1.Influence of Age on The Adenosine Deaminase Activity in Patients with Exudative Pleural Effusion.
Kyu Min YEON ; Chong Ju KIM ; Jeong Soo KIM ; Chi Hoon KIM
Tuberculosis and Respiratory Diseases 2002;53(5):530-541
BACKGROUND: Pleural fluid adenosine deaminase (ADA) activity can be helpful in a differential diagnosis of an exudative pleural effusion because it is increased in a tuberculous pleural effusion. The ADA activity is determined mainly by the lymphocyte function. Age-associated immune decline is characterized by a decrease in T-lymphocyte function. For that reason, the pleural fluid ADA level would be lower in older patients with exudative pleural effusion. This study focused on the influence of age on the pleural fluid ADA activity in patients with exudative pleural effusion. METHODS: A total of 81 patients with exudative pleural effusion were enrolled in this study. In all patients, the pleural fluid ADA activity was measured using an automated kinetic method. RESULTS: The mean age of the patients was 52.7+/-21.2 years. In all patients with exudative pleural effusion, the pleural fluid ADA activity revealed a significant difference between young patients (under 65 years of age) and old patients (at or over 65 years of age) : 82.8 +/- 48.0 IU/L in young patients Vs. 57.7+/-37.2 IU/L in old patients (p<0.05), and showed a negative correlation with age (r=-0.325, p<0.05). In the 60 patients with a tuberculous pleural effusion, the pleural fluid ADA activity revealed a significant difference between the young and older patients : 103.5+/-36.9 IU/L in young patients Vs. 72.2+/-31.6 IU/L in old patients (p<0.05), and showed a negative correlation with age (r=-0.384, p<0.05). In the 21 patients with non-tuberculous exudative pleural effusion, the pleural fluid ADA activity of the young patients and old patients was similar : 23.7+/-15.3 IU/L in young patients Vs. 16.1+/-10.2 IU/L in old patients (p>0.05), and did not show any correlation with age (r=-0.263, p>0.05). The diagnostic cutoff value of pleural fluid ADA activity for tuberculous pleural effusion was lower in the older patients (25.9 IU/L) than in the younger patients (49.1 IU/L) or all patients (38.4 IU/L) with exudative pleural effusion. CONCLUSION: Tuberculous pleural effusion is an important possibility to consider in older patients with a clinical suspicion of a tuberculous pleural effusion, although no marked increase in the pleural fluid ADA activity is usually detected. For a diagnosis of a tuberculous pleural effusion in old patients, the cutoff for the pleural fluid ADA activity should be set lower.
Diagnosis, Differential
2.Inflammatory Pseudotumor of the Lung: Three cases report.
Hye Soog KIM ; Bang HUR ; Hee Kyung CHANG ; Man Ha HUR
Korean Journal of Pathology 1988;22(3):317-323
The inflammatory pseudotumor of the lung is a non-neoplastic pulmonary mass lesion, composed of a variey of inflammatory cells including plasma cells, histiocytes(often xanthomatous), mast cells, lymphocytes, and spindle shaped mesenchymal cells. Although the pathogenetic etiology of this lesion is not estabilished, it has been claimed that it is associated with local inflammatory reaction. From 1984 to 1986, we experienced three cases of pathologically confirmed inflammatory pseudotumor of the lung. All three cases revealed similar gross and microscopic features, with only minor differences in components on microscopic level. All specimens were products of lobectomy. They showed a relatively well defined, yellowish white and solid mass, measuring about 5.0 cm in diameter. Histologically, the lesions, which were well demarcated from the uninvolved region, were characterized by dense infiltration of plasma cells and xanthomatous histiocytes admixed with lymphocytes, spindle shaped mesenchymal cells and polymorphonuclear leukocytes. At periphery, bronchi and bronchioles were entrapped by these cells. In focal areas, spindle shaped mesenchymal cells were aggregated, resulting in formation of thick bundles in which plasma cells were infiltrated. In case 1 and 2, myxoid change of stromal tissue was noted. Also noted were foci of osteoid metaplasia of the stromal layer in case 1. The authors report three cases of inflammatory pseudotumor of the lung, with comparative observation of each case, associated with literature review, with emphasis on the pathogenesis of this rather infrequent lesion. And some reviews were made on differential diagnosis between inflammatory pseudotumor and non-neoplastic or neoplastic lung mass including so called sclerosing hemangioma.
