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Posts Tagged ‘cabg’

What is the most important criteria for doing a PCI in CAD ? The secret 6th criteria !

Posted in Uncategorized, tagged , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , on May 4, 2009| 1 Comment »

pci-ptca-ebm-stent

Scientifically ,  the  indication for coronary revascularisation   should be  based on following

  1. Patient’s  symptom ( more specifically angina , dyspnea is less important !)
  2. Prov0kable  ischemia  ( A significantly positive stress test )
  3. Signifcant LV dysfunction with  documented  viable myocardium &  residual ischemia
  4. A revascularisation eligible coronary anatomy * TVD/Left main/Proximal LAD etc ( *Either 1, 2 or 3 should be  present  in addition )
  5. All emergency PCI during STEMI /High risk NSTEMI

Practically ,

A CAD  patient  may fulfill  “Any of the above 5 or  “None of the above 5” ,  but ,  if   a coronary obstruction  was  revealed  by coronary angiogram  and if he  fulfils The 6th criteria , he becomes  eligible for  revascualrisation

6th criteria

If the patient has  enough monetary   resources (by self  ) or by  an  insurance company  to take care of PCI /CABG *

*The sixth  criteria overrides all other criteria in many of the cath labs .Of course , there are few genuine ones still  fighting hard , to keep the commerce out ,  from contaminating cardiology !

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How does coronary revascularisation improve LV dysfunction in patients with ischemic cardiomyopathy ?

Posted in cardiac drugs, cardiac surgery, Cardiology - Clinical, cardiology- coronary care, Uncategorized, tagged , , , , , , , on April 20, 2009| 2 Comments »

The answer to this question  is not  easy  , as   one  would tend to believe . In fact this question , takes it for granted     revascularisation  will  improve the LV dysfunction in patients  with severe LV dysfunction.

The truth is , we  are not sure   about the mechanisms . How   revasculariastion  will have an effect  on  chronically dying or dead myocardium  ? (Acutely dying myocardium is a different story, where revascualrisation has a profound effect , that is called salvaging the myocardium )

This  issue is  of great clinical significance  in end stage ischemic heart disease  .A typical  myocardial segment in ischemic cardiomyopathy  has millions of  the dead cells  interwoven with dying cells  with  occasional  clusters if live cells scattered all over .Once the process of myocardial apotosis sets in ,  myocardial cell death does not result  in segmental destruction  instead  an universal cell death.(Paracrine signals of  cell death that spills over to adjacent segments  )  The current standards of revascualrisation (PCI and CABG) aims to provide blood flow  in a segmental fashion. Even if the blood flow is restored in an obstructive vessel it is not clear , how it is going to enter the chronically atrophied myocytes.

Meanwhile , many studies are available   suggesting  coronary revascularisation does indeed improve LV dysfunction. These  evidence has never been  conclusive .Real world experience would also  confirm this  simple fact , that   angina relief is definite following revascularisation but not dyspnea  relief  in patients  with LV dysfunction .

So ,  when seeking the  guidelines  for revascularisation  ( PCI or CABG )  in patients  with CAD one need to ask  this  specific  question

Does the patient has

A.Angina alone

B.Angina and dyspnea

C.Only  dyspnea

If the answer is C ,  assess the patient again , rule out systemic causes of dyspnea (Anemia, renal function etc)  rethink  or postpone  revascularisation.If primary  or secondary LV muscle dysfunction has set in revascularisation has little value.

Also read

Viable myocardium

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A STICH in time do not save nine !

Posted in cardiac surgery, Cardiology - Clinical, Cardiology -Interventional -PCI, tagged , , , , , , on March 31, 2009| Leave a Comment »

CABG is the most common cardiovascular surgery  done world wide .

When the ventricle is dilated it is a common practice to do a ventricular  reduction surgery.

It was a logical to expect benefit when we correct the adverse remodelling of heart  that aoccur following an MI.

The STICH trial compared  plain CABG with ventricular  reconstruction and reduction .

Unfortunately , in medicine , the logics often fail  as this study  found no  mortality advantage .

Click here to read the land mark article from NEJM

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Can coronary collaterals provide more blood flow than a CABG ?

Posted in Uncategorized, tagged , , , , , , , , , , , , on March 29, 2009| Leave a Comment »

Coronary collateral circulation is the most poorly understood, and often neglected concept among the cardiology community.There is a general perception , in obstructive CAD ,  coronary collaterals are an inferior modality of  back up blood supply than artificial collateral (Also called CABG ) ! One of the reasons,  it is   been ridiculed by many  mainstream cardiologists is   because  , it comes by nature , and also free of cost !

