- Email: [email protected]
Large pulmonary solitary mass caused by Mycobacterium tuberculosis mimicking a malignant tumor in a child
Accepted Manuscript Large pulmonary solitary mass caused by Mycobacterium tuberculosis mimicking a malignant tumor in a child Yingqian Chen, Youyou Yang, Lang Chen, Miao Fan PII:
S2352-6211(17)30103-1
DOI:
10.1016/j.jrid.2018.08.002
Reference:
JRID 155
To appear in:
Radiology of Infectious Diseases
Received Date: 31 December 2017 Revised Date:
17 June 2018
Accepted Date: 6 August 2018
Please cite this article as: Chen Y, Yang Y, Chen L, Fan M, Large pulmonary solitary mass caused by Mycobacterium tuberculosis mimicking a malignant tumor in a child, Radiology of Infectious Diseases (2018), doi: 10.1016/j.jrid.2018.08.002. This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.
ACCEPTED MANUSCRIPT
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Large pulmonary solitary mass caused by Mycobacterium tuberculosis mimicking a malignant tumor in a child
SC
Yingqian Chena ([email protected]), Youyou Yanga, Lang Chena, Miao Fana* a Department of Radiology, First Affiliated Hospital of Sun Yat-Sen University, 58th, The Second Zhongshan Road, Guangzhou, China *
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Declarations of interest: none
M AN U
Corresponding author: Miao Fan, Department of Radiology, First Affiliated Hospital of Sun Yat-Sen University, 58th, The Second Zhongshan Road, Guanzhou, China, 510080. Tel: +86 13527607211, E-mail address: [email protected]
ACCEPTED MANUSCRIPT
Large pulmonary solitary mass caused by Mycobacterium
2
tuberculosis mimicking a malignant tumor in a child
3
Abstract
4
Tuberculoma, as a common characteristic of pulmonary tuberculosis (TB) in adults, is
5
rarely seen in children. We report a very rare case of large pulmonary solitary mass
6
caused by Mycobacterium tuberculosis in a 7-year-old boy, which was misdiagnosed
7
for malignant lung tumor before the biopsy. Pathology and the following test proved it
8
to be active TB. We also review the CT characteristics of TB and common thoracic
9
neoplasms in children for differential diagnosis. We call for the awareness of the
M AN U
SC
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1
atypical imaging characteristics of TB in children.
11
Keywords: Tuberculoma; Mycobacterium tuberculosis; Pediatric; Computed
12
tomography imaging
13
1. Introduction
EP
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10
Though the morbidity of Mycobacterium tuberculosis (Mtb) infection is decreasing,
15
there are around one third of the world’s population which are still infected with it[1].
16
Mtb causes a substantial health burden in the world, especially in developing
17
countries. In the most current national tuberculosis epidemiological survey in China
18
in 2010, the prevalence of active and smear positive prevalence of pulmonary
19
tuberculosis (TB) were 459/100 000 and 66/100 000 respectively, mostly attributed by
ACCEPTED MANUSCRIPT 20 21
rural area[2].
Pulmonary TB occurs relatively less in children. In 2016, children under 15 years old accounted for 6.9% of the new TB cases globally[1]. But it is hard to diagnose
23
Mtb infection in children, since their symptoms vary from those in adults, and it is
24
usually hard to get their sputum for acid-fast bacilli (AFB) smear or culture. Moreover,
25
children get infected more easily with Mtb from other children and adults with active
26
tuberculosis, which may cause a localized outbreak.Hence the imaging examinations,
27
especially the chest radiograph and chest multi spiral computed tomography (CT)
28
plays a critical role in the diagnosis and treatment of active pulmonary TB in children.
29
Unlike the imaging appearances in adult, lymphadenopathy is the most common
30
imaging manifestation in pediatric patients[3], follow by consolidation and pleural
31
effusion[4]. While pulmonary solitary mass or nodule, which is also termed as
32
tuberculoma in adult patients, is rarely seen in pediatric patients. Herein we report a
33
case of pathology proved pulmonary TB with the imaging appearance of solitary mass
34
which was misdiagnosed as malignant tumor before the biopsy.
