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How to tunnel your way into the CTO and create your own coronary artery !

August 27, 2009 by dr s venkatesan

Opening the chronically occluded coronary(CTO)  artery  gives the ultimate sense of  achievement and satisfaction for the cardiologist.  Of course , the patient may  or may not share the same feeling  . . . ! There are simple  and  complex CTOs . Some CTOs are opened in few minutes ,  some fail even after  hours of manipulation . For successful CTO opening  both  hardware and technique  are equally important.

Now we understand , acquiring expertise   with one or two guidewires  and mastering  them  is the key to success. Frequent changing of guidewires and other hardware  has increased the complication.

Definition of success in CTO

Unfortunately cardiologists  have varied perception on this vital issue . Most believe opening a CTO is synonymous with success . Some perceive  even crossing a  CTO with a guidewire is  a partial  success ! Real success lies in providing  sustained  opening  and restoring flow till  the  micro circulatory level. Advancing the distal blood flow for a short distance at a low velocity   can not be termed a success . It must be ensured  all  the  branches of    opened coronary artery must be perfused . This is a tricky issue as we can only  guess the number  of branches it had , before getting occluded.

The other most important  factor in determining the success of CTO  opening is the status of distal microcirculation . A dead myocardium does not welcome  the blood flow ! .It simply rejects it and this results in lower grades of TIMI flow. This factor is  mainly responsible for the negative clinical  outcome of   major PCI trials( TOAT, COURAGE)

The newer devices are helping us to  achieve our goal .

  • Retrograde approach through collaterals
  • Sub initmal tracking of CTOs
  • Japanese have pioneered the CTO interventions

http://www.abbottvascular.com/av_dotcom/url/content/en_US/10.10.270.10:10/general_content/Abtdiv_General_Content_0000182.htm

asahi tornus coroanry cto catheter chronic total occlusion

http://www.flowcardia.com/index1.html

CTO PTCA PCI CAG dr venkatesan coronary angiogram

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Why ECG is greatly influenced by serum potasium levels and least affected by serum sodium levels?

August 26, 2009 by dr s venkatesan

ECG is the summated  recording  of individual  myocyte electrical activity from the body surface .The single cell action potential  represent the classical description of ionic  flows within and outside the cardiac myocyte. ECG is nothing but the electrical recording of systematic flow of ionic currents. When one looks at qrs complex  we should  mentally see the  Na ions getting in  .When  the ST/QT segment begins the calcium  enters ( Some chloride also )  and K + begins to leave cells .As we look at the sharp or blunted  T waves we are actually looking at potassium channel activity.

action potential ecg phase 0 sodium potasium depolaristion repolarisation

The phase 0 is  the rapid inflow of sodium ions into the cell. Contrary to this  , during the repolarisation of myocytes  the   efflux of potassium from the cells occur more slowly .This  , along with slow calcium influx create   the sustained dome of action potential .The phase 3  begins with a rapid efflux of k+   which corresponds to inscription of T waves.Phase 4 occurs in diastolic depolariation .

Note : *Na exit from cells occur very fast  ( Which is not mentioned in the diagram  .This again is an  important event  . Pharmacologically Na channel manipulation  is  often  done .All class 1 anti arrhythmic drugs block  this channel.

It’s obvious  , T wave genesis is greatly influensed by k+ dynamics.A tall t wave indicate high intracellular concentration of k and efflux of K + further slowed down as reduced gradient acrosss the cell membrane.This results in tall t waves.There is  a fairly  good correlation between K+ levels and T wave amplitude.Similarly when there is hypokalemia , there is inversion of T waves with associated  with prolongation of QT interval.

While  T waves are linked to  K +  , the QRS complex is closely linked to Na + concentration , but still sodium levels rarely alter the QRS complex why ?

Hyponatremia is a common electrolytic disorder , especially in elderly and in patients who are over treated with diuretics. Dilutional hyponatremia due to excess free water is a common finding in CHF.While ECG is very helpful  to diagnose hyperkalemia , it is rarely useful in hypo or hypernatremia.

This is  primarily due to two reasons .The Na induced depolarisation is a very fast event  ( Max 80ms) . K+ efflux is a slow event  up to 400 ms . Unlike K +  , Na+  can not prolong the QT interval however low it’s levels are . This is due to the fact Sodium channels have a huge gradient across  the cell even if the serum sodium levels fall. Further,   Na is an extra cellular cation and has little influence  within the myocyte. But , occasionally wide qrs complex or aberrant  conduction , bundle branch defects are observed due to hypo or hypernatremia .The exact mechanism is not known.