The often quoted statement* ,collateral blood flow can not sustain blood flow during exercise ,  is not based on solid scientific data. In the real world , there are thousands of patients actively pursuing life with chronic total occlusion and good collaterals.

It is surprising , there is no  physiologically valid ,  controlled study available to compare CABG with natural collaterals

*When repeatedly told , a  statement becomes a fact !

It can be assumed (Unscientifically ofcourse ! )   the  remarkable  success  of medical therapy  in COURAGE  and the OAT * study  can be attributable to the naturally occurring coronary collateral circulation.

* Summary of COURAGE & OAT : A   block  in the coronary artery  need not be opened  to prolong human survival !

You draw your own conclusions from the  following case study

A 40 year old women , with stable angina and good physical activity

Her angiogram shows.

coronary-collateral-2

RCA injection

coronary-collateral

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Can hand steal blood from the heart ?

Posted in cardiac surgery, Cardiology - Clinical, tagged , , , , on March 27, 2009| Leave a Comment »

  • CAD is the major cardiovascular disease of our population.
  • CABG is the most common cardiac surgery done world over.
  • LIMA to LAD graft is the most common by pass done.

The purpose is to short circuit some of the blood meant for the hand to the heart.

But ,  is it always a helping hand ?

May not be . . . at times  of crises  the  hand  sucks  blood  from the heart .This is called coronary-subclavia steal phenomenon

Is it not dangerous ?

How to anticipate or prevent this complication in patients who are posted for CABG-LIMA graft ?

Click on the link for the reveiw article from Annlas of  thoracic   surgery

lima

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Why synthetic grafts for CABG is not popular ?

Posted in Uncategorized, tagged , , on March 15, 2009| Leave a Comment »

CABG is the most common cardiac surgery done world wide. Traditionally saphenous vein graft and LIMA are used .Now radial artery is being used often. The life of venous grafts is short, so total arterial graft is preferred.The issue here is lack of good arteries for grafting especially when a second CABG is required  .

So what  are the options ?

  • Cardiac surgeons often use synthetic conduits for many of the congenital heart diseses.
  • But some how this has never been thought as an option for CABG.
  • This may be due to small nature of the vessels, but now there has been some developments on this .
  • In future sunthetic grafts might replace the conventional grafts.

 

Chronoflex, is one such graft under trial  and is engineered to be pulsatile, biostable, torque-resistant and suturable. Once implanted, the graft is able to incorporate the patient’s own cells and tissue, so that the inner surface mimics the normal environment for blood contact. The material is also flexible, so that the graft can pulsatile like a  vein as it carries blood to the heart.

www.cardiotech-inc.com

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What is the hemodynamic impact on the left main blood flow when LIMA is grafted to LAD ?

Posted in cardiac surgery, Cardiology -Interventional -PCI, cardiology -Therapeutics, tagged , , , on March 15, 2009| Leave a Comment »

CABG is tretment of choice for left main and  complex proximal LAD  lesions. So most patients get CABG in these situations.

The hemodynamic effects of LIMA graft on native left coronary artery can be tremendous and some times deterimental.

  • One of the consistent observation has been , the moment LIMA is bypasssed into distal LAD the antegrade flow through left main is reduced .This is still more significant if circumflex is also grafted .
  • For inital few weeks there is competition between LIMA flow and LAD flow and invariably LIMA wins  , and native leftmain or LAD  flow regresses and many times  closes totally.
  • Some studies have observed accelerated left main and LAD atherosclerosis.
  • The native LAD and leftmain could be a source for thrombi and atheromatous debri and these migrate distally and have potential to block the LIMA entry point  into LAD
  • The advantage of having a patent native left main and LAD  is that if the LIMA  graft occludes later on native circulation may assist.

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Common myths in cardiology : Presence of viable myocardium does not mean it demands a revascularisation

Posted in cardiac surgery, Cardiology - Clinical, Cardiology -Interventional -PCI, cardiology- coronary care, Cardiology-Coronary artery disese, Infrequently asked questions in cardiology (iFAQs), tagged , , , , , , , , , , , , , , on March 15, 2009| Leave a Comment »

Post myocardial infarction revascularistation either by PCI or CABG forms the bulk of the coronary interventions world wide.There has been considerable controversy in selecting the patients for the procedure.

Certain basic rules are to be applied.

