REVIEW Annals of Nuclear Medicine Vol. 9, No.4, 171-178, 1995 Clinical studies of alveolar-capillary permeability using technetium-99m DTPA aerosol Fellx X. SUNDRAM Senior Consultant, Nuclear Medicine Department, Singapore General Hospital Soluble radioaerosols such as technetium-99m diethylene triamine pentacetate (DTPA) permit simple quantitative studies of alveolar-capillary permeability to be performed, since the submicronic aerosols are deposited mainly at the lung periphery and are cleared across the alveolar-capillary membrane. Regional alterations in permeability can also be noted using this radionuclide technique. We have measured the pulmonary epithelial permeability in normal subjects and the alteration in smokers, in glue-sniffers, in patients with inhalation burns, in chronic obstructive pulmonary disease (COPD) and in patients with lung metastases from thyroid cancer treated with radioiodine 131I. In the normal volunteers, the time taken for 50% of inhaled 99mTc DTPA to be cleared from the lungs (Tl/2) was 66 minutes +- 1 sd of 12 mlns. The smokers had a mean T1/2 of 20 mins +- 1 sd 4 min. In the hard-core glue-sniffing group, the majority were smokers who had stopped smoking and glue-sniffing for periods varying from 1 day to 42 days, and it was possible to note the changes in clearance times against period of abstinence. In the patients with inhalation burns, there was change in lung clearance arising from pulmonary epithelial damage; these patients showed increased rate of clearance (short Tl/2) with mean Tl/2 of 36 min +- 1sd of 11 mins, whlle the retention images revealed regional lung damage in moderately severe inhalation burns. Twenty-four patients with COPD had inhalation scans done with Tc-99m tin colloid radioaerosol, and these images were compared with the perfusion lung scans done with 99mTc macroaggregated albumin (MAA); in general the perfusion images matched the defects noted in the inhalation scans. The 99mTc DTPA clearance rate in these patients was normal i.e. Tl/2 = 78 +- 14 mins. In the thyroid cancer patients with lung metastases, who had high doses of radioiodine treatment, the Tl/2 values were normal or prolonged slightly, mean T1/2 = 76 min +- 23. Key words: alveolar-capillary permeability, Inhalation burns, COPD (chronic obstructive pulmonary disease), glue sniffers, thyroid cancer lung metastases INTRODUCTION THE ALVEOLAR EPITHELIUM and the capillary endothelium together form the alveolar capillary membrane. Fluid exchange occurs across this membrane, and is dependent on intravascular and interstitial hydrostatic and oncotic pressures, and on permeability of this membrane. Damage to either the alveolar or capillary component can result in a high permeability pulmonary oedema, even though the alveolar epithelium forms an extremely tight membrane which is ten times less permeable than the capillary endothelium.1 Acute lung injury is defined as "a syndrome of inflammation and increasing permeability that is associated with a constellation of clinical, radiologic, and physiologic abnormalities that cannot be explained by, but may coexist with, left atrial or pulmonary capillary hypertension."2 It has been proposed that definition of acute lung injury should relate structural to pathophysi-ological changes.3 Alteration in capillary membrane integrity (permeability) cannot be quantified by a single parameter and this is relevant when pulmonary vascular permeability is evaluated in the clinical situation. Nuclear medicine methods can be used to observe changes in integrity of pulmonary capillary endothelium (with first pass dual-indicator dilution technique using successive injections of radiotracer4 or by measuring accumulation of radioactively labelled protein into the lung),5 and of alveolar epithelium, and it is important that the damage should be detected before patients develop clinical pulmonary oedema, so that intensive therapy can be instituted early. We have used 99mTc DTPA radioaerosol to measure alteration in pulmonary epithelial permeability (alveolar-capillary membrane) and to image the dlstribution of ventilation in normal and some pathological states. METHODS Ventilation studies with radioaerosol have been done routinely in Nuclear Medicine Department, Singapore General Hospital since 1986. Clearance measurements of 99mTc DTPA aerosol across the alveolar capillary membrane were done initially in 30 normal volunteers (army personnel). Subsequently in 1987, all patients with burns who were entered into a study