Faculty
Christopher H. Fanta, M.D.
Specialty: Pulmonary Medicine
Brigham and Women’s Hospital
Clinics 3
15 Francis Street
Boston, MA 02115
Publications
The following is a list of recent publications for which this Partners Asthma Center physician has been cited as an author in PubMed databases. Study abstracts have been provided for your convenience.
Fanta CH, Haver KH, Cristiano LM. Harvard Medical School Guide to Taking Control of Asthma. New York: Free Press (Simon & Schuster); 2004.
This book is written as a guide for patients with asthma and for their families and friends. It provides up-to-date and reliable information about asthma in an easily readable style. This book is organized into three sections. The first section reviews what asthma is, how it is diagnosed, and how you can judge its severity. It also explores potential explanations for the rising prevalence of asthma in our communities. The second section describes in detail the medications and other modalities available to treat asthma. It emphasizes practical details, including how to take your medications effectively, what short- and long-term side effects to expect, and what relative advantages and disadvantages each one has. The third section guides you through strategies for managing your asthma, both on a day-to-day basis and when faced with flare-ups of your symptoms (asthmatic “attacks”). It includes information about managing asthma under special circumstances (for example, in very young children, in the elderly, and during pregnancy) and what to consider if your asthma isn’t getting better.
Fanta CH, Carter EL, Steib ES, Haver KE. The Asthma Educator’s Handbook. New York: McGraw Hill; 2007.
This book is written for medical healthcare professionals, including those who may be interested in becoming certified as an Asthma Educator. We have organized the Handbook into a two major sections: “The Fundamentals” and “Practical Aspects of Asthma Care.” In the section on “The Fundamentals” of asthma, we address what asthma is and its relation to allergies; making the diagnosis of asthma; defining the severity of asthma (using the four stages of asthma severity proposed by the NAEPP); the medications used to treat asthma, including their potential side-effects; and the use of these medications in a stepwise approach based on asthma severity. We include a chapter that addresses the special considerations of asthma diagnosis and management in young children.
In the section on “Practical Aspects of Asthma Care,” we discuss the many practical details that patients or patients’ caregivers need to know about measuring lung function and peak flow; identifying and avoiding allergens in the home, school, or work environments; using metered-dose inhalers, dry-powder inhalers, and inhalational aids (“spacers”); and developing asthma action plans. We include detailed information about pulmonary function testing as part of our discussion on peak flow monitoring. And we include a chapter on hospital-based management of asthmatic attacks as preface to discussing asthma action plans (which are guides to initial, patient-initiated home management of asthmatic attacks).
Kitch, B. T., B. D. Levy, et al. (2000). "Late onset asthma: epidemiology, diagnosis and treatment." Drugs Aging 17(5): 385-97.
Asthma is common among older persons, affecting approximately 4 to 8% of those above the age of 65 years. Despite its prevalence, late onset asthma may be misdiagnosed and inadequately treated, with important negative consequences for the patient’s health. The histopathology of late onset disease appears to be similar to that of asthma in general, with persistent airway inflammation a characteristic feature. It is less clear, however, that allergic exposure and sensitisation play the same role in the development of disease in adults as they do in children. Atopy is less common among those with late onset asthma, and the prevalence of elevated immunoglobulin E levels is lower among those aged over 55 years of age than younger patients. Occupational asthma is an aetiological consideration unique to adult onset disease, with important implications for treatment. The differential diagnosis for cough, wheeze, and dyspnoea in the elderly is broad, and includes chronic obstructive bronchitis, bronchiectasis, congestive heart failure, lung cancer with endobronchial lesion and vocal cord dysfunction. Keys to accurate diagnosis include a good history and physical examination, the demonstration of reversible airways obstruction on pulmonary function tests and a favorable response to treatment. Inhaled corticosteroid therapy is recommended for patients with persistent disease, and careful instruction in the use of metered-dose inhalers is particularly important for the elderly.
Levy, B. D., B. Kitch, et al. (1998). "Medical and ventilatory management of status asthmaticus." Intensive Care Med 24(2): 105-17.
Despite improved understanding of the basic mechanisms underlying asthma, morbidity and mortality remain high, especially in the "inner cities." The treatment of choice in status asthmaticus includes high doses of inhaled beta 2-agonists, systemic corticosteroids, and supplemental oxygen. The roles of theophylline and anticholinergics remain controversial, although in general these agents appear to add little to the bronchodilator effect of inhaled beta-agonists in most patients. Anti-leukotriene medications have not yet been evaluated in acute asthma. Other therapies, such as magnesium sulfate and heliox, have their advocates but are not recommended as part of routine care. If pharmacological therapy does not reverse severe airflow obstruction in the asthmatic attack, mechanical ventilation may be temporarily required. Based on our current understanding of ventilator-induced lung injury, optimal ventilation of asthmatic patients avoids excessive lung inflation by limiting minute ventilation and prolonging expiratory time, despite consequent hypercapnia. Unless respiratory function is extremely unstable, the use of paralytic agents is discouraged because of the increased risk of intensive care myopathy. Patients who have suffered respiratory failure due to asthma are at increased risk for subsequent death due to asthma (14% mortality at 3 years) and should receive very close medical follow-up. In general, severe asthmatic attacks can best be prevented by early intervention in the outpatient setting. In the words of Dr. Thomas Petty, "... the best treatment of status asthmaticus is to treat it three days before it occurs".
