Will Lung Volume Reduction Surgery Be Widely Applied?

doi:10.1016/j.athoracsur.2006.06.049

HOME

HELP

FEEDBACK

SUBSCRIPTIONS

Editorial

Will Lung Volume Reduction Surgery Be Widely Applied?

Claude Lenfant, MD^_*

Former Director, National Heart, Lung and Blood Institute, National Institutes of Health, Bethesda, Maryland

^_* Address correspondence to Dr Lenfant, PO Box 83027, Gaithersburg, MD 20883 (Email: lenfantc{at}prodigy.net).

The article titled "Long-Term Follow-Up of Patients ReceivingLung-Volume-Reduction Surgery Versus Medical Therapy for SevereEmphysema" [1] published in this issue of The Annals of ThoracicSurgery is the latest in a series of papers by the NationalEmphysema Treatment Trial (NETT) Research Group. The first,published in 1999, introduced the rationale and design of theNETT [2]. In 2001, a publication [3] presented data from a well-definedgroup (69) of high-risk patients who were found to be unlikelyto benefit from the surgery. Thereafter, patients meeting thecriteria described in this publication were no longer recruitedin the NETT. A 2003 paper [4] presented data from 608 surgical-therapypatients and 610 medical-therapy patients who had been followedfor a median of 2.4 years [4], some for over 4 years. This paperalso included data from the previously identified high-riskpatient group [2]: after a median follow-up of 2.4 years, mortalityrates in this high-risk group were 60% in surgical-therapy patientsand 42.8% in medical-therapy patients (Table 1). The articleincluded in this issue of The Annals reports on the same patientswho were presented in the 2003 publication, but now with a medianfollow-up of 4.3 years, with some patients followed for over7 years.

View this table:
[in this window]
[in a new window]

Table 1. Comparison of the Death Rate by Therapy in all Subgroups

The goal of the NETT was primarily to assess the safety andefficacy of lung-volume–reduction surgery (LVRS) in comparisonwith medical therapy in patients with moderate-to-severe emphysema[2]. If safety and efficacy could be established, the next importantgoal was to identify patient selection criteria that would providemaximum efficacy. Efficacy was to be measured by mortality andmaximal exercise capacity 2 years after randomization (actually,after surgery, which with some exceptions was performed about10 days after randomization). A number of secondary outcomeswere measured, including health-related quality of life. Initiallythe design required enrollment of 2,500 patients—halfassigned to surgical therapy and half to medical therapy—andspecified completion of the trial by December 2002. However,because compliance with treatment assignment was so much higherthan expected, the actual number of patients randomized by thepre-determined closing date (1,218) achieved the desired power.

All patients enrolled in either group were stage III or IV ofthe GOLD classification [5]. These are patients whose life expectancyis generally limited to a few years and who have severe functionallimitations. A very recent report by Martinez and colleaguescarefully and comprehensively analyzed the predictors of mortalityin the NETT patients assigned to medical therapy [6], and itsupports the notion that these patients had a limited life expectancy.

After exclusion of the aforementioned high-risk patients, apost-hoc analysis identified four subgroups according to emphysemadistribution in the lung and baseline exercise capacity:

•Upper-lobe emphysema and low exercise capacity (UL–LE);

• Upper-lobe emphysema and high exercise capacity (UL–HE);

• Non-upper-lobe emphysema and low exercise capacity(NUL–LE);

• Non-upper-lobe emphysema and high exercisecapacity (NUL–HE).

The 2003 publication based on a median 2.4 years follow-up concludedthat:

1 The overall mortality rate, considering all the patients,was very similar between the surgical and medical groups (25.8%vs 26.2%).

2 The UL–LE patients had a significant lowermortalityrate in the surgical-therapy group than in the medical-therapygroup (18.7% vs 33.8%) and they were more likely to experienceimprovements in maximal work capacity and health-related qualityof life.

3 In two of the three other subgroups (UL–HEand NUL–LE),death rates were not significantly lowerin the surgical-therapypatients than in the medical-therapypatients. Furthermore,in these two subgroups, improvement inwork capacity and qualityof life scores was variable or insignificant.On the other hand,patients in the NUL–HE surgical-therapysubgroup had ahigher death rate than their medical-therapycounterparts (24.8%vs 12.6%; Table 1).

