• Title/Summary/Keyword: Lung perfusion scan

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Evaluation of Prospective Pulmonary Function Change for Pulmonary Resection Using Quantitative Perfusion Lung Scan (폐절제술시 정량 폐관류스캔을 이용한 폐기능 변화 예견에 대한 평가)

  • 김용진
    • Journal of Chest Surgery
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    • v.19 no.2
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    • pp.188-196
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    • 1986
  • Spirometry and regional function studies using 99m-Technetium were performed preoperatively to predict postoperative pulmonary function change in 34 patients who had various pulmonary resectional procedures at the Department of Thoracic and Cardiovascular Surgery, Seoul National University Hospital. Between two months and fourteen months postoperation all the patients were reinvestigated with spirometry and clinical examination to evaluate their functional respiratory status. The postoperative obtained values, especially forced vital capacity [FVC] and forced expiratory volume in one second [FEV1] among the other parameters were compared with the postoperative predicted values. Estimated values of FVC and FEV1 derived from preoperative spirometry and quantitative perfusion lung scan correlated well with the measured postoperative values. The linear regression line derived from correlation between postoperative estimated[X] and postoperative measured[Y] values of FVC and FEV1 in all patients are as follows; 1. Y=0.76x + 0.39 in correlation of FVC [r=0.91] 2. Y=0.88x + 0.17 in correlation of FEV1 [r=0.96],br> This method of estimation was one of the best methods of predicting postoperative pulmonary function change and valuable in determining the extent of safe resection and postoperative prognosis to a poor risk patient with chronic obstructive lung disease.

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Prediction of Postpneumonectomy Pulmonary Function by Lung Scan in Lung Cancer Patient (폐관류스캔을 이용한 폐암환자의 일측 전폐절제술후의 폐기능예측)

  • Hur, Jin;Jang, Bong-Hyun;Lee, Jong-Tae;Kim, Kyu-Tae
    • Journal of Chest Surgery
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    • v.24 no.4
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    • pp.338-344
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    • 1991
  • If the postoperative pulmonary function can be predicted in the patients undergoing pneumonectomy for lung cancer preoperatively, it will be helpful for identifying them as high or low risk candidates. Perfusion lung scan and spirometry were performed in 12 patients with lung cancer pre-operatively and the predicted postoperative Vital Capacity, FVC, FEV1.0, FEF25 - 75% and MVV were estimated by multiplying the preoperative values by the percentage of perfusion of the nonsurgical lung. Three months postoperation the patients were reinvestigated with spirometry and the obtained values were compared with the predicted values. The linear regression lines derived from the correlation between predicted values [X] and observed values [Y] were as follows; VC; R=0.532, Y=0.48X+1.28, P=0.075 FVC; R=0.566, Y=O 54X+1.15, P=0.055 FEV1.0; R=0.832, Y=0.68X+0.70, P=0.001 FEF25 ~ 75%; R=0.781, Y=0.68X+0.54, P=0.003 MVV; R=0.718, Y=0.67X+34.75, P=0.009 The prediction of postoperative FEV1.0, FEF25 ~ 75% and MVV in lung cancer patients undergoing pneumonectomy appear to be valid for evaluating preoperative pulmonary function.

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Scintigraphic Evaluation of Inhalation Injury in Fire Victims (화재사고시 흡입에 의한 기도손상의 핵의학적 평가)