Moan, M. J. and C. H. Fanta (1995). "Bronchodilator therapy in the management of acute asthma." Compr Ther 21(8): 421-7.
Bronchodilator management of acute severe asthma has evolved considerably in recent years. beta-adrenergic agonists have emerged as the single most potent class of bronchodilator available, and the inhalational route of administration has proven to be the most effective and least toxic method of delivery except among apneic or highly uncooperative patients. Other bronchodilators, including aminophylline, inhaled anticholinergics, and intravenous magnesium sulfate, are significantly less potent drugs for reversal of bronchoconstriction. In most patients these agents do not promote significant bronchodilation beyond that achieved with an intensive regimen of inhaled beta agonists; subsets of patients that might benefit from these other agents remain to be identified. Questions remain as to the optimal dose, frequency of administration, and mode of inhalational delivery of the beta agonists in acute asthma. Finally, it is important to remember that bronchodilator therapy constitutes only one component in the treatment of acute severe asthma. Treatment of airway inflammation with systemic corticosteroids is another vital component, as are supplemental oxygen in the hypoxemic patient, close monitoring of lung function, attention to the possibility of hypercapnic respiratory failure, patient education, and a plan of care following emergency department discharge.
Shadick, N. A., C. H. Fanta, et al. (1994). "Bronchiectasis. A late feature of severe rheumatoid arthritis." Medicine (Baltimore) 73(3): 161-70.
Bronchiectasis as a feature of rheumatoid arthritis is considered rare and, in most series, has preceded rheumatoid arthritis. We identified 23 patients with rheumatoid arthritis and bronchiectasis at the Brigham and Women’s Hospital followed between 1984 and 1991, 18 of whom had arthritis preceding lung disease. The 18 patients with rheumatoid arthritis and subsequent bronchiectasis had a mean age of 63.8 years. Fourteen were women and 4 were men, with a mean arthritis duration of 24.7 years before bronchiectasis developed. Most patients had seropositive and nodular disease. All but 1 had advanced radiographic changes of rheumatoid arthritis, and many had received joint replacement surgery. In addition to standard treatment regimens, 17 patients had received corticosteroids. Productive cough, hemoptysis, and dyspnea were the most common respiratory symptoms and were present for an average of 4.3 years prior to bronchiectasis diagnosis. The most common radiographic abnormalities were bibasilar diffusely increased interstitial markings and focal infiltrates, although nodules, bullae, cysts, and air-fluid levels were found. Common pulmonary-function abnormalities were obstructive and/or restrictive abnormalities. Three patients died of complications relating to bronchiectasis. Five patients with rheumatoid arthritis had antecedent bronchiectasis. Compared with patients with rheumatoid arthritis and subsequent bronchiectasis, those with antecedent lung disease had milder arthritis (stage I or II radiographic changes, p < 0.001), a lower frequency of rheumatoid nodules (p < 0.05) and a lower comorbidity score (5.8 versus 9.4, p < 0.01). They also had received fewer disease-modifying agents for the treatment of their rheumatoid arthritis. Bronchiectasis can be a feature of rheumatoid arthritis and is often found in patients with severe, long-standing nodular disease. Recurrent pulmonary infections and respiratory failure occur and may be fatal.
Drazen, J. M., J. O'Brien, et al. (1992). "Recovery of leukotriene E4 from the urine of patients with airway obstruction." Am Rev Respir Dis 146(1): 104-8.
The urinary excretion of leukotriene E4 (LTE4) was measured in subjects presenting for emergency treatment of airway obstruction. A total of 72 subjects presenting with airway obstruction performed peak flow determinations before and after three treatments with nebulized albuterol given at 20-min intervals. Of these subjects, 22 more than doubled their peak flow rates, while 19 failed to increase their peak flow rates more than 25% during the treatment period. These groups were designated "responders" and "nonresponders," respectively. Urinary LTE4 excretion was determined in 16 of the 22 responders and 12 of the 19 nonresponders as well as 13 normal subjects by precolumn extraction, analytic reversed-phase high-performance liquid chromatography, and enzyme immunoassay. In the normal subjects the urinary LTE4 excretion was significantly (p less than 0.0001) less than the urinary LTE4 measured in the responder subjects, but not less than the urinary LTE4 excretion in the nonresponder group (p = 0.071). The enhanced recovery of LTE4 from the urine of subjects with acutely reversible airway narrowing is consistent with a bronchoconstrictor role for the cysteinyl leukotrienes in spontaneous acute asthma.