Diagnosis, Differential
3.Inflammatory Pseudotumor of the Lung: Three cases report.
Hye Soog KIM ; Bang HUR ; Hee Kyung CHANG ; Man Ha HUR
Korean Journal of Pathology 1988;22(3):317-323
The inflammatory pseudotumor of the lung is a non-neoplastic pulmonary mass lesion, composed of a variey of inflammatory cells including plasma cells, histiocytes(often xanthomatous), mast cells, lymphocytes, and spindle shaped mesenchymal cells. Although the pathogenetic etiology of this lesion is not estabilished, it has been claimed that it is associated with local inflammatory reaction. From 1984 to 1986, we experienced three cases of pathologically confirmed inflammatory pseudotumor of the lung. All three cases revealed similar gross and microscopic features, with only minor differences in components on microscopic level. All specimens were products of lobectomy. They showed a relatively well defined, yellowish white and solid mass, measuring about 5.0 cm in diameter. Histologically, the lesions, which were well demarcated from the uninvolved region, were characterized by dense infiltration of plasma cells and xanthomatous histiocytes admixed with lymphocytes, spindle shaped mesenchymal cells and polymorphonuclear leukocytes. At periphery, bronchi and bronchioles were entrapped by these cells. In focal areas, spindle shaped mesenchymal cells were aggregated, resulting in formation of thick bundles in which plasma cells were infiltrated. In case 1 and 2, myxoid change of stromal tissue was noted. Also noted were foci of osteoid metaplasia of the stromal layer in case 1. The authors report three cases of inflammatory pseudotumor of the lung, with comparative observation of each case, associated with literature review, with emphasis on the pathogenesis of this rather infrequent lesion. And some reviews were made on differential diagnosis between inflammatory pseudotumor and non-neoplastic or neoplastic lung mass including so called sclerosing hemangioma.
Diagnosis, Differential
4.Application of Immunohistochemical Stain for Granulocytic Sarcoma.
Yeong Ju WOO ; Chan Hwan KIM ; Jong Eun JOO
Korean Journal of Pathology 1994;28(1):30-37
Granulocytic sarcoma is a rare localized tumor composed of granulocytic precusor cells. Granu-locytic sarcoma occurs in a variety of clinical conditions and it is often misdiagnosed histologically. Differential diagnosis frorh lymphoma or nonhematopoietic malignancies such as undifferentiated carcinoma or sarcoma is difficult in the routing histologic examination. An evaluation of clinical and histopathologic features was done on 4 cases of granulocytic sarcoma which were diagnosed at Pusan Paik Hospital from 1988 to 1992. During the period, 282 cases of myelogenous leukemia were diagnosed. Immunohistochemical reaction for lysozyme, myelopero-xidase, leukocyte common antigen, epthelial membrane antigen and cytokeratin was assessed comparing to lymphoma and undifferentiated carcinoma. The histologic features of the granulocytic sarcoma revealed thin nuclear membrane, fine chromatin pattern and one or two small nucleoli. It also often involved the vascular wall and infiltrated the native structures without destruction. Immunohistochemical stain revealed that all(4 cases) of granulocytic sarcoma showed diffuse and strong positivity for myeloperoxidase, and partial but strong positivity for lysozyme. One case of granulocytic sarcoma was negative and 3 cases revealed focal positive reaction for LCA, and all 4 cases was negative for cytokeratin and EMA. In summary, careful observation under light microscopy with immunohistochemical stain for myeloperoxidase, lysozyme, and LCA is helpful in the differential diagnosis of granulocytic sarcoma from malignant lymphoma and cytokeratin and EMA is useful for differential diagnosis from undifferentiated carcinoma.
Diagnosis, Differential
5.A Case of Cutaneous Focal Mucinosis with Onychomycosis.
So Young KIM ; Ji Sook KIM ; Myung Hwa KIM ; Hae Young CHOI ; Ki Bum MYUNG
Korean Journal of Dermatology 2004;42(1):61-64
Cutaneous focal mucinosis was first described by Johnson and Helwig in 1961 and is histo logically characterized by localized accumulation of mucin in the upper and middermis with scattered spindle-shaped fibroblasts. The mucin is jelly-like acid mucopolysaccharide consisting of hyaluronic acid bound to small amounts of chondroitin sulfate and heparin. The pathogenesis of cutaneous mucinosis is unclear. However, studies of various cutaneous mucinoses suggest that there may be an unknown circulating factor that stimulates fibroblasts to produce this material. Differential diagnoses include papular mucinosis, myxoid cyst, cutaneous myxoma. Simple surgical excision is the treatment of choice. In the present case, cutaneous focal mucinosis occurs on the nail bed with onycho mycosis.
