during CT scan in critically ill patients with acute kidney injury. Outcomes for acute mesenteric ischemia have failed to improve over time; however, increasing use of endovascular approaches, including catheter-directed thrombolysis, may decrease need for laparotomy in the appropriate patient. Nonocclusive mesenteric ischemia remains a challenging diagnostic and management dilemma. Acalculous cholecystitis is managed with a percutaneous cholecystostomy and is unlikely to require interval cholecystectomy. Surgeon comfort with intervention based on point-of-care ultrasound for biliary disease is variable. Mortality for toxic megacolon is decreasing.


Summary


Physical examination remains an integral part of the evaluation of the surgical abdomen. Interpreting laboratory investigations in context and appropriate imaging improves diagnostic ability; intravenous contrast should not be withheld for critically ill patients with acute kidney injury. Surgical intervention should not be delayed for the patient in extremis. The intensivist and surgeon should remain in close communication to optimize care.


The fight to curb antimicrobial resistance: how are we doing?

 

From a recent NEJM review on this topic:


In November 2019, the CDC released an updated version of its antibiotic-resistance report…


The new report reveals reductions in the incidence of infections caused by carbapenem-resistant acinetobacter species, multidrug-resistant Pseudomonas aeruginosa, methicillin-resistant Staphylococcus aureus, vancomycin-resistant enterococcus, and drug-resistant candida species. In addition, it identifies an increasing incidence of Enterobacterales that produce extended-spectrum beta-lactamase and drug-resistant Neisseria gonorrhoeae infections and the emergence of the multidrug-resistant yeast Candida auris.