Fanta, C. H. (1989). "Asthma in the elderly." J Asthma 26(2): 87-97.
Fanta, C. H., J. W. Watson, et al. (1987). "In vivo bronchodilator activity of nifedipine in the guinea pig." Am Rev Respir Dis 136(1): 76-9.
We administered histamine subcutaneously to anesthetized guinea pigs to induce prolonged bronchoconstriction and then tested the effect of intravenously administered nifedipine on pulmonary resistance (RL) and dynamic compliance (Cdyn). One mg of subcutaneously administered histamine caused RL to increase by an average of more than 250% and Cdyn to fall on average to 26% of baseline; mean RL remained more than twice baseline, and mean Cdyn remained less than half baseline for 80 min. Intravenously administered nifedipine 3 micrograms/kg and ethanol (diluent) administered 25 min after histamine had no effect on RL but caused a slightly greater fall in Cdyn than in the control animals treated with histamine alone. Nifedipine 30 micrograms/kg, however, exhibited significant bronchodilator activity: 35 min after nifedipine 30 micrograms/kg, RL decreased on average to 41 +/- 17% above baseline (p less than 0.02), and Cdyn increased to 49 +/- 5% below baseline (p less than 0.0001). By comparison, isoproterenol (0.3 to 3.0 micrograms/kg) caused bronchodilation of more rapid onset (within 1 min) and shorter duration of action (approximately 10 min). Thus, we were able to demonstrate bronchodilator activity of nifedipine in vivo, as had been predicted by in vitro studies of guinea pig and human tracheal strips. These results would appear to justify continued exploration of the potential role for calcium channel blockers in the treatment of obstructive lung disease.
Schwartzstein, R. S. and C. H. Fanta (1986). "Orally administered nifedipine in chronic stable asthma. Comparison with an orally administered sympathomimetic." Am Rev Respir Dis 134(2): 262-5.
Calcium channel blockers have been shown to attenuate bronchoconstriction when given prior to bronchoprovocation challenge testing. However, they have not been found to induce bronchodilation when administered to asthmatic subjects with normal baseline lung function. In vitro data, on the other hand, suggest that preconstricted tracheal strips can be made to relax by the addition of calcium channel blockers. Therefore, we compared the effects of orally administered nifedipine (20 mg), albuterol (4 mg), and placebo on airway function in 10 asthmatic subjects with chronic stable asthma and baseline bronchoconstriction in a double-blinded, randomized, cross-over trial. Nifedipine caused a significant increase in FEV1 (0.21 +/- 0.08 SEM L) at 40 min after administration of the drug. The mean of the change in FEV1 throughout the 2-h observation period after nifedipine (0.19 +/- 0.08 L) was significant when compared with baseline (p less than 0.05) and placebo control values (p less than 0.005) but tended to be less than the bronchodilation observed after albuterol. Only 3 subjects had an increase in FEV1 greater than 10% of their baseline value after nifedipine compared with 7 subjects after albuterol and 2 subjects after placebo. These results are at least consistent with the hypothesis of a direct action of calcium channel blockers on bronchial smooth muscle and indicate that orally administered nifedipine has a weak bronchodilating effect in subjects with chronic stable asthma who have abnormal lung function.
Fanta, C. H., T. H. Rossing, et al. (1986). "Treatment of acute asthma. Is combination therapy with sympathomimetics and methylxanthines indicated?" Am J Med 80(1): 5-10.
The role of bronchodilator regimens combining a sympathomimetic and a methylxanthine in the treatment of acute exacerbations of asthma remains controversial. This report describes the outcome of 157 emergency room visits for asthma in which patients were randomly assigned to single-drug therapy with intravenous aminophylline, subcutaneous epinephrine, or inhaled isoproterenol or to one of three regimens combining a sympathomimetic and a methylxanthine. The increase in one-second forced expiratory volume after one hour of treatment with the two-drug combinations (0.79 +/- 0.07 liter) was significantly greater than for epinephrine alone (0.57 +/- 0.08 liter; p less than 0.05) but did not differ significantly from that occurring with therapy with isoproterenol alone (0.72 +/- 0.09 liter; p = NS). This disparity reflects the greater bronchodilation effected by isoproterenol as a single agent than by epinephrine, in the dosing schedules and routes of administration chosen. Among patients presenting with severe airflow obstruction (one-second forced expiratory volume 35 percent or less of normal), the bronchodilator response to isoproterenol alone was 0.88 +/- 0.14 liter versus 0.51 +/- 0.11 for epinephrine alone (p less than 0.05). It is concluded that the observed benefit derived from use of combination therapy depends on the dosage and potency of the particular sympathomimetic to which a methylxanthine is added, and on the severity of the airflow obstruction at presentation.
