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Archive for the ‘Cardiology – Clinical’ Category

Fascicular tachycardia : A classification

Posted in Cardiology - Clinical, cardiology- coronary care, Tutorial in clinical cardiology, tagged , , , , , , , , , , , , on September 1, 2009| Leave a Comment »

Traditionally we believed VT can originate only  from the ventricular myocardial cells . Then we realised many of the VTs shared the characteristics of SVT. When these were analysed , it was found VTs , after all ,   do not have   a big deal of   difference wth SVT s ! especially when it arises from the high septum .Contary to the conventional teaching  the AV node is not a anatomically distinct and discrete  structure  .Instead it is made up of  thousands of specialised cells located in AV junctional area .These cells ramify both superiorly and inferiorly like an octopus . Hence  , it does not require great academics to understand AV Nodal properties extend downward into the IVS for some distance . In some individuals   clusters of cells with  slow conducting  property (Which is a hall mark of AV nodal tissue )  may invade deep into the IVS .The interface of  these slow conducting tissue with that of  fast septal purkinje fibres , make it a  perfect platform for  the potential slow-fast reentry within IVS. This forms the basis of fascicular  VT.

Clinical features

  • Since it shares the  properties of SVT , the natural history is also relatively beningn
  • Occurs in young
  • Hemodynamically stable ( More physiological conduction : Superi inferior Like SVT)
  • Narrow qrs (Narrow because the VTdoes not travel by cell to cell instead  run through the normal conduting system for most part in the circuit)
  • Verapamil sensitive .(Mimic AV nodal Tach)
  • Degeneration into VF is  rare  and hence  SCD is not a big  issue
  • Tachycardic myopathy can occur.

fascicular vt ventricular tachycardia ecg svt avnrt avrt wpw

Note:

Fascicular tachycardia is also known in several names.

It forms the bulk of the causes for  idiopathic left ventricular VTs .Other being LVOT VT.

Described first by Cohen in 1974 , followed by Zipes , when they noticed  it was possible to reproduce atrial induction of VT.

Belhassen in 1984 found the verapamil sensitivity of this VT

Other synonyms some times used are

  • Septal VT
  • Narrrow qrs VT

Download high resolution table

Fascicular tachycardia

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What are the reversible forms of dilated cardiomyopathy ?

Posted in cardiac failure, cardiology -Therapeutics, Cardiology -unresolved questions, myocardial disease, tagged , , , , , on August 19, 2009| 2 Comments »

The term cardiomyopathy generally denotes a  progressive disease  in clinical cardiology.There was a time   diagnosis  of dilated cardiomyopathy (DCM )  was synonymous with a  delayed death sentence !  Of course , the situation has vastly improved over the years  with the availability of  new medical , interventional and surgical management. Still ,  there is no denying the  fact  ,  DCM continues to  have a grave outcome  especially when it occurs without any identifiable cause .

While we have  variety of aggressive DCMs , we also  have  patients with relatively benign forms of   dilated and dysfunctional hearts  which recover totally .

This reversible forms of DCM is observed in  the following  situations.

Hypertensive dilated cardiomyopathy . The left ventricle  in  some of the  patients with severe SHT  respond to the stress (Increased  after load) by dilatation rather than hypertrophy. This is especially common after an episode of LVF.  If we do an acute echocardiogram the LV function is severely impaired and the LV may  also be dilated. With good control of BP and fluid management the ventricle promptly return  to it’s baseline dimension. The recovery is complete in many . (The mechansim of LV dysfunction acute severe Hypertension is referred to as Pre-load /After load mismatch) Link to concept of Pre load mismatch .

* Note in the past these entities were not called as  cardiomyopathy .

Peri partum cardiomyopathy.

This is a serious disorder of cardiac muscles that occur during pregnancy  few months before  or few months after delivery  . There is correlation between PIH and this entity. Prognosis varies between very bad to excellent. Very few cardiac entities  have a  natural history like this one disease of women.Most of the pregnant women regain their original cardiac status within  year or so. It should be recalled there is high chances of recurrence in next pregnancy.

Alcoholic cardiomyopathy.

The toxic response to alcohol or the additive cobalt can result in DCM .There is overlap  between holiday heart syndrome and alcoholic DCM , where atrial fibrillation is the major problem. Wet Beri beri is the advamced form of clinical DCM that respond to vitamin B therapy.

Tachycardic cardiomyopathy.

This is also a common entity that occur during persistent sinus tachycardia or AF , thyrotoxicosis.Beta blockers are  of great use here.  Recovery is usual if the primary cause is correctable.

