Impact of Impaired Inspiratory Muscle Strength on Dyspnea and Walking Capacity in Sarcoidosis*
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1 CHEST Impact of Impaired Inspiratory Muscle Strength on Dyspnea and Walking Capacity in * Hans-Joachim Kabitz, MD; Felix Lang; Stephan Walterspacher; Stephan Sorichter, MD; Joachim Müller-Quernheim, MD; and Wolfram Windisch, MD Original Research SARCOIDOSIS Background: Dyspnea and fatigue are frequent but poorly understood symptoms in sarcoidosis patients. This study was aimed at assessing the clinical impact of inspiratory muscle impairment on dyspnea and exercise tolerance. This is the first study using nonvolitional tests that are independent of the patient s cooperation and motivation in addition to volitional tests of inspiratory muscle strength in patients with sarcoidosis. Methods: Peak maximal inspiratory mouth pressure (PImaxPEAK), maximal inspiratory pressure sustained for 1.0 s (PImax 1.0 ), twitch mouth pressure (TwPmo), lung function test results, blood gas measurements, 6-min walking distance (6MWD), and Borg dyspnea scale (BDS) scores were assessed in 24 male sarcoidosis patients and 24 healthy male control subjects matched for age and body mass index. Results: Mean ( SD) PImaxPEAK ( % vs % predicted, respectively; p < 0.001) and PImax 1.0 ( % vs % predicted, respectively; p < 0.001) were lower in sarcoidosis patients compared to control subjects. TwPmo tended to be lower in sarcoidosis patients, and there were three patients who had TwPmo values of < 1.0 kpa, which is a strong indicator of inspiratory muscle weakness. The mean 6MWD was m in sarcoidosis patients and in control subjects (p 0.025). The mean BDS score was higher in sarcoidosis patients ( vs , respectively; p < 0.001). Compared to maximal inspiratory pressure, lung function parameters, and blood gas levels, TwPmo was the strongest predictor for 6MWD (r 0.663; p 0.003) and BDS score (r 0.575; p 0.012) in sarcoidosis patients following multiple linear regression analysis. Conclusions: Impairment of inspiratory muscle strength occurs in sarcoidosis patients, and has been suggested to be an important factor causing dyspnea and reduced walking capacity, but this is only reliably detectable when using nonvolitional tests of inspiratory muscle strength. (CHEST 2006; 130: ) Key words: inspiratory muscle strength; maximal inspiratory pressure; muscle weakness; phrenic nerve stimulation; twitch mouth pressure Abbreviations: ACE angiotensin-converting enzyme; BDS Borg dyspnea scale; BMI body mass index; 6MWD 6-min walking distance; Pimax maximal inspiratory pressure; Pimax 1.0 plateau maximal inspiratory pressure sustained for 1 s; Pimaxpeak peak maximal inspiratory pressure; Sao 2 arterial oxygen saturation; s-il2-r soluble interleukin-2 receptor; TwPmo twitch mouth pressure; TwPmoIn twitch mouth pressure during inspiratory pressure triggering Dyspnea and fatigue are some of the most often reported symptoms in patients with sarcoidosis. 1 6 The underlying conditions causing these symptoms have yet not been completely elucidated. Previous studies 6 8 have postulated that respiratory muscle involvement might substantially contribute to dyspnea and fatigue in sarcoidosis patients. This is supported by the observation that granulomatous skeletal muscle involvement in sarcoidosis patients is possible, as shown by biopsy. 9,10 Furthermore, 50 to 80% of sarcoidosis patients are thought to experience subclinical skeletal muscle involvement. 9,11 Never Original Research
2 theless, symptomatic muscle involvement has been suggested to be rare, 3,9,11 and diaphragmatic involvement has been proven only in rare case reports. 12,13 All studies that have indicated possible inspiratory muscle weakness in the past have used volitional tests of respiratory muscle strength. 6,7,10,14,15 However, volitional tests are highly dependent on the cooperation and motivation of the patient, and it cannot be excluded with certainty that low values for inspiratory muscle strength simply reflect insufficient effort as a consequence of various reasons. 16 Therefore, it has been suggested that nonvolitional tests of inspiratory muscle strength, which are independent of the patients cooperation and motivation, are needed to more reliably assess inspiratory muscle involvement in sarcoidosis patients. 