35
2. Case Report
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SC
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22
36
A 7-year-old boy was referred to our hospital with a 6-month history of cough. The
37
boy was healthy ever before and no obvious predisposing cause was found. He had no
38
expectoration, fever, chest pain, night sweat or weight loss. The laboratory test
ACCEPTED MANUSCRIPT showed a higher platelet count (377 × 109/L) and higher serum lactate dehydrogenase
40
(LDH) level (300U/L, normal 114-240U/L). But other indexes of the whole blood cell
41
test and other blood biochemical indexes were within the normal ranges (white blood
42
cell: 7.10 × 109/L, neutrophils: 3.90 × 109/L, eosinophils: 0.22 × 109/L). The
43
posterior-anterior and lateral chest radiographs revealed a mass with clear margin in
44
his left upper lobe (Fig. 1A-B). Then chest CT imaging was recommended for a
45
further examination. In the non-enhanced chest CT images, an oval, sharply
46
marginated, shallow lobulated mass with a size of 47mm × 37mm × 33mm was found
47
in the apicoposterior segment of the left upper lobe. The mass appeared as a
48
homogeneous attenuation, which both nodular hypoattenuation areas and annular
49
hyperattenuation inside (Fig. 2A-C). After contrast enhancement, the hypoattenuation
50
areas showed no enhancement (Fig. 2D). Lymph nodes enlargement in the hilum or
51
mediastinal were absent. According to these manifestations, a tentative diagnosis by
52
radiologist of pulmonary malignant tumor was made. After that, more tests of serum
53
tumor markers were done. The level of alpha fetoprotein (AFP), neuron-specific
54
enolase (NSE), carcino-embryonic antigen (CEA) and CYFRA21-1 of the serum were
55
all within the normal ranges. And the HIV antibody primary screening was also
56
negative. What was more, to exclude metastasis, a 18F-fluorodeoxyglucose positron
57
emission tomography-CT (18F-FDG-PET/CT) was done. The pulmonary mass
58
appeared as high FDG consumption, with the highest standardized uptake value
59
(SUVmax) to be 4.1, which remind the radiologist to consider the possibility of
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SC
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39
ACCEPTED MANUSCRIPT malignant tumor. However, no other area of abnormal high FDG uptake was found
61
(Fig 3 A-B). Base on the image examinations, a preoperative diagnosis of malignant
62
lung tumor was made. In order to make a definite diagnosis, the patient received a
63
pulmonary needle biopsy after consultation. After H-E staining, large amount of
64
caseous necrosis with focal accumulation of lymphocytes could be seen inside the
65
tissue (Fig.3C). Tumor cell or abnormal mitoses were absent in the mass. Base on
66
these findings, pathology diagnosis of inflammation (possibly TB) was made. Then
67
the boy was transferred to the infectious disease hospital for further diagnoses and
68
treatments. There, a positive sputum AFB smear and positive nucleic amplification
69
test proved an active pulmonary TB. The pulmonary mass shrank after half-a-year’s
70
antituberculosis therapy with isoniazid, rifampicin, ethambutol and pyrazinamide.
71
Regretfully, for many reasons, the clear CT images after treatment were unobtainable.
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60
72
ACCEPTED MANUSCRIPT Fig.1. A-B: The anterior-posterior and lateral chest radiography shows a mass with clear
74
margin located in the left upper lobe (arrow). And the other lung field is clear.
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73
SC
75
Fig.2.A-B: The axial and coronal CT images show a solitary mass located in the
77
apicoposterior segment of the left upper lobe. The mass has sharply margin, swallow
78
lobulation and homogenous intensity. C-D: In the soft tissue window of non-enhanced and
79
contrast-enhanced CT images, the non-enhanced nodular hypoattenuation areas (arrow) and
80
annular hyperattenuation can be seen inside the tumor.