protocol for burns also had the radioaerosol clearance study, and 48 patients with suspicion of inhalation burns have been studied. We also studied 10 cigarette smokers to confirm the rapid radioaerosol clearance from the lungs in this group. Twenty young hardcore glue sniffers from the Sembawang Detention Centre were studied to note any alveolar-caplllary membrane damage from inhalant abuse. Most of these young men were smokers, and since smoking and glue-sniffing was forbidden at the Centre, we were also able to study the effects of cessation for varying periods, on the clearance rate of the radioaerosol from the lungs in glue-sniffing. In 1988 we participated in a programme with the International Atomic Energy Agency (IAEA) to image the ventilation of the lung in chronic obstructive pulmonary disease (COPD) with 99mTc tin colloid aerosol, and to compare this with perfusion of the lung using 99mTc macroaggregated albumin (MAA). We took thls opportunity to study also the lung clearance of 99mTc DTPA radioaerosol in 18 of these patients. In these COPD patients we noted the deposition pattern of inhaled radiocolloid aerosol to help differentiate the nature of the obstructive airways disease. X-ray chest was done routinely and all of them had lung function tests done, with only those patients having a FEV l% of < 70% being entered into the study. The subjects breathe a submicronic aerosol of 99mTc DTPA (1 um mean mass aerodynamic diameter, Ultravent, USA) for 2-3 min after instillation of 20-25 mCi (740-925 MBq) of freshly prepared 99mTc DTPA into the nebuliser. The radioactive solute was prepared by adding the technetium-99m dose in 2 ml physiological saline into a commercial vial of DTPA (Amersham UK), and the binding of 99mTc to DTPA was about 95%, using paper chromatography . The nebuliser was connected to the wall oxygen supply and a flow rate of 10 L/min was used. Immediately following the radioaerosol inhalation in a lying position, a dynamic acquisition was started using an Elscint Apex 409A or ADAC Vertex gamma camera/ computer system with the patient supine and the gamma-camera placed posteriorly over the lungs. Twenty frames at I minute per frame were acquired over the 20 minute period using a 64 x 64 spatial resolution. Subsequent reframing was done to produce a single reframed image and regions of interest (ROI'S) were drawn around each lung or parts of the lung. Time-activity curves were then obtained for each region/lung and an exponential fit was performed on the time-activity curves from peak to 7 minutes to obtain a clearance half-time (Tl/2) i.e. time for 50% of the radioaerosol to clear from the lung. Retention images were also generated to note any discrepancy in regional lung clearance of 99mTc DTPA aerosol. No corrections were made for contribution of circulating and tissue radioactivity to the total counts detected over the lung field i.e. non-lung parenchymal radioactivity, as this is usually minimal. The ventilation study was generally done within 3 days of admission in the burns patients. Serial studies were done in some patients in hospital and as outpatients. Fibreoptic bronchoscopy was usually done within a day of the burns, using an Olympus bronchofibrescope BF Type B2. The severity of damage noted at bronchoscopy was graded as follows: O = normal 1 = mild oedema and hyperemia 2 = moderate oedema, hyperemia and secretions 3 = severe oedema, inflammation, ulceration and slough Twelve of the burns patients studied were Koreans who were involved in an ammonia tank explosion on board a ship. The remaining 36 were patients from Singapore who were exposed accidentally to kerosine stove fires or gas explosions, or who had attempted suicide. We treat many patients with differentiated thyroid cancer each year (average 40 per year). Twelve of these patients had lung metastases and had received cumulative radioiodine treatment doses of 500-800 mCi (19-30 GBq). The acrosol study was done In thc morning prior to treatment with radioiodine (off thyroxine for 5 weeks) in the afternoon, the last treatment dose being about six months previously. X-ray chest was done routinely and CT scan of thorax in some of these patients, but pulmonary function tests were not done. None of these patients were smokers. The patients received radioiodine treatment from 8 years previously (6 patients) to 4 years previously (4 patients) and 2 years previously (2 patients). The 1 2 patients had the aerosol study, to note damage to alveolar-capillary membrane, if any. RESULTS