Solway, J. and C. H. Fanta (1985). "Differential inhibition of bronchoconstriction by the calcium channel blockers, verapamil and nifedipine." Am Rev Respir Dis 132(3): 666-70.
Recent studies have demonstrated that the calcium channel blocking agents can inhibit experimentally induced bronchoconstriction in asthmatics, but their protective action has been variable. To clarify the influence of stimulus intensity and choice of calcium blocker on these reported differences in outcome, we performed noncumulative thermal stimulus-response curves using isocapnic hyperventilation of cold air in 8 asthmatics. Subjects received pretreatment with orally administered nifedipine (20 mg), intravenously administered verapamil (10 mg bolus followed by a continuous infusion), or appropriate placebos in a randomized, double-blind fashion. Verapamil afforded no consistent protection against the thermal challenges, whereas nifedipine significantly blunted the bronchoconstrictor response to stimuli of low (p less than 0.02) and middle (p less than 0.03) intensity. At the highest thermal burden, the effect of nifedipine was inconsistent and not significantly different from that of placebo. These results indicate that the protection from bronchoconstriction afforded by the calcium channel blockers depends on the choice of agent and the intensity of the bronchoconstricting stimulus, and they raise the possibility that the contribution of transmembrane calcium ion influx to the pathogenesis of bronchoconstriction may vary according to stimulus intensity.
Solway, J., B. M. Pichurko, et al. (1985). "Breathing pattern affects airway wall temperature during cold air hyperpnea in humans." Am Rev Respir Dis 132(4): 853-7.
We studied the influence of flow rate on respiratory heat exchange in 9 healthy adult subjects using a new noninvasive technique, the single-breath temperature washout (SBTW) curve. The SBTW curve is a plot of exhaled gas temperature versus exhaled volume during a standard exhalation and consists of an initial rise (within the first 200 ml) to a plateau temperature that persists through the remainder of exhalation. We found that exhaled gas temperatures within the initial expirate were colder at every airway locus than corresponding intra-airway gas temperatures at end-inspiration, suggesting that heat exchange occurs between lumenal gas and the relatively cooler airway walls during exhalation. The SBTW plateau temperatures were: (1) lower after preconditioning the airways with rapid (80 L/min) isocapnic hyperpnea of frigid air than after less rapid (40 L/min) cold-air hyperpnea or after quiet breathing; (2) lower when, after identical airway preconditioning regimens, the SBTW exhalation was performed with a slower (0.5 versus 2.5 L/s) expiratory flow; and (3) lower when SBTW curves were obtained after airway preconditioning using respiratory patterns with larger inspiration-expiration duration (I:E) ratios (5:1 versus 1:5) at fixed minute ventilation and respiratory rate. Our results indicate that the global respiratory gas-wall heat transfer coefficient increases with velocity to the 0.9 power, a finding similar to that in previous studies of turbulent flow in rigid pipes.
Fanta, C. H. (1985). "Clinical aspects of mucus and mucous plugging in asthma." J Asthma 22(6): 295-301.
Abnormalities in the production and transport of airway secretions play an important role in the pathophysiology of asthma, especially during acute exacerbations of the disease. The synthesis of mucus becomes disordered, and other constituents of airway contents, including eosinophils and shed bronchial epithelial cells, contribute to the abnormal sputum that is produced. Altered viscoelastic properties of asthmatic mucus lead to impaired mucus transport rates. In addition, ciliary function may be directly inhibited by factors within the secretions. The consequence of these derangements is often widespread plugging of small bronchi and bronchioles. Occasionally, segmental or subsegmental atelectasis develops, but in most series radiographically visible atelectasis is uncommon. A rare complication is mucoid impaction of the bronchi, in which a central masslike opacity on chest radiograph is the manifestation of a large mucous plug in a major bronchus. A hypersensitivity reaction to fungi has been implicated in the formation of at least some mucoid impactions. A variety of pharmacological and other methods have been used in attempts to modify abnormal airway secretions and to promote their clearance, but none is of proven benefit. The development of effective therapies will probably require a better understanding of the regulation of normal mucociliary transport and of the disturbances that occur in asthma.
Fanta, C. H. (1985). "Calcium-channel blockers in prophylaxis and treatment of asthma." Am J Cardiol 55(3): 202B-209B.
