Respiratory Disorders

Anthony F. Massaro, M.D.
Instructor in Medicine, Harvard Medical School
Associate Physician, Brigham and Women's Hospital
amassaro@partners.org

Dr. Massaro's current responsibilities at Brigham and Women’s Hospital include both clinical activities and pulmonary research. The majority of his current efforts focus directly on patient care. Inpatient clinical responsibilities include attending eight weeks per year in the medical intensive care unit and 4 weeks per year on the pulmonary consult service. Outpatient responsibilities include three clinic sessions per week at the Dana-Farber Cancer Institute’s Lowe Center for Thoracic Oncology. The Lowe Center provides a multidisciplinary approach to treating patients with lung cancer and thoracic malignancies. He provides pulmonary consultation for patients in this clinic. The majority of patients who are evaluated in this setting are those with undiagnosed thoracic masses as well as patients with known lung cancer and concomitant severe obstructive airway disease in whom I am asked to assess operative risk and provide medical management to optimize lung function prior to surgical resection. In addition I have one session per week in the pulmonary outpatient service at the Brigham Medical Specialties where I see patients with a broad spectrum of pulmonary disease.

Since 1995 I have provided medical direction for Respiratory Care Services at Dana-Farber Cancer Institute. The department is comprised of 5 full time respiratory therapists who, in addition to providing therapies such as supplemental oxygen and aerosolized medication for patients with pulmonary disease, perform a variety of diagnostic testing (pulmonary function testing, exercise oximetry, arterial blood gas testing and electrocardiograms). To support the diagnostic testing I act as the Medical Director of the Pulmonary Function Laboratory and the Arterial Blood Gas Laboratory at the Dana-Farber. Among my responsibilities in the Pulmonary Function Laboratory is interpretation of all pulmonary function test performed at the Dana-Farber.

My research interests involve investigations into the role of the free radical molecule nitric oxide and airway function. Nitric oxide has been postulated to have both homeostatic and proinflammatory roles in the asthmatic airway. We have found that measurements of nitric oxide in the expirate may provide a noninvasive measure of airway inflammation. This research is conducted in the laboratory of Jeffrey M. Drazen M.D. Currently we are evaluating diurnal variation in the amount of nitric oxide which is recovered in the expired gas of normal and asthmatic subjects. In addition, to support the clinical activities at the Lowe Center for Thoracic Oncology, we are initiating studies (with colleagues in the Thoracic Surgery Division) to evaluate new screening methods for lung cancer in high risk populations.

Publications

1. Lilly, C. M., L. A. Sonna, et al. (2003). "Intensive communication: four-year follow-up from a clinical practice study." Crit Care Med 31(5 Suppl): S394-9.
   
   PURPOSE: To determine the durability of the effects of a change in practice designed to promote the use of advanced supportive technology when it is of benefit but to limit its burdens when it is ineffective. We have reported that institution of a process of intensive communication reduced length of intensive care unit stay for dying patients and reduced mortality in a before-and-after study in a cohort of patients admitted to an adult intensive care unit. We now report the results of a 4-yr extension of this intervention. MATERIALS AND METHODS: The number of counseling sessions, intensive care unit length of stay, and mortality were measured for 2,361 adult medical patients consecutively admitted to a university tertiary care hospital. To determine the durability of the effects of our intervention, we compared our experience during the subsequent 4 yrs with that of the 134 consecutive patients before and 396 patients after our intensive communication intervention. RESULTS: We conducted an equivalent number of intensive communication sessions in our subsequent practice as during the intervention (1.5 vs. 1.6 sessions per patient admitted to the intensive care unit). However, sessions tended to be of shorter duration, and direct participation by social workers, chaplains, and care coordinators was less frequent in our subsequent experience. Intensive communication produced a significant and durable reduction in length of stay (median length of stay, 4 days [2-11 days, interquartile range] before; 3 days [2-6 days, interquartile range] during the study; 3 days [2-6 days, interquartile range] subsequently). Our intervention was associated with a significant and durable reduction in intensive care unit mortality (31.3% before, 22.7% during the intervention, 18% subsequently; p <.001). CONCLUSIONS: Intensive communication is associated with durable reductions in intensive care unit length of stay and reduced mortality in critically ill adult medical patients. Intensive communication was applied more efficiently subsequent to the intervention, and its effectiveness does not seem to be dependent on nondirect caregivers' participation in the sessions. This process encourages the continuation of advanced supportive technology to patients with the potential to survive and allows the earlier withdrawal of advanced supportive technology when it is ineffective.
   