Conduction defects and electrolytes

Similarly K+  ions have major effects on SA node and AV node .It can depress them , though reversibly it can have serious consequences. It is very rare for Na+ to have any major effect on conduction tissues. Multiple electrolytic defects with associated acidosis can have variable effect on ECG morphology .Abnormal  calcium and magnesium levels   can have serious effects of cardiac excitabillty.

Note : *Na exit from cells occur very fast   ( Which is not mentioned in the diagram ) .This again is an  important event  . Pharmocologically Na channel manipulation is done with all class 1 anti arrhythmic drugs act on this channel.

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Why UA/NSTEMI often occurs without wall motion defect ?

August 25, 2009 by dr s venkatesan

Regional wall motion defect is the sine qua non of STEMI. Whenever there is sudden occlusion of a coronary artery , the segment  it supplies is expected to go in for mechanical dysfunction. This is the fundamental principle of ischemic cascade . But , in NSTEMI ,wall motion defects are not a consistent feature. In fact absence of WMA is much more common than it’s  presence.The concept of ischemic cascade tells us  that chest pain is the last  thing to occur in the series of events following ischemia.

But in reality it seems the myocardium rarely obeys  this rule

ischemic cascade angina ecg wall motion defect nstemi

The incidence of WMA in unstable angina or NSTEMI could be  at best 25 % . How and why the majority  do not manifest it ?

  1. The ischemia has to be extensive to produce WMA.
  2. Presence  of even minimal  collateral circulation  could prevent WMA.
  3. Sub epicardial or transmural  ischemia are more likely to result in WMA. Isolated subendocardial ischemia could not manifest the WMA as the epicardial band of non ischemic  contractile  myocardial tissue has a  piggyback effect on the ischemic segment and  hence WMA do not manifest.
  4. Presence of LVH has an attenuating effect on the WMA.It is  a well realised fact ( Of course ,with very little published evidence !) LVH is a great protector of mechanical dysfunction during ACS.It can even  nullify the  mechanical effects of   STEMI sometimes  . Read my blog advantages of LVH .
  5. Some  myocardial segments  which are less exposed to wall stress than others do not manifest WMA. For example, the myocardial segments supplied by the LCX territory are notorious for  being totally silent .
  6. WMA equivalents. Some times,  the WMA defect is  very subtle for the eyes , but still good enough to result in  ischemic MR.
  7. Electrocardiographically  T wave ischemias rarely produce WMA ,  while  resting ST segment depression > 2mm invariably result in WMA.
  8. Some  would  suggest ( Especially the researchers !) WMA  is always there  concealed within as   we are unable to pick it up with  available imaging modalities.Trans thoracic echo has well known   limitations. If we do tissue doppler studies.(TDI) and myocardial strain rate it may show the WMA which is otherwise missed.

*Finally and most importantly  , it need to be emphazised even  few ischemic myocytes can trigger a clinical chest pain while it requires the collective efforts  few million ischemic myocytes  to apply the  “vice like   grip ” on the  myocardial contractility that result in WMA.

Just think about this

The concept of pharmocological stress testing like doutamine stress echo  , relies hugely on the phenomenon of ischemia induced wall motion defect , which is picked up by echocardiography.As we  recognise ,  even  in   real life , true  ACS the incidence of WMA  is very less  , how can ,  it be  logical to expect  pharmocological stressors to give us authentic  information regarding hidden  subclincal CAD.

Posted in Uncategorized | 3 Comments »

Unusual seminars in cardiology :Ten simple ways to waste cardiology resources !

