HOME HELP FEEDBACK SUBSCRIPTIONS ARCHIVE SEARCH TABLE OF CONTENTS		QUICK SEARCH:   [advanced] Author: Keyword(s): Year:  Vol:  Page:
Guest Access | Sign In via User Name/Password

This Article Abstract Full Text (PDF) Free Submit a response Alert me when this article is cited Alert me when eLetters are posted Alert me if a correction is posted Citation Map Services Email this article to a friend Similar articles in this journal Similar articles in ISI Web of Science Similar articles in PubMed Alert me to new issues of the journal Add to My Personal Article Archive Download to citation manager Citing Articles Citing Articles via HighWire Citing Articles via ISI Web of Science (11) Citing Articles via Google Scholar Google Scholar Articles by Parekh, P. I. Articles by Palmer, S. M. Search for Related Content PubMed PubMed Citation Articles by Parekh, P. I. Articles by Palmer, S. M.

Psychiatric Disorder and Quality of Life in Patients Awaiting Lung Transplantation^*

Priti I. Parekh, PhD; James A. Blumenthal, PhD; Michael A. Babyak, PhD; Kari Merrill, PhD; Robert M. Carney, PhD; R. Duane Davis, MD, FCCP and Scott M. Palmer, MD, FCCP; for the INSPIRE Investigators

^* From the Departments of Psychiatry and Behavioral Sciences (Drs. Parekh, Blumenthal, Babyak, and Merrill), Surgery (Dr. Davis), and Medicine (Dr. Palmer), Duke University Medical Center, Durham, NC; and Department of Psychiatry (Dr. Carney), Washington University School of Medicine, St. Louis, MO. A list of INSPIRE participants is given in the ^Appendix.

Correspondence to: James A. Blumenthal, PhD, Department of Psychiatry and Behavioral Sciences, Box 3119, Duke University Medical Center, Durham, NC 27710; e-mail: blume003{at}mc.duke.edu

	Abstract

TOP Abstract Introduction Materials and Methods Results Discussion Appendix References

 
Study objective: To examine the relationship between psychiatric comorbidity and quality of life in patients awaiting lung transplantation.

Setting: Duke University Medical Center/Lung Transplantation Program.

Participants: One hundred patients with end-stage pulmonary disease listed for lung transplantation.

Measurements and results: Twenty-five percent (n = 25) of the sample met diagnostic criteria for at least one current mood or anxiety disorder. Controlling for age, gender, ethnicity, percentage of predicted FEV, and lung disease diagnosis, patients with a current psychiatric diagnosis reported poorer general quality of life (p < 0.0001), poorer disease-specific quality of life (p < 0.0001), greater shortness of breath (p = 0.01), more symptoms of psychological distress (p < 0.0001), lower levels of social support (p < 0.0001), and fewer positive health habits (p < 0.04) than their counterparts without a psychiatric diagnosis.

Conclusions: Psychiatric comorbidity affects a significant portion of patients awaiting lung transplantation and is associated with decreased health-related quality of life.

Key Words: anxiety • depression • lung transplantation • psychiatric disorder • quality of life

	Introduction

TOP Abstract Introduction Materials and Methods Results Discussion Appendix References

 
Since the first successful human lung transplant operations were performed in the mid 1980s, cadaveric lung allotransplantation has grown into an acceptable therapy for many end-stage pulmonary diseases. Unfortunately, there are many more patients awaiting lung transplantation than there are organs available.¹ Furthermore, short- and long-term outcomes for lung transplantation lag behind those of other solid-organ transplants, with 1-year and 5-year survival rates of 76% and 43%, respectively, for lung transplant recipients.² Given the scarcity of donor lungs and the risk associated with the transplant surgery, careful screening of potential lung transplant candidates is essential to ensure optimal outcomes. This screening process not only involves a comprehensive medical evaluation, but also includes a thorough psychological assessment.

End-stage pulmonary disease is associated with significant psychological distress,^{3 4 5} with up to 47% of lung transplant candidates meeting criteria for at least one psychiatric disorder.⁵ Previous studies have found that psychiatric illness and other psychosocial problems are related to poor posttransplant outcomes, such as more rejection episodes,⁶ increased length of hospitalization,⁷ and higher levels of emotional distress.^{8 9} Although quality of life is considered an important measure of outcome following lung transplantation, little attention has been devoted to the relation between psychiatric illness and quality of life in candidates for this surgery. Because many patients awaiting lung transplantation will not survive long enough to receive a transplant, it is important to examine factors influencing quality of life before as well as after transplant. Therefore, the purpose of the present study was to examine the relationship of psychiatric comorbidity and various measures of quality of life in a relatively large series of patients awaiting lung transplantation.