81
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76
82
Fig.3.A-B:18F-FDG-PET scan of the boy. Maximum intensity projection image and the axial
83
scan of integrated PET/CT image shows the high 18F-FDG uptake of the mass (arrow),
84
especially in the peripheral area. The hypoattenuation areas in CT image shows low uptake of
85
18F-
FDG. C: Pathologic image (HE, original magnification × 200) reveal the red-stained
ACCEPTED MANUSCRIPT caseous necrosis inside the mass. Focal accumulation of lymphocytes can also be seen in the
87
peripheral area (long arrow).
88
3. Discussion and conclusion
89
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86
Herein we reported a case of large pediatric pulmonary tuberculoma. The boy was
90
ever misdiagnosed as malignant tumor by CT imaging and
91
diagnosis of pulmonary TB was not taken into account before the biopsy. Hence the
92
prevention measure of the medical worker and his families to the active pulmonary
93
TB was far from insufficient, which might cause regionally spreading of Mtb. Luckily,
94
no medical workers or the families and classmates of the patient was found infected in
95
this case. Besides, tuberculoma is considered as a late and severe complication of
96
tuberculosis in childhood, which need timely and effective treatment. This experience
97
calls for the vigilance to atypical imaging appearance of pediatric tuberculosis.
FDG-PET/CT. The
TE D
M AN U
SC
18F-
The CT appearance of pulmonary tuberculosis in children is different from that of
99
adult. The most common form of active pulmonary TB in children is primary disease.
100
As the age increases, the morbidity of primary disease decreases and the postprimary
101
TB increases. The primary TB in infants and children were characterized by
102
lymphadenopathy and parenchymal diseases. The parenchymal disease most
103
frequently shows as consolidation, followed by nodules of bronchogenic spread.
104
Besides, pleural involvement is also usually seen in the children with TB[5, 6]. While
105
tuberculoma, as a very common manifestation in adult with TB, is rarely seen in
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ACCEPTED MANUSCRIPT children. There are a few cases of pulmonary TB manifested as solid pulmonary
107
nodule or mass in children published in articles. In 2014, Ushiki A et al. published a
108
case of a 14-year-old girl with a solid pulmonary nodule in posterior segment of right
109
lower lobe and reported that the tuberculoma is an infrequent form of TB in
110
children[7]. Tomà P et al. reviewed 217 children with pulmonary TB and none of
111
them manifested as tuberculoma[5]. This could be explained by that the immune
112
system is not so mature in children, and the tuberculoma is a kind of outcome by the
113
immune system against the Mtb.
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114
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The pulmonary tuberculoma is characterized by the following:
1) Mostly locating in the apicoposterior lung segments or the apical segments of the
116
lower lobes.
117
2) Nodular caseous necrosis manifesting as non-enhanced hypoattenuation areas.
118
3) Annular or patchy calcification around the necrosis areas[8].
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Nonetheless, the tuberculoma in our case was manifested with typical CT
120
characteristic, which calls for the alertness that typical tuberculoma may also exist in
121
children.
122
Moreover, though solid pulmonary nodule or mass can be secondary to a varies of
123
different cause, it is rarely found in children. The differential diagnosis may include
124
metastatic tumor and primary pulmonary neoplasms like pleuropulmonary blastoma
ACCEPTED MANUSCRIPT (PPB) and pulmonary hamartoma[9]. Metastatic tumor can be differentiated by
126
medical history and the primary cancer focus. Moreover, metastatic tumor usually
127
manifests as multiple nodules rather than solitary pulmonary mass. PPB is the most
128
common malignant pediatric primary lung parenchymal neoplasm. It can appear as
129
both cystic and solitary masses on CT, according to its pathologic feature[10]. The
130
absence of chest wall invasion, presence of pleural fluid and heterogeneous low
131
attenuation are the CT characteristics of PPB. But calcification is rarely seen in
132
PPB[11]. Pulmonary hamartoma in children appears as a smooth or lobulated
133
peripheral mass with the classic popcorn calcification and fat on CT, just like its
134
appearance in adult. Besides, the Kaposi sarcoma should be taken into account if the
135
children has immune deficiency[9].