  • Never do any thing on a totally asymptomatic and fully functional patient.(Functional , means good exercise capacity of atleast( 10Mets).Just medical treatment with good doses of statins, beta blockers will do.
  • If a patient has persistent angina  following MI  ,the issue is relatively simple as  they are  candidates  for CAG  and intervention .
  • The issue becomes little complex when the primary complaint is breathlessness and echo showing  LV dysfunction.

This dilemma is due to a  simple fact

coronary revascularisation has a  great impact in relieving angina but has  less impact in reversing

left ventricular  dysfunction

So,  how do you approach a patient with LV dysfunction and exertional  breathlessness and absolutely no chest pain ?

  1. Do a  CAG
  2. Assess the lesions if any (Some times,  to our surprise there may not be any critical lesions at all ! )
  3. If there is / there are critical lesions try to corroborate with infarct segments.(Use Echo for this correlation)
  4. Don’t bother much,  if a  vessel has a lesion  that is supplying a scarred myocardium.
  5. If there is gross LV dilatation, mitral regurgitation and LV clot refer these pateints  may benefit  from surgical management

One of the rules written by the cardiology community over the past few decades has been

We must document viable myocardium before doing a revascularisation procedures on them.

This rule was self imposed ,  to prevent inappropriate revascularisation in  post MI population.

So , a  gamut of investigations (Both invasive and non invasive came into vogue) to identify viable myocardium in post MI population. Stress echo, Thallium-sesta MIBI, PET  to name a few .

Even after liberal usage of these invesitgations , we realised ,  the confusion in the  optimal selection of candidates for revascularisation has not settled.

In fact,  the correlation between viabilty and subsequent interventional benefit is  inconsistent .Not withstanding this  issue  ,cardiologists inspite of the negative results of OAT and TOAT trials ,  started  opening or by passing any occluded vessel irrespective of viability status.

Unanswered  &  Unasked questions in myocardial revascularisation ?

1.Why viable myocardium is viable even in the adverse compromised vascular  environment ?

It  is viable for the simple reason it has some capacity to be alive . By it’s inherent survival capacity (Survival of the fittest ) or it somehow gets the nutrients by cell to cell perfusion.

2. It is viable allright  ,  why it is not contracting ?

Because ,  it is biochemically and metabolically alive (Can be documented by FDG PET scan mismatch ) but it can not synthesise adequate ATPs to make the muscle contractile.

3.”Viable myocardium is viable ” what more you want from it   ?

Simple viability is not suffice . How to make it mechanically active and contractile ?

4.Is viable  myocardium    synonymous with ischemic myocardium ?.

No,  it is not (Contrary to the popular perception ) .

5. Is it not  common to find dysfunctional segments with good TIMI 3 flow ?. So what is the purpose to document viability ?

It is not suffice to simply document viable myocardium but it is an absolute necessity to prove this viable segment is also  critically ischemic .

7.If angina is  a sign of viabilty why most of viable myocardium is painless ?

This again confirms the fact , much of the viable myocardium in the post MI phase is not ischemic but” still dysfunctional” waiting for healing time. This concept  was  introduced with great fanfare* as  stunned myocardium ,  20 years ago , which was subsequently rejected my mainstream cardiologists , as this concept tend to  restrict the  freedom of interventionists. * Even though ,the concept was genuine and proven scientifically !

6.Are we  certain , the  viable ,  non contractile myocardium  (Which we painstakingly document )  will get back the contractility once the  segment is    revascularised?

Absolutely not. (With lot of PET study doumentation )  This,  we can not guarantee even in ischemic, viable segments  ,  while in the  non ischemic, viable segment it is all the more unlikely.

7. What are the chances of these viable but  non contractile myocardium  regain the contractility  by natural course ?
Very significant chances .In fact every patient recover some LV  function spontaneously over time .

Final message.

  • Revascularisation is non controversial in patients with angina
  • In patients with  primary symptoms of dyspnea  ,  it is less effective and documentation of myocardial viabilty per se will not guarantee successful outcome following revascularisation.Out come depends on  multiple factors .

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Some thoughts about left main disease : Why CABG will always prevail over PCI in left main disease ?

Posted in cardiac surgery, Cardiology - Clinical, Cardiology -Interventional -PCI, cardiology -Therapeutics, Uncategorized, tagged , , , , , , , , , , , , , , on March 6, 2009| Leave a Comment »

Why PCI  in   left main CAD is considered  an inferior modality than CABG ?