	Materials and Methods

TOP Abstract Introduction Materials and Methods Results Discussion Appendix References

 
Patient Population
Patients who were candidates for lung transplantation at Duke University Medical Center between November 2000 and January 2002 were recruited for this study. Inclusion criteria were as follows: age 18 years, current placement on the waiting list for an initial single or bilateral lung transplant, and the ability to complete written and telephone assessments (ie, basic English proficiency; lack of significant hearing, speaking, or visual difficulties; and a working telephone number). Participants agreed to enroll in a clinical trial of a telephone-based stress management intervention being conducted at Duke University and Washington University Medical Centers in which they would be randomly assigned to either stress management or usual care. This report presents baseline data from 100 patients who enrolled in this clinical trial at Duke University.

A total of 236 patients were approached to participate in this study. Of these, 98 patients (42%) were ineligible for the following reasons: not listed for lung transplantation (n = 54), listed for lung retransplantation (n = 1), required multiple-organ transplants (n = 12), underwent transplantation before enrolling in the study (n = 17), died before enrolling in the study (n = 8), difficulty speaking due to damaged vocal cords or shortness of breath (n = 2), could not be reached by telephone (n = 3), and already participating in a competing protocol (n = 1). Of the remaining eligible patients, 38 patients (28%) refused to participate in the study. There were no significant differences with respect to age, gender, time waiting on the transplant list, or disease severity (measured by percentage of predicted FEV₁ [FEV₁%]) between those who declined to participate and those who participated.

Procedure
Patients were initially contacted either by mail or in person during their pulmonary clinic appointment. After patients provided written informed consent to participate, they were given a battery of psychosocial measures, which they were asked to complete and return by mail. Participants were then administered a psychiatric diagnostic interview over the telephone by a trained clinical psychologist (K.M.). Pulmonary function data were obtained from medical records. The consent form and all study procedures were approved by the institutional review board at Duke University Medical Center.

Psychosocial Measures
Medical Outcomes Survey, Short Form-36: The Medical Outcomes Survey, Short Form-36 (SF-36) is a questionnaire that measures quality of life by assessing eight life domains: physical functioning, social functioning, role limitations due to physical problems, role limitations due to emotional problems, pain, mental health, vitality, and general health perception.¹⁰ The SF-36 has been used with patients with chronic lung disease.^{11 12} Higher scores indicate better health-related quality of life.

Pulmonary-Specific Quality of Life Scale: The Pulmonary-Specific Quality of Life Scale (PQLS) was developed for use with persons with chronic lung disease.^{13 14} The PQLS has seven subscales: physical functioning, psychological/emotional status, functional status/activities of daily living, social activities, intimacy/relationships/sexuality, occupational functioning, and view of self. Lower scores indicate better functioning.

Beck Depression Inventory II: The Beck Depression Inventory II is a 21-item self-report scale measuring cognitive, affective, and somatic symptoms of depression.¹⁵ A higher score indicates more severe depressive symptoms.

Spielberger State Anxiety Inventory: The Spielberger State Anxiety Inventory consists of 20 items assessing current anxiety level.¹⁶ This scale was originally developed to investigate anxiety in normal populations and has also been used in medical and surgical patients. A higher score indicates greater anxiety.

General Health Questionnaire: The General Health Questionnaire (GHQ) is a 60-item scale developed to screen for nonpsychotic psychiatric disorders by assessing somatic symptoms, symptoms of anxiety, social dysfunction, and depressive symptoms.¹⁷ A higher score indicates greater psychological distress.

Perceived Stress Scale: The Perceived Stress Scale is a 14-item scale that measures perceived stress, which is the extent to which life events are viewed as unpredictable and uncontrollable.¹⁸ A higher score indicates greater stress.

Life Orientation Test-Revised: The Life Orientation Test-Revised is a 10-item scale assessing generalized optimism, broadly defined as the expectation that positive events will occur.¹⁹ A higher score indicates greater optimism.

Perceived Social Support Scale: The Perceived Social Support Scale consists of 12 items assessing perceived social support from family, friends, and significant other.^{20 21} A higher score indicates greater overall perceived support.

UCSD Shortness of Breath Questionnaire: The UCSD Shortness of Breath Questionnaire (SOBQ) is a 24-item scale assessing the degree of shortness of breath experienced while performing various daily activities.²² A higher score indicates greater overall shortness of breath.