The paper in this current issue of The Annals reports on thesame goals and end points in the same patients described inthe 2003 publication, but after a median of 4.3 years followup. The conclusions of this new report are:

1 In the UL–LEsubgroup, surgical-therapy patients hada markedly lower deathrate than medical-therapy patients (44.6vs 60.3%; Table 1).

2 These surgical-therapy UL–LE patients also experiencedgreater improvements in maximum work capacity and health-relatedquality of life.

3 The additional 2 years of follow-up establishedthe durabilityof the LVRS benefit in this subgroup, especiallyin terms ofsurvival.

The findings also suggest that LVRS should be considered inUL–HE patients. At the end of the median 2.4 years follow-up,the death rate among such patients was 16.5% for the surgical-therapygroup and 18.3% for the medical-therapy group. After a median4.3 years follow-up, the death rate was 35.9% for the surgical-therapygroup and 42.3% for the medical-therapy group, and the surgerygroup experienced greater functional benefits.

In an editorial accompanying the 2003 publication, it was statedthat "the finding of NETT provides some evidence that the relativeefficacy of surgery as compared to medical therapy has a clinicaldependence on the presence or absence of upper-lobe diseaseand on the patient's exercise capacity, but the evidence doesnot meet the highest standard of proof" [7]. This commentaryrightly pointed out that, ideally, further studies should beundertaken to confirm or negate the data that were availableat that time. However, it also recognized that "the strengthof the findings in the subgroup with upper-lobe disease andlow exercise capacity" may preclude doing additional studies.

Compared with the situation a decade or so ago, the treatmentof chronic obstructive pulmonary disease, of which emphysemais a component, has progressed considerably, in great part becauseof a surge in research interest, a better understanding of thedisease, and the development of new pharmacological interventions.In addition, patient advocacy and support groups are now firmlyestablished, and they expect the biomedical community to respondto their own personal health problems and to what they appropriatelysee as a huge and still-increasing public health problem.

In this area of health care, as in many if not in all areas,today's medical and surgical communities most often base theirpractice on what is known as evidence-based medicine. Evidenceis derived from clinical research outcomes, and primarily fromoriginal clinical trials and systematic reviews of the literature.The NETT's large sample size, its rigorous randomization, theparticipation of multiple sites, and the extensive analysisof results all assure its quality and therefore the validityof the guidance it provides. Evidence-based medicine is definedas "the conscientious, explicit, and judicious use of currentbest evidence in making decisions about the care of individualpatients" [8]. In view of this definition, two questions needto be considered: Is it "judicious" to transport the currentavailable evidence about LVRS to the practice of medicine? And,if so, to which individual patients?

The answer to the second question is readily available fromthe data presented in this report and its 2003 predecessor.Only the UL–LE subgroup experienced significantly bettersurvival with surgery, as well as very significantly improvedfunction early after surgery and, as time progressed, much slowerfunctional declines. After a median 4.3 years of follow-up,the death rate differential between the surgical-therapy andthe medical-therapy UL–LE patients was 15.7% (44.6% vs60.3%; Table 1); this is the highest of all the subgroups. Thedeath rates in the NUL–HE subgroup were 44.0% and 41.4%,respectively, in the surgical-therapy and medical-therapy patients—quitesimilar to the death rate of the UL–LE surgical-therapypatients. However, the surviving patients in the NUL–HEsurgical-therapy group did not experience the significant anddurable functional improvement that was observed in the UL–LEsubgroup assigned to surgical therapy. While patients enrolledin the trial were not selected on the basis of their subgroupcharacteristics, the post-hoc identification of subgroups wasbased on a number of predetermined clinical variables. Thus,this undoubtedly reinforces the conclusion that UL–LEpatients are the ones to be carefully considered for LVRS.

Much more difficult is the question of whether it is "judicious"to transport the evidence of this study to the practice of medicine.The quality of the study and the strength of the statisticalevidence weigh in favor of an affirmative judgment, but theseconsiderations must be balanced by other less-positive factors.The statistical analysis of the results in the subgroup of patientswho appear to be the most preferred candidates for LVRS (ie,the UL–LE subgroup) shows a survival advantage with ap = 0.01 and functional improvements with a p < 0.001. Puttingaside the statistical significance, the mortality after a median4.3 years follow-up was over 44% and it would have been higherif the intention-to-treat analysis had not been used. Althoughthis death rate for the surgical-therapy cohort is much betterthan for the medical-therapy counterparts, it is still high.Furthermore, LVRS surgery, including the pre-operative and post-operativecare, is quite expensive and this factor is likely to limitthe application of LVRS.

