A little evidence

[clay_from_nj]

A little evidence behind something we've always been told: Mechanical Valves Beat Bioprostheses in Younger Patients.

Commenting on the study at the STS meeting, Dr Tomislav Mihaljevic (Cleveland Clinic, OH) pointed out that some previous studies have shown that mechanical-valve patients have better survival odds than bioprosthetic recipients because the bioprosthetic valves required more reoperations. But those reoperations tended to be close to 10 years after the implant, while in this study, the survival curves appeared to diverge early and the freedom from operation was similar between the two groups. That suggests that the hemodynamic performance of the bioprosthesis was not the main reason for the difference in the survival, Mihaljevic suggested. "I wonder if there could be some patient-related factors that contributed to the early, but substantial, increased mortality in patients who received a bioprosthesis."

 

[epstns]

It could also be that the patients who received bioprosthetic valves, on the average, were older and had more comorbidities. We have also been told that the immune systems of younger patients are more active and more likely to attack the tissue of the bioprostheses.

Also, I wonder why a doc from CCF would speak so (apparently) stongly in favor of mech valves when CCF has been moving toward tissue valves for younger and younger patients over the past years.

 

[clay_from_nj]

It could also be that the patients who received bioprosthetic valves, on the average, were older and had more comorbidities.

They controlled for that by only including patients under 60, which they refer to as "very young."

An interesting aside to consider for those who are hoping for a future TAVR:

"We're talking about very young patients here. This new 'valve-in-valve valve' isn't going to last for good, so we would be facing, in these patients, two or three or four more reoperations. That's not a solution."

I would add to that that the TAVR is a mechanical valve and would require anticoagulation therapy, now at an advanced age and when the real danger of stroke and bleeding events really matters.

 

[Duffey]

I can't access the link. Any chance you could copy and paste so we could read the entire article?

 

[Duffey]

I found the study and have copied what I found. It looks like both groups were 99% free from re-ops.

February 4, 2011 (San Diego, California) — Younger aortic-valve-replacement recipients are more likely to survive another 10 years with a mechanical valve than a bioprosthesis, data from a small series in Switzerland suggest.

"More and more patients come to surgery already knowing and telling us what valve they want. Because of the quality of life, most of them prefer the bioprosthesis, because they don't want to take anticoagulation drugs," Dr Alberto Weber (University of Bern, Switzerland) told heartwire . "But we weren't sure we were doing it right. So we needed to look into our data."

Weber and colleagues tracked overall survival, valve-related adverse events, and left ventricular regression in 101 consecutive patients under the age of 60 who received a biological aortic-valve replacement (Carpentier-Edwards pericardial valve, Edwards Lifesciences). Their results were compared with a propensity-matched group of 91 patients who received a mechanical aortic valve (ATS, St Jude). Total follow-up was 1420 patient-years, an average of 20.7 months. Weber presented the results of the study at the Society of Thoracic Surgeons (STS) 2011 Annual Meeting.

The 10-year survival rate was significantly lower in the patients with the bioprosthetic valve than those with the mechanical valve (89.1% vs 96.7%, p<0.05). Freedom from all valve-related complications was statistically similar, 54.5% for the bioprosthesis group and 52.6% for the mechanical-valve group. Freedom from reoperations was 99% in both groups.

The average aortic mean pressure gradient was higher in the bioprosthetic valve group (11.2 mm Hg vs 10.5 mm Hg, p=0.05), as was the peak pressure gradient (19.9 mm Hg vs 16.7 mm Hg, p=0.03). Regression of the left ventricular mass index was also higher after mechanical-valve replacement than after bioprosthetic-valve replacement, but the difference was not significant.

Commenting on the study at the STS meeting, Dr Tomislav Mihaljevic (Cleveland Clinic, OH) pointed out that some previous studies have shown that mechanical-valve patients have better survival odds than bioprosthetic recipients because the bioprosthetic valves required more reoperations. But those reoperations tended to be close to 10 years after the implant, while in this study, the survival curves appeared to diverge early and the freedom from operation was similar between the two groups. That suggests that the hemodynamic performance of the bioprosthesis was not the main reason for the difference in the survival, Mihaljevic suggested. "I wonder if there could be some patient-related factors that contributed to the early, but substantial, increased mortality in patients who received a bioprosthesis."