Toxic and drug related  reversible LV dysfunction

Adriamycin cardiomyopathy

Tako -Subot  Cardiomyopathy canbe termed as classic form of reversible  stress cardiomyopathy

Miscellaneous conditions

Diabetes and chronic kidney disorders are known to have a reversible form of cardiomyopathy

Some rare toxins  , scorpion envenomation , selenium deficiency can result in reversible DCM

**Ischemic DCM are partially  correctable in many , still  we don’t include it as cause for reversible DCM

*** Many episodes of acute myocarditis can have transient or short term LV dialtation and  dysfunction.they are classified as myocarditis .But there is little  difference (Except acadmeic . . .)  between chronic myocarditis with LV dysfucntion  and cardiomyopathy.

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Use your hands as an “Artificial heart lung machine” : The greatness of hands only CPR !

Posted in Cardiology - Clinical, Cardiology -Interventional -PCI, cardiology -Therapeutics, Uncategorized, tagged , , on August 17, 2009| Leave a Comment »

Cardiopulmonary resuscitation (CPR)  is  the major discovery of last century  that has saved many lives over the years. In spite of  this , there has been lot of debate over the exact methodology adopted  .The much published techniques  of Basic cardaic  life support (BCLS)  which is in vogue for over 2 decades has failed to deliver the  results  as  one would have expected.

The main reason identified was ,  the protocol seemed too complex and people hesitated to do the  mouth to mouth breathing in a stranger. Many were not confident about doing  proper chest compression and  inter spaced with breathing support.( The ratios  of chest compression : ventilation 30:2 /15: 2 tend to be too cumbersome in an emergency !)

Many of the  potential  resuscitators  preferred to  become silent spectators !

The world bodies ACC/AHA/ILCOR has been watching this evolving pattern and behaviour . Mean while when we looked into the data of survivors of cardiac  resuscitation  , we  realised even an  improper  and inadequate CPR had some positive  effect on survival . How was this possible ?

There have been  innumerable instances of  individual and institutional reports   about  many lives that  have been saved  simply  by compressing the chest  after cardiac arrest or  at least  kept the person alive  and breathing to  be taken  for advanced cardiac life support.

cpr hands only ilcor lancet

This simple experience has since become strong evidence when Lancet got it published in 2007 . Subsequently the ILCOR/ACC have also adopted a new advice namely compression only CPR

Read complete ILCOR  recommendations http://circ.ahajournals.org/content/vol112/24_suppl/

Excerpts from the above article reproduced

cpr chest only

Compression-Only CPR

The outcome of chest compressions without ventilations is significantly better than the outcome of no CPR for adult cardiac arrest.In surveys healthcare providers well as lay rescuers  were reluctant to perform mouth-to-mouth ventilation for unknown victims of cardiac arrest.

In observational studies of adults with cardiac arrest treated by lay rescuers, survival rates were better with chest compressions only than with no CPR but were best with compressions and ventilation . Some animal studies  and extrapolation from clinical evidence suggest that rescue breathing is not essential during the first 5 minutes of adult CPR .

If the airway is open, occasional gasps and passive chest recoil may provide some air exchange. In addition, a low minute ventilation may be all that is necessary to maintain a normal ventilation-perfusion ratio during CPR

Laypersons should be encouraged to do compression-only CPR if they are unable or unwilling to provide rescue breaths .

Final message

In this world of hi tech life support devices like LV  assist systems, implantable defibrillators robotic surgery  ,  it is  heartening  to note a pair of human hands can save a human life  or  at least sustain a life till the advanced emergency service reach the patient.

The fact that hands can act as a artificial heart lung machine at least  for few minutes  could be the greatest invention for the mankind by the mankind.

cpr hands only cpr lancet ilcor

* Note of caution

Under ideal conditions both chest compression  ,  proper airway , and assisted breathing is always better than simple chest compression .This blog wants to convey the point chest compression  alone could  also be  a effective CPR measure .

References

http://www.thelancet.com/journals/lancet/article/PIIS0140-6736(07)60451-6/abstract

Newyork times  reports chest compression  only  CPR

cpr hans only newyork times

Click below to read the article .

http://www.nytimes.com/2007/03/17/health/17cpr.html


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What do we mean by circulatory failure or shock ?

Posted in Cardiology - Clinical, Cardiology -Interventional -PCI, cardiology -Therapeutics, Cardiology -unresolved questions, tagged , , , , , , , , , , , , , , , , , , , , , , on August 12, 2009| 2 Comments »

micro circulation shockHuman circulatory system consists  of  the heart , the arterial  and the venous  systems . Together they constitute the  three important limbs of circulatory system namely , the  pumping, delivering and retrieval systems .In physiological conditions approximately 6 liters of  blood  has to traverse  the entire   circuit every minute . The  purpose of the  circulatory system is not simply circulating the blood within the body,  but  it has to perfuse different vital organs like brain, kidney, liver . Of course ,   the heart has to self perfuse the coronaries  by it’s own contraction.The organ perfusion is determined by local and systemic  regulatory mechanism. A gamut of intrinsic and extrinsic neuro humoral modulators take up this job. A functionally intact autonomic nervous system is an absolute necessity to maintain tissue perfusion.  The perfusion pressure is highly variable in different organs and different cells. Similarly the ability to with stand ischemia and hypoxia also varies. Shock  is a general term used to imply ,  circulation is seriously compromised.Here we will confine our self  to the intricacies of peripheral circulatory shock