  • Chun, Kyung-Ah;Cho, Ihn-Ho;Won, Gyu-Jang;Lee, Hyung-Woo;Shin, Kyung-Chul;Jeong, Jin-Hong;Lee, Gwan-Ho
    • Nuclear Medicine and Molecular Imaging
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    • v.40 no.1
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    • pp.28-32
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    • 2006
  • Purpose: Conventional chest X-ray and pulmonary function test cannot sensitively detect inhalation injury. Bronchoscopy is known to be the gold standard but it is invasive method. We evaluated whether lung inhalation/perfusion scans can sensitively detect inhalation injury of fire victims. Materials and Methods: Nineteen patients (male 9, female 10, mean age 31.6 yr) of fire victims were enrolled in this study. Inhalation lung scan was performed 2 days later after inhalation injury with $^{99m}Tc$-technegas. Perfusion lung scan was performed 4 days later with $^{99m}Tc$- MAA (macroaggregated albumin). Follow up lung scans were performed 16 and 18 days later for each. Chest X-ray was performed in all patients and bronchoscopy was performed in 17 of 19 patients at the same period. Pulmonary function test was performed in 9 patients. Results: Four of 19 patients showed inhalation and perfusion defects and one showed inhalation defect but, normal perfusion scan findings. These five patients with abnormal scan findings showed abnormal bronchoscopic findings and severe respiratory symptoms. On chest X-ray, 2 of them had pulmonary tuberculosis and one of them showed pulmonary congestion. FEV1 /FVC was abnormal in 3 patients. On the follow up scan, all patients with abnormal initial scan findings showed improved findings and they had improved clinical state. Conclusion: Inhalation/perfusion lung scans can detect inhalation burn injury noninvasively in early stage and may be useful in therapeutic decision making and follow up of patients.

A Dual Lung Scan for the Evaluation of Pulmonary Function in Patients with Pulmonary Tuberculosis before and after Treatment (폐결핵치료전후(肺結核治療前後) 방사성동위원소(放射性同位元素)스캔에 의(依)한 폐기능(肺機能)의 비교(比較))

  • Rhee, Chong-Heon
    • The Korean Journal of Nuclear Medicine
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    • v.1 no.2
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    • pp.1-25
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    • 1967
  • In 20 normal cases and 39 pulmonary tuberculosis cases, regional pulmonary arterial blood flow measurements and lung perfusion scans by $^{131}I$-Macroaggregated albumin, lung inhalation scans by colloidal $^{198}Au$ and spirometries by respirometer were done at the Radiological Research Institute. The measured lung function tests were compared and the results were as the following: 1. The normal distribution of pulmonary blood flow was found to be $54.5{\pm}2.82%$ to the right lung and $45.5{\pm}2.39%$ to the left lung. The difference between the right and left pulmonary arterial blood flow was significant statistically (p<0.01). In the minimal pulmonary tuberculosis, the average distribution of pulmonary arterial blood flow was found to be $52.5{\pm}5.3%$ to the right lung and $47.5{\pm}1.0%$ to the left lung when the tuberculous lesion was in the right lung, and $56.2{\pm}4.4%$ to the right lung and $43.8{\pm}3.1%$ to the left lung when the tuberculous lesion was in the left lung. The difference of pulmonary arterial blood flow between the right and left lung was statistically not significant compared with the normal distribution. In the moderately advanced pulmonary tuberculosis, the average distripution of pulmonary arterial blood flow was found to be $26.9{\pm}13.9%$ to the right lung and $73.1{\pm}13.9%$ to the left lung when the tuberculous lesion was more severe in the right lung, and $79.6{\pm}12.8%$ to the right lung and $20.4{\pm}13.0%$ to the left lung when the tuberculous lesion was more severe in the left lung. These were found to be highly significant statistically compared with the normal distribution of pulmonary arterial blood flow (p<0.01). When both lungs were evenly involved, the average distribution of pulmonary arterial blood flow was found to be $49.5{\pm}8.01%$ to the right lung and $50.5{\pm}8.01%$ to the left lung. In the far advanced pulmonary tuberculosis, the average distribution of pulmonary arterial blood flow was found to be $18.5{\pm}11.6%$ to the right lung and $81.5{\pm}9.9%$ to the left lung when the tuberculous lesion was more severe in the right lung, and $78.2{\pm}8.9%$ to the right lung and $21.8{\pm}10.5%$ to the left lung when the tuberculous lesion was more severe in the left lung. These were found to be highly significant statistically compared with the normal distribution of pulmonary arterial blood flow (p<0.01). When both lungs were evenly involved the average distribution of pulmonary arterial blood flow was found to be $56.0{\pm}3.6%$ to the right lung and $44.0{\pm}3.2%$ to the left lung. 2. Lung perfusion scan by $^{131}I$-MAA in patients with pulmonary tuberculosis was as follows: a) In the pretreated minimal pulmonary tuberculosis, the decreased area of pulmonary arterial blood flow was corresponding to the chest roentgenogram, but the decrease of pulmonary arterial blood flow was more extensive than had been expected from the chest roentgenogram in the apparently healed minimal pulmonary tuberculosis. b) In the pretreated moderately advanced pulmonary tuberculosis, the decrease of pulmonary arterial blood flow to the diseased area was corresponding to the chest roentgenogram, but the decrease of pulmonary arterial blood flow was more extensive in the treated moderately advanced pulmonary tuberculosis as in the treated minimal pulmonary tuberculosis. c) Pulmonary arterial blood flow in the patients with far advanced pulmonary tuberculosis both before and after chemotherapy were almost similar to the chest roentgenogram. Especially the decrease of pulmonary arterial blood flow to the cavity was usually greater than had been expected from the chest roentgenogram. 3. Lung inhalation scan by colloidal $^{198}Au$ in patients with pulmonary tuberculosis was as follows: a) In the minimal pulmonary tuberculosis, lung inhalation scan showed almost similar decrease of radioactivity corresponding to the chest roentgenogram. b) In the moderately advanced pulmonary tuberculosis the decrease of radioactivity in the diseased area was partly corresponding to the chest roentgenogram in one hand and on the other hand the radioactivity was found to be normally distributed in stead of tuberculous lesion in the chest roentgenogram. c) In the far advanced pulmonary tuberculosis, lung inhalation scan showed almost similar decrease of radioactivity corresponding to the chest roentgenogram as in the minimal pulmonary tuberculosis. 4. From all these results, it was found that the characteristic finding in pulmonary tuberculosis was a decrease in pulmonary arterial blood flow to the diseased area and in general decrease of pulmonary arterial blood flow to the diseased area was more extensive than had been expected from the chest roentgenogram, especially in the treated group. Lung inhalation scan showed almost similar distribution of radioactivity corresponding to the chest roentgenogram in minimal and far advanced pulmonary tuberculosis, but there was a variability in the moderately advanced pulmonary tuberculosis. The measured values obtained from spirometry were parallel to the tuberculous lesion in chest roentgenogram.