August 19, 2009 by dr s venkatesan

  1. Do 64slice MDCT  in all patients who has  a coronary event and follow it up with catheter based CAG.
  2. Use liberally the new biochemical marker ,  serum  B-naturetic peptide (BNP) to diagnose cardiac failure in lieu of basal auscultation.
  3. Advice  cardiac resynchronisation therapy in all patients  who are in class 4 cardiac failure with a wide qrs complex .
  4. As it is may be considered a  crime to administer empirical  heparin, do ventilation perfusion scan in all cases with suspected pulmonary embolism.
  5. Do serial CPK MB and troponin levels in all patients with well  established  STEMI .
  6. Open up all occluded coronary arteries irrespective  of symptoms and muscle viability.
  7. Consider  ablation of pulmonary veins as an  initial strategy in  patients with recurrent idiopathic AF. If it is not feasible  atleast occlude their left atrial appendage with watch man  device.
  8. Never tell  your patients   the  truths  about the  diet , exercise &  lifestyle modification (That can  cure most of the early hypertension) . Instead encourage the  use of  newest ARBs  or even  try direct renin antoagonists   to treat all those patients in  stage 1 hypertension.
  9. Avoid regular heparin in acute coronary syndromes   as  it  is a disgrace to use it  in today’s world. Replace all prescription of heparin with  enoxaparine  or  still better ,  fondaparinux  whenever  possible.
  10. Finally never discharge  a  heftily  insured patient   until  he completes all the  cardiology investigations  that are available in your hospital  .

Coming soon :  10 more ways to  increase cost of cardiology care . . .beyond common man’s reach

Posted in Cardiology -unresolved questions, Cardiology hypertension, cardiology- coronary care, Cardiology-Arrhythmias, Cardiology-Coronary artery disese, Uncategorized | Tagged , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , | Leave a Comment »

What are the reversible forms of dilated cardiomyopathy ?

August 19, 2009 by dr s venkatesan

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.

Posted in cardiac failure, cardiology -Therapeutics, Cardiology -unresolved questions, myocardial disease | Tagged , , , , , | 2 Comments »

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

August 17, 2009 by dr s venkatesan

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


Posted in Cardiology - Clinical, Cardiology -Interventional -PCI, cardiology -Therapeutics, Uncategorized | Tagged , , | Leave a Comment »

What is the real impact of statins on HDL levels ?

August 16, 2009 by dr s venkatesan

10.14prescriptionRXStatins are projected to be  the saviours of human race against the  killer atherosclerosis .Now we have reached a stage  soon ,  where every healthy individual may be administered this drug. There are consistent evidence for statins to reduce , retard , prevent progression of existing atheroscelorosis  and possibly prevent future atherosclerosis.

This  wonder drug acts by blocking the HMG COA enzyme a vital  enzyme that regulates the lipid metabolism within the cells. It is made to appear  as if ,  the  God has  created this enzyme  with the only purpose for human suffering , by blocking this   we  expect  all errors in lipid  metabolism is corrected.

This enzyme is  part of the house keeping  system  that is meant to service the human cellular lipid layers 24hrs a day. If it  is impaired intentionally one can imagine the consequences. That’s what modern science is all about. Luckily God is kind enough the side effects of  blocking this enzyme is seen only in minority. The myopathies that are classically described with statins are due to possible mitochondrial dysfunction .

As the debate still  continues to find the   optimal bottom levels  of LDL  , we have more worries ,  real world experiences have brought us a new issue  namely  the  reduction of HDL with statins. While literature search on statins and HDL  tell  us there is marginal increase in HDL up to 10% the fact is there is marginal fall or significant  fall in many of the patients .

How can this happen ? A  huge difference between real world and trial world ?

statins hdl ldl

* Brands shown  not intentional

Readers are welcome to add their input on this question .

Reference

Visit HDL forum

http://www.hdlforum.org/

Posted in cardiology -Therapeutics, Cardiology -unresolved questions | Tagged , , , , , , , , | 1 Comment »

Silent heroes in cardiology : Atropine

August 15, 2009 by dr s venkatesan

atropine leafsAtropine ,  the extract from the  Belladona  plant  is an important cardiovascular  drug. It’s  presence is vital  in every crash carts .  This  unassuming molecule  probably has   saved more cardiac lifes than any other drug . It provides immediate  remedy for many of the bradycardias .It  works like a magic.  The physician buys  time with this molecule  and  proceed  on to resuscitate or  plan other interventional  procedures. It is most powerful antiarrhytmic agent known .It is an irony , many of  the standard cardiac texts do not even mention this while discussing anti arrhythmic agents .