2. Hare, J. M., G. C. Nguyen, et al. (2002). "Exhaled nitric oxide: a marker of pulmonary hemodynamics in heart failure." J Am Coll Cardiol 40(6): 1114-9.
   
   OBJECTIVES: We sought to test the hypothesis that patients with decompensated heart failure (HF) lose a compensatory process whereby nitric oxide (NO) maintains pulmonary vascular tone. BACKGROUND: Exhaled nitric oxide (eNO) partially reflects vascular endothelial NO release. Levels of eNO are elevated in patients with compensated HF and correlate inversely with pulmonary artery pressures (PAP), reflecting pulmonary vasodilatory activity. METHODS: We measured the mean mixed expired NO content of a vital-capacity breath using chemiluminescence in patients with compensated HF (n = 30), decompensated HF (n = 7) and in normal control subjects (n = 90). Pulmonary artery pressures were also measured in patients with HF. The eNO and PAP were determined sequentially during therapy with intravenous vasodilators in patients with decompensated HF (n = 7) and in an additional group of patients with HF (n = 13) before and during administration of milrinone. RESULTS: The eNO was higher in patients with HF than in control subjects (9.9 +/- 1.1 ppb vs. 6.2 +/- 0.4 ppb, p = 0.002) and inversely correlated with PAP (r = -0.81, p < 0.00001). In marked contrast, patients with decompensated HF exhibited even higher levels of eNO (20.4 +/- 6.2 ppb) and PAP, but there was a loss of the inverse relationship between these two variables. During therapy (7.3 +/- 6 days) with sodium nitroprusside and diuresis, hemodynamics improved, eNO concentrations fell (11.2 +/- 1.2 ppb vs. before treatment, p < 0.05), and the relationship between eNO and PAP was restored. After milrinone, eNO rose proportionally with decreased PAP (p < 0.05). CONCLUSIONS: Elevated eNO may reflect a compensatory circulatory mechanism in HF that is lost in patients with clinically decompensated HF. The eNO may be an easily obtainable and quantifiable measure of the response to therapy in advanced HF.
   
3. Deykin, A., A. F. Massaro, et al. (2002). "Exhaled nitric oxide as a diagnostic test for asthma: online versus offline techniques and effect of flow rate." Am J Respir Crit Care Med 165(12): 1597-601.
   
   Measurement of the fraction of exhaled nitric oxide (FENO) has been proposed as a noninvasive assessment of asthmatic airway inflammation. The influence of the expiratory flow rate during the collection maneuver on the ability of FENO to discriminate healthy subjects from those with asthma is unknown. We compared online and offline measurement of FENO at different flow rates. FENO was collected with expiratory flows of 50-500 ml/second in 34 patients with asthma (PC(20) of less than 8 mg/ml) and 28 healthy subjects (PC(20) of more than 10 mg/ml) using offline collection techniques. In a subgroup of 18 individuals with asthma and 17 healthy subjects, we additionally measured FENO at multiple expiratory flow rates (47-250 ml/second) using online methods. FENO fell with an increasing expiratory flow rate; FENO was higher in subjects with asthma as compared with healthy subjects at each flow rate studied with both techniques (p < 0.001). Receiver operating characteristic (ROC) curves for the diagnosis of asthma indicated that FENO is a robust discriminator between individuals with asthma and healthy subjects (area under the ROC curves 0.79 +/- 0.06 to 0.86 +/- 0.06, p for significant discrimination < 0.0001). Neither expiratory flow rate nor collection technique (online versus offline) significantly altered this discriminatory capacity (area under the ROC curves = 0.84 +/- 0.07 with the slowest online method versus 0.80 +/- 0.07 with the fastest offline method, p = 0.46). These data indicate that the choice of expiratory flow rate and collection method can be based on practicality and patient comfort without compromising the utility of this test for asthma.
   