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Prediction of Post-operative Cardiopulmonary Function By Perfusion Scan (폐관류 검사를 이용한 폐절제술 후 심폐운동기능의 예측)

  • Ryu, Jeong-Seon;Lee, Ji-Young;Seo, Dong-Bum;Cho, Jae-Hwa;Lee, Hong-Lyeol;Yoon, Yong-Han;Kim, Kwang-Ho
    • Tuberculosis and Respiratory Diseases
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    • v.50 no.4
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    • pp.401-408
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    • 2001
  • Background : Perfusion scans are accurate predictors of postoperative lung function. There are few previous studies aimed at predicting the postoperative exercise capacity using the perfusion scanning and those that did reported contradictory results. Method : We prospectively studied the preoperative spirometric, exercise tests and perfusion scans from in 49 consecutive patients who were admitted to Inha University Hospital with surgically resectable lung cancer from Jan. 1998 to Jun. 1999 29 patients who had any condition affecting the lung function and exercise capacity, or refused a surgical resection or a follow-up study were excluded. Spirometric and exercise tests were performed 6 months after operation in 20 patients. Results : The predicted postoperative $FEV_1$, FVC and TLC correlated well with the following corresponding postoperative values : $r_s$ and p value, 0.809 and 0.000 for the $FEV_1$ 0.895 and 0.000 for the FVC ; 0.741 and 0.006 for the TLC, respectively. The measured postoperative exercise values were slightly higher than the postoperative exercise values predicted, $VO_{2max}$ and $Wr_{max}$, were as 112% of $VO_{2max}$ predicted and 119% of $WR_{max}$ predicted. The change in $FEV_1$, FVC and TLC had a weak correlation with the change in $VO_{2max}$ and $WR_{max}$. Conclusion : The perfusion scan was a useful tool for predicting the postoperative exercise capacity. However, they had a tendency to underestimate the exercise capacity, especially in the patients who had a pneumonectomy. A weak correlation between the change in lung function and exercise capacity was observed.