7 Assessment of inspiratory muscle strength using nonvolitional tests has not been previously performed in sarcoidosis patients. Therefore, the aims of the present study were, first, to assess inspiratory muscle strength in sarcoidosis patients using both volitional and nonvolitional tests and, second, to verify the clinical impact of inspiratory muscle impairment on dyspnea and exercise tolerance as assessed by a 6-min walking test. Materials and Methods The study protocol was approved by the institutional review board for human studies of the Albert-Ludwig University (Freiburg, Germany) and was performed in accordance with the ethical standards laid down in the Declaration of Helsinki, Informed written consent was obtained from all subjects. Participants Twenty-four nonsmoking male patients with sarcoidosis diagnosed according to the criteria of the latest American Thoracic Society/European Respiratory Society/World Association of and Other Granulomatous Disorders statement on sarcoidosis 3 who were seen as outpatients in our department were studied. Based on the findings of chest radiographs, 4 patients presented with type I sarcoidosis, 10 patients presented with type II, 9 patients presented with type III, and 1 patient presented with type IV. The mean duration since diagnosis was 6.7 years (SD, 7.5 years). Eight patients were receiving therapy with oral *From the Department of Pneumology, University Hospital, Freiburg, Germany. The authors have reported to the ACCP that no significant conflicts of interest exist with any companies/organizations whose products or services may be discussed in this article. Manuscript received February 14, 2006; revision accepted April 24, Reproduction of this article is prohibited without written permission from the American College of Chest Physicians ( org/misc/reprints.shtml). Correspondence to: Wolfram Windisch, MD, Department of Pneumology, University Hospital Freiburg, Killianstrasse 5, D Freiburg, Germany; windisch@med1.ukl.uni-freiburg.de DOI: /chest corticosteroids (dose range, 5 to 10 mg of prednisolone equivalents per day). All patients were in a stable state with no change in medication and no complaints about skeletal muscle weakness during the last 3 months and after exercise. In addition, 24 healthy, nonsmoking, age-matched, and body mass index (BMI)- matched men without lung or thoracic rib cage disease who did not take any medication were studied. Lung Function, Blood Analysis, and Exercise Testing Lung function parameters were measured using body plethysmography (Masterlab-Compact; Jaeger; Hochberg, Germany) according to the official statement of the European Respiratory Society. 17 A 6-min walking test was performed for exercise testing with the following measurements: 6-min walking distance (6MWD); dyspnea as assessed by the Borg dyspnea scale (BDS); and blood gas levels at rest and immediately after exercise. A venous blood sample was drawn from sitting subjects to provide data on neopterin, soluble interleukin-2 receptor (s-il2-r), and angiotensin-converting enzyme (ACE) levels, since these serum markers are used to gauge sarcoidosis activity Tests on Inspiratory Muscle Strength Maximal inspiratory pressure (Pimax) was assessed (ZAN 100; ZAN GmbH; Oberthulba, Germany). Peak Pimax (Pimaxpeak) and plateau Pimax sustained for 1s(Pimax 1.0 ) were measured at residual volume, as has been described previously by our group. 21 According to the latter study, predicted values have been calculated. Nonvolitional tests for the assessment of inspiratory muscle strength were provided by measuring twitch mouth pressure (TwPmo) during bilateral anterior magnetic phrenic nerve stimulation (Magstim ; Magstim Inc; Dyfed, Wales, UK). 22,23 An inspiratory pressure trigger (ie, twitch mouth pressure during inspiratory pressure triggering [TwPmoIn]) was used at 0.5 kpa, as has been described previously. 24 During all measurements of TwPmo, breathing frequency and tidal volume have been recorded as previously described. 24 TwPmo was measured until five acceptable pressure tracings were achieved, according to predefined and previously published criteria. 