Traditionally shock is  classified as

  1. Cardiogenic shock
  2. Hypovolemic shock
  3. Vasodilatory /Redistributive/Septic /Warm shock (Can be called  as  arterial shock )

The hemodynamics of the first two are straight forward and easily understood. In  cardiogenic shock , the pumping action of heart is primarily affected .In hypovolemic shock  there is no  structural defect in any of the   circulatory limbs but there is  a loading defect due to low blood  volume as in hemorhagic shock .

The term vasodilatory shock or redistributive shock is most poorly understood and most difficult to treat.

The  concept is further confounded as  combinations of   above three mechanism in a same a pateint can occur . ( More commoner than we believe !) . An example could be a septic patient  with an  internal bleed and myocardial  depression either due to preexisting LV dysfunction or circulating toxins.

Since  we have always perceived heart as  the  sole  vital  component of circulatory   system , our understanding of the role of the vascular tree which is primarily responsible for delivering the blood is largely undermined and neglected. We are always happy if the EF %  is normal.

Classical features of  circulatory failure ?

The cardiac contraction is good.This is documented by normally contracting LV by echocardiography. The pulmonary capillary wedge pressure is normal (<12mmhg).Still the patient is in  hypotension with  evidence for vital organ under perfusion like oliguria and reduced mentation.

What is vascular tone ? What sustains  the flow of blood into the tissues  ?

The entire  vascular tree could form a   few 100 kilometer length.(Capillary /arterioles /venules included). While , it is easy to  percieve heart as  a dynamic pumping organ ,  it is a less recognised fact the entire vascular tree is also  pulsating  to every beat. That is the rhythm of life. What makes the vascular tree to pulsate ? Apart from  contraction of the heart  , there is an  intrinsic tone for the large , small arteries and the arterioles and veins  .This tone is vital for pushing the bllood into various organs and return into venous circulation and subsequently back into the heart.

microcirculation shock cardiogenic septic

The  millions of perivascular cuffings and the artreriolar smooth muscles  can be considered as  small micro pumping stations situated along side every cell.

It is very important to emphasize here,   if  tone in these microcirculation is less than optimal , the patient’s circulatory  system can never complete the desired circuit  even if the heart has 75% EF . This exactly is happening in circulatory shock . The vascular tree fails to accept and return the pumped blood  in timely fashion.

What controls this tone ?

It is chiefly under the control of autonomic nervous system.The endogenous vasoconstrictors , the adrenergic nervous system, the endothelins , the angoitensins constrict the vascular smmoth muscles while endothelial relaxing factors ,( EDRF -nitric oxide relaxes it ). There is a delicate balance between these forces.

A cardiovascular health of a person is not simply having a healthy heart , he has to have a healthy vascular system with intact biological activity.The fact that , not every one with sepsis react with poor vascular tone indicate inherent capacity to neutralise toxic vasodilatory neuro transmitters.

Is there a invisible parameter called vascular ejection fraction  in circulatory  system?

Yes. It must be . We rarely discuss it . The vascular tree has an important role for pumping the blood into the tissues.  It needs micro manometers to assess the systolic and diastolic dimensions of small arteries and arterioles . But  what  we know is ,  it is grossly impaired in circulatory failure.The vessels especially the arteriolar smooth muscles which determine the perfusion pressure of cells go into state of permanent relaxation. The vascular smooth muscles lose control from autonomic innervation and become flabby. It is the   DCM equivalent for blood vessels. The arterioles no longer regulate blood flow and fluids get sequestrated in various viscera,( often called thrid spaces) and organ dysfucntion sets in. The resultant hypoxia aggarvates the tissue stagnation by producing still unnamed vasodialtory mediators.

What are the pharmocological approches to increase the vascular tone of a failing vascular tree ?

It is a very difficult problem even in this modern era of vascular medcine. Once set in ,  these patients invariably go downhill .The primary underlying problem  ,  often sepsis  need to be corrected. Usually these  patients need multi organ support.Vasoconstrictors like epinephrine,nor epinephrine , dopamine  can sustain vasoconstriction temporarily . As we know the vascualr smooth msucles can not be kept on this assited contrection mode for long.It is bound to fail .Patients native autonomic function has to recover fast to wean of this support.

What is normal circualtorty time .How is it altered in circualtory failure  ?

The normal circualtory time is 15-20 seconds.It is many times prolonged in circualtory failure inspite of the cardiac contraction being normal

What is effective circulatory volume ?