l. Normals and Inhalation Burns In the 3_O normal, non-smoking adult volunteers, the T1/2 ranged from 47 to 78 minutes with a mean of 66 mins +- 1sd 12 mins. The volunteers were aged 18-20 years while the patients were in the 30-45 age group. There were no significant differences in clearance between right and left lung. Table 1 summarizes the findings in the study of normals and in patients with suspected inhalation burns, while Table 2 notes the change in clearance rates over a period of time in three patients with inhalation burns. Figure l and Figure 2 show the time-activity clearance curves and the retention images In a normal and abnormal study respectively. In the group of 65 patients with suspicion of inhalation injury, only 48 had both bronchoscopy and ventilation study; of these 48, 12 were Korean males in their thirties. They were exposed to ammonia from an ammonia tank explosion on board a ship In the South China Sea and they were flown to the Singapore General Hospital the same day and managed by the Burns Unit in this hospital. An inhalation injury caused by chemicals was presumed and though 15 were transferred from the ship to hospital only 12 were able to have the aerosol studies done. All these twelve also had bronchoscopy done mostly within a day after admission, though in one of them the delay was 5 days. There were 36 local patients, who had both broncho-scopy and ventilation study done. This group of patients was exposed to thermal injury or products of combustion. The retention images in normal subjects showed faster clearance of tracer in the apices and edges of the lung fields. Similarly in the patients with abnorrnal broncho-scopic findings the ventilation images gencrally showed patchy radioaerosol distribution in both lungs, while the retention images showed obvious increased regional clearance in only a few patients with high likelihood of lung parenchymal damage. Chest X-rays were normal in most of the patients at time of ventilation study, though subsequent films did show evidence of bilateral patchy infiltration (pneumonitis) or oedema, particularly in the basal areas. Pulmonary function measurement was done in only a few patients and no analysis could be done. There was no correlation between the partial pressure of arterial oxygen Pa02, and the grading of bronchoscopic findings or the ventilation study Tl/2 results. 2. Chronic Obstructive Pulmonary Disease (COPD) Table 3 summarizes the results of aerosol deposition pattern and clearance times in patients with COPD. It is to be notcd that the radioaerosol deposition tends to be central in patients with emphysema, and more peripheral in bronchitic patients, while a fair number of patients will tend to show a mixed pattern. The X-ray chest can be normal in some of these patients. The mean Tl/2 from Tc-99m DTPA clearance in these patients was 78 +- 14 min. The perfusion images largcly matched the ventilation images in these patients with COPD. Figures 3,4 and show patterns of aerosol deposition in moderate and severe COPD, together with clearance curves. 3. Smokers and Glue-snlffers In this group, there were 1O smokers (Volunteers), and 20 glue-sniffers from Sembawang Detention Centre. The smokers had an abnormally rapid mean TI/2 clearance time of 20 mins; as can be seen from Figure 5, in the glue-sniffers, the longer the period of abstinence from cigarettes, the larger the TI/2clearance times obtained. In only l of the glue-sniffers who was always a non-smoker, and stopped glue-sniffing for 30 days, was the Tl/2 abnormal i.e. 36 mins, Indicating that there is some alveolar-capillary damage in the long-term, in hard-core glue-sniffers. It also appears that the recovery of clearance times to normal on cessation of smoking is prolonged in the glue-sniffers, quite apart from any neurological damage. 4. Thyroid Cancer Lung Metastases The mean clearance half-time value was 76 +- 23 mins in these 12 thyroid cancer patients with lung metastases and who had received radioiodine treatment. Since the numbers are small it is not possible to make meaningful inference between administered radioiodine dose and 99mTc DTPA clearance Tl/2 time. However only two patients had low T1/2 values (41 min and 49 min) and both these patients had diffuse lung involvement by metastases, compared to the other 1O who had patchy areas of metastatic lung disease. These two patients were given 600 mCi of radioiodine 131I, over a period of 3 years, and are still continuing with the treatment. Though 131I uptake in