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Posts Tagged ‘myocardial infarction’

Beware of non infarct q waves : A women with an unusual pathological q waves

Posted in Cardiology - Clinical, cardiology -ECG, echocardiography, Uncategorized, tagged , , , , , , , , , , , , , on November 25, 2009| Leave a Comment »

Looks very much a infarct of  infero posterior territory is it not ?

Have a look at her 2D echo still picture . . .

Are you convinced ?

This women had normal LV systolic and diastolic function with no evidence of constriction.

The explanation for the asymptomatic pericardial thickening is due to a healed  chronic pericarditis .This sort of localised thickening in the posterior aspect is all the more likely following a loculated pericardial effusion.Tuberculosis is a very likely etiology.But this women do not have any markers for tuberculosis.Since she is symptomatic no treatment was offered.She is being followed up.

Discussion .

Q waves are not ” sacred waves” to diagnose myocardial infarction.It simply indicates the  direction of current flow is away from the  recording lead of the ECG .Any thing  electrically inert , that come in the interface between the heart and the recording electrode   can record a q waveWhat are the pathological entities that can produce q waves other than infarct ?

  • Fibrotic myocardium(DCM-Cardiomyopathy)
  • Myocardial Scars
  • Myocyte dis array(LVH, HCM)
  • Air,fluid in pericardium /pleural space
  • Pericardial thickening (As in this patient)
  • Electrical shortcircuits (WPW syndrome)
  • Rarely pure ischemia without necrosis can produce q waves (Electrically stuned myocardium)

Final message

Localised pericardial thickening is  a rare  (?unrecognised) cause for pathological q waves , that may mimic a MI.

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How do you diagnose reinfarction ?

Posted in Cardiology - Clinical, cardiology -Therapeutics, Infrequently asked questions in cardiology (iFAQs), tagged , , , , , , , , on August 15, 2008| 1 Comment »

Recurrent myocardial infarction following an ACS is a fairly common clinical problem. Many times this is not recognised because it is difficult to establish the diagnosis.

The issues relevant here is

When does the first infarct (Index infact) process end ? and when the second infarct process start ?

Can the first infarct be a STEMI and the reinfarct be NSTEMI ? ( Dual acute coronary syndrome )

The only way to confirm a diagnosis of reinfarction is to document raising titres of cardiac enzymes and second peaking of CPK MB . New fresh ST elevation after a succesful thrombolysis is also a useful sign. But ST elevation in a q lead simply reflects a wall motion defect . So it requires enzymes to confirm it.

When there is tachycardia the ST segments tend to elevate following MI.

Other confounders are Infarct expansion and infarct extension .

These are macropathological entities almost impossible to dignose with surface ECG. What we diagnose as re-infarction could be an infact a infarct expansion.The modern terminology for infarct expansion is ventricle remodeling .The extreme remodeling results in ventricular aneurysm .Adverse acute ventricular remodeling can closely mimic a reinfarction .

What is clinical relevance of diagnosing reinfarction ?

Nothing great !

In modern day cardiology it is not a bother whether the infarct is expanding, extending or reinfarcting !All one has to do in a patient with chest pain ,showing a fresh ST elevation following STEMI is to take him/her to cath lab .

The only issue here one has to remember there are mechanical cause also for ST elevation following STEMI .

Dr.S.Venkatesan,Madras medical college, Chennai.

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Reciprocal ST elevation in unstable Angina

Posted in Cardiology - Electrophysiology -Pacemaker, cardiology -ECG, Uncategorized, tagged , , , , , , , on August 10, 2008| Leave a Comment »

Is reciprocal ST  segment changes  occur  only in STEMI ? Can it occur in UA/NSTEMI ?   

                           