24 According to previous recommendations, a cutoff value of 1.0 kpa was used to identify patients with reduced inspiratory muscle strength. 25 Statistical Analysis Statistical analysis was performed using a statistical software package (SigmaStat, version 3.1; Systat Software, Inc; Point Richmond, CA). All data are presented as the mean SD after testing for normal distribution (Kolmogorov-Smirnov test). Group comparisons between sarcoidosis patients and control subjects were performed using the unpaired t test if data were normally distributed or the Mann-Whitney rank test if data were not normally distributed. Both correlation and regression analyses were performed in sarcoidosis patients. For the correlation analysis, the Pearson product moment correlation was used. Regression analysis was performed in order to calculate predictors for clinical parameters (ie, BDS score and 6MWD). For multiple linear regression analysis, BDS score was used as the dependent variable, and Pimaxpeak, Pimax 1.0, TwPmoIn, FVC, and Pao 2 at rest were used as independent variables. In a second analysis, 6MWD was used as the dependent variable with Pimaxpeak, Pimax 1.0, TwPmoIn, FVC, and Pao 2 at rest used as independent variables. Statistical significance was assumed with a p value of CHEST / 130 / 5/ NOVEMBER,
3 Results Demographic data and lung function parameters are given in Table 1. Ten patients had an FVC of 80% predicted, and 5 patients had an FEV 1 /FVC ratio of 70% predicted. Blood gas values and parameters of the 6-min walk test are shown in Table 2. Pao 2 and arterial oxygen saturation (Sao 2 ) both at rest and after exercise were significantly lower compared to those values in control subjects (Table 2). In addition, sarcoidosis patients presented with a significantly higher degree of dyspnea and a significantly lower 6MWD. Skeletal muscle exhaustion or weakness of the legs was not reported in any patient. Volitional Tests of Inspiratory Muscle Strength Volitional tests of inspiratory muscle strength indicated significantly lower values for both Pimaxpeak and Pimax 1.0 (in absolute values and as percent predicted), as is indicated in Table 3 and Figure 1. However, both absolute values and predicted values for Pimaxpeak and Pimax 1.0 tended to be higher in control subjects compared to agerelated and gender-related normal values, which have been achieved by the same methods. 21 In patients with sarcoidosis, Pimaxpeak and Pimax 1.0 were significantly correlated to FVC (Pimaxpeak: r 0.61; p 0.002; Pimax 1.0 : r 0.50; p 0.007) and total lung capacity (Pimaxpeak: r 0.61; p 0.002; Pimax 1.0 : r 0.48; p 0.017). However, apart from a correlation between Pimax 1.0 and 6MWD (r 0.48; p 0.022), there was no further statistically significant correlation between any Pimax and BDS score or blood gas values and Sao 2. Interestingly, neopterin level was inversely correlated to Pimaxpeak (r 0.46; p 0.031) and Pimax 1.0 (r 0.56; p 0.007). No correlations were found with s-il2-r and ACE levels. s-il2-r level was inversely correlated with 6MWD (r 0.47; p 0.022). However, serum marker levels were not correlated to any other parameter. Table 1 Demographic Data and Lung Function Parameters in and * Table 2 Blood Gas and 6-min Walk Test Values* ph Rest 7.42 (0.02) 7.42 (0.02) NS Exercise 7.42 (0.02) 7.40 (0.06) NS Paco 2,mmHg Rest 38.6 (2.8) 37.5 (2.5) NS Exercise 37.4 (2.8) 36.9 (2.8) NS Pao 2,mmHg Rest 76.7 (8.8) 82.0 (7.6) Exercise 78.8 (10.5) 86.5 (7.5) Sao 2,% Rest 94.8 (2.5) 97.0 (1.1) Exercise 93.4 (4.0) 96.5 (1.4) BDS score 3.3 (1.7) 0.2 (0.5) MWD, m 582 (96.7) 638 (65.3) *Values are given as the mean (SD), unless otherwise indicated. See Table 1 for abbreviation not used in the text. Nonvolitional Tests of Inspiratory Muscle Strength Nonvolitional tests of inspiratory muscle strength assessed by the measurement of TwPmoIn were sufficiently assessed in 18 sarcoidosis patients and in 18 control subjects. From the remaining subjects, five patients and four control subjects denied the use of magnetic stimulation. In one patient and two control subjects, not enough acceptable pressuretime curves could be generated according to clearly predefined criteria, as previously published. 