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136
In our case, the mass showed high FDG uptake on 18F-FDG-PET imaging. To some
137
extent, it made the diagnosis to be more complicated.
138
detect the glucose uptake of the mass, which is usually capable to differentiate the
139
malignant form the benign mass. But for many infection diseases, the inflammation
140
process can also consume glucose, which may cause the high uptake of
141
this case, as a nonspecific tracer,18F-FDG cannot reliably distinguish tuberculomas
142
from malignant lung lesions[12]. On the other hand, many studies have proved that
143
18
144
the disease activity and monitoring the response to therapy as a non-invasive method,
145
for the level of
F-FDG-PET can be used to
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18
F-FDG. In
F-FDG-PET can be used in Mtb infection for detection of active lesion, assessing
18
F-FDG uptake can reveal the activity level of TB lesion in some
ACCEPTED MANUSCRIPT degree[13]. As in our case, the level of 18F-FDG uptake is high of the mass, which is
147
consistent with the hyperactivity of the TB lesion. Regretfully, limited by the
148
condition of the local hospital, 18F-FDG PET haven’t been used during the follow-up
149
examinations in this case.
150
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Sputum culture plays a critical role in the diagnosis of active pulmonary TB, which has the highest specificity of 98%. But it takes too long (2-8 weeks) to get the result,
152
which also has a high false negative rate, especially in children. While AFB smear and
153
polymerase chain reaction (PCR) are hard to detect Mtb in children due to the poor
154
bacteriologic specimen. QuantiFERON-TB (QFT) test for detection of interferon
155
gamma (IFN-γ) concentration together with tuberculin skin test (TST) seems more
156
reliable and exercisable in the TB detection of children[14, 15]. In developed
157
countries, contact history to patient with active Mtb infection is a critical rule to the
158
suspective of TB. However, the rate to contact with a patient with infectious TB are
159
relatively high in China, especially in rural area. In this case, every patient suspective
160
of TB by clinical manifestation, imaging examination or other laboratory tests should
161
receive a primarily screen of TB.
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151
In conclusion, the report of our case reveals that the tuberculoma may also be seen
163
in children. The clinical manifestations combine with the typical CT characteristic
164
should call for the awareness of Mtb infection and the necessary protective measures
165
should be taken to reduce the risk of infection.
ACCEPTED MANUSCRIPT Ethics statement
167
The study was approved by the Research Ethics Committee of Sun Yat-sen University,
168
China and the written informed consent was obtained from the subject.
169
Financial disclosure
170
This research did not receive any specific grant from funding agencies in the public,
171
commercial, or not-for-profit sectors.
172
References
173
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4.
Stop, T.B.P.C.T.B.S.W.H.O., Guidance for National Tuberculosis
Programmes on the management of tuberculosis in children. Chapter 1: introduction and diagnosis of tuberculosis in children. Int J Tuberc Lung
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Leung, A.N., Pulmonary tuberculosis: the essentials. Radiology, 1999. 210(2): 210 p. 307-22.
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Chin J Antituberc, 2012(08): p. 485-508.
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Wang, Y., The fifth national tuberculosis epidemiological survey in 2010.
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World Health Origination, 2017.
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World Health Organization, Global Tuberculosis Report 2017. Geneva:
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Dis, 2006. 10(10): p. 1091-7. 10 5.
Toma, P., et al., Radiological patterns of childhood thoracic tuberculosis
in a developed country: a single institution's experience on 217/255
ACCEPTED MANUSCRIPT cases. Radiol Med, 2017. 122(1): p. 22-34. 122
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Nachiappan, A.C., et al., Pulmonary Tuberculosis: Role of Radiology in
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Diagnosis and Management. Radiographics, 2017. 37(1): p. 52-72. 37
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Ushiki, A., et al., Pediatric pulmonary tuberculoma with a solid
7.