Diagnosis, Differential
6.Immunohistochemical Study for the Differential Diagnosis between Herpes Simplex and Varicella-zoster Infections.
Sang Dai SHIM ; You Chan KIM ; Hyang Joon PARK ; Yong Woo CINN
Korean Journal of Dermatology 2004;42(1):47-52
BACKGROUND: The clinical distinction between herpes simplex virus (HSV) and varicella-zoster virus(VZV) skin infections is sometimes difficult. Potentially, immunohistochemical method can distinguish HSV from VZV infection. However, immunohistochemical studies for the differentiation between them have rarely been reported. OBJECTIVE: The purpose is to investigate the usefulness of immunohistochemical staining in differentiation between HSV and VZV infections. METHODS: We studied 9 cases of herpes zoster, 4 cases of chicken pox, and 5 cases of herpes simplex with monoclonal antibody to VZV. Routine histopathologic findings of the cases were also evaluated. RESULTS: All cases of VZV infections stained with antibody to VZV, but none of HSV infection stained. In VZV infection, 25% of the cases showed strong or diffuse positive reaction, whereas the rest of them showed weak or focal pattern. Histopathologically, the degree of inflammation was significantly greater in HSV infection than in VZV infection. However, vaculitis was more frequently found in VZV infection than in HSV infection. CONCLUSION: We think immunohistochemistry with antibody to VZV is very useful in the differentiation between HSV and VZV infections, even if the reaction pattern may be so weak or focal, as careful interpretation is necessary.
Diagnosis, Differential
7.A Case of Encephaloclastic Porencephaly.
Journal of Korean Neurosurgical Society 1978;7(2):491-498
Although a great deal has been written about porencephaly during the past 100 years, there is much that remains obscure. The clinical recognition of porencephaly is important because it occurs with sufficient frequency to require consideration in the differential diagnosis of focal cerebral lesions. The authors considered and discussed to fulfill the pathogensis for this case.
Diagnosis, Differential
8.Therapeutic Effect of Cyclosporine a on Severe Henoch-Scholein Purpura Nephritis.
Pyung Kil KIM ; Ji Hong KIM ; Hyun Jong CHIN ; Hyeon Joo JEONG
Journal of the Korean Society of Pediatric Nephrology 1998;2(2):110-117
The fine needle aspiration (FNA) cytologic findings in 16 cases of histologically confirmed thymoma are reported. The aspirates were obtained under fluoroscopic guidance. The cytologic diagnoses were inadequate sample in one case, thymoma in 12 (75%), small cell carcinoma or thymoma in 1, benign mesenchymal tumor in 1, and germ cell tumor in one. The cytologic features were detailed according to the constituent epithelial cell type, and to the ratio of epithelial cells and lymphocytes. Fifteen cases were classified into 4 small epithelial cell type, 6 intermediate epithelial cell type, 1 large epithelial cell type, 1 large pleomorphic epithelial cell type, and 3 spindle-shaped epithelial cell type. Cytologic differential diagnosis was discussed, and the important criteria for the cytologic diagnosis of thymoma were reviewed. This review leads us to think that nonoperative cytologic approaches in the diagnosis of the thymoma are possible, and that correct cytologic diagnosis of thymoma with FNAs can easily be made, if adequate samples are obtained. However, the invasiveness and histologic type could not be predicted by cytological features only. Knowing various cytologic and histologic features of thymoma will be helpful for the diagnosis of thymoma and the differential diagnosis of mediastinal tumors.
Diagnosis, Differential
9.A Cystic Mass in the Popliteal Fossa and Its Differential Diagnosis.
Hyun Ho HAN ; Ji Min KIM ; Suk Ho MOON
Archives of Plastic Surgery 2015;42(4):484-486
No abstract available.
Diagnosis, Differential*
10.CT findings of pleural lesions: differential diagnosis between malignant and benign diseases.
Seung Yon BAEK ; Tae Hwan LIM ; Woo Sun KIM ; Kwang Gil PARK
Journal of the Korean Radiological Society 1991;27(3):351-357
No abstract available.
Diagnosis, Differential*