4. Lilly, C. M., D. L. De Meo, et al. (2000). "An intensive communication intervention for the critically ill." Am J Med 109(6): 469-75.
   
   PURPOSE: We sought to determine the effects of a communication process that was designed to encourage the use of advanced supportive technology when it is of benefit, but to limit its burdens when it is ineffective. We compared usual care with a proactive, multidisciplinary method of communicating that prospectively identified for patients and families the criteria that would determine whether a care plan was effective at meeting the goals of the patient. This process allowed caregivers to be informed of patient preferences about continued advanced supportive technology when its continuation would result in a compromised functional outcome or death. MATERIALS AND METHODS: We performed a before-and-after study in 530 adult medical patients who were consecutively admitted to a university tertiary care hospital for intensive care. Multidisciplinary meetings were held within 72 hours of critical care admission. Patients, families, and the critical care team discussed the care plan and the patients' goals and expectations for the outcome of critical care. Clinical "milestones" indicative of recovery were identified with time frames for their occurrence. Follow-up meetings were held to discuss palliative care options when continued advanced supportive technology was not achieving the patient's goals. We measured length of stay, mortality, and provider team and family consensus in 134 patients before the intensive communication intervention and in 396 patients after the intervention. RESULTS: Intensive communication significantly reduced the median length of stay from 4 days (interquartile range, 2 to 11 days) to 3 days (2 to 6 days, P = 0.01 by survival analysis). This reduction remained significant after adjustment for acute physiology and chronic health evaluation (APACHE) 3 score [risk ratio (RR) = 0.81; 95% confidence interval (CI), 0.66 to 0.99; P = 0.04). Subgroup analysis revealed that this reduction occurred in our target group, patients with acuity scores in the highest quartile who died (RR = 0.60; 95% CI, 0.38 to 0.92; P = 0.02). The intervention, which allowed dying patients earlier access to palliative care, was not associated with increased mortality. CONCLUSIONS: Intensive communication was associated with a reduction in critical care use by patients who died. Our multidisciplinary process targeted advanced supportive technology to patients who survived and allowed the earlier withdrawal of advanced supportive technology when it was ineffective.
   
5. Deykin, A., O. Belostotsky, et al. (2000). "Exhaled nitric oxide following leukotriene E(4) and methacholine inhalation in patients with asthma." Am J Respir Crit Care Med 162(5): 1685-9.
   
   Nitric oxide (NO) is a molecular gas that can be recovered in higher levels from the exhaled gas of subjects with asthma than from subjects without asthma. However, the precise mechanisms responsible of promoting increased fraction of expired nitric oxide (FE(NO)) in asthma are unknown. As leukotriene antagonism has been shown to reduce FE(NO) in patients with asthma, we hypothesized that leukotrienes mediate the increased FE(NO) encountered in this condition. Furthermore, because leukotriene antagonism stabilizes serum eosinophil markers during reductions in inhaled corticosteroid doses, and FE(NO) has been shown to correlate with sputum eosinophils in asthma, we reasoned that the effect of leukotrienes on FE(NO) might be mediated by eosinophils recruited to the airway by leukotrienes. To test this hypothesis, we performed methacholine and leukotriene (LT) E(4) bronchoprovocation challenges in 16 subjects with atopic asthma and measured FE(NO) and sputum differential counts before and after bronchoprovocation. We then compared FE(NO) in the seven subjects who developed increased sputum eosinophils following LTE(4) inhalation with values measured after methacholine inhalation in these seven subjects. Following LTE(4) inhalation, eosinophils rose from 4.01 +/- 0.89% pre-LTE(4) to 8.33 +/- 1.52% post-LTE(4). The mean change in sputum eosinophils from baseline after LTE(4) inhalation was larger than that after methacholine inhalation (+4.31 +/- 1.25% versus -1.14 +/- 0.93%). After LTE(4) inhalation, FE(NO) levels did not differ from prechallenge baseline or from levels following methacholine inhalation (ANOVA p > 0.05). These data indicate that neither LTE(4) nor recruitment of eosinophils into the airway by LTE(4) is a sufficient stimulus to acutely increase FE(NO) in subjects with asthma.
   