The body fluid compartment is divided into ICF,ECF & interstitial  spaces.At a given time , the fluid in the extracellular space  can only  take  part  in circulation. A good blood pressure does not always mean a good tissue perusion why ? This is very important to realise as blood pool has to dynamically exchange with intra cellullar compartment. At times of shock the blood can bye- pass the cells through the alternate circuits in the periphery of micro circulation. So what is circulating in the system may not be taking part in tissue perfusion .This is the concept of  effective circulatory volume.This is especially noted in hepatic shocks and in some terminally ill malignancy.

Is there a venous shock syndrome ?

Cardiologists  often show a  step motherly  attitude to venous disorders. In fact many  of the   cardiovascular  specialists   think their   job is  taking care of  heart ( Of course , a little bit of aorta and venacava !) .It is surprising  to know,  there is little  scientific data on determinants  venular and venous tone (Both small and large veins).

The power of venous system should not be under estimated  as it pumps  many litres of blood every minute  defying gravity ! For this to happen it needs a vigorous tone .Where do it get from ?  : The same  autonomic nervous system that controls the heart. Remember , in pathological states there is a  great chance for this to go out of control. So venous shock is a clinically distinct possibility. In fact inappropriate administration of nitrates which reduces the venous tone has resulted in many adverse events in RV shock.

In a patient with circulatory shock , we would  never know  how much is contributed by venous side and how much by arterial side .This is important as in circulatory shock we administer all vital drugs through veins.Now it is thought  systemic venous  dysfunction also contribute to shock state.

Clinical situations of circulatory failure or shock

Bacterial shocks

  • Gram negative sepsis
  • Staphylococcal shock

Viral shocks

Dengue/Swine flu etc

Others*

  • Dissiminated intravascular coagulation
  • ARDShypoxic shock
  • Elderly,Diabetic  autonomic neuropathy
  • Persistent post operative hypotension due to silent autonomic neuropathy.
  • Some cases of Spinal shock
  • Toxins – Scorpion etc(Intense vasoconstrictive shock )
  • Terminal shock in liver failure/Hepato pulmonary   syndrome

* Idiopathic unexplained persistent hypotension , with difficulty to wean off from vasoconstrictive agents is a commonly encountered problem in any intensive care unit.The exact mechanism is not known.When we are not clear about the mechanism  we  generally blame it on the  the autonomic nervous system !

How common is the mixed shock syndrome ?

This is more common than we realise .The classical description of multisystem failure is a direct consequence of this.

Can a cardiogenic shock transform into a peripheral circulatory shock ?

Such a scenario is  possible  .A  resuscitated cardiac arrest may end up with a recovered heart but a loss of vascular tone  possibly due to hypoxic vascular damage. .Many times cardiac patients are kept (Post PCI/CABG ) on large doses of  vasoconstrictors or IABP that can induce  tachyphylaxis. It may result in difficulty in weaning these drugs.

How can circulatory shock result compromised cardiac function ?

The common effect of any shock is  reduced organ perfusion.So even in peripheral shock , the coronary blood flow gets compromised especially if these patients have a silent coronary lesions which are otherwise not significant , becomes sites of hemodynamic hurdles during hypotension.This may result in global contractile dysfunction, or a coronary event.

What is vasoconstrictive shock ?

Epinephrine and nor epinephrine are  very potent  vasoconstrictors .If levels of these becomes excessively high , the blood vessels go in for sustained spastic state that can impair the micro circulation .Some times  this results  in a  good blood pressure in the major vessels but severely compromised tissue perfusion.This particular situation has been reported after scorpion envenomation , and in  rare cases of pheochromocytoma .

Final message

Primary circulatory failure or shock (With largely intact cardiac function without hypovolemia) is a common problem in critically ill.  The entire  macro and micro vascular tree goes for a  stunning reaction and  goes for  a sleep in a  semi dilated  state  . It can  be termed as  Arterial  or Arteriolar   shock. Contrary to  all those hi-tech   mechanical stuff for supporting a failing heart (LV assist, Impalla, Abiomed , ) the available options are very little here  . The response to vasoconstrictive agents are  also unpredictable. Correcting the multi organ failure  and targeting the primary cause  is the only hope.

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Why inferior MI is considered “Inferior” ?

Posted in Cardiology - Clinical, cardiology -ECG, Cardiology -Interventional -PCI, cardiology -Therapeutics, Cardiology -unresolved questions, cardiology- coronary care, cardiology-Anatomy, Cardiology-Arrhythmias, tagged , , , , , , , , , , , , , , , , , , , , , on July 17, 2009| 7 Comments »

Myocardial infarction (STEMI)  occurs in two distinct arterial  territories .The anterior LAD circulation and postero- inferior RCA/LCX circulation.The incidence is equally shared.