Health Practices Index: The Health Practices Index is a 15-item survey assessing a variety of health indicators, including body mass index, cigarette smoking, alcohol use, sleep habits, and physical activity level.²³ A higher score indicates a greater number of positive health habits.

Psychiatric Diagnosis
A modified version of the Structured Clinical Interview for Diagnostic and Statistical Manual for Mental Disorders, Fourth Edition (DSM-IV), Axis I Disorders Nonpatient Edition²⁴ was administered to participants by telephone in order to determine the presence of current and past psychiatric diagnoses. Modules A (mood episodes), B/C (psychotic symptom screen), and I (adjustment disorder) were included in their entirety. Also included were the portions of module F (anxiety disorders) assessing panic disorder, social phobia, generalized anxiety disorder, anxiety disorder due to a general medical condition, substance-induced anxiety disorder, and anxiety disorder not otherwise specified. Finally, the section of module J (optional disorders) assessing minor depression also was included. It should be noted that minor depression is not a DSM-IV diagnosis, but is instead considered a research diagnosis for further study. However, patients with minor depression do meet criteria for the DSM-IV diagnosis of depression not otherwise specified. The Axis I Disorders Nonpatient Edition was administered and scored by a clinical psychologist unaware of responses to the quality-of-life test battery and medical measures.

Pulmonary Function
FEV₁% was obtained for all but one of the participants. Because patients usually underwent spirometry testing as a routine part of their pulmonary clinic visits, medical charts were reviewed to obtain FEV₁% values closest to the date of the psychosocial assessments. The average interval between FEV₁% testing and the quality-of-life measures was 56 days (SD, 98 days; range, 0 to 724 days).

Statistical Analysis
To determine whether patients with a current psychiatric diagnosis differed from patients without a current diagnosis with respect to demographic variables, ² tests and independent two-tailed t tests were conducted. To determine whether patients with a current psychiatric diagnosis differed from patients without a current diagnosis with respect to psychosocial measures, multivariate analysis of covariance (MANCOVA) and analysis of covariance models were used. Two MANCOVA models were performed with the subscales of the SF-36 and the subscales of the PQLS as the dependent variables, respectively. Analysis of covariance models were performed for all other psychosocial measures and for each of the individual subscales of the SF-36 and PQLS. All models included absence/presence of a current psychiatric diagnosis as a between-subjects factor and age, gender, ethnicity, FEV₁%, and lung disease diagnosis as covariates. FEV₁% was unavailable for one patient, so we imputed this value by substituting the median FEV₁% of the other nine patients in our sample with the same lung disease diagnosis, primary pulmonary hypertension. All statistical analyses were performed using SAS 8.2 software (SAS Institute; Cary, NC).

	Results

TOP Abstract Introduction Materials and Methods Results Discussion Appendix References

 
Sample Demographic Characteristics
The sample consisted of 57 women (57%) and 43 men (43%) with a mean age of 48.6 years (SD, 11.7 years). The most common lung diseases were COPD (42%) and fibrotic lung disease (31%). The majority of participants were white (82%), married (67%), and had at least a high school education (87%). Only 12% of the sample were employed full-time. There were no significant differences between patients with at least one current psychiatric diagnosis and those with no current psychiatric diagnosis on any demographic variables (Table 1 ).

Shortness of Breath: Patients with a current psychiatric diagnosis reported greater shortness of breath (p = 0.01) than patients without a psychiatric diagnosis.

Psychosocial Measures
After controlling for age, gender, ethnicity, FEV₁%, and lung disease, patients with at least one current psychiatric diagnosis were found to report greater depressive symptoms (p < 0.0001), greater anxiety symptoms (p < 0.0001), more psychological distress as assessed by the GHQ (p < 0.0001), and higher levels of stress (p < 0.0001) than patients without a current psychiatric diagnosis. Patients with a psychiatric diagnosis also reported lower levels of optimism (p = 0.004), fewer positive health habits (p = 0.04), and less perceived social support (p < 0.0001) than their counterparts without a current psychiatric diagnosis (Table 4 ).