6. Deykin, A., A. F. Massaro, et al. (2000). "Exhaled nitric oxide following repeated spirometry or repeated plethysmography in healthy individuals." Am J Respir Crit Care Med 161(4 Pt 1): 1237-40.
   
   Subjects with asthma have higher concentrations of exhaled nitric oxide (NO) than normal individuals. It has been demonstrated that in asthmatics, repeated FVC maneuvers reduce NO. Although the cause of this phenomenon is not known, it has been hypothesized that deep breaths associated with FVC maneuvers reduce exhaled NO by affecting neural sources of NO, possibly via a mechanism related to the pathobiology of asthma. To establish whether FVC maneuvers influence NO concentrations in normal individuals, we measured exhaled NO at baseline values and after FVC maneuvers performed every 15 min for 1 h in subjects without asthma. To investigate the role of deep breaths in reducing exhaled NO, we compared these results with concentrations of exhaled NO after plethysmography. Repeated FVC maneuvers over 60 min produced a decrease in NO concentrations in mixed expired gas (F(E)NO; 24.6 +/- 5.1% decrease for F(E)NO, p < 0. 01 versus baseline). In contrast to the results after spirometry, repeated specific airway conductance (sGaw) maneuvers do not have a significant effect on F(E)NO (p = 0.16). These results, which demonstrate that in nonasthmatic subjects FVC maneuvers-but not panting maneuvers-produce a fall in NO, suggest that the mechanism responsible for the reduction in exhaled NO after FVC maneuvers is related to volume history of the lung rather than the pathobiology of asthma.
   
7. Deykin, A., O. Halpern, et al. (1998). "Expired nitric oxide after bronchoprovocation and repeated spirometry in patients with asthma." Am J Respir Crit Care Med 157(3 Pt 1): 769-75.
   
   Compared with normal individuals, subjects with asthma have elevated levels of expired nitric oxide (NO). These levels are hypothesized to reflect the degree of airway inflammation. Expired NO levels rise during the late phase of allergen challenge and decrease in asthmatics after steroid treatment. Isocapnic cold air hyperventilation (ISH) is believed to cause airway narrowing through noninflammatory mechanisms. We measured mixed expired NO in 10 individuals with atopic asthma who underwent both ISH challenge and allergen challenge, and compared these measurements with the change in expired NO that occurred after serial spirometry alone. We found that ambient NO levels affected mixed expired NO. Controlling for inspired NO, we found that repeated spirometry alone produced a significant fall in mixed expired NO (p < 0.01) that was maximal after 30 min (36.6 +/- 8.5% fall). After allergen and ISH challenges, expired NO was elevated relative to levels after repeated spirometry (p < 0.01 and p = 0.065, respectively). In addition, we found that prechallenge expired NO levels were significantly correlated with the magnitude of the late fall in FEV1 following allergen challenge (r = 0.80, p < 0.01). These data demonstrate that repeated spirometry results in reduced mixed expired NO and suggest that both ISH and allergen-induced bronchoconstriction share pathobiologic mechanisms that produce increases in mixed expired NO.
   
8. Massaro, A. F. and J. M. Drazen (1996). ""Exhaled nitric oxide during exercise: site of release and modulation by ventilation and blood flow"." J Appl Physiol 80(6): 1863-4.
   
9. Massaro, A. F., S. Mehta, et al. (1996). "Elevated nitric oxide concentrations in isolated lower airway gas of asthmatic subjects." Am J Respir Crit Care Med 153(5): 1510-4.
   