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Stenosis of Individual Pulmonary Veins (개별 폐정맥의 협착)

  • Lee, Mira;Choi, Kil Soon;Kim, Nam Su;Yum, Myung Kul;Kim, Yong Joo;Sul, In Jun
    • Clinical and Experimental Pediatrics
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    • v.46 no.6
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    • pp.610-614
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    • 2003
  • Pulmonary hypertension may be associated with variable conditions such as the hyperkinetic state or pulmonary vascular obstruction. In these, stenosis of the individual pulmonary veins without any cardiac or vascular malformation is very rare. We experienced stenosis of individual pulmonary veins in a 10 months old boy who was admitted with recurrent dyspnea and cyanosis and then underwent angiogram and a lung perfusion scan.

A Study on the Intrapulmonary Shunt Measured by $^{99m}Tc$-MAA Perfusion Lung Scan ($^{99m}Tc$-MAA관류폐주사를 이용한 폐내단락에 관한 연구)

  • Choi, Jin-Myung;Kang, Chan-Kyu;Lee, Young-Hyun;Choi, Soo-Bong;Chung, Jae-Chun;Kim, Chong-Suhl
    • Journal of Yeungnam Medical Science
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    • v.3 no.1
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    • pp.163-169
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    • 1986
  • Intrapulmonary shunt was measured by $^{99m}Tc$-MAA perfusion tung scan. The study was included 76 patients. Significant amount of intrapulmonary shunt was observed in the pulmonary disease patients and liver disease patients. The shunt amount was correlated well with $PaO_2$ and $AaDO_2$ level. Further study is needed to search the various factors affecting the amount of intrapulmonary shunt.

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Hepatic Arterial Perfusion Scintigraphy with Tc-99m-Macroaggregated Albumin in Hepatocellular Carcinoma (Tc-99m-MAA를 이용한 간세포암의 경동맥 관류스캔)

  • Kim, Gang-Deuk;Sohn, Kwang-Joon;Min, Kyung-Yoon;Kwon, Young-Mi;Kim, Chang-Guhn;Noh, Byung-Suk;Won, Jong-Jin
    • The Korean Journal of Nuclear Medicine
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    • v.28 no.3
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    • pp.350-356
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    • 1994
  • Purpose : Hepatic arterial perfusion scintigraphy with Tc-99m-macroggregated albumin (HAPS) study was carried out in 16 patients with hepatocellular carcinoma(HCC) and in six patients without liver tumor to evaluate HAPS findings of hepatocellular carcinoma and usefullness of HAPS. Materials and Methods : HAPS with planar and SPECT study were performed in 22 patients after conventional hepatic or celiac arteriography. For HAPS study, 4-5 mCi of MAA mixed with 2ml of saline was injected into proper hepatic artery or its distal branches at the rate of approximately 1ml/sec. We analysed 21 HCCs over 2cm in diameter(average diameter; 6.4cm) and 17 of 21 HCCs were over 4cm in diameter(Table 1). CT, sonography and angiography were performed within two week in all 16 patients and liver scan was performed in 12 patients. Results : Three different pattern of tumor perfusion were observed in 16 patients with HCC (Table 2). 1) diffuse increased perfusion in 16 of 21(76%)(Fig. 1) 2) increased peripheral perfusion in 4 of 21(19%) (Fig. 2) 3) diffuse decreased perfusion in 1 of 21 (5%) Arteriovenous shunt indicated by lung uptake of MAA were observed in 9 of 16(56%)(Fig. 4). In contrast, angiography demonstrates arteriovenous shunt in 2 of 16(13%). There was no accumulation of radioactivity on RBC-blood pool scan in all six patients with HCC examined (Fig. 1). Conclusion : HAPS is useful study in evaluation of perfusion pattern or vascularity of HCC and in detection of arteriovenous shunt.

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