There has been some  learned and unlearned perceptions about Inferior MI.

Inferior MI is less dangerous than anterior MI.  True or false ?

Answer: Essentially true in most situations.

Reasons.

Inferior wall of the heart (strictly speaking there is no walls for heart , only surfaces , which blends with adjacent areas)  inferior wall  is formed by diaphragmatic surface and posterior surface.Inferior MI can occur by either RCA or LCX obstruction.The outcome of inferior MI is determined by mainly by  the extent  of   LV myocardial   damage it inflicts.To  quantitate this  we need to know , how much of LV is supplied by RCA , or LCX or combination of both ? This depend on the coronary dominance .It is estimated , the bulk of the LV is supplied ( up to 75%  ) by LCA. This becomes further high in left dominant circulations . In fact , it is believed LV can never get involved in non dominant RCA occlusions. This has brought in a new terminology  called “Small inferior MI”.Inferior STEMI due to PDA  occlusion or in a co -dominant circulation is not yet studied

Apart from the above  anatomical considerations the following clinical observations  have  been made regarding inferior MI.

  • When thrombolysis was introduced , many studies  suggested the the ST elevation in inferior  leads toched the isolectric levels  in most situations even without thrombolysis.Technically, this implies spontaneous , successful thrombolysis are more common in RCA. Among the thrombolysed ,persistent ST elvation is a rare phenomenon.
  • The well known difference in the conduction defect between anterior and inferior MI  is an important contibutor for better outcome in the later.(AV blocks in inferior MI , are often transient, non progressive, supra hisian location rarely require permanent pacemakers)
  • During acute phase cardiogenic shock occurs in a minority (That too , only if RV shock is included )
  • Even in the follow up the ejection fraction in inferior MI is  almost always above  40%. In many EF is not affected at all.
  • Progressive adverse remodelling of LV is rare

When can Inferior MI be dangerous ?

Anatomical factors

Inspite of the  above  factors  inferior MI can not be taken lightly . Especially when it  extend into posterior, lateral , (Rarely anterior) segments.

While  posterior extension  is often  tolerated , lateral extension is very poorly tolerated .This is probably explained as  the extension involves the vital free wall of LV and the laplace forces could precipitate LVF. Free wall rupture is also common in this situation.

Posterior extension , predominantly involves the surface of RV which is less important hemodynamically. Of course incidence of MR  due to it’s effect on posterior mitral leaflet can be trouble some.

inferior MI ECG

High risk clinical catagories.

Out of hospital STEMI  are at  equal  risk irrespective of the territories involved  .This is because,  primary VF does not differentiate , whether  ischemia comes from RCA or LAD .

  1. In elderly , dibetics and co existing medical condtions  the the established  benign   character  of  inferior MI disappear, as  any  muscle loss  in LV has equally adverse outcome.
  2. Even though  inferior MIs are immune  to cardiogenic shock  , a equally worrisome  prolonged hypotension due to high vagal tone, bradycardia, plus or minus RVMI can create trouble. Fortunately , they respond better to  treatment. Except a few with extensive transmural RVMI outcome is good.
  3. Presence of  mechanical complications of  ventricular septal rupture , ischemic MR can bring  the mortality on par with large anterior MI.

How different is the clinical outcome of infero-posterior  MI with reference  to the  site of  coronary arterial  obstruction   ?

The sequence of  outcome  From  best to worse  : Non dominant RCA* → Dominant RCA but distal to RV branch → LCX dominant with large OMs

* It is believed   an  acute proximal  obstruction of a  non dominant RCA may not be mechanically significant, but can be electrically significant as it retains the risk of primary VF and SA nodal ischemia. The ECG changes  can be very minimal or  some times simple bradycardia is the only clue. One should be able to recognise this entity (Non dominant  RCA STEMI)  as the outcome is  excellent and these patients  would never require procedure like primary  PCI

** A inferior MI due to a dominant LCX and a large OMs have comparable outcome as that of extensive anterior MI. The ECG will reveal ST elevation in both inferior and lateral leads.

***In patients with prior CAD  and collateral dependent  multivessel disease  the  inferior anterior sub classification does not make much sense as  entire coronary circulation can be mutually interdependent.

Final message

Inferior STEMI  generally lacks the vigor  to cause extensive damage to myocardium in most situations .Further they respond better to treatment. Risk stratification of STEMI based on the location of MI has not been popular among mainstream cardiologists. This issue needs some introspection as  the costly and complex treatment modalities like primary PCI  is unwarranted in most of the low risk inferior MIs.

Related posts in my blog:

1.Why thrombolysis is more effective in RCA?

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Coronary hemodynamics in 100% occlusion ?