   Previous studies have raised the possibility that the measurement of nitric oxide (NO.) concentrations in expired air may represent a noninvasive measure of lower airway inflammation. To address the question of whether the elevated NO. recovered in mixed expired air from asthmatic subjects is a reflection of the pulmonary airway microenvironment or merely nasopharyngeal contamination, mixed expired NO. determinations were performed in five normal and five asthmatic subjects before and after orotracheal intubation (thereby isolating the lower airway gas from ambient air contamination or gas conditioned in the nasopharynx). The mixed expired NO. concentrations determined in patients with asthma were significantly elevated (p < 0.05 or less) above those of normal subjects in both the pre- and postintubation samples. After intubation, mixed expired NO. levels were 4.7 +/- 1.3 ppb and 13.2 +/- 2.0 ppb in normal and asthmatic individuals, respectively; the difference in these values was statistically significant (p < 0.01). Lower airway gas, sampled through the bronchoscope during a breathhold, was found to contain NO. concentrations of 7.0 +/- 1.2 ppb and 40.5 +/- 5.6 ppb at the tracheal carina of normal and asthmatic individuals, respectively. The asthmatic values were significantly (p < 0.01) elevated above those found in normal subjects. These findings indicate that the difference in mixed expired NO. of normal subjects and asthmatics reflects a difference in NO. concentration present in the lower airway.
   
10. Massaro, A. F., B. Gaston, et al. (1995). "Expired nitric oxide levels during treatment of acute asthma." Am J Respir Crit Care Med 152(2): 800-3.
    
    Nitric oxide (NO) is known to be present in measurable quantities in the exhaled air of normal subjects and at higher concentrations in asthmatic subjects not treated with glucocorticoids. We confirmed these findings by analyzing the mean mixed expired NO concentrations of 43 stable asthmatics and 90 normal subjects; NO levels were higher in the asthmatic population (13.9 parts per billion [ppb] versus 6.2 ppb, p < 0.001). Although the effects of glucocorticoids on the NO content of mixed expired air are known, it is not known if beginning systemic glucocorticoid therapy reduces exhaled NO levels in a given individual. To examine this question, seven patients needing emergency therapy for asthma underwent repeated measurements of mixed expired NO levels during their course of treatment with glucocorticoids. All patients had a reduction in mixed expired NO concentration (p = 0.002) and an accompanying improvement in airway obstruction. The decrease in exhaled NO was evident as early as 48 h after the initiation of therapy (p = 0.05). These data suggest mixed expired NO concentrations may prove useful as an index of asthma severity and treatment efficacy for an individual patient.
    
11. Schoof, D. D., A. F. Massaro, et al. (1992). "The biological effects of immunosuppression on cellular immunotherapy." Surg Oncol 1(1): 27-35.
    
    Cytoreductive chemotherapy and immunosuppression have been postulated as possible adjuncts to cancer immunotherapy in studies using murine tumour-infiltrating lymphocytes (TIL). Treatment of animals with cyclophosphamide (Cy) therapy alone caused two distinct biological activities that altered the relationship between host and tumour. These two in vivo activities were distinguished by altering the timing and dose of Cy administration relative to tumour implantation. Cy administered 3 days following tumour injection caused a significant decline in the number of pulmonary micrometastases and greater survival compared to untreated controls in proportion to the dose of Cy administered. Further reduction in pulmonary disease was observed when Cy-treated mice were given TIL therapy. The possible role(s) of Cy-induced immunosuppression was studied by injecting Cy 24 h prior to tumour injection. This treatment failed to cause the cytoreductive effect observed when Cy was administered 3 days after tumour since Cy-administration prior to tumour resulted in a significantly higher number of pulmonary metastases and diminished survival compared to untreated controls. Despite the increased number of pulmonary metastases and decreased survival in mice treated with Cy before administration of tumour, therapy with TIL significantly diminished pulmonary disease compared to animals treated with Cy alone. Immunosuppression (without concomitant cytoreductive therapy) prior to TIL treatment significantly prolonged survival. Additional studies with TIL therapy indicate that the survival of animals immunosuppressed prior to tumour injection was significantly longer than controls which received immunotherapy alone. These results suggest that the combustion of immunosuppression plus cellular immunotherapy, which leads to significant survival advantage in these murine tumour models, may possibly augment the clinical response in human TIL trials.
    