the lungs was measured (mean uptake = 1O% at 72 hours), of administered dose) no calculations were made in terms of radiation dose delivered to the lung. DISCUSSION Normals Our group of 30 normal volunteers was fairly young i.e. mean age = 19. The mean clearance Tl/2 obtained was 66 mins, and this is slightly lower than that reported from other centres, where older volunteers were studied. A previous study6 has shown a variation in clearance Tl/2 with age, with younger volunteers showing a more rapid clearance; this accounts for our slightly lower normal values. Smokers and glue-snlffers Cigarette smoking is known to cause increased 99mTc DTPA pulmonary clearance,7.X and this has been borne out in our study of 1O smokers where the mean T1/2 Is considerably reduced to 20 mins. Studies on regular smokers who stopped smoking have shown that the increased clearance rate returned towards normal , with a significant improvement (decreased rate) in Tl/2 as early as 24 hours.9 However in young hard-core glue-sniffers this does not appear to be so. We have studied the pulmonary clearance in these 20 young men from the Sembawang Dctention Centre, where they were off cigarettes and glue-sniffing for periods ranging from 1 day to 30 days. Unifortunately, owing to transport and detention logistics, there are not many in each group of days off smoking, but it appears that even up to one week, the clearance-rates are faster than normal. As can be seen from Figure 5, even at four weeks, the clearance-rates are just about approaching the normal range. This indicates that with the superimposition of inhalant abuse on smoking, there is prolonged alteration of the alveolar capillary membrane permeability. Only one out of the 20 men was a regular non-smoker whom we studied at day 30, and he had an abnormal Tl/2 of 36 mins, suggesting altered alveolarcapillary permeabllity from inhalant abuse alone. The information in Figure 5 can be utilized in anti-smoking clinlcs and in rehabilitation of glue-sniffers. Over the last 3 years there has been a considerable reduction in glue-sniffing in Singapore with very few admissions to the Detention Centre. lnhalation burns Inhalation injuries resuhing from fires are uncommon in the lower airways and lung parenehyma, unless there is steam exposure. Chemical injuries to the respiralory tract depend on thc chemical involved, the concentration of the chemical, its soiubllity and duration of exposure. Ammonia for example tends to dissolve in the upper respiratory tract and cause injury there but when the concentration is high or the exposure is prolonged, there may be damage to the lower respiratory tract as evidenced by our study of the 12 patients exposed to an ammonia tank explosion, when both the bronchoscopy and ventilation study showed abnormal findings in 9 of 12 patients. Fibreoptic bronchoscopy, Xenon-133 lung scans and pulmonary functions tests have been useful objective tests in the diagnosis of inhalation burn injury . Io Bronchoscopy is safe and accurate and it is possible to visualize larynx, trachea, carina and main stem and segmental bronchi. Xenon-133 lung scanning Is not available in our part of the world, and is expensive for us to use routinely; hence our decision to use 99mTc DTPA aerosol . Both the radioaerosol and the Xenon lung scan have the limitation of false positives and false negatives in patients with preexisting lung disease, and If they are smokers. Our patients were healthy young persons who had no proven lung disease previously, though some of them in the ammonia burns group may have been smokers. The damage caused by the ammonia was probably worse than the effects of smoking as proven by the bronchoscopy findings. Pulmonary function tests such as FEV 1 %, and MEFV (maximum expiratory flow volume) were not done routinely as it would have been difficult for most of these patients to cooperate. A previous study done at this hospital10 did not show any correlation between severity of bronchoscopic changes and PaO2 Or the severity of the skin burn. The false negative radioaerosol ventilation results are possibly due to this investigation being done one week after the bronchoscopy, while the false positives are either due to effect of smoking, or due to the delayed bronchoscopy being normal 5 days after the ventilation scan. It would appear that the retention images produced to obtain an index of regional lung ventilation and damage, are not useful in most cases. Serial studies In a few patients with lung parenchymal damage