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pulmonary nodule detected on chest computed tomography. Intern Med,
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2014. 53(8): p. 913-6. 53
Van Dyck, P., et al., Imaging of pulmonary tuberculosis. Eur Radiol,
8.
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2003. 13(8): p. 1771-85. 13
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Zapala, M.A., V.M. Ho-Fung, and E.Y. Lee, Thoracic Neoplasms in
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Children: Contemporary Perspectives and Imaging Assessment. Radiol
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Clin North Am, 2017. 55(4): p. 657-676. 55 10.
childhood: report of three cases. Pediatr Radiol, 2007. 37(4): p. 337-44. 37
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blastoma. Pediatr Radiol, 2005. 35(4): p. 387-91. 35
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201 202
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various thoracic diseases. Korean J Radiol, 2006. 7(1): p. 57-69.
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Ankrah, A.O., et al., PET/CT imaging of Mycobacterium tuberculosis
infection. Clin Transl Imaging, 2016. 4: p. 131-144.
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Chang, J.M., et al., False positive and false negative FDG-PET scans in
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Naffaa, L.N. and L.F. Donnelly, Imaging findings in pleuropulmonary
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Orazi, C., et al., Pleuropulmonary blastoma, a distinctive neoplasm of
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14.
Zar, H.J., T.G. Connell, and M. Nicol, Diagnosis of pulmonary
tuberculosis in children: new advances. Expert Rev Anti Infect Ther,
ACCEPTED MANUSCRIPT 206 207
2010. 8(3): p. 277-88. 15.
Detjen, A.K., et al., Interferon-gamma release assays improve the
diagnosis of tuberculosis and nontuberculous mycobacterial disease in
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children in a country with a low incidence of tuberculosis. Clin Infect Dis,
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2007. 45(3): p. 322-8. 45
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S2352-6211(17)30103-1
DOI:
10.1016/j.jrid.2018.08.002
Reference:
JRID 155
To appear in:
Radiology of Infectious Diseases
Received Date: 31 December 2017 Revised Date:
17 June 2018
Accepted Date: 6 August 2018
Please cite this article as: Chen Y, Yang Y, Chen L, Fan M, Large pulmonary solitary mass caused by Mycobacterium tuberculosis mimicking a malignant tumor in a child, Radiology of Infectious Diseases (2018), doi: 10.1016/j.jrid.2018.08.002. This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.
ACCEPTED MANUSCRIPT
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Large pulmonary solitary mass caused by Mycobacterium tuberculosis mimicking a malignant tumor in a child
SC
Yingqian Chena ([email protected]), Youyou Yanga, Lang Chena, Miao Fana* a Department of Radiology, First Affiliated Hospital of Sun Yat-Sen University, 58th, The Second Zhongshan Road, Guangzhou, China *
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Declarations of interest: none
M AN U
Corresponding author: Miao Fan, Department of Radiology, First Affiliated Hospital of Sun Yat-Sen University, 58th, The Second Zhongshan Road, Guanzhou, China, 510080. Tel: +86 13527607211, E-mail address: [email protected]
ACCEPTED MANUSCRIPT
Large pulmonary solitary mass caused by Mycobacterium
2
tuberculosis mimicking a malignant tumor in a child
3
Abstract
4
Tuberculoma, as a common characteristic of pulmonary tuberculosis (TB) in adults, is
5
rarely seen in children. We report a very rare case of large pulmonary solitary mass
6
caused by Mycobacterium tuberculosis in a 7-year-old boy, which was misdiagnosed
7
for malignant lung tumor before the biopsy. Pathology and the following test proved it
8
to be active TB. We also review the CT characteristics of TB and common thoracic
9
neoplasms in children for differential diagnosis. We call for the awareness of the
M AN U
SC
RI PT
1
atypical imaging characteristics of TB in children.