Calcium-channel blocking drugs do not induce bronchoconstriction in susceptible persons with cardiac disease and concomitant hyperreactive airways (such as asthma or chronic bronchitis). The ways in which calcium blockers might in fact play a beneficial role in preventing bronchoconstriction or inducing bronchodilation in asthma are explored. Nifedipine and verapamil have been shown to inhibit the bronchoconstriction provoked by exercise, histamine, methacholine and antigen. The potential mechanisms by which this protective effect is mediated--whether by direct action on tracheobronchial smooth muscle, inhibition of release of mediators from activated mast cells or both--are examined by reviewing in vitro studies of both cell systems. Calcium blockers also exhibit some bronchodilating activity in vitro. Early clinical trials of these drugs in ambulatory asthmatic patients have shown little, if any, therapeutic benefit, but results must be considered preliminary in view of the nature of the short-term, small-scale trials performed to date. Regardless of their therapeutic potential in obstructive lung diseases, the calcium-channel blockers offer a powerful probe into the role of calcium in the physiologic make-up of airways and, in particular, the pathophysiologic features of airway hyperreactivity.
Fanta, C. H. and E. R. McFadden, Jr. (1985). "Pharmacokinetics and clinical response to single- and multiple-dose sustained-release theophylline compounds in perennial bronchial asthma." Am J Med 79(6A): 54-7.
Nine adult subjects with perennial bronchial asthma participated in a single-blind, cross-over, placebo-controlled study to evaluate and compare the effectiveness of a 24-hour sustained-release theophylline formulation, Uniphyl, with that of a twice-daily compound, Theo-Dur. The subjects took each drug for two weeks and monitored peak expiratory flow and recorded their symptoms in a diary three times daily. At the end of each experimental period, they were hospitalized for 24 hours for determination of the pharmacokinetics of the compound they were taking and the relationship between fluctuations in theophylline blood levels and changes in pulmonary mechanics. Both drugs were highly effective, and no significant differences between formulations were found in any aspects of the study. The results demonstrate that a single daily dose of Uniphyl is an efficacious form of therapy for controlling perennial asthma in adults.
Fanta, C. H. (1984). "Role of calcium in airway smooth muscle contraction and mast cell secretion." J Asthma 21(6): 387-405.
The principal pathological features of asthma, including tracheobronchial smooth muscle contraction and mast cell mediator synthesis and release, are calcium-dependent processes. Calcium plays an integral role in transmitting signals at the cell surface to the enzymatic machinery of the cell interior; its role as the agent for "excitation-contraction coupling" of airway smooth muscle and for "stimulus-secretion coupling" of mast cells is reviewed. A rise in intracellular calcium ion concentration triggers cellular activation. In smooth muscle, calcium bound to calmodulin stimulates the myosin light chain kinase which is important in the regulation of actin-myosin interaction. In mast cells, calcium may bind to calmodulin or to a calmodulinlike regulatory protein, and it also stimulates enzymes important in the synthesis of newly generated mediators including prostaglandins and leukotrienes. The regulatory role of cyclic AMP in both cell systems is discussed, especially as it pertains to calcium metabolism. By interfering with transmembrane calcium fluxes, the calcium channel blocking drugs have the potential for significantly modifying bronchoconstriction and airway inflammation in asthma and related bronchospastic disorders. Some of the in vitro studies of calcium channel blockers in these two cell systems are reviewed. Finally a speculation about the role of abnormal sensitivity to calcium in airway smooth muscle as a potential cause of airway hyperreactivity is entertained.
Rossing, T. H., C. H. Fanta, et al. (1983). "Effect of outpatient treatment of asthma with beta agonists on the response to sympathomimetics in an emergency room." Am J Med 75(5): 781-4.
It has been suggested that tolerance to the bronchodilating effects of sympathomimetics may develop in asthmatic patients after long-term use of these agents. In an emergency room setting, the effects of inhaled and injected sympathomimetic therapy in 58 patients who had pretreated themselves with beta agonists were compared with the results observed in 38 patients who had not used such drugs. The two groups had similar degrees of obstruction on presentation and were also well-matched with respect to the clinical features of their illness. Both populations showed equal responses to treatment; no significant differences were found in either the amount of bronchodilation or the incidence of adverse effects in those who had or had not taken sympathomimetics as outpatients. These findings indicate that drug resistance does not account for outpatient treatment failures with sympathomimetics and that beta agonists can be usefully employed in the treatment of acute asthma, irrespective of a patient’s medication history.
Fanta, C. H., T. H. Rossing, et al. (1983). "Glucocorticoids in acute asthma. A critical controlled trial." Am J Med 74(5): 845-51.