	Discussion

TOP Abstract Introduction Materials and Methods Results Discussion Appendix References

Our finding that mood and anxiety disorder, particularly panic disorder, is common among patients with end-stage lung disease is consistent with previous studies.^{3 4 5} Because patients with major nonpulmonary medical conditions and severe psychosocial dysfunction are excluded from listing for lung transplantation, our rate of 25% psychiatric comorbidity is likely to underestimate the true rate of psychiatric disturbance in a broader sample of end-stage pulmonary patients. Our results suggest that even when patients undergo extensive screening and self-selection for lung transplantation, psychiatric comorbidity is significant. The occurrence of frequent episodes of dyspnea and hyperventilation, symptoms of lung disease as well as triggers of anxiety, may explain why individuals with pulmonary disease are particularly susceptible to panic and anxiety.²⁶ However, another possible explanation for findings of a high rate of anxiety disorders in patients with pulmonary diseases is an increased false-positive rate for the diagnosis of panic and anxiety disorders due to symptom overlap with lung disease.

Patients with end-stage pulmonary disease who also are awaiting lung transplantation experience unique stressors, including separation from their support system due to relocation, a progressing course of illness, and fear of not receiving donor lungs in time,²⁷ that make the waiting period a time of especially high risk for psychological distress. For example, Craven³ found that 21% of patients acquired psychiatric symptoms while on the waiting list for lung transplant, highlighting the importance of continuing mental health follow-up of these patients after the initial evaluation. Similarly, in our previous work, we have shown that patients awaiting lung transplant tend to show declines in social support and other indexes of quality of life with increasing time on the waiting list.¹⁴ However, in the same study, improvement in quality of life, including better physical functioning, was reported in patients who received a psychosocial intervention, despite the fact that these patients did not necessarily have any psychiatric diagnosis. Therefore, we might expect even greater improvement in quality of life upon treatment of psychiatric disorder in lung transplant candidates. However, it should be noted that even in the current sample, greater psychological distress (as measured by the GHQ) was associated with decreased pulmonary-specific quality of life and greater shortness of breath independent of the presence of a current psychiatric diagnosis (data not shown). This suggests that psychosocial interventions should be considered even for those pulmonary patients who do not meet criteria for a psychiatric diagnosis.

Psychiatric disorder in patients awaiting transplant may be linked to adverse health outcomes as well as reduced quality of life. For example, one study²⁸ identified quality of well-being, a measure of physical and social functioning, as the strongest predictor of survival in lung transplant candidates. Notably, we found that patients with a comorbid psychiatric condition reported more dyspnea, which has been shown to be a better predictor of survival than FEV₁ in patients with chronic lung disease.²⁹ Our study also demonstrated that patients with a current mood or anxiety disorder practiced fewer health-promoting habits, suggesting that psychological disturbance could lead to poorer health outcomes by influencing compliance, especially in light of other studies^{6 30} demonstrating that psychosocial issues are related to poor medical compliance.

There are several methodologic issues that deserve comment. First, because we only studied patients on the waiting list for lung transplantation, our sample may not be representative of all patients with end-stage lung disease, as pulmonary patients with especially severe and intractable psychiatric or social problems would not have been listed for transplant. Also, it should be noted that the association of psychiatric disorder with poor quality of life does not imply a causal relationship. Although it is possible that a psychiatric disorder may result in decreased quality of life, indexes of poor quality of life (such as marked functional impairment and high levels of pain) could increase the risk of psychiatric illness. It is unclear whether the patients in our study who met criteria for a current psychiatric disorder were more physically ill than their counterparts without psychiatric disturbance. The patients with psychiatric disorders did report greater shortness of breath and reduced physical functioning; however, their mean FEV₁% was not statistically different from that of patients without current psychiatric disorder. A prospective study design would be needed to determine if more severe physical illness plays a causal role in poorer psychiatric and quality-of-life outcomes in patients awaiting lung transplant. Finally, although we suggest that the presence of psychiatric disorder may be associated with adverse medical outcomes and effective treatment of psychiatric disorder may be associated with improvements of physical health, long-term follow-up data are needed. The INSPIRE (Investigational Study of Psychological Intervention in Recipients of Lung Transplant) trial hopes to provide these data in the future.

In summary, we found that the presence of current mood or anxiety disorder was related to significantly decreased quality of life in patients with end stage pulmonary disease awaiting lung transplantation. Our results suggest that identifying and treating psychiatric disorder in this population could result in improved psychosocial and medical outcomes for these patients.

	Appendix

TOP Abstract Introduction Materials and Methods Results Discussion Appendix References

 
INSPIRE Investigators: James A. Blumenthal, PhD (Director, Behavioral Medicine); Robert M. Carney, PhD (Co-director, Behavioral Medicine); R. Duane Davis, MD (Surgical Director); Scott M. Palmer, MD (Medical Director); Michael Babyak, PhD; Robyn Claar, PhD; Iris Csik, MSW; Francis Keefe, PhD; Kenneth Freedland, PhD; Elizabeth Gullette, PhD; Joel Hughes, PhD; Kari Merrill, PhD; Melissa Napolitano, PhD; Jennifer Norten, PhD; Priti I. Parekh, PhD; Victor Tapson, MD; and Elbert Trulock, MD.