Nonetheless, the NETT has established and demonstrated the valueof LVRS in a specific group of patients suffering from emphysema.It provides an opportunity that may be of significant benefitto selected patients. However, to go from 1,218 patients inthe NETT to the hundreds of thousands of patients who couldbecome candidates for LVRS will require extensive thoughtfulconsideration on the part of the physicians and surgeons, aswell as the active participation of the patients and their familiesin the decision-making process.

References

Top
References

Naunheim KS, Wood DE, Mohsenifar Z, et al. Long-term follow-up of patients receiving lung-volume-reduction surgery versus medical therapy for severe emphysema by the National Emphysema Treatment Trial Research Group Ann Thorac Surg 2006;82:431-443e1–19.[Abstract/Free Full Text]
National Emphysema Treatment Trial Research Group Rationale and design of the National Emphysema Treatment Trial (NETT)a prospective randomized trial of lung volume reduction surgery. J Thorac Cardiovasc Surg 1999;118:518-528.[Free Full Text]
National Emphysema Treatment Trial Research Group Patients at high risk of death after lung-volume-reduction surgery N Engl J Med 2001;345:1075-1083.[Abstract/Free Full Text]
National Emphysema Treatment Trial Research Group A randomized trial comparing lung-volume-reduction surgery with medical therapy for severe emphysema N Engl J Med 2003;348:2059-2073.[Abstract/Free Full Text]
Global Initiative for Chronic Obstructive Lung Disease (GOLD). Global Strategy for Diagnosis, Management and Prevention of COPD. Available at: http://wwwgoldcopdorg (accessed June 1, 2006)..
Martinez FJ, Foster G, Curtis JL, et al. Predictors of mortality in patients with emphysema and severe airflow obstruction Am J Respir Crit Care Med 2006;173:1326-1334.[Abstract/Free Full Text]
Ware JH. The National Emphysema Treatment Trial–how strong is the evidence? N Engl J Med 2003;348:2055-2056.[Free Full Text]
Sackett DL, Rosenberg WMC, Gray JAM, Haynes RB, Richardson WS. Evidence based medicinewhat it is and what it isn't. BMJ 1996;312:71-72.[Free Full Text]

Related Article

Long-Term Follow-Up of Patients Receiving Lung-Volume-Reduction Surgery Versus Medical Therapy for Severe Emphysema by the National Emphysema Treatment Trial Research Group: Keith S. Naunheim, Douglas E. Wood, Zab Mohsenifar, Alice L. Sternberg, Gerard J. Criner, Malcolm M. DeCamp, Claude C. Deschamps, Fernando J. Martinez, Frank C. Sciurba, James Tonascia, and Alfred P. Fishman
Ann. Thorac. Surg. 2006 82: 431-443. [Abstract] [Full Text] [PDF]

This article has been cited by other articles:

F. Tacconi, E. Pompeo, D. Forcella, M. Marino, D. Varvaras, and T. C. Mineo
Lung Volume Reduction Reoperations
Ann. Thorac. Surg., April 1, 2008; 85(4): 1171 - 1177.
[Abstract] [Full Text] [PDF]

K. F. Rabe, B. Beghe, F. Luppi, and L. M. Fabbri
Update in Chronic Obstructive Pulmonary Disease 2006
Am. J. Respir. Crit. Care Med., June 15, 2007; 175(12): 1222 - 1232.
[Full Text] [PDF]

This Article

Full Text (PDF)

Alert me when this article is cited

Alert me if a correction is posted

Citation Map

Services

Email this article to a friend

Similar articles in this journal

Similar articles in PubMed

Alert me to new issues of the journal

Add to Personal Folders

Download to citation manager

Permission Requests

Citing Articles

Citing Articles via HighWire

Citing Articles via Google Scholar

Google Scholar

Articles by Lenfant, C.

Search for Related Content

PubMed

PubMed Citation

Articles by Lenfant, C.

Related Collections

Lung - other

Related Article

				K. F. Rabe, B. Beghe, F. Luppi, and L. M. Fabbri Update in Chronic Obstructive Pulmonary Disease 2006 Am. J. Respir. Crit. Care Med., June 15, 2007; 175(12): 1222 - 1232. [Full Text] [PDF]