In order to determine objectively the efficacy of corticosteroids in relieving severe acute episodes of asthma, we administered infusions of hydrocortisone or placebo in a random, double-blind manner to 20 asthmatic subjects after they had been documented to be refractory to eight hours of conventional therapy. Eleven subjects received hydrocortisone (2 mg/kg bolus, then 0.5 mg/kg per hour for 24 hours) and nine received saline. All were given identical bronchodilator treatment during the study period, and all had multiple aspects of lung function serially recorded along with plasma cortisol levels. Although subjects in both groups had severe obstruction of similar magnitude at the beginning of treatment (one-second forced expiratory volume [FEV1] in placebo-treated group = 32 +/- 3 [SEM] percent of predicted, and 25 +/- 3 percent of predicted in steroid-treated group, p = NS), at the end of 24 hours, the subjects given corticosteroids had significantly greater resolution of airway obstruction (FEV1 in steroid-treated group increased 118 +/- 25 percent from control value, versus 35 +/- 22 percent with placebo). In five of nine subjects treated with placebo, pulmonary mechanics either were unchanged or deteriorated during the period of observation. There was no effect of the glucocorticoids on arterial blood gases, and no significant correlation could be found between plasma cortisol levels and the improvement in pulmonary mechanics and clinical status. These results provide objective documentation of the time course over which administration of parenteral corticosteroids speeds the recovery of asthmatic patients who are unresponsive to standard therapy.
Fanta, C. H. and J. M. Drazen (1983). "Calcium blockers and bronchoconstriction." Am Rev Respir Dis 127(6): 673-4.
Fanta, C. H., D. E. Leith, et al. (1983). "Maximal shortening of inspiratory muscles: effect of training." J Appl Physiol 54(6): 1618-23.
Normal subjects can increase their vital capacity by appropriate training. We tested whether that change can be achieved by greater maximal shortening of the inspiratory muscles without concomitant increases in peak static inspiratory pressures. Sixteen healthy volunteers participated in the study: eight were randomly assigned to make 20 inhalations to total lung capacity, held for 10 s with the glottis open, each day for 6 wk; the remainder served as nontraining controls. Before and after the 6-wk study period, we made multiple determinations of lung volumes and of curves relating lung volume to maximal static inspiratory (and expiratory) pressure. Control subjects had no significant changes from base line in any variable. In the training group, the mean vital capacity increased 200 +/- 74 ml (P less than 0.05) or 3.9 +/- 1.3% (P less than 0.02), without a significant change in residual volume. After training, the mean maximal inspiratory pressure at the airway opening (PI) at a lung volume equal to the base-line total lung capacity was 27 +/- 8 cmH2O in this group (vs. zero before training; P less than 0.02). Values of PI in the mid-vital capacity range did not change. We conclude that in response to appropriate training stimuli inspiratory muscles can contract to shorter minimal lengths, a capacity potentially important in progressive pulmonary hyperinflation.
Drazen, J. M., C. H. Fanta, et al. (1983). "Effect of nifedipine on constriction of human tracheal strips in vitro." Br J Pharmacol 78(4): 687-91.
1 Autopsy specimens of human trachealis muscle were used to investigate the effect of the calcium channel blocker, nifedipine, on airway smooth muscle constriction. With these tracheal strips, two consecutive cumulative concentration-effect curves to histamine (0.1-100 microM) obtained at a 60 min interval were highly reproducible. 2 We examined the effects of adding nifedipine (2.9 microM) to the incubation medium before the second histamine response. The concentration-effect relationships determined after nifedipine incubation were significantly different from control: the response to 100 microM histamine was reduced by approximately one-half (to 2.53 +/- 0.6 g; P less than 0.025), and the concentration of histamine causing 40% of the maximal control contraction (EC40) increased nearly ten fold (to 36.9 +/- 10.5 microM; P less than 0.02). 3 In two additional tracheal strips submaximally constricted with 10 microM histamine, nifedipine 2.9 microM caused complete relaxation to resting tension or below. 4 These results indicate a direct inhibitory effect of nifedipine on airway smooth muscle constriction and partial dependence of human trachealis muscle on calcium ion fluxes for initiation and maintenance of contraction. In addition, the results suggest a potential mechanism for the inhibitory effects of calcium channel blocking drugs in exercise-induced asthma.
Tryka, A. F., J. J. Godleski, et al. (1982). "Leukemic cell lysis pneumonopathy. A complication of treated myeloblastic leukemia." Cancer 50(12): 2763-70.
The course of acute noninfectious pulmonary infiltrates in five patients with myeloblastic leukemia was evaluated. All had circulating blast cells (range, 245-192,000/mm3) and recently had received chemotherapeutic drugs for their leukemia. Within four days of the nadir of their leukocyte counts, a patchy, often multilobar pneumonitis developed. Cultures for bacteria, fungi, and viruses were all negative, and no clinical response was observed to broad-spectrum antibiotics. On lung biopsy, pathologic changes were characterized by diffuse alveolar damage with degenerating blast cells in the interstitium and in organizing alveolar exudates. No potential pathogenic organisms were seen on light or electron microscopy of the biopsy samples. In each case the pulmonary infiltrate resolved without specific therapy. We postulate that lysis of leukemic cells, with subsequent release of their enzyme contents, led to the diffuse alveolar damage observed pathologically. Leukemic cell lysis pneumonopathy may be one of the potential causes of pulmonary infiltrates in leukemic patients and can be distinguished pathologically by its distinctive pattern.