CABG is superior to PCI for the  simple reason it provides complete revascularisation virtually in all  patients with LMCAD , while PCI is possible only in a fraction of patients with LMCAD.

If  we take 100 patients  with left main  disease may be ten (At best !)   would be  suitable for PCI ! In other words PCI is contraindicated in vast majority of LMCAD  by technical criteria alone , while there can never be a contraindication for CABG in patients with LMCAD.(Except  when , comorbidity precludes surgery )

Why  PCI in  LMCAD difficult ?

It is  dependent on  technicalities

CABG does not tackle a lesion,  it simply avoids it  and by passes it ” No great brains required”

while PCI takes on the plaque frontally ,  in the dangerous  terrain of  left main artery  itself !

so,  much caution,  planing ,  logistics are required . Further ,  if there is a complication there is a potential

for catastrophe  as the only  supply line is cut off . This is the reason , cardiologists were worried to try this on

unprotected left main. (Protected LMCAD refers to left main disease following CABG  wherein atleast   LAD or LCX is  grafted )

Points to ponder in LMCAD

  • PCI is suited for isolated discrete LM disease.In realty  this is seen in less  than 5-8 % CAD.
  • LMCAD is very often associated  with  critical and multivessel distal CAD . So these patients will be candidates for CABG.
  • Left main ostium or LAD ostial  involvement makes PCI a tougher exercise
  • Calcification is more common in LMCAD that  again makes PCI difficult.

The following article in Feb 2009 is a major blow for proponents of  PCI for left main

http://circ.ahajournals.org/cgi/content/extract/119/7/1013

left-main

http://content.onlinejacc.org/cgi/content/abstract/51/5/538?ijkey=84c977d189e84327c3abbd4c1228de17dd99048a&keytype2=tf_ipsecsha

Final message

  • Conquering left main disease is an interventionist’s  ultimate dream.
  • But, before that they have  to tackle the bifurcation lesions .This is of vital importance, because 2/3 rd of left main  patients have  some form of bifurcation lesions. Current techniques , hardware  and outcomes are far below the idealistic solutions in bifurcation lesions.
  • Till that time ,  CABG would  remain the only choice for all , but for  a small fraction of isolated  left main disease where PCI may be possible.

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Why is LIMA graft superior to saphenous venous graft in CABG ?

Posted in cardiac surgery, Infrequently asked questions in cardiology (iFAQs), tagged , , , , , , , , , , , , , , , , , , , , , , , on November 6, 2008| Leave a Comment »

          During CABG arterial grafts are always preferred over venous grafts , for the simple reason the grafted vessel has to carry arterial blood and not the venous blood. Saphenous veins are tuned to carry venous blood at low pressure.The mean coronary arterial pressure is around 40mmhg and this will damage the saphenous venous endothelium more quickly. The reocculsion rate at 10 years for venous grafts  can reach  60%.


                                                    Left internal mammary artery (LIMA) is the most commonly used arterial graft. This is usually anastamosed with LAD. The lumen of LAD &  LIMA are more or less equal and they match well in character also !

The other advantage  of  LIMA graft  is ,   blood    tends to  flow  both during systole and diastole in a smooth fashion.. Since the venous graft which  hangs from the root of aorta , the  ostium  of venous graft lacks the  hemodynamic benefits of   coronary sinus . (We know the coroanry sinus acts like a  reservoir for  the smooth release of  blood flow into coronary arteries.)

Finally ,  the most important feature of LIMA is

  It is a live graft

LIMA’s proximal origin from subclavian is left intact, so LIMA acts as a live vessel with it’s  vasa vasorum intact ,  which means the endothlium derived relaxing factor (EDRF-Nitric oxide) secretion is not interrupted.This makes the LIMA  an excellent graft , self protected against reocclusion.One may call it a drug eluting graft !

 What is the patency rate for LIMA ?

LIMA patency rates at 10 years is nearly 90 %  .But the graft patency depends on many factors , like diabetes, age, gender, surgical technique ,(Now , beating heart CABG is very popular , where the LIMA patency is said to be slightly lower than conventional CABG) Sequential LIMA grafts, free LIMA graft ( Which  loses the advantage of being  a live graft) have relatively lower patency rates.

What are the other arteries used in CABG ?

Other arteries that could be used are radial artery, right internal mammary artery, and gastro epiploic artery.The patency rates of all these arteries far less than LIMA .

cabg-2

A surgeon testing LIMA flow before Anastomosing it to LAD.

Image courtesy Dr.Mannoj Aggny .You tube

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