	Footnotes

 
Abbreviations: DSM-IV = Diagnostic and Statistical Manual for Mental Disorders, Fourth Edition; FEV₁% = percentage of predicted FEV₁; GHQ = General Health Questionnaire; INSPIRE = Investigational Study of Psychological Intervention in Recipients of Lung Transplant; MANCOVA = multivariate analysis of covariance; PQLS = Pulmonary-Specific Quality of Life Scale; SF-36 = Short Form-36; SOBQ = UCSD Shortness of Breath Questionnaire

This study was performed at Duke University Medical Center and was supported by National Heart, Lung, and Blood Institute grant R0-1 HL 65503-01.

Received for publication February 3, 2003. Accepted for publication May 13, 2003.

	References

TOP Abstract Introduction Materials and Methods Results Discussion Appendix References

 

1. Scientific Registry of Transplant Recipients. About transplant: fast facts. Available at: http://www.ustransplant.org/facts.html; accessed October 9, 2003
2. 2001 annual report of the U. S. Organ Procurement and Transplantation Network and the Scientific Registry for Transplant Recipients: transplant data 1991–2000. Rockville, MD: Department of Health and Human Services, Health Resources and Services Administration, Office of Special Programs, Division of Transplantation.
3. Craven, J Psychiatric aspects of lung transplant. Can J Psychiatry 1990;35,759-764[ISI][Medline]
4. Singer, HK, Ruchinskas, RA, Riley, KC, et al The psychological impact of end-stage lung disease. Chest 2001;120,1246-1252[Abstract/Free Full Text]
5. Woodman, CL, Geistg, LJ, Vance, S, et al Psychiatric disorders and survival after lung transplantation. Psychosomatics 1999;40,293-297[Abstract/Free Full Text]
6. Shapiro, PA, Williams, DL, Foray, AT, et al Psychosocial evaluation and prediction of compliance problems and morbidity after heart transplantation. Transplantation 1995;60,1462-1466[ISI][Medline]
7. Chacko, RC, Harper, RG, Gotto, J, et al Psychiatric interview and psychometric predictors of cardiac transplant survival. Am J Psychiatry 1996;153,1607-1612[Abstract/Free Full Text]
8. Dew, MA, Simmons, RG, Roth, LH, et al Psychosocial predictors of vulnerability to distress in the year following heart transplantation. Psychol Med 1994;24,929-945[ISI][Medline]
9. Stilley, CS, Dew, MA, Stukas, AA, et al Psychological symptom levels and their correlates in lung and heart-lung transplant recipients. Psychosomatics 1999;40,503-509[Abstract/Free Full Text]
10. Ware, JE, Sherbourne, CD The MOS 36-item short-form health survey (SF-36): I. Conceptual framework and item selection. Med Care 1992;30,473-483[ISI][Medline]
11. Mahler, DA, Mackowiak, JI Evaluation of the short-form 36-item questionnaire to measure health-related quality of life in patients with COPD. Chest 1995;107,1585-1589[Abstract/Free Full Text]
12. Viramontes, JL, O’Brien, B Relationship between symptoms and health-related quality of life in chronic lung disease. J Gen Intern Med 1994;9,46-48[ISI][Medline]
13. Napolitano, MA Development of a pulmonary-specific quality of life scale (PQLS) [abstract]. Ann Behav Med 1999;21,S168
14. Napolitano, MA, Babyak, MA, Palmer, S, et al Effects of a telephone-based psychosocial intervention for patients awaiting lung transplantation. Chest 2002;122,1176-1184[Abstract/Free Full Text]
15. Beck, AT, Steer, RA, Brown, GK Beck Depression Inventory 2nd Ed. 1996 The Psychological Corporation. San Antonio, TX:
16. Spielberger, CD, Gorsuch, RL, Lushene, RE STAI manual for the State-Trait Anxiety Inventory. 1970 Consulting Psychologists Press. Palo Alto, CA:
17. Goldberg, DP The detection of psychiatric illness by questionnaire. 1972 Oxford University Press. London, UK:
18. Cohen, S, Kamarck, T, Mermelstein, R A global measure of perceived stress. J Health Soc Behav 1983;24,385-396[CrossRef][ISI][Medline]
19. Scheier, MF, Carver, CS, Bridges, MW Distinguishing optimism from neuroticism (and trait anxiety, self-mastery, and self-esteem): a re-evaluation of the Life Orientation Test. J Pers Soc Psychol 1994;67,1063-1078[CrossRef][ISI][Medline]
20. Zimet, GD, Dahlem, NW, Zimet, SG, et al The multidimensional scale of perceived social support. J Pers Assess 1988;52,30-41[CrossRef][ISI]
21. Blumenthal, J, Burg, M, Barefoot, J, et al Social support, type A behavior and coronary artery disease. Psychosom Med 1987;49,331-340[Abstract/Free Full Text]
22. Eakin, EG, Resnikoff, PM, Prewitt, LM, et al Validation of a new dyspnea measure: the UCSD Shortness of Breath Questionnaire. Chest 1998;111,619-624
23. Berkman, L, Breslow, L, Wingard, D Health practices and mortality risk. Berkman, L Breslow, L eds. Health and ways of living: the Alameda County Study 1983,115-160 Academic Press. New York, NY:
24. First, MB, Spitzer, RL, Gibbon, M, et al Structured clinical interview for DSM-IV Axis I Disorders, Non-Patient Edition (SCID-I/NP version 2.0–8/98 revision). 1998 Biometrics Research, New York State Psychiatric Institute. New York, NY:
25. MacNaughton, KL, Rodrigue, JR, Cicale, M, et al Health-related quality of life and symptom frequency before and after lung transplantation. Clin Transplant 1998;12,320-323[ISI][Medline]
26. Smoller, JW, Pollack, MH, Otto, MW, et al Panic anxiety, dyspnea and respiratory disease: theoretical and clinical considerations. Am J Respir Crit Care Med 1996;154,6-17[Abstract]
27. Bright, MJ, Craven, JL Assessment and management of psychosocial stress in lung transplant candidates. Health Soc Work 1990;15,125-132[Medline]
28. Squier, HC, Ries, AL, Kaplan, RM, et al Quality of well-being predicts survival in lung-transplantation candidates. Am J Respir Crit Care Med 1995;152,2032-2036[Abstract]
29. Nishimura, K, Izumi, T, Tsukino, M, et al Dyspnea is a better predictor of 5-year survival than airway obstruction in patients with COPD. Chest 2002;121,1434-1440[Abstract/Free Full Text]
30. Bunzel, B, Laederach-Hofmann, K Solid organ transplantation: are there predictors for posttransplant noncompliance? A literature overview. Transplantation 2000;70,711-716[ISI][Medline]