                      Even   after   100 years of electro cardiology   the electrophysiological mechanism of ST elevation in STEMI  and ST depression in Unstable  angina is   still in the hypothetical stages. One popular theory   says that the   current of injury   as we see   as  ST  segment elevation  in surface ECG  is  actually   an illusion. It’s   apparently due to   constant negative current    pushing down the   rest of ECG segments. Ironically   the concept   of  reciprocal ST depression in patients who have  ST elevation is well debated  for over 3 decades and  is considered  a  settled issue. It   probably   represents , a  purely electrical phenomenon where the  tail end  of the  lead   picks up the opposite vector. Even   as   conflicts   continue to confront the basic electro physiological   concepts management    strategies   of   acute coronary syndromes is witnessing   great strides.
Aim
                                     We   hypothesized   if   ST depression occurs as response to ST elevation it’s logic to expect strong ST depressive forces should  possibly elevate The ST segments in the reciprocal leads .
In fact  we have seen this phenomenon in three distinct  clinical situations. 
1) ST   elevation   in posterior leads: Patients who present   with isolated   ST depression in V1,  V2 , V3  and  ST elevation in posterior chest leads V7, V8 .These patients were initially thought to have isolated posterior MI. But later the cardiac enzymes were found to be normal   indicating no myocardial necrosis   echo evaluation revealed wall motion defects in anterior segments rather than in posterior segments. CAG revealed critical   LAD disease .  This we believe a pure reciprocal ST elevation in the posterior leads to  a  ST depressive forces in anterior leads.
 2) Inferior  ST   elevation   with ST depression   in   V4- V6 : Few  patients who present with  infero    lateral STEMI   later  do not  evolve into  Q  MI but as a NSTEMI .The initial ST elevation  was found  be transient and  disappeared  much earlier,  while the  ST depression  lateral leads persisted.
 3) ST elevation in AVR   in high risk unstable angina :As   already reported in the literature,  we have seen  ST  elevation in AVR  in patients with  high risk unstable angina. This was   more often observed when there is > 3mm ST depression in V4-V6. The AVR  ST elevation  possibly   represents   the  reciprocal  vector.
    Conclusion
                                            ST elevation in certain   specific leads in   some of the patients with ACS,   could   be   a pure reciprocal   electrical phenomenon   to   dominant ST depressive forces in Opposite leads .  And hence   ST elevation in the surface ECG during early hours of ACS   should be interpreted more cautiously. The   sanctity   assocociated with ST segment   elevation   could  be  opened   for debate. 
 
                                     To down load full PPT  click on  the slide

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Can we suck out left ventricular apical clots with a suction catheter device in post MI patients?

Posted in Cardiology -Interventional -PCI, Infrequently asked questions in cardiology (iFAQs), Uncategorized, tagged , , , , , , , , , , , on August 4, 2008| Leave a Comment »

LV clot formation is one of the important complications of acute myocardial infarction. Preventing this is difficult and managing this problem is still more difficult.Some of these clots are linear and laminar along the shape of LV apex and carry less risk of dislodging.

 While mobile LV clots , even if it is small can cause a embolic episode. Most of these patients have a significant LV dysfunction and they are candidates for early CAG and revascularisation. Even If the coronary anatomy is very ideal for a PCI these patients are often sent for CABG and physical removal of LV clot . If  only ,we have an option to remove these LV clots by a catheter based modality, we can offer them a totally non surgical cure.

This is not impossible,  considering  we are in the era of percutaneous implantation of prosthetic valve in Aorta ! The only issue is potential embolism into carotids and periphery .A temporary distal protection at the level of aortic root will prevent that .

Device companies shall produce one such exclusive catheter system to remove LV clot.

Dr .S.Venkatesan, Madras medical college, Chennai,India

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Can medical managment save a patient with cardiogenic shock ?

Posted in Cardiology - Clinical, cardiology -Therapeutics, cardiology- coronary care, tagged , , , , , , , on July 19, 2008| Leave a Comment »

CCU’S can also save  patients with cardiogenic shock

Many of us would say ” never” or some may say “rarely” but in reality the answer is “yes it can ” slightly lower than  Primary PCI . One could save atleast  few  lives every month by  intensive medical  management alone (Inotrope, vasodilator,pacing if needed ) in any coronary care unit.

So the message here is, not offering or doing  a primary PCI in a patient with cardiogenic shock is not  synonymous with  inferior treatment or death.  After all, in the much hyped SHOCK  trial a significant no of patients survived in medical limb .

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CAPTIM study – Ambulance crew better than interventional cardiologists ?

Posted in acute coroanry syndrome, Cardiology -Interventional -PCI, Primary -PCI, STEMI, STEMI -Managment, STEMI-Primary PCI, tagged , , , , , , , , on July 2, 2008| Leave a Comment »

.The  forgotten “Gem of a study” from lancet 2002 .

The fight between Primary angioplasty and thrombolysis was actually over in 2002 itself. But the cardiology community failed to ,( rather reluctant ) to accept the truth. The issue is being dragged without any useful purpose (for the patient !)  still trying to keep up the non existing superiority of pPCI.

A bolus thrombolytic agent (TPA/RPA) or even streptokinase  can do almost the same if not better than a highly complex procedure called  Primary PCI with lots of logistics issues and most important an unacceptable early procedure related  hazard.

Timely lysis can kick pPCI out of the ring . . . in three aspects with 100% certainty !