24 Here, TwPmoIn tended to be lower in sarcoidosis patients compared to control subjects, although this did not reach significance (Table 3). The median breathing frequency (16.7 vs 15.2 breaths/min, respectively; p 0.31), tidal volume (0.85 vs 0.74 L, respectively; p 0.84), and calculated minute ventilation (12.0 vs 10.9 L/min, respectively; p 0.44) showed a nonsignificant trend to higher values in sarcoidosis patients compared to control subjects. Three patients were identified as having reduced Table 3 Different Tests of Inspiratory Muscle Strength in and * Age, yr 47.0 (10.7) 46.6 (13.1) NS BMI, kg/m (4.6) 26.4 (3.5) NS RV, % predicted (29.5) (21.5) NS FVC, % predicted 85.9 (16.7) (15.4) TLC, % predicted 87.9 (13.1) (11.9) FEV 1, % predicted 78.1 (19.3) (12.8) FEV 1 /FVC ratio, % 76.8 (10.5) 81.6 (5.2) 0.05 *Values are given as the mean (SD), unless otherwise indicated. RV residual volume; NS not significant; TLC total lung capacity. Pimaxpeak kpa 11.2 (3.0) 14.6 (2.9) % predicted 95.2 (25.3) (23.4) Pimax 1.0 kpa 8.5 (3.2) 12.5 (2.8) % predicted 85.6 (31.4) (26.8) TwPmoIn, kpa 1.49 (0.40) 1.61 (0.54) NS *Values are given as the mean (SD), unless otherwise indicated. See Table 1 for abbreviation not used in the text. n Original Research
4 inspiratory muscle strength according to predefined criteria, while 15 patients had normal values for TwPmoIn (Table 4). 25 In these patients with inspiratory muscle weakness, Pimaxpeak, Pimax 1.0, 6MWD, and FVC were lower, and neopterin, s-il2-r, and ACE levels, prednisolone dosage, and BDS score were higher compared to the remaining 15 patients without inspiratory muscle impairment. However, these findings were purely descriptive, since further statistical analysis was not performed due to the low number of cases. In patients with sarcoidosis, TwPmoIn was significantly correlated to Sao 2 at rest (r 0.51; p 0.030) and to Sao 2 after exercise (r 0.49; p 0.036). Further, TwPmoIn was correlated to Pao 2 at rest (r 0.49; p 0.041) and to Pao 2 after exercise (r 0.53; p 0.023). TwPmoIn was not correlated to levels of neopterin, s-il2-r, and ACE. Following multiple linear regression analysis, TwPmoIn was shown to be the strongest predictor for BDS score and 6MWD findings (Fig 2, 3). In addition, Pao 2 at rest was predictive of BDS score (r 0.52; p 0.012) and 6MWD (r 0.49; p 0.019). FVC was predictive of 6MWD only (r 0.52; p 0.011) but not for BDS score. In addition, Pimaxpeak and Pimax 1.0 were not significant predictors for BDS score or 6MWD. Subgroup analysis did not reveal any difference in inspiratory muscle strength or level of serum markers for sarcoidosis when patients receiving therapy with corticosteroids were compared with those who were not receiving such therapy. Discussion This is the first study in which nonvolitional tests of respiratory muscle strength have been used to Figure 1. Box plots for Pimaxpeak and Pimax 1.0 in sarcoidosis patients and control subjects. s control subjects; sarcoidosis patients. quantify inspiratory muscle strength in sarcoidosis patients. The assessment of TwPmoIn showed no clear difference in sarcoidosis patients compared to age-matched and BMI-matched control subjects. This indicates that inspiratory muscle strength is, on average, not substantially reduced in sarcoidosis patients. However, there were three patients in whom inspiratory muscle weakness was diagnosed according to predefined criteria. 25 Consequently, a minority of patients with sarcoidosis experiences impaired inspiratory muscle strength, but the majority of patients does not. The present study demonstrates that inspiratory Table 4 Subgroup Analysis of With and Without Inspiratory Muscle Impairment* Inspiratory Muscle Impairment (n 3) No Inspiratory Muscle Impairment (n 15) TwPmoIn, kpa 0.90 (0.09) 1.57 (0.35) Pimaxpeak kpa 8.5 (0.8) 11.3 (2.9) % predicted 75.0 (7.3) 94.5 (24.5) Pimax 1.0 kpa 5.6 (1.8) 9.3 (2.7) % predicted 58.1 (12.1) 89.6 (31.5) FVC, % predicted 66.1 (4.7) 92.7 (26.2) BDS score 5.0 (0.0) 3.3 (1.6) 6MWD, m 389 (34) 685 (75) ACE, U/L 35.1 (25.5) 31.8 (20.2) s-il2-r, U/mL (379.7) (450.2) Neopterin, nmol/l 20.3 (16.1) 7.9 (6.8) Prednisolone, mg/d 4.2 (3.1) 2.7 (4.0) *Values are given as the mean (SD), unless otherwise indicated. Figure 2. Relationship between BDS score and TwPmoIn following linear regression analysis. CHEST / 130 / 5/ NOVEMBER,