Posted in Cardiology - Clinical, Cardiology -Interventional -PCI, cardiology -Therapeutics, Cardiology -unresolved questions, cardiology- coronary care, Uncategorized, tagged , , , , , , , , , , , , , , , , , , , , , , , on July 15, 2009| 8 Comments »

Total coronary artery occlusion is a common finding in CAD  especially in chronic stable angina. Normal coronary blood flow is 5 % of cardiac output  that amounts to 250-300ml/mt.At an average  heart rate of  70/mt  , each  beat  injects  about 5cc blood into the coronary circulation.This is shared between two coronary arteries.  This means , only few CC (2-3cc) of blood enters  each coronary artery with each cardiac cycle .

When one of coronary artery is totally occluded what happens to the coronary

blood flow ?

A.Total coronary blood flow  can be be  maintained   normal  at rest  as it  forms  only about 5% of cardiac output  (or it is only  slightly reduced )

B. It is believed , the unobstructed coronary artery  could receive the blood meant for the contralateral coronary artery. This  possibly explains the increased coronary artery diameter in the non obstructed artery.

C. It’s nature’s wish ,  that the  contralateral  coronary artery  shall share  50% of  it’s  blood through  collaterals if available.

D.If collaterals are not formed it , the unobstructed coronary  artery  may be over perfused with double the amount  of blood flow.

E. Some times , the collaterals steal  much more than what  the  obstructed coronary artery  deserves and make the feeding coronary artery ischemic. This is many times observed in  total RCA occlusion with well formed  collaterals  from LAD/LCX.

F.The collateral flow  in CTO also depend on whether flow is directed from LAD system to RCA or from RCA -LAD system. The LAD is better placed to assist RCA than vice versa.This is for two reasons.1.LAD blood flow is higher than RCA so it can share it.2.The driving pressure is more  from LAD -RCA , as RCA can receive  blood flow even during diastole .

F.During exertion , the coronary hemodynamics become further complex.The collateral’s are traditionally thought to be less than adequate during times of exercise.But it is more of a perception than solid scientific data.This rule  may be applicable in only certain group of patients. We know CTO patients with very good exercise tolerance who have documented collateral’s.

G.Collaterals can be either  visible or invisible by CAG. The strength of collateral circulation is not in it’s visibility but it’s capacity to dilate and  respond to neuro humoral mediators at times of  demand.  Currently  , there is lot to be desired  regarding  our knowledge about  the physiology  of visible collaterals , no need to  mention about invisible collaterals !

Final message

The above statements  are based  on logics and observations .

Is it not a  irony  in cardiac literature ,  where  thousands of articles  are coming out every month  to tackle  totally occluded coronary artery(CTOs) ,  there is  very little data   regarding the coronary hemodynamics in chronic total occlusion .   How  does a patient with CTO can manage a active life with only one functioning  coronary artery ?

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What are the usual & unusual causes for cardiac source of emboli ?

Posted in Cardiology - Clinical, Uncategorized, tagged on July 10, 2009| 2 Comments »

Common causes

  • Left atrial appendage clots
  • Left atrial  clots
  • LV mural thrombus (Post MI, DCM)
  • Mitral aortic valve infective vegetations

Conditions that could be commoner than we think!

  • Aortic valve  calcific debri
  • Aortic arch atheromas
  • Paradoxical embolism through foramen ovale.*

If we consider incidence of patent foramen  ovale in general  population is up to 20%  the problem of paradoxical embolism could be really significant.PFO is a potential  right  to left channel of more than 5 square cm .

Unusual causes

  • Mitral annular  and posterior leaflet  calcification
  • Tumor embolus (Myxoma etc)
  • Prosthetic valve thrombus.

Cause never known and identified.

There are times a cardiac source can never be identiifed.This can very well happen , as a transient arrhytmia can trigger a thrombus formation and subsequent examination are totally normal .The incidence of such group can never be known !

A brief  account on cardiac embolus

Cardiac  embolus constitute an important cause for stroke or TIA. There are number of important conditions that can result in cardiac embolism. The embolus could be a  thrombus(95% of times ) , Vegetation, tumor, calcific debri, cholesterol , atheromatic particles , rarely chordal and subchordal structures following it’s rupture.The size of the embolus could vary between <.5mm to 1-2cm in diameter.The average size is 1cm . The clinical presentation depends upon the size, content of the emboli(Thrombus vs non thrombus) )  site of trapping, freshness of thrombus, natural lytic process.

The common  sites  of trapping is middle cerebral artery.The average diameter of MCA is around 2 mm.So one can imagine almost most of the cardiac emboli can not traverse it, and hence a  dense stroke .But , micro thromboemboli , can safely cross cerebral circulation.they usually present as TIA or a chronic lacunar infarcts and many times vascular dementias. Cardiac thrombus rarely gets struck within the carotids.This is especially common if there is associated critical carotid stenosis.The situation is a dire emergency.(Inspite of the fact there is circle of willis for

How do you investigate ?