Fanta, C. H., C. S. Venugopalan, et al. (1982). "Inhibition of bronchoconstriction in the guinea pig by a calcium channel blocker, nifedipine." Am Rev Respir Dis 125(1): 61-6.
We investigated the inhibitory effects of nifedipine, a calcium channel blocker, on airway smooth muscle constriction in the guinea pig. In vitro, nifedipine (0.003 to 3.0 microM) caused significant dose-dependent reversal of intrinsically existing tone in both tracheal spirals and parenchymal strips. Nifedipine also inhibited the constriction of tracheal spirals and parenchymal strips induced by two different agonists, histamine and carbachol. At a concentration of 3.0 microM, nifedipine increased by 48-fold the concentration of carbachol required to produce a 50% of maximal contraction of parenchymal strips, and by 5-fold the concentration of histamine. Increasing extracellular calcium ion concentration in the tissue baths significantly diminished the inhibitory action of nifedipine. In vivo, nifedipine (30 micrograms/kg body weight given intravenously) did not alter pulmonary resistance or dynamic compliance. It did, however, attenuate histamine-induced bronchoconstriction in 3 of 5 animals studied. In response to the maximal dose of histamine infused, mean pulmonary resistance rose 40 +/- 16% (SEM) after nifedipine versus 182 +/- 65% in the control animals (p less than 0.025) and mean dynamic compliance decreased 35 +/- 8% after nifedipine versus 58 +/- 6% in the control animals (p less than 0.01). Thus, this calcium channel blocker inhibits mediator-induced constriction of both central and peripheral airway contractile tissues, a finding of potential clinical applicability.
Fanta, C. H., T. H. Rossing, et al. (1982). "Emergency room of treatment of asthma. Relationships among therapeutic combinations, severity of obstruction and time course of response." Am J Med 72(3): 416-22.
In an effort to determine the optimal emergency therapy for acute episodes of asthma, we randomly, assigned 102 acute ill patients to 60 minutes of treatment with inhaled isoproterenol alone, isoproterenol plus intravenous aminophylline or isoproterenol plus a single oral dose of an elixir of theophylline. Patients requiring treatment beyond this time were given an injectable sympathomimetic agent in addition. The combination of isoproterenol and a methylxanthine was not found to be better than isoproterenol alone, and the route of administration of methylxanthine was not an important determinant of either the serum theophylline level or the therapeutic response. A major variable that influenced the duration of therapy needed to produce a remission was the severity of the obstruction at presentation. Persons whose initial 1-second forced expiratory volumes were less than 30 percent of predicted and who did not improve 35 percent or more to at least 40 percent of predicted at the end of 60 minutes of intense treatment were those who ultimately required prolonged emergency room therapy and/or hospital admission for control of their symptoms. Thus, simple objective assessment of the degree of impairment at presentation coupled with the response to initial treatment will serve to identify early a high-risk group of asthmatic patients in whom the usual emergency room therapeutic modalities will often prove ineffective.
Rossing, T. H., C. H. Fanta, et al. (1981). "A controlled trial of the use of single versus combined-drug therapy in the treatment of acute episodes of asthma." Am Rev Respir Dis 123(2): 190-4.
Eighty-nine patients who presented to the hospital for treatment of acute episodes of asthma were randomly assigned to initial therapy with subcutaneously administered epinephrine or 1 of 2 combination regimens consisting of intravenously administered aminophylline and either subcutaneously administered of epinephrine or inhaled isoproterenol. During the first hour of treatment, as a group, the patients treated with the 2-drug regimens showed greater objective improvement than did patients who received epinephrine alone. This was particularly true for patients with either severe airway obstruction or a subtherapeutic theophylline concentration at the time of presentation. There were no differences in the heart rate and blood pressure responses to the 3 regimens, and symptoms consistent with drug side effects were not reported more frequently by patients treated with 2 drugs. Thus, the combination of sympathomimetics and aminophylline appear more effective, and no more toxic, than epinephrine alone for the initial treatment of acute episodes of asthma.
Fanta, C. H. and J. E. Pennington (1981). "Fever and new lung infiltrates in the immunocompromised host." Clin Chest Med 2(1): 19-39.
Fanta, C. H., T. C. Wright, et al. (1981). "Differentiation of recurrent pulmonary emboli from chronic obstructive lung disease as a cause of cor pulmonale." Chest 79(1): 92-5.
A patient with chronic obstructive pulmonary disease had severe dyspnea and cor pulmonale that were suspected in life and proved at autopsy to be the result of multiple small pulmonary thromboemboli. Radionuclide lung scanning and pulmonary angiography failed to diagnose the extensive peripheral embolization in this setting. The sensitivity and specificity of these diagnostic techniques are discussed, as well as the pulmonary function and gas exchange characteristics that led to the clinical suspicion of recurrent small emboli in this patient.