5 Figure 3. Relationship between 6MWD and TwPmoIn following linear regression analysis. muscle strength is more strongly predictive for both dyspnea and 6MWD compared to lung function parameters and oxygenation. In particular, the three patients with substantially reduced TwPmoIn and Pimax values had the lowest 6MWD and the highest degree of dyspnea. Therefore, the results of this study would suggest that the impairment of inspiratory muscle strength occurs in some patients with sarcoidosis, substantially increases dyspnea on exertion, and reduces 6MWD. Accordingly, these frequently observed symptoms in sarcoidosis patients can be explained in part by reduced inspiratory muscle strength. Nonetheless, there are several other variables, such as an increase in central drive, as previously shown, 10 that might also have a substantial impact on dyspnea and 6MWD in sarcoidosis patients. With this in mind, breathing frequency, tidal volume, and minute ventilation tended to be higher in sarcoidosis patients compared to control subjects, although these differences did not reach significance, and are therefore not suggested to explain increased dyspnea and reduced 6MWD in sarcoidosis patients. However, further studies assessing additional parameters such as ergospirometric investigations, lactate levels, lung compliance, and peripheral skeletal muscle strength should be measured in future studies to objectify the present findings. Steroids are known to cause skeletal myopathy, which could also affect respiratory muscles, but the dosages of steroids were small in the present study, and subgroup analysis did not reveal any effect of steroids on inspiratory muscle strength or levels of sarcoidosis serum markers. Therefore, the influence of steroids on the findings of the present study is thought to be negligible. The following three different types of symptomatic skeletal muscle involvement have been indicated: acute myositis; palpable muscle nodules; and chronic myopathy. 11 Furthermore, respiratory muscle impairment has been reported previously by three case reports and one small series 10,26 28 in patients with biopsy-proven (quadriceps muscle) skeletal muscle involvement. In contrast, patients in the present study had no clinical signs of skeletal muscle involvement. Therefore, respiratory muscle impairment in sarcoidosis patients is possible even in patients who have no clinical evidence of skeletal muscle involvement. However, a muscle biopsy was not performed in the present study and in previous studies, hence it is impossible to define for certain which type of muscle involvement causes these symptoms. 6,7,14,15 Therefore, the relationship between symptomatic skeletal muscle and respiratory muscle involvement remains unclear and requires further investigation. Previous studies have already reported reduced inspiratory muscle strength in sarcoidosis patients (Table 5). Here, only volitional tests have been used to measure inspiratory muscle strength (Table 5). In all studies, Pimax tended to be lower or was significantly reduced in sarcoidosis patients. From these data, it was concluded that respiratory muscle involvement occurs frequently in sarcoidosis patients and substantially affects symptoms such as dyspnea. The results of the present study regarding volitional tests are in line with the previous findings, as Pimax was significantly reduced in sarcoidosis patients. However, the results when using Pimax to quantify respiratory muscle involvement must be viewed with caution for the following reasons. First, the assessment occurs volitionally, and it is, therefore, difficult to ensure that subjects are making a truly maximal effort. 16,29 This is particularly important in patients presenting with unspecific fatigue, as those with sarcoidosis often do. 1 5 Second, the interpretations of studies that included different numbers of women and men for patients and control subjects 6,7,14,15 might be misleading, because the substantially lower values in women than in men significantly affect absolute Pimax. 21,30 32 This was avoided in the present study by including men only, but further studies are required to provide data on women. Third, study comparisons were also hindered by the fact that different regression equations have been used to calculate predicted values, which is suggested to significantly influence predicted values. 21 Fourth, in all studies, including the present one comparing Pimax in sarcoidosis patients and control subjects (Table 5), control subjects achieved higher Pimax values than the predicted norms, and sarcoidosis patients had only mildly reduced values. The occurrence of higher Pimax values in control 1500 Original Research