In  this  era of  hyped  cardiac  care   , the  sartans ,  2b3a inhitors   , the fondaparinux’s  making merry !  we  have no spare time  to realise  ,   more  cardiac  deaths  have been prevented by atropine  than  all these   drugs    put together.  It is still working like a bull  across the coronary care units and cath lab world over. While  many mediocre  drugs  enjoy a  big  bash  time for  possibly  saving   few occasional  lives   , the atropine  like drugs never get the due recognition among cardiac literature for the simple reason ,  it being a  cheap  generic drug.This drug is available  for few  rupees , no marketing no advertisements, no celebrations.

Mechanism of action

The  biochemical  mediator :  Acetyl choline

Site of action :     It blocks the M2 (Muscaranic receptors) .

We will confine to the cardiovascular  actions.

  • SA nodal acceleration
  • AV nodal accelerated conduction

Effect on ECG

Sinus tachycardia

Short PR interval

Life saving situations in cath labs  in CCU.

Vagus  nerve richly innervate the heart and blood vessels . Acute coronary syndromes   especially involving the infero posterior territory  raises the vagal tone  , and can  in severe bradycardia and hypotension.  In cath labs , as we  manipulate  cardiac  structures with wires and  catheters  there is always  a potential to elicit the vascular reflex .It can occur  any where between the  access point , femoral or radial  artery to coronary arteries .

Further ,  whenever the  pain  intensity is more , the  central pain integrating  centre in  brain stem  and thalamus has a spill over effect into the vagal nucleus .

What happens if a vaso vagal reaction is left untreated ?

We have often  made  the term “vaso vagal  reaction” appear as an  innocuous  entity. The main reason for this perception is   due to the common occurrence of  “vaso vagal  syncopewhich  is largely a benign entity in the general population .This fact  has sensitised our brains . One should distinctly realise the vaso vagal syncope that occurs in  healthy people standing  in erect posture ,  from  vagal reactions that  occurs in  lying patient with a diseased heart  in a  cath  lab  or CCU.In the classical vaso vagal syncope , assuming the recumbent posture is the treatment and it  counters the hemodyanmic imbalance .No drug is required here. So the common vagal syncope can never be compared with potentially dangerous  vagal reflex that occur in CCUs and cath labs. If not recognised earlier and  immediately countered  it can lead on to asystole and death .Many of  the delayed deaths post PCI during sheath removal or an episode of vomiting are directly related to this.

atropine

Atropine is the Savior here . Can you imagine a  world without atropine .

The other reason we had always considered vaso vagal   reactions lightly is that the poor atropine is always available  in the side selfs and it acts   rapidly  and promptly with almost  100 % success  reversing the vagal action  in less than  60 seconds .

How often we here  this  “Oh it’s a brady . . . push  2cc atropine . . .  given sir, the rate has picked up . . .”

If only atropine has a failure rate of say  50%    we  would have  realised the full impact of   vaso vagal shocks (See … how we struggle with No reflow   with no effective drug available !)

Is there any other alternative  treatment  for vaso vagal shock other  than atropine ?

No.   (I guess so . . .Readers may correct me )

Other uses of atropine in cardiac practice

  • During stress testing along with dobutamine  to  increase the heart rate.
  • It can be used to differentiate AV blocks the two types of 2nd degree AV block. The mobitz type 2 worsens while type one accelerates.

Non cardiac uses.

Ophthalmology, pre anesthetic medication, bronchial asthma, various poisoning.

What is the future for this molecule ?

Remain bright .  But only very  few companies make this molecule.  It is a drug that can not  fill the cash boxes but  it is a drug to keep the human heart running at times of crises  . The only  threat to this drug  is  the  possibility of it being replaced with a  modified patented  version of this great  molecule  !

Final message

The evolution of medicine is based on strong foundations  put upon by clinical acumen   by great medical men of  past generation. Atropine was developed by such people   and it has withstood the test of time. This drug  probably  has saved ( and  continue to  save)  many  lives  than any  other drug  in cardiology . It should be recalled ,  another great cardiac drug   called digoxin  has almost succumbed to modern medical  forces  .Let us  keep developing   new molecules  ,  we shall also pay  tributes  to some of   the  unassuming drugs in cardiology .

Posted in Cardiology -Interventional -PCI, cardiology -Therapeutics, Uncategorized | Tagged , , , , , , , , , | 2 Comments »

What is the mechanism of complete AV block in inferior MI ?

August 13, 2009 by dr s venkatesan

Conduction disturbance is a fairly common occurrence following  MI. Inferior STEMI is especially prone for AV blocks. This is because  the  blood supply to AV nodal  tissues and the inferoposterior surface of the heart  share the same arterial territory . AV node gets it supply  90% of time by right coronary artery(RCA )  and 10% by  LCX. Very rarely from both .