This article has been cited by other articles:

				K. A. Barbour, J. A. Blumenthal, and S. M. Palmer Psychosocial Issues in the Assessment and Management of Patients Undergoing Lung Transplantation Chest, May 1, 2006; 129(5): 1367 - 1374. [Abstract] [Full Text] [PDF]

				E. J. Burker, D. M. Evon, J. Galanko, and T. Egan Health Locus of Control Predicts Survival after Lung Transplant J Health Psychol, September 1, 2005; 10(5): 695 - 704. [Abstract] [PDF]

				L. D. Snyder and S. M. Palmer Quality, Quantity, or Both?: Life After Lung Transplantation Chest, September 1, 2005; 128(3): 1086 - 1087. [Full Text] [PDF]

				P. I. Parekh, J. A. Blumenthal, M. A. Babyak, R. LaCaille, S. Rowe, L. Dancel, R. M. Carney, R. D. Davis, S. Palmer, and for the INSPIRE Investigators Gas Exchange and Exercise Capacity Affect Neurocognitive Performance in Patients With Lung Disease Psychosom Med, May 1, 2005; 67(3): 425 - 432. [Abstract] [Full Text] [PDF]

This Article Abstract Full Text (PDF) Free Submit a response Alert me when this article is cited Alert me when eLetters are posted Alert me if a correction is posted Citation Map Services Email this article to a friend Similar articles in this journal Similar articles in ISI Web of Science Similar articles in PubMed Alert me to new issues of the journal Add to My Personal Article Archive Download to citation manager Citing Articles Citing Articles via HighWire Citing Articles via ISI Web of Science (11) Citing Articles via Google Scholar Google Scholar Articles by Parekh, P. I. Articles by Palmer, S. M. Search for Related Content PubMed PubMed Citation Articles by Parekh, P. I. Articles by Palmer, S. M.