12. Schoof, D. D., C. M. Selleck, et al. (1990). "Activation of human tumor-infiltrating lymphocytes by monoclonal antibodies directed to the CD3 complex." Cancer Res 50(4): 1138-43.
    
    We have used high concentrations of recombinant-methionyl human interleukin 2 (rIL-2) for the initial growth and expansion of human tumor-infiltrating lymphocytes (TIL). Early in the life of the TIL bulk culture, cytotoxicity was non-major histocompatibility complex restricted. Under these culture conditions antitumor cytotoxicity was observed to decline with increasing age of the bulk culture. In addition, TIL became refractory to rIL-2-induced expansion. We have used solid-phase anti-CD3 antibodies for TIL activation followed by culture in reduced concentrations of rIL-2 to reactivate TIL previously grown in high concentrations of rIL-2. TIL refractory to rIL-2 in terms of growth and antitumor cytotoxicity proved sensitive to anti-CD3 activation. The use of solid-phase anti-CD3 was also more effective than high concentrations of rIL-2 in the expansion of TIL when used at the start of culture. Finally, TIL could be induced to secrete IL-2 following solid-phase activation with anti-CD3. These data suggest that human TIL are susceptible to activation by signals directed at the CD3 complex of the TIL cell surface.
    
13. Massaro, A. F., D. D. Schoof, et al. (1990). "Solid-phase anti-CD3 antibody activation of murine tumor-infiltrating lymphocytes." Cancer Res 50(9): 2587-92.
    
    Seventeen consecutive s.c. murine tumors, derived from a sarcoma and a colon adenocarcinoma, were cultured in the presence of recombinant interleukin 2 (rIL-2) for growth of tumor-infiltrating lymphocytes (TIL). Identical cultures were activated by solid-phase monoclonal antibody directed against the murine CD3 epsilon-chain, in conjunction with rIL-2. Forty-eight h later, cells were replaced in rIL-2 alone. Proliferation of anti-CD3-stimulated cultures was 1- to 17-fold greater than those cultured with rIL-2 alone (P less than 0.05). Both culture conditions yielded TIL which stained greater than 80% Thy-1.2+/Lyt-2+ (P greater than 0.05), less than 7% Thy-1.2+/L3T4+ (P greater than 0.05). Regardless of culture condition, longitudinal studies of in vitro cytotoxicity generated from 10 TIL preparations revealed no significant differences between the ability of TIL to lyse the murine natural killer-sensitive line YAC or heterologous or autologous tumor (P greater than 0.05). In vivo antitumor activity of TIL was tested by the adoptive transfer of suboptimal doses of TIL plus systemic rIL-2 to mice with pulmonary micrometastatic disease. No difference in tumor regression was noted between the TIL cultured with anti-CD3 plus rIL-2 or with rIL-2 alone (P greater than 0.05). Anti-CD3 stimulation of murine TIL cultures significantly increases lymphocyte cell yield without alteration of their phenotype, in vitro tumoricidal activity, or in vivo therapeutic effect.
    
14. Eberlein, T. J., D. D. Schoof, et al. (1989). "Ibuprofen causes reduced toxic effects of interleukin 2 administration in patients with metastatic cancer." Arch Surg 124(5): 542-7.
    
    Metastatic cancer was treated with interleukin 2 and lymphokine-activated killer cells with the addition of the cyclooxygenase inhibitor ibuprofen in an attempt to reduce side effects in 13 patients (eight male and five female). Twenty-six patients treated with only interleukin 2 and lymphokine-activated killer cells formed the control group. After interleukin 2 administration, a significantly increased number of lymphokine-activated killer cells were transfused in ibuprofen-treated patients. Cytotoxic effects were not significantly different in the treated and untreated groups. With regard to cell phenotype, both groups of patients manifested significant activation of the immune system as measured by T10 and OK1a. Symptom scores were dramatically reduced in patients treated with ibuprofen. Temperature above 37 degrees C were rare. Ibuprofen did not significantly alter rate of response in this immunotherapy trial (38% vs 42%). Ibuprofen is now routinely used in all of our current immunotherapy trials.
    