1.If symptom to TIMI 2/3 flow in IRA is the true parameter of success .pPCI can never ever come closer to pre hospital lysis.

2.The poor lytics do not differentiate in the efficacy . It simply acts whoever administer it. While results of pPCI are never reproducible and lots of expertise involved.

3.Thrombolytic agents never need to bother  about the complexity of lesions , (or  where is the IRA dilemma ? Is it a CTO or ATO confusion etc ) for the simple reason it doesn’t need to think before acting. It does its job fast.

What did CAPTIM prove ?

  • It proved pPCI has no mortality advantage over pre hospital lysis.
  • Perhaps the most Important conclusion from CAPTIM is pre hospital lysis significantly reduced  number of new onset cardiogenic shock . This alone nullifies the self inflicted pseudoscientific delay wasting the golden hour in the process ! (By the way who fixed the arbitrary acceptable delay conferred to pPCI of I hour .The whole evidence base for this delay to be scrutinised in view of CAPTIM !)

Final message

It is an irony,  a simple intravenous push of a drug (Thrombolytic agent)  very early after an STEMI can save many patients and reduce complication rate .But because it is simple ,it is considered  inferior .

Probably the only role for pPCI is high risk complicated STEMI at presentation or after an attempt of lysis has not stabilised the patient.(Where its referred to as Pharamco Invasive strategy )

2018 update

This post was originally posted in 2008. Now as I see this in 2018 . It is shocking  to know we haven’t  learnt any lesson from this study for 16 years since its published.

In this era of medical  commerce and  simple ,cheap ,and effective treatment can never compete with  sophisticated , glamorous , less effective  treatment modalities !

Read the full version of CAPTIM and comments

Comparison of Angioplasty and Prehospital Thrombolysis in Acute Myocardial Infarction (CAPTIM) study group, are published in the September 14, 2002 issue of theLancet.

Primary angioplasty “no better” than prehospital fibrinolysis: CAPTIM

London, UK – In a finding that would appear to go against the swelling tide of support for primary angioplasty as the treatment of choice for acute MI, investigators comparing primary angioplasty with prehospital administration of alteplase with rescue angioplasty have concluded that the 2 strategies are comparable. The results, from the Comparison of Angioplasty and Prehospital Thrombolysis in Acute Myocardial Infarction(CAPTIM) study group, are published in the September 14, 2002 issue of theLancet.1

“Our findings indicate that primary angioplasty is no better than prehospital fibrinolysis followed by transfer for possible emergency coronary angioplasty in patients presenting within 6 hours of an acute myocardial infarction,” the researchers, led by Dr Eric Bonnefoy and Dr Paul Touboul(Hopital Louis Pradel, Hospices Civils de Lyon, Lyon, France), write.

However, they point out that cessation of funding during the trial resulted in a lower-than-expected enrollment, 840 of 1200 planned patients, reducing their statistical power. “The CI (confidence interval) for the primary end point shows that there could be a real difference in the treatment effects,” they write.

Still, the researchers feel their conclusion is valid. “This was and is for us a very pragmatic question for our care system in France,” Bonnefoy told heartwire. “Is our current management, with prehospital thrombolysis with transfer, in a time when primary angioplasty is promoted as the best-of-the-best treatment, still sufficient? Even if the power of the study is lower than expected, we think that we have our answer, and we can go on with that practice.”

The strategy also means less strain on their cath labs, Bonnefoy added, since only 1 in 4 patients underwent rescue angioplasty. A cost analysis comparing the 2 strategies is currently being carried out.

Earlier thrombolysisPrevious studies comparing primary angioplasty with in-hospital thrombolysis have shown a “definite, albeit modest” benefit of angioplasty over thrombolysis, with lower rates of recurrent infarction and higher patency rates, Bonnefoy et al write. However, it does impose additional treatment delays, and “delay to treatment is an essential consideration for any revascularization strategy.”
In France, where this multicenter trial was carried out, ambulance crews include a physician, and so thrombolysis with intravenous tPA is possible in the prehospital setting. In this trial, they randomized MI patients to either prehospital administration of accelerated alteplase or primary angioplasty and transferred all of the patients to a center where emergency angioplasty could be carried out if it were determined that thrombolysis had not been successful.
The primary end point was a composite of death, nonfatal reinfarction, and nonfatal disabling stroke at 30 days, with analysis by intention to treat.
Of the 840 patients, 419 were randomized to prehospital fibrinolysis and 421 to primary angioplasty. Rescue angioplasty was used “liberally,” they write, in 26% of patients assigned to fibrinolysis.