from inhalation burns have shown progressive improvement, deterioration, or no change in regional ventilation and clearance times of the radioaerosol, as shown in Table 2. Most of the Koreans were flown back to Korea soon after the accident and hence it was not possible to et long-term serial studies. Studies using the plain chest film after smoke inhalation,ll have pointed to bronchial wall thickening and subglottic oedema, as heralding more serious respiratory damage both to the upper airways and to the lung parenchyma. We have not been able to correlate the radioaerosol clearance times with the X-ray chest findings. An increase in the rate of submicronic aerosol of Tc-99m DTPA clearance from the lungs has been reported in normal persons breathing at high lung volumes,12 healthy cigarette smokers,9 patients with chronic interstitial lung diseasel3 and in patients with adult respiratory distress syndromel4 and in assessing lung damage in AIDS.15 Hence there is a belief that measuring altered respiratory epithelial permeability using clearance rate of 99mTc DTPA radioaerosol is not specific enough for use in the clinical situation.16 In otherwise healthy, particularly young patients with no pre-existing lung disease and who are non-smokers (as is often the case here), there is a useful role for simple radioaerosol studies in assessing the lung parenchymal damage from respiratory burns. Other studies 17 stress the need for early diagnosis of the inhalation burn so that adequate treatment may be instituted early. Our preliminary studyl8 indicated that there was a definite role for DTPA clearance study in suspected inhalation burns, and this has been borne out after more 19,20 patients have been entered into the study. Chronic obstructive pulmonary disease (COPD) We used a non-diffusible tracer (99mTc (tin) colloid) to image the pattern of ventilation of the lungs in COPD, and compared the Inhalation images to the perfusion images that were subsequently acquired using i.v. 99mTc macroag-gregated albumin (MAA). In general, the study indicated that in COPD, there were matched ventilation and perfusion abnormalities, confirming that regional ventilation regulates regional perfusion. The deposition patterns of the inhaled aerosol also help in differentiating the nature of the COPD; from the study we noted that the aerosol deposition tended to be central in emphysema, and peripheral in bronchitis, though obviously there will be mixed patterns in some patients. It is possible that abnormal deposition patterns may be noted earlier than changes in X-ray chest.21 The 99mTc DTPA clearance study was done in eight of these patients with COPD; there was no reduction in clearance T1/2. If at all the T1/2 was slightly increased, due in part to the central tracer deposition with poor clearance from this site. The mean Tl/2 was, 78 ,mins which is close to our normal range. Previous studies have also shown that COPD per se does not cause an increase in the rate of 99mTc DTPA clearance.13 Further 99mTc DTPA aerosol clearance studies are also being done as part of a regional coordinated study on the influence of urban air pollution on altered lung function . The initial findings conclude that in cities with high levels of particulate pollutants (Bombay, Bangkok) people have shorter Tl/2 times as compared to cities like Sendai and Singapore where atmospheric pollution is low.22 Thyroid cancer lung metastases Lung metastases from differentiated cancer are not uncommon and are readily treated with radioiodine and thyroxine. The radiation dose delivered to the lung may be quite high, and results in radiation pneumonitis and fibrosis.23 The late effects from repeated therapeutic doses of radioiodine could damage normal pulmonary epithelium.24 A recent study25 has shown no significant alteration in the T1/2 in 35 patients who had received large cumulative radioiodine dose for lung metastases from thyroid cancer. Our study supports this conclusion, and though pneumonitis and pulmonary fibrosis may occur, there is no permanent damage to alveolar-capillary membrane as measured by the T1/2clearance study. Only in two patients with diffuse lung involvement were there low Tl/2 values, but repeat long-term studies have to be done in these 2 patients to note development of radiation induced pulmonary epithelial damage. Other studies have shown interestingly that clearance is accelerated not only in radiation pneumonitic lesions, but also in the contralateral otherwise normal lung.26 In summary the radioaerosols, including technetium-99m DTPA aerosol, can produce inhalation images of the lung and are usefully sensitive, though not specific, in studying pulmonary epithelial permeability in various types of lung diseases. REFERENCES l . Gorin AB, Stewart PA. Differential permeability of endo-thelial and epitheli al barriers to albumin flux . J Appl Physiol 48: 1315-1324, 1979. 