Fanta, C. H., E. R. McFadden, Jr., et al. (1981). "Effects of cromolyn sodium on the response to respiratory heat loss in normal subjects." Am Rev Respir Dis 123(2): 161-4.
To investigate whether premedication with cromolyn sodium blunts the bronchoconstrictor response that occurs in normal subjects after extreme degrees of airway cooling, we had 9 adult male inhale either cromolyn or placebo on separate days, in a random, double-blind fashion, before challenges with cold air. The latter consisted of eucapnic hyperventilation to levels in excess of 85% of the indirect maximal breathing capacity while the subjects breathed air at -13 degrees C. Partial and maximal expiratory flow-volume curves were measured before and after medication and after hyperventilation. Neither cromolyn nor placebo inhalation per se significantly affected pulmonary function. The cold-air challenges caused significant decreases in expiratory flows, and these changes were significantly attenuated by cromolyn but not placebo. Thus, in normal subjects, cromolyn has the ability to modify the airway response to respiratory tract heat loss. Because the subjects were free of sensitized airway mast cells, we interpret these findings as further evidence that cromolyn sodium has immunologic and nonimmunologic modes of action.
Fanta, C. H. and R. H. Ingram, Jr. (1981). "Airway responsiveness and chronic airway obstruction." Med Clin North Am 65(3): 473-87.
Rossing, T. H., C. H. Fanta, et al. (1980). "Emergency therapy of asthma: comparison of the acute effects of parenteral and inhaled sympathomimetics and infused aminophylline." Am Rev Respir Dis 122(3): 365-71.
Forty-eight patients who presented with acute episodes of asthma were randomized to treatment with subcutaneously administered epinephrine, inhaled isoproterenol, or intravenously administered aminophylline. The patients’ couses were followed clinically and with spirometry. Although there were no significant differences between the groups before treatment for any measured variable, at the end of 1 hour, the mean improvement inforced expiratory volume in one second (FEV1) was significantly greater for patients treated with epinephrine (0.76 L) or nebulized isoproterenol (0.79 L) than for those given aminophylline (0.23 L). Similarly, the mean duration of therapy required before discharge from the emergency room was significantly longer for patients receiving aminophylline (5.4 h) than for patients treated with either epinephrine (3.5 h) or isisoproeternol (3.0 h). There was no significant differences between the effects of the 2 beta agonists. These results demonstrated that short-acting sympathomimtic agents produce more rapid and potent bronchodilatation in acutely ill asthmatics than that provided by intravenously administered methylxanthines, and that there are no disadvantages to using an inhaled beta agonist rather than one administered parenterally.
Fanta, C. H., G. P. Kacoyanis, et al. (1980). "Pseudopseudotumor of the lung. Hepatic herniation into the right major fissure imitating a pseudotumor on chest roentgenogram." Chest 78(2): 346-8.
A young man presented to us with an asymptomatic ovoid mass which appeared to be in the right major fissure. The roentgenographic appearance of the lesion was that of a pseudotumor. The computerized tomography scan suggested tissue density leading to exploration. At surgery, we found the mass to be a portion of liver herniated through a diaphragmatic defect. Thus, we add type 2 hepatic herniation to congestive heart failure, empyema, hemothorax, postinflammatory "fibromas" and malignancies as a cause of interlobar pleural densities.
Fanta, C. H., R. H. Ingram, Jr., et al. (1980). "A reassessment of the effects of oropharyngeal anesthesia in exercise-induced asthma." Am Rev Respir Dis 122(3): 381-6.
To investigate the possibility that stimulation of neural receptors in the posterior pharynx plays a role in the pathogenesis of exercise-induced asthma, we had 10 asthmatic subjects simulate the hyperpnea of exercise by performing eucapnic hypervenilation in the presence and absence of oropharyngeal anesthesia induced by lidocaine. During these studies, the amount of ventilation and temperature and water content of the inspired air were rigorously controlled in order to keep respiratory heat loss constant for each trial. Multiple aspects of pulmonary mechanics were measured before and after the pharynx was sprayed with either water or lidocaine, as well as after the completion of the bronchial challenge. Neither agent, in and of itself, produced alterations in lung function at rest. Eucapnic hyperventilaltion was followed by a significant reduction in pulmonary mechanics in both situations, and there were no significant differences between the effects of lidocaine or water. Thus, we were unable to find any evidence for the existence of "irritant-like" receptors essential to the pathogenetic consequences of airway cooling in the posterior pharynx.
Fanta, C. H. and C. C. Compton (1980). "Microscopic tumour emboli to the lungs: a hidden cause of dyspnoea and pulmonary hypertension." Thorax 35(10): 794-5.