Weber responded that since it was not a randomized trial, it is still possible that there was some unknown variable that made the two groups of patients different, but his group carefully looked for potential confounders, so this is not likely the explanation. The more likely explanation is that the mechanical valves worked better over the long run. "The survival of the bioprosthetic valve group is very good and not bad compared with the literature. What is astonishing are the really excellent results of the mechanical valves in this patient group. We had only three patients die out of 101, with quite a high risk. This is good news."

Weber told heartwire that with the advent of transcatheter valve systems, it is possible to put a new valve inside a failed bioprosthesis. But he argued that that possibility is not justification for using bioprosthetic valves in patients under 60. "We're talking about very young patients here. This new 'valve-in-valve valve' isn't going to last for good, so we would be facing, in these patients, two or three or four more reoperations. That's not a solution."

The availability of newer anticoagulation drugs that are easier to manage in the outpatient setting, such as dabigatran , may make patients more amenable to mechanical valves. "It's definitely worth a try to see how these new anticoagulants are going to perform with mechanical valves," Weber said. "It may signify a small revival of mechanical valves, because, hemodynamically, they are better than the bioprosthetic valves."

Weber and Mihaljevic reported no conflicts of interest.

 

[chaconne]

"It may signify a small revival of mechanical valves, because, hemodynamically, they are better than the bioprosthetic valves."

Am I missing something here? I thought the whole reason Mechs needed anticoagulants was because they were worse than tissue valves hemodynamically.

 

[clay_from_nj]

Not hemodynamics, but other stuff. (I'll bet pellicle has a good grasp of the science involved.)

According to Virchow's triad, factors predisposing to thrombus formation can be divided into endothelial, haemodynamic and haemostatic factors. (http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1861363/) (http://www.ncbi.nlm.nih.gov/pubmed/9870192)

The hemodynamic properties of modern mechanical prostheses are superior to those of tissue valves because of the significantly more favourable relation between total prosthetic valve area and effective prosthetic valve orifice area, conditioned by design. (http://www.ncbi.nlm.nih.gov/pubmed/4096074, 1985!)

 

[pellicle]

Not hemodynamics, but other stuff. (I'll bet pellicle has a good grasp of the science involved.)

Perhaps basic grasp of the fundaments is more like it ;-)

But I am willing to bet its more complex than we reckon. I've got some interesting refs on haemodynamics and platelet activation in mechanical valves, but I'm not sure this isn't a red herring.

Right now I'm trying to find any studies that discuss just reoperation needs and break that down by valve type and age group. To say there is a dearth is an understatement!

 

[clay_from_nj]

Could it be as simple as platelets like to stick to hard, non-slimy stuff? Or maybe it has to do with the valve smashing up some of the blood cells.

 

[pellicle]

Could it be as simple as platelets like to stick to hard, non-slimy stuff? Or maybe it has to do with the valve smashing up some of the blood cells.

seems that exposure to pressures created by "opening and closing jets" (you can hear them when they do the doppler part of the echo if you're listening for it) causes it. There are known trigger points of 'velocity'.

 

[pellicle]

this is the sort of study breakdown I'm looking for

this is the sort of study breakdown I'm looking for

This is the abstract of the report from the surgical team in Queensland Australia that did my homograft.

BACKGROUND AND AIM OF THE STUDY: The study aim was to elucidate the advantages and limitations of the homograft aortic valve for aortic valve replacement over a 29-year period.

METHODS:
Between December 1969 and December 1998, 1,022 patients (males 65%; median age 49 years; range: 1-80 years) received either a subcoronary (n = 635), an intraluminal cylinder (n = 35), or a full root replacement (n = 352).
There was a unique result of a 99.3% complete follow up at the end of this 29-year experience.
Between 1969 and 1975, homografts were antibiotic-sterilized and 4 degrees C stored (124 grafts); thereafter, all homografts were cryopreserved under a rigid protocol with only minor variations over the subsequent 23 years.
Concomitant surgery (25%) was primarily coronary artery bypass grafting (CABG; n = 110) and mitral valve surgery (n = 55).
The most common risk factor was acute (active) endocarditis (n = 92; 9%), and patients were in NYHA class II (n = 515), III (n = 256), IV (n = 112) or V (n = 7).