6 Table 5 PImax 1.0 in : Literature Review* Pimax, % predicted kpa Study/Year /, No. Baydur et al 10 / /12 kpa 8.1 (3.4) 9.0 (2.8) NS % predicted Wirnsberger et al 7 / /18 kpa 8.5 (2.8) 11.1 (2.4) 0.01 % predicted 96 (27) 130 (28) 0.01 Baydur et al 6 / /25 kpa 7.1 (2.5) 11.3 (3.2) % predicted 77 (19) 115 (24) Brancaleone et al 14 / /19 kpa 8.7 (0.4) 10.1 (0.5) 0.03 % predicted 95 (4) 103 (4) NS Spruit et al 15 / /21 kpa 8.7 (3.0) 11.3 (3.2) 0.01 % predicted 79 (21) 104 (28) Present study 24/24 kpa 8.5 (3.2) 12.5 (2.8) % predicted 86 (31) 126 (27) *Values are given as the mean (SD), unless otherwise indicated. See Table 1 for abbreviation not used in the text. subjects might be explained by the inclusion of highly motivated participants in the control group, as in the present and previous studies. 7,15 Therefore, the number of patients who were found to exhibit inspiratory muscle impairment may be overestimated if only Pimax is assessed. Low values of Pimax might simply reflect the unachieved maximal effort for different reasons. Accordingly, Pimax was inconsistently related to clinical parameters. In contrast, respiratory muscle impairment has been shown to significantly predict dyspnea on exertion and reduced walking capacity in the present study when using nonvolitional tests for the assessment of inspiratory muscle strength. Therefore, it is suggested that these nonvolitional tests assess respiratory muscle strength more sufficiently in sarcoidosis patients. However, there was only a trend toward lower values for TwPmo in sarcoidosis patients, which is a finding that is in contrast to its predictive impact. This might be explained by the fact that even mildly reduced TwPmo leads to a substantial increase of dyspnea. On the other hand, inspiratory muscle impairment must be severe in order to be significantly lower compared to healthy subjects, 33 thus explaining our observation that only a trend toward lower values of TwPmo was observed in sarcoidosis patients. Further studies including a higher number of patients are needed to verify this discrepancy. Interestingly, lung function parameters were not predictive for dyspnea in sarcoidosis patients but have been shown to be correlated to dyspnea in COPD patients, 34 indicating that the feasibility of predicting dyspnea from lung function is variable in patients with different chronic respiratory diseases. In conclusion, the impairment of inspiratory muscle strength occurs in sarcoidosis patients, but this is reliably detectable only when using tests of inspiratory muscle strength that are independent from the cooperation and motivation of the patient being tested. Impairment of inspiratory muscle strength, if present, is suggested to be an important factor causing dyspnea on exertion and reduced walking capacity. Further studies are needed in order to substantiate the impact of impaired inspiratory muscle strength on symptoms in sarcoidosis patients. References 1 Newman LS, Rose CS, Maier LA.. N Engl J Med 1997; 336: Drent M, Wirnsberger RM, Breteler MH, et al. Quality of life and depressive symptoms in patients suffering from sarcoidosis. Vasc Diffuse Lung Dis 1998; 15: American Thoracic Society, European Respiratory Society, World Association of and Other Granulomatous Disorders. Statement on sarcoidosis: joint statement of the American Thoracic Society (ATS), the European Respiratory Society (ERS) and the World Association of and Other Granulomatous Disorders (WASOG) adopted by the ATS Board of Directors and by the ERS Executive Committee, February Am J Respir Crit Care Med 1999; 160: Drent M, Wirnsberger RM, de Vries J, et al. Association of fatigue with an acute phase response in sarcoidosis. Eur Respir J 1999; 13: CHEST / 130 / 5/ NOVEMBER,