15. Eberlein, T. J., M. L. Rodrick, et al. (1989). "Immunomodulatory effects of systemic low-dose recombinant interleukin-2 and lymphokine-activated killer cells in humans." Cancer Immunol Immunother 30(3): 145-50.
    
    The adoptive immunotherapy of human cancer using lymphokine-activated killer (LAK) cells in combination with high-dose systemic recombinant interleukin-2 (rIL-2) has been associated with global changes in several hematological and immunological parameters while imposing profound toxicity on patients. We have evaluated an alternative LAK cell therapy utilizing low-dose systemic rIL-2 is also characterized by significant changes in immunological and hematological parameters, which are qualitatively similar to those induced by high-dose rIL-2. Low-dose systemic rIL-2, given by i.v. bolus, is cleared to baseline levels within 240 min of administration. The induction of lymphocytosis and eosinophilia, which has characterized other protocols, is also a feature of this protocol. In addition, low-dose systemic rIL-2/LAK cell immunotherapy results in increased peripheral blood mononuclear cell (PBMC) expression of T-cell activation markers such as OKIa, OKT10 and IL-2 receptor. PBMC sampled approximately 100 h after the final infusion of LAK cells demonstrated a statistically significant increase in their ability to kill natural killer (NK)-sensitive and NK-resistant cell lines such as K562 and Daudi compared to baseline values (P less than .05). These data suggest that rIL-2-based immunotherapy using low-dose rIL-2 is capable of inducing quantitative hematological and immunological changes while (in combination with LAK cells) retaining the ability to mediate tumor regression in vivo.
    
16. Schoof, D. D., B. A. Gramolini, et al. (1988). "Adoptive immunotherapy of human cancer using low-dose recombinant interleukin 2 and lymphokine-activated killer cells." Cancer Res 48(17): 5007-10.
    
    The adoptive transfer of recombinant-methionyl human interleukin 2 (rIL-2)-activated autologous peripheral blood mononuclear lymphokine-activated killer (LAK) cells to cancer patients is being evaluated as an alternative to conventional cancer therapy. We have independently developed an alternative regimen to previously reported adoptive immunotherapy protocols using rIL-2 and LAK cells which features the prolonged administration of low-dose rIL-2 (30,000 units/kg) and an automated, entirely enclosed system of peripheral blood cell procurement, culture, harvest, and reinfusion of activated cells. The cell culture system was tested with a murine tumor model in which LAK cells generated in plastic culture bags were reinfused into tumor-bearing mice. Tumor regression was as effective with cells activated in the bags as in conventional culture flasks. Twenty-eight cancer patients were treated for 5 consecutive days with low-dose rIL-2, followed by leukapheresis, infusion of LAK cells, and prolonged IL-2 administration. At least 50% tumor regression was observed in 46% of all patients treated. These data imply that human peripheral blood mononuclear cells retain fully their capacity for rIL-2-induced activation and effector cell function under this alternative approach, and further, that a low-dose rIL-2 regimen with markedly reduced toxicities can be as effective as high-dose rIL-2 regimens if low-dose rIL-2 is given for a prolonged period of time following LAK cell infusion.
    
17. Eberlein, T. J., D. D. Schoof, et al. (1988). "A new regimen of interleukin 2 and lymphokine-activated killer cells. Efficacy without significant toxicity." Arch Intern Med 148(12): 2571-6.
    
    Adoptive immunotherapy with high-dose interleukin 2 and lymphokine-activated killer (LAK) cells has proved to be successful in the treatment of some patients with metastatic cancer, but not without a significant degree of associated toxic effects. The primary goal of this study was to substantially reduce the toxicity of this complex and expensive treatment, while maintaining or improving efficacy. To this end, 29 patients were treated with LAK cells in conjunction with a low-dose regimen of interleukin 2 and a prolonged period of administration following LAK cell infusion. This protocol resulted in a considerable reduction in toxicity, as compared with that described in previous studies, without compromising the efficacy. This study offers further confirmation that adoptive immunotherapy of metastatic cancer can be clinically beneficial to patients for whom no other effective therapy is presently available.