RESULTS:
The 30-day/hospital mortality was 3% overall, falling to 1.13 +/- 1.0% for the 352 homograft root replacements.

Actuarial late survival at 25 years of the total cohort was 19 +/- 7%. Early endocarditis occurred in two of the 1,022 patient cohort, and freedom from late infection (34 patients) actuarially at 20 years was 89%.
One-third of these patients were medically cured of their endocarditis.

Preservation methods (4 degrees C or cryopreservation) and implantation techniques displayed no difference in the overall actuarial 20-year incidence of late survival endocarditis, thromboembolism or structural degeneration requiring operation.

Thromboembolism occurred in 55 patients (35 permanent, 20 transient) with an actuarial 15-year freedom in the 861 patients having aortic valve replacement +/- CABG surgery of 92% and in the 105 patients having additional mitral valve surgery of 75% (p = 0.000).

Freedom from reoperation from all causes was 50% at 20 years and was independent of valve preservation.

Freedom from reoperation for structural deterioration was very patient age-dependent.

For all cryopreserved valves, at 15 years, the freedom was
* 47% (0-20-year-old patients at operation),
* 85% (21-40 years),
* 81% (41-60 years) and
* 94% (>60 years).
Root replacement versus subcoronary implantation reduced the technical causes for reoperation and re-replacement (p = 0.0098).

CONCLUSION: This largest, longest and most complete follow up demonstrates the excellent advantages of the homograft aortic valve for the treatment of acute endocarditis and for use in the 20+ year-old patient. However, young patients (< or = 20 years) experienced only a 47% freedom from reoperation from structural degeneration at 10 years such that alternative valve devices are indicated in this age group. The overall position of the homograft in relationship to other devices is presented.

I'd love to see this sort of data (even done as a meta-analysis) on all valves, particularly the way they've broken down the ages

PS: I was done in 1992 (28yo) and had a cryo-preserved valve. And a quiet thankyou to Dr's Greg Stafford and M O'Brien for giving me my second shot at life. (currently on my third go at it) I have tried to make your efforts worth it.

 

[epstns]

Or. . . could there be some heretofore unknown benefit derived from the anticoagulants themselves?

This is totally "outside the box" thinking, but it is one definite difference between the two groups. I wonder if there has been any research on this.

Pellicle - have you seen anything like this?

 

[pellicle]

This is totally "outside the box" thinking, but it is one definite difference between the two groups. I wonder if there has been any research on this.

Pellicle - have you seen anything like this?

I think I'll stay in my box on this one... call "white coat syndrome" ... or just plain yellow ;-)

 

[tom in MO]

There are other benefits of anticoagulants, that's why 30% of older patients who get bio valves also are on asprin, warfarin or both for other cardiovascular or pulmonary reasons.

Don't you just love the line about having "game": "Taking anticoagulants for a reason other than a heart valve problem." Yeah I've got "game." Boy I hate that commercial.

 

[pellicle]

Steve

some thoughts

Younger aortic-valve-replacement recipients are more likely to survive another 10 years with a mechanical valve than a bioprosthesis, data from a small series in Switzerland suggest.

as has been suggested, we're not sure what are younger ... only less than 60yo

"More and more patients come to surgery already knowing and telling us what valve they want. Because of the quality of life, most of them prefer the bioprosthesis, because they don't want to take anticoagulation drugs," Dr Alberto Weber (University of Bern, Switzerland) told heartwire

my feeling is here that "why are patients telling the specialists whats better for them?"

in 101 consecutive patients under the age of 60 who received a biological aortic-valve replacement

one of the things which bothers me about many of these things is the total lack of meta-data. I recall during my Masters research (water supply) in wondering why the consultants had chosen a rolling 11 year average for monthly rainfall expectations when the rainfall in the area was clearly seasonal and stochastic. In short their strategy blinded the water utility to the fact that droughts could occur.

Total follow-up was 1420 patient-years, an average of 20.7 months.

a classic example of mushing up the data ... making it seem grand "ohh, one thousand four hundred and twenty years ... cough cough ... oh ok on average just a little bit under two years.