The common bradyarrhytmias that we encounter in inferior MI are

Sinus bradycardia

Sinus pauses ,SA blocks

AV blocks

Functional

Vagotonic

Organic

Ischemic

Necrotic

ECG types

1  degree AV block

2 degree  AV block – Type 1 Wenke bach

Complete heart blcok

Mechanisms

The inferior aspect of the heart has rich innervation of vagal nerve terminals (While the  sympathetic adrenergic system is concentrated in the anterior surface) . The moment infero posterior MI occur it stimualtes the vagus and a prompt bradycardic response occur .Many times the classical hypotension /bradycardia reaction is simply a reflection of heightened vagal tone.

Consequence of vagal tone on SA nodal and AV nodal conduction

As expected, vagal stimulation can result in a spectrum of arrhythmias from the  simple bradycardia to complete SA block  to  AV block. Extreme bradycardia , may release the junctional pace maker and result in junctional rhythm with a rate of around 40-50. There can be a functional AV dissociation between SA node and AV node. Careful ECG analysis is required here ,  as it can mimic organic AV block.The simple way to differentiate between organic AV block from simple AV dissociation is to look at the p waves.In AV dissociation both atrial rate and ventricular rate are nearly equal or VR  is slightly more than AR .In CHB atrial rate  exceeds ventricular  rate.

SA and AV block occur due to various mechanisms in inferior  MI

  • High vagal tone
  • Ischemia of SA/AV node
  • Necrosis of AV node
  • Drug effects -Like morphine
  • Reperfusion bradycardia*

Ischemic AV nodal arrhythmias are  some times very difficult to differentiate from vagotonia especially if occur within 24h.

Irreversible AV nodal block due to necrosis is rare.But if occur , usually  associated with extensive inferior mI/RVMI/ .AV block  that  persist beyond 48-72hours should raise the suspicion of damage to AV node.( As vagal tone is very unlikely;y to last beyond 48h)

* Some time a an episode of sudden severe  bradycardia  can be manifestation of RCA reperfusion.Flushing of SA nodal or AV nodal branch of RCA might trigger this. This has a potential  to  bring the heart to asystole.The resultant extreme bradycardia often triggers VT/VF .The reported high incidence of primary VF in infero posterior MI is attributed to this sudden RCA perfusion.

Medical management for CHB

Brady arrhythmia’s due to high vagal tone are generally benign .No specific intervention is required.Atropine will be suffice in most situations.Some times isoprenaline may be required. Aminophyline , now Ivabradine may have a role. Atropine not only corrects the HR it raises the BP also as  it counters  both cardioinhibitory and  vasodepressive  limbs of vagal stimulus mediated by  acetyl choline .

Pacing for Bradycardias in inferior MI.

  • Generally not necessary for sinus bradycardia.
  • Few with CHB require it
  • Persistent hypotension and RVMI  needs it often.(Dual chamber temporary pacing preferred as AV synchrony is vital here.)

Weaning of temporary pacing in inferior MI.

This could be a tricky issue. It can be weaned off in less than a week.A practical way is to use temporary pacing  only in back up mode at a heart rate of few beats less than the patients rhythm.Pacing for long hours  at high rates may delay the resumption of patients own rhythm and may result in false diagnosis of irreversible CHB and a subsequent PPM

How many will require permanent pacing following infero posterior MI ?

Only a fraction of patients with CHB require long term pacing . There are some centres tend to overuse PPM in this situation. Wait and watch policy may be the best.A unnecessary lead  within a  infarcted ventricle  has a potential to create problems .There have been  occasions a stable RV MI has been destabilised due to RV pacing lead triggered recurrent VF.

Tachycardias in inferior MI

It is relatively uncommon.Atrial involvement is more common with infero posterior MI and hence a greater incidence of atrial fibrillation .

RV MI can induce ventricular tachycardia arising  from the RV myocardium

Posted in cardiac drugs, cardiac surgery, cardiology -ECG, Cardiology -Interventional -PCI, cardiology- coronary care | Tagged , , , , , , , , , , , , , , , , , , , , , , | 1 Comment »

What do we mean by circulatory failure or shock ?

August 12, 2009 by dr s venkatesan

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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