Time to treatment, as expected, was longer in the primary angioplasty group: the median delay between onset of symptoms and treatment was 130 minutes in the prehospital fibrinolysis group, and time to first balloon inflation was 190 minutes in the angioplasty group.

At 30 days, there was no significant difference in the primary end point between groups. Overall mortality was lower than expected, they note. Deaths were fewer in the prehospital thrombolysis group, but mortality was not significantly different between groups. There was a trend toward less reinfarction and less disabling stroke favoring the primary angioplasty strategy.

CAPTIM: Primary end point

Outcome    

 

 Prehospital fibrinolysis    

 

 Primary angioplasty    

 

 Risk difference (95% CI)    

 

 p    

 
Composite end point 8.2% 6.2% 1.96
(-1.53-5.46)		 0.29
Mortality 3.8% 4.8% -0.93
(-3.67-1.81)		 0.61
Reinfarction 3.7% 1.7% 1.99
(-0.27-4.24)		 0.13
Disabling stroke 1.0% 0 1.00
(0.02-1.97		 0.12

To download table as a slide, click on slide logo below

Among secondary end points, the researchers noted a nonsignificant trend toward a higher frequency of cardiogenic shockthe most common cause of death in this studyin the primary angioplasty group, noting that cardiogenic shock between randomization and hospital admission occurred only in that group.

The CAPTIM results were first presented at the European Society of Cardiology Congress in September 2001 and reported by heartwire.

 

Strong wordsIn an accompanying commentary, Dr Gregg W Stone (Lenox Hill Heart and Vascular Institute, New York, NY) calls the CAPTIM results “the latest salvo in the ‘primary PTCA vs thrombolytic therapy wars’,” a “well-designed and carried out” trial.2
“Unfortunately,” because of funding issues and slow enrollment, the trial ended before the planned recruitment of 1200 patients that would have been required to show a 40% reduction in the primary end point with primary PTCA, he writes. “Nonetheless, the results demonstrate a trend toward a 24% relative reduction in the occurrence of adverse events favoring the interventional strategy, driven by strong reductions in reinfarction and stroke (which would be expected, after all, to be largely independent of reperfusion time),” Stone notes.
He attributes the lack of mortality benefit from primary angioplasty to the lower-than-expected mortality risk in this population, since the survival benefit of primary angioplasty is seen primarily in the highest-risk patients, the elderly and those with anterior MIs or shock. The lack of mortality benefit, though, “does not diminish the clinical relevance of fewer strokes, reinfarctions, a reduction in urgent revascularization procedures, and the shorter hospital stay” seen with the interventional strategy in this and other studies, he writes.
Perhaps the most novel finding is the reduction in early-onset cardiogenic shock with prehospital thrombolysis, a result that “adds fuel to the fire calling for facilitated primary PTCA trials.” However, several trials of the combined approach to date have shown it to be either inferior to or no better than primary PTCA, he notes. Even in CAPTIM, prehospital thrombolysis was supported by rescue angioplasty in 26% of patients, and Stone speculates these patients may have been “better off” if they had simply been transferred for routine immediate primary PTCA.

“Thus, until the large trials of facilitated PTCA are completed (none of which have even begun enrolling), the best therapy for most patients with evolving AMI should no longer be debated; administer antiplatelet therapy (aspirin, a thienopyridine, and possibly abciximab), withhold thrombolytic therapy, and transfer the patient for primary PTCA, regardless of whether the nearest catheterization suite is 3 floors or 3 hours away,” Stone concludes.

“To do less should no longer be considered standard care. Strong words, yes, but it is time for a wake-up call.”

 

CAPTIM researchers respondAsked to respond, Bonnefoy pointed out that “Dr Stone is surely a primary angioplastician and very convinced, but it’s quite ideological. CAPTIM is quite pragmatic. His arguments are acceptable, but they are not convincing; that is his opinion rather than scientific data.”
Bonnefoy asserts that no study has clearly demonstrated the superiority in terms of mortality of primary angioplasty over prehospital thrombolysis. “And in CAPTIM, we have the surprise and intriguing observation to have lower mortality in the prehospital thrombolysis groupit may be hazard, but it is present.”
Moreover, while high-risk patients may benefit from primary angioplasty, high-risk patients do not represent the majority of the MI population. In patients such as those in the CAPTIM study, he said, “our conclusions are quite valid.”
 

 

 

Sources
  1. Primary angioplasty versus prehospital fibrinolysis in acute myocardial infarction: a randomized study2002; 360:825-829
  2. Primary angioplasty versus “earlier” thrombolysis–time for a wake-up call2002; 360:814-815

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