But those reoperations tended to be close to 10 years after the implant,

clearly not data from their study an average follow up of 20.7 months

"I wonder if there could be some patient-related factors that contributed to the early, but substantial, increased mortality in patients who received a bioprosthesis."

well what do you know ... seeking answers best dug out of meta-data (that was lost) for some horizontal vs vertical analysis.

"What is astonishing are the really excellent results of the mechanical valves in this patient group. We had only three patients die out of 101, with quite a high risk. This is good news."

ok, I'm unclear here ... are they talking about patients in the study being high risk? Then this isn't really representative of younger healthy adults ...

But he argued that that possibility is not justification for using bioprosthetic valves in patients under 60. "We're talking about very young patients here. This new 'valve-in-valve valve' isn't going to last for good, so we would be facing, in these patients, two or three or four more reoperations. That's not a solution."

ok ... so what were the age groups? I mean its implied here with two, three four reops there must be some under 40 patients....

I can't understand why data is not presented clearly, say in the style of the long term followup of my cohort (see a post here)

it seems to me like a lot of good data and research is wasted. I can only guess that people really don't want to know.

 

[dick0236]

Don't you just love the line about having "game": "Taking anticoagulants for a reason other than a heart valve problem." Yeah I've got "game." Boy I hate that commercial.

The dollars that are being poured into the new anti-coagulant adds for non-valve patients will give you some idea of the potential $$$ market that exists for such a drug. Remember that heart valve patients are only a tiny percentage of warfarin users. Kinda reminds me of the "furor" of the Lipitor, Crestor, etc. anti-cholesterol adds of a few years ago. Maybe a newer form of anti-coagulant for valvers will come from these newer drugs.....until then "take your warfarin as prescribed and test routinely".

 

[ElectLive]

...TAVR is a mechanical valve...

Bioprosthetic you mean? Short term anticoagulation is common, at least procedural. Long term anticoagulation, though, is not standard, but in the currently targeted age group is fairly common due to other related factors.

 

[Lynlw]

An interesting aside to consider for those who are hoping for a future TAVR:

I would add to that that the TAVR is a mechanical valve and would require anticoagulation therapy, now at an advanced age and when the real danger of stroke and bleeding events really matters.

This is simply NOT true. All the Percutaneous valves right now are TISSUE valves and for the most part do NOT require anticoagulants, some times they use a short time of anticoagulants right after they get the valve, but NO longterm anticoagulants is one of the Pluses for TAVI or other percutaneous valve replacements so to quote you the people who "WILL require anticoagulation therapy, now at an advanced age and when the real danger of stroke and bleeding events really matters" are the people who get a mechanical valve now when they are younger.. Also for the foreseeable future IF a mechanical valve does need replaced, they are NOT candidates for to get that valve replaced by cath and will need OHS.

 

[Lynlw]

Not hemodynamics, but other stuff. (I'll bet pellicle has a good grasp of the science involved.)

According to Virchow's triad, factors predisposing to thrombus formation can be divided into endothelial, haemodynamic and haemostatic factors. (http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1861363/) (http://www.ncbi.nlm.nih.gov/pubmed/9870192)


The hemodynamic properties of modern mechanical prostheses are superior to those of tissue valves because of the significantly more favourable relation between total prosthetic valve area and effective prosthetic valve orifice area, conditioned by design. (http://www.ncbi.nlm.nih.gov/pubmed/4096074, 1985!)


These are REALLY old articles, the 2nd one is from 1985 and most likely wasnt about any of the valves being used today.

 

[Lynlw]

There are other benefits of anticoagulants, that's why 30% of older patients who get bio valves also are on asprin, warfarin or both for other cardiovascular or pulmonary reasons.

Don't you just love the line about having "game": "Taking anticoagulants for a reason other than a heart valve problem." Yeah I've got "game." Boy I hate that commercial.

I'm pretty sure the reason 30% of older bio valve patients are on aspirin, has nothing to do with their valve and more to do with many docs recommend aspirin for most older patients altho Im pretty sure the reason any of these people are on anticoagulants is to avoid clots caused by various conditions and not for other benefits