7 5 Sharma OP. Fatigue and sarcoidosis. Eur Respir J 1999; 13: Baydur A, Alsalek M, Louie SG, et al. Respiratory muscle strength, lung function, and dyspnea in patients with sarcoidosis. Chest 2001; 120: Wirnsberger RM, Drent M, Hekelaar N, et al. Relationship between respiratory muscle function and quality of life in sarcoidosis. Eur Respir J 1997; 10: Costabel U. Skeletal muscle weakness, fatigue and sarcoidosis. Thorax 2005; 60:1 2 9 Silverstein A, Siltzbach LE. Muscle involvement in sarcoidosis: asymptomatic, myositis, and myopathy. Arch Neurol 1969; 21: Baydur A, Pandya K, Sharma OP, et al. of ventilation, respiratory muscle strength, and granulomatous involvement of skeletal muscle in patients with sarcoidosis. Chest 1993; 103: Douglas AC, Macleod JG, Matthews JD. Symptomatic sarcoidosis of skeletal muscle. J Neurol Neurosurg Psychiatry 1973; 36: Skavlem JH, Ritterhoff RJ. Coexistent pulmonary asbestosis and sarcoidosis. Am J Pathol 1946; 22: Pandya KP, Klatt EC, Sharma OP. and the diaphragm [letter]. Chest 1988; 94: Brancaleone P, Perez T, Robin S, et al. Clinical impact of inspiratory muscle impairment in sarcoidosis. Vasc Diffuse Lung Dis 2004; 21: Spruit MA, Thomeer MJ, Gosselink R, et al. Skeletal muscle weakness in patients with sarcoidosis and its relationship with exercise intolerance and reduced health status. Thorax 2005; 60: American Thoracic Society, European Respiratory Society. ATS/ERS Statement on respiratory muscle testing. Am J Respir Crit Care Med 2002; 166: Quanjer PH, Tammeling GJ, Cotes JE, et al. Lung volumes and forced ventilatory flows: report Working Party Standardization of Lung Function Tests, European Community for Steel and Coal; official statement of the European Respiratory Society. Eur Respir J Suppl 1993; 16: Lieberman J. Elevation of serum angiotensin-convertingenzyme (ACE) level in sarcoidosis. Am J Med 1975; 59: Müller-Quernheim J. : immunopathogenetic concepts and their clinical application. Eur Respir J 1998; 12: Ziegenhagen MW, Rothe ME, Schlaak M, et al. Bronchoalveolar and serological parameters reflecting the severity of sarcoidosis. Eur Respir J 2003; 21: Windisch W, Hennings E, Sorichter S, et al. Peak or plateau maximal inspiratory mouth pressure: which is best? Eur Respir J 2004; 23: Mills GH, Kyroussis D, Hamnegard CH, et al. Bilateral magnetic stimulation of the phrenic nerves from an anterolateral approach. Am J Respir Crit Care Med 1996; 154: Polkey MI, Moxham J. Clinical aspects of respiratory muscle dysfunction in the critically ill. Chest 2001; 119: Windisch W, Kabitz HJ, Sorichter S. Influence of different trigger techniques on twitch mouth pressure during bilateral anterior magnetic phrenic nerve stimulation. Chest 2005; 128: Hamnegard CH, Wragg S, Kyroussis D, et al. Mouth pressure in response to magnetic stimulation of the phrenic nerves. Thorax 1995; 50: Dewberry RG, Schneider BF, Cale WF, et al. Sarcoid myopathy presenting with diaphragm weakness. Muscle Nerve 1993; 16: Ost D, Yeldandi A, Cugell D. Acute sarcoid myositis with respiratory muscle involvement: case report and review of the literature. Chest 1995; 107: Pringle CE, Dewar CL. Respiratory muscle involvement in severe sarcoid myositis. Muscle Nerve 1997; 20: American Thoracic Society, American College of Chest Physicians. ATS/ACCP statement on cardiopulmonary exercise testing. Am J Respir Crit Care Med 2003; 167: Enright PL, Kronmal RA, Manolio TA, et al. Respiratory muscle strength in the elderly: correlates and reference values: Cardiovascular Health Study Research Group. Am J Respir Crit Care Med 1994; 149: Harik-Khan RI, Wise RA, Fozard JL. Determinants of maximal inspiratory pressure: the Baltimore Longitudinal Study of Aging. Am J Respir Crit Care Med 1998; 158: Carpenter MA, Tockman MS, Hutchinson RG, et al. Demographic and anthropometric correlates of maximum inspiratory pressure: the Atherosclerosis Risk in Communities Study. Am J Respir Crit Care Med 1999; 159: Mier A, Brophy C, Moxham J, et al. Twitch pressures in the assessment of diaphragm weakness. Thorax 1989; 44: 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: Original Research
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