2. Bernard GR, Artigas A, Brigham KL, et al. The American-European Consensus conference on ARDS: definitions, mechanisms, relevant outcomes , and clinical trial coordination. Am J Respir Crit Care Med 149: 818-824, 1994. 3. Schuster DP. Measuring pulmonary vascular permeability. J Nucl Med 36: 1442-1444, 1995. 4. Touya JJ, Rahimian J, Corbus HF, et al. The lung as a metabolic organ. Sem Nucl Med 16 (4): 296-305, 1986. 5. Drake RE, Laine GA. Pulmonary microvascular permeability to fluid and macromolecules. J Appl Physiol 64: 487-501, 1988. 6. Pigorini F, Maini CC, Pau T, Giousue S. Tue influence of age on the pulmonary clearance of Tc-99m-DTPA radio-aerosol. Nucl Med Commun 9: 965-971 , 1988. 7. Jones JG,LawlerP, Crawley JCW, Minty BD, Hinlands G, Veall N. Increased alveolar epithelial permeability in cigarette smokers. Lancet 1 : 66-68, 1980. 8. Kennedy SM, Elwood RK, Wiggs BJR, Pare PD, Hogg. Increased airway mucosal permeability of smokers. Am Rev Respir Dis 129: 143-148, 1984. 9. Minty BD, Jordan C, Jones JG. Rapid improvement in abnormal pulmonary epithelial permeability after stopping cigarettes. BrMed J 282: 1183-1185, 1981. 10. Tan WC, Lee ST, Lee CN. Wong S. The role of fibreoptic bronchoscopy in the management of respiratory burns. Ann Acad Med Singapore 14: 434, 1985. ll. Lee MJ, O'Connel DJ. acute smoke inhalation. The plain chest radiograph after Clinical Radiology 39: 33-36, 1988. 12. Marks JD, Luce JM, Lazar NM, et al. Effect of increases in lung volume on clearance of aerosolised solute from human lungs. J Appl Physiol 59: 1242-1245, 1985. 13. Rinderknecht J, Shapiro L, Krauthammer M, et al. Accelerated clearance of small solutes from the lungs in interstitial lung disease. Am Rev Respir Div 121 : 105- 109, 1980. 14. Mason GR, Uszler IM, Effros RM. Differentiation between hemodynamic and non-hemodynamic pulmonary oedema by a scanning procedure (Abstract). Am Rev RespirDis 123 : 238, 1981. 15. Rosso J, Guillon JM, Denis M, Akoun G, et al. Technetium-99m DTPA Aerosol and Gallium-67 scanning in pulmonary complication of human immunodeficiency virus infection. J Nucl Med 33: 81-87, 1992. 16. Huchon GJ, Montgomery AB. Lipavsky A, Hoeffel JM, Murray JP. Respiratory clearance of aerosolised solutes of varying molecular weight. J Nucl Med 28: 894, 1987. 17. Hendron DN, Barrow RE, Linares HA, et al. injury in burned patients: effects and treatment (5): 349-356, 1988. Inhalation Burns 14 l8. Sundram FX, Lee ST. Tc-99m DTPA aerosol studies of the lung in inhalation injuries in burns patients. In Proceedings of International Symposium on Application of Dynamic Functional studies in Nuclear Medicine in Developing Countries. Vienna 1989 IAEA-SM-304/31 , Vienna, Inter-national Atomic Energy Agency, pp. 319-332, 1989. 19. Sundram FX. Lee ST. Radionuclide lung scanning in the management of respiratory burns . Ann Acad Med Singa pore 21 (5): 630-634, 1992. 20. Sundram FX. Clinical application of radioaerosol studies-pulmonary embolism, glue-sniffers, CODP and inhalation burns. In Radioaerosol Imaging of the Lung, Bahk YW, Isawa T (eds.), Korea, Benedict Press, pp. 136-148, 1994. 21. Bahk YW. Chung SK. Radioaerosol lung scanning in COPD and related di sorders. In Radioaerosol Imaging of the Lung, Bahk YW, Isawa T (eds.), Korea, Benedict Press, pp. 88-135, 1994. 22. Nair G, et al. Urban Air pollution and altered lung function-an East, South and South-East Asian regional coordi-nated study. N Eng J Med 1995 (in press). 23. Rall JE, Alpers JB, Lewallen GG, et al. Radiation pneumo-nitis and fibrosi s : a complication of radioiodine treatment of pulmonary metastases from cancer of the thyroid. J Clin Endocrinol Metab 17: 1263-1276, 1957. 24. Frazell EL, Foota FW. Papillary cancer of the thyroid. A review of 25 years of experience. Cancer 53: 982-992, 1984. 25. Samuel AM, Unnikrishnan TP, Baghel NS, Rajashekharrao B. Effect of radioiodine therapy on pulmonary alveolar-capillary membrane integrity. J Nucl Med 36: 783-787, l995 . 26. Anazawa Y, Isawa T, Teshima T. Miki M. Motomiya M. Changes in pulmonary epithelial permeability due to thoracic irradiation. J Jpn Soc Chest Dis 30: 862-867, 1992.