A complete physical examination with well documented clinical history

A meticulous echocardiography with possibly a TEE (Transesophagel echo)  may  done .

Underlying disorder to be tackled.

When a emboli is released from the heart , what determines  it’s entry into carotid ?

The aortic ejection force is such that whatever particle that exit from the heart , tend to hit on the carotid first.Only if it fails to accept it , it is pushed across the aortic arch into the descending aorta.This result in peripheral embolism .Some times a emboli gets struck within the carotid .This  especially happens  if there is associated with critical  carotid obstruction .This can result in massive stroke and sudden neurological death( The threat is real  inspite of the presence of circle of willis which supposed to come to rescue in cases of sudden unilateral carotid obstruction)

What is the relationship between atrial fibrillation and cardiac emboli ?

For long ,the two conditions were thought to closely linked entities.AF slows blood flow across the atria, predispose to left atrial clots and possibly increased stroke.So vigorous means to restore sinus rhythm were attempted. But to our surprise, the incidence of stroke was not greatly reduced between optimal anticoagualtion and sinus rhythn restoration. This indicated many of the cardiac source of embolism could be distal to left atrium aortic arch atheromas, carotid etc (AFFIRM study)

Restoration of AF into SR can possibly prevent thrombus  formation  only in one chamber , while systemic anticoagualtion can prevent thromboembolism virtually any where from the high risk zones across the LA, LV,  Valves, Aorta, arch, carotids etc. So , it defies scientifc logic , to attempt AF restoration by all means (The exotic pulmonary vein isolation etc !)  to  eliminate one of the cause of stroke.

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3 minutes crash course on ventricular ectopic beats (VPDs)

Posted in Cardiology - Clinical, cardiology -Therapeutics, tagged , on July 9, 2009| 5 Comments »

Ventricular ectopic beats are the most common cardiac electrical abnormality for which cardiologist’s consultation is sought.VPDs are one of most benign observations in ECG and  and almost every  heart experiences it. In 24 hour holter recordings it was reported up to 25% of healthy  individuals .

In spite of this ,  the fear of  noting a VPD in a given tracing of ECG is genuine both for the patient and his physician.This is because  VPDs  can be  a forerunner of dangerous ventricular arrhythmias.

  • VPDs are often graded according to the count and morphology and frequency.(Lown’s ,Bigger’s grading)
  • VPDs that occur in single are less fearsome.( It may not be so . . .)
  • VPDs in couplets and  triplets raise considerable anxiety.( Again it need not be . . .)
  • A series of VPD lasting for 30 seconds is called non sustained ventricular tachycardia(NSVT)
  • If it exceeds 30second it called sustained VT.
  • VT may remain as VT in many.
  • VT may degenerate into VF  ventricular fibrillation in minority( ie cardiac arrest)

The importance of VPDs do not lie  in the number ,  morphology or frequency  but most importantly  in  the underlying etiology. If it occurs in a structurally normal heart it is largely benign.

New onset VPDs should be investigated thoroughly. The commonest symptom is palpitation.

vpd ectopic

Friendly VPDs : Some of  situations where VPDs are  commonly observed and has little significance are.

  • Exercise induced VPDs
  • Pregnancy induced VPDs  (PIH /Peripartum DCM are  rare possibilities)
  • Thyroid associated VPDs
  • Alcohol /Smoke related

What are the VPDs that could be clinically  important ?

VPDs with chest pain(Ischemic etiology )

VPDs in patients with dyspnea.(CHF , COPD)

Drug induced VPDs(Digoxin etc)

Renal failure associated VPDs

VPDs due to hypoxia/Hypokalemia

In patients with pre existing heart disease.(Congenital, valvular, myocardial disease)

What prevents a non sustained VT from becoming sustained ?

No one really knows the answer.Most of the NSVT self terminates.A healthy heart some how gets the capacity to self terminate the arrhythmia.The normal  LV  fails to sustain the abnormal electrical circuit . A diseased heart may not be able to do so . Further if there is electrolyte abnormality (low potassium), or lack of oxygen it may maintain a VT.

What are the most dangerous forms of VPDs ?

  • VPDs that occur during  acute coronary syndrome.
  • VPDs associated with cardiomyopathy( Ischemic , nonischmic,)
  • Some forms of primary electrical disorders of heart( Brugada syndrome, ARVD , CMVT etc)

How do you investigate patients with VPDs?

General medical work up in all.

Echocardiogram is usually necessary in most.

Holter monitoring in occasionally.

Coroanry angiogram rarely

Electrophysiological study in high risk category

How do you manage  patients with VPDs?

  1. Generally do not require any specific drugs in vast majority of individuals .
  2. Reassurance is the key
  3. Ask them to avoid potential triggers like smoke, alcohol, coffee, tea and related bevarages.
  4. If palpitation is troublesome beta blockers( Propronolol, Atenolol, metoprolol can be used.)
  5. Anxiolytic may also be given.

*If the patient has  systemic disorder like hyperthyroidsm , anemia  or underlying heart disease he has to get the specific treatment.

Caution:It has become fashionable for the physicians  to use powerful antiarrhythmic drugs like amiodarone (Cordarone) liberally in patients with asymptomatic VPDs with structurally normal hearts.this practice must be absolutely avoided as amiodarone is one of most toxic  cardiac drugs known  with great pro arrhythmic activity.

When to refer a patient with VPD to a electrophysiologist ?

Physicians   can  treat   most of these patients. But the following will require EP consultations

  • Patients with syncope
  • Patient who have LV dysfunction(Low ejection fraction EF%)
  • Has had an episode of ventricular tachycardia
  • Cardiac arrest

What will the Electrophysiologist  do ?

These patients will be evaluated for inducibility of VT/VF and if the LV function is poor (EF<30%  MADIT 2 criteria ) many would receive implantable cardivertor defibrillator(ICD) or life long anti arrhythmic  drugs.

Some times radiofrequency (RF ablation)  waves are used to ablate the focus of VT.This is possible only if it occurs close to endocardium as  intracardiac catheters do not have access to epicardial  focus. Among  ICD and RF ablation later could be preferred whenever feasible as it eliminates the arrhythmia , while  the former only tackles it only after it occurs .( Hence ICDs  , even though a technological marvel can not be labelled as curative ! )

Final message

VPDs are the   most common cardiac arrhythmia .Most of them are benign. Few of them require extensive investigation.

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Non dilated cardiomyopthy : An under diagnosed entity !

Posted in Cardiology - Clinical, My presentations, tagged , , , , , , on July 9, 2009| Leave a Comment »

How will you refer to a ventricle which is not dilated but still has severe global contractile dysfunction ?

Traditionally cardiomyopathy is classified as

  • Dilated (DCM)
  • Hypertrophic(HCM)
  • Restrictive (RCM)

But there is large group of pateints who do not show any of the above features and still have global hypokinesia  contractile dysfunction. this group has been largely ignored .It could constitute up to 25%of all cardiomyopathy.there can be some overlap between non dialted cardiomyopathy and RCM.

We report our experience here with

non dilated cardiomyopathy click to download PPT

non dilated cardiomyopathy

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What is the mechanism of renal failure in infective endocarditis ?

Posted in Cardiology - Clinical, tagged on July 8, 2009| Leave a Comment »

Infective endocarditis (IE) continues to be a dreaded  medical problem. The clinical outcome has not improved much , in spite of  availability of powerful antibiotics. Early surgery in eligible patients  could provide the best possible results.

One of the major determinants of morbidity and mortality  in IE  is the renal involvement.

Kidney gets affected in almost all the patients  with IE.  As IE is a  a systemic illness and  immunological activation is  the  norm ,  some degree of renal involvement is universal. Microscopic hematuria confirms this. This is due to clogging and  globulin mediated  damage to glomerular membranes. There is a linear co relation between  the size of the vegetation and degree of renal involvement.

The following  mechanisms are attributed   for  rapid deterioration of renal function in patients with IE .

  1. Renal arterial emboli-occlusion-renal infarct
  2. Immune complex mediated  focal nephritis .
  3. Diffuse ,  rapidly progressive glomerulonephritis
  4. Drug induced renal dysfunction, especially with  aminoglycosides, vancomycin etc
  5. Finally &  most importantly , the underlying cardiac condition, which result in refractory cardiac failure  may either be primarily responsible for the renal compromise or aggravate the situation.
  6. Combination of each of the above can occur

How to manage renal failure and IE ?

This forms a deadly combination.  Aggressive  planning  & implementation  is  required. Cardiologists, cardiothoracic surgeons, nephrologists  should  discuss the strategies  together.  A microbiologist  is also welcome !

  • If it is purely a pre -renal failure due to CHF, there is no major worry.The  patient should  do well with cardiac failure management.
  • The role of CT surgeon is always vital, since 75% of times , IE patients require  valve replacement or vegetation/abscess  removal  in  an  emergency or semi emergency basis.
  • Pre operative and peri-operative dialysis will  improve the results.
  • Renal replacement therapy , combined with valve  replacement may be the ultimate therapy .It  could be the most heroic way to save a patient but carries near death mortality.

If ,  there is strong  evidence  to suggest  immune activation ,there could be a role for steroid administration. Literature  does not address this issue . Long term follow up of renal function is required in these patients .

Final message

Renal failure in IE is common and the underlying mechanisms are often complex.Early intervention is the key as there is  almost  “no  option” for   conservative management in this situation.

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