11
Keywords: Tuberculoma; Mycobacterium tuberculosis; Pediatric; Computed
12
tomography imaging
13
1. Introduction
EP
AC C
14
TE D
10
Though the morbidity of Mycobacterium tuberculosis (Mtb) infection is decreasing,
15
there are around one third of the world’s population which are still infected with it[1].
16
Mtb causes a substantial health burden in the world, especially in developing
17
countries. In the most current national tuberculosis epidemiological survey in China
18
in 2010, the prevalence of active and smear positive prevalence of pulmonary
19
tuberculosis (TB) were 459/100 000 and 66/100 000 respectively, mostly attributed by
ACCEPTED MANUSCRIPT 20 21
rural area[2].
Pulmonary TB occurs relatively less in children. In 2016, children under 15 years old accounted for 6.9% of the new TB cases globally[1]. But it is hard to diagnose
23
Mtb infection in children, since their symptoms vary from those in adults, and it is
24
usually hard to get their sputum for acid-fast bacilli (AFB) smear or culture. Moreover,
25
children get infected more easily with Mtb from other children and adults with active
26
tuberculosis, which may cause a localized outbreak.Hence the imaging examinations,
27
especially the chest radiograph and chest multi spiral computed tomography (CT)
28
plays a critical role in the diagnosis and treatment of active pulmonary TB in children.
29
Unlike the imaging appearances in adult, lymphadenopathy is the most common
30
imaging manifestation in pediatric patients[3], follow by consolidation and pleural
31
effusion[4]. While pulmonary solitary mass or nodule, which is also termed as
32
tuberculoma in adult patients, is rarely seen in pediatric patients. Herein we report a
33
case of pathology proved pulmonary TB with the imaging appearance of solitary mass
34
which was misdiagnosed as malignant tumor before the biopsy.
35
2. Case Report
AC C
EP
TE D
M AN U
SC
RI PT
22
36
A 7-year-old boy was referred to our hospital with a 6-month history of cough. The
37
boy was healthy ever before and no obvious predisposing cause was found. He had no
38
expectoration, fever, chest pain, night sweat or weight loss. The laboratory test
ACCEPTED MANUSCRIPT showed a higher platelet count (377 × 109/L) and higher serum lactate dehydrogenase
40
(LDH) level (300U/L, normal 114-240U/L). But other indexes of the whole blood cell
41
test and other blood biochemical indexes were within the normal ranges (white blood
42
cell: 7.10 × 109/L, neutrophils: 3.90 × 109/L, eosinophils: 0.22 × 109/L). The
43
posterior-anterior and lateral chest radiographs revealed a mass with clear margin in
44
his left upper lobe (Fig. 1A-B). Then chest CT imaging was recommended for a
45
further examination. In the non-enhanced chest CT images, an oval, sharply
46
marginated, shallow lobulated mass with a size of 47mm × 37mm × 33mm was found
47
in the apicoposterior segment of the left upper lobe. The mass appeared as a
48
homogeneous attenuation, which both nodular hypoattenuation areas and annular
49
hyperattenuation inside (Fig. 2A-C). After contrast enhancement, the hypoattenuation
50
areas showed no enhancement (Fig. 2D). Lymph nodes enlargement in the hilum or
51
mediastinal were absent. According to these manifestations, a tentative diagnosis by
52
radiologist of pulmonary malignant tumor was made. After that, more tests of serum
53
tumor markers were done. The level of alpha fetoprotein (AFP), neuron-specific
54
enolase (NSE), carcino-embryonic antigen (CEA) and CYFRA21-1 of the serum were
55
all within the normal ranges. And the HIV antibody primary screening was also
56
negative. What was more, to exclude metastasis, a 18F-fluorodeoxyglucose positron
57
emission tomography-CT (18F-FDG-PET/CT) was done. The pulmonary mass
58
appeared as high FDG consumption, with the highest standardized uptake value
59
(SUVmax) to be 4.1, which remind the radiologist to consider the possibility of
AC C
EP
TE D
M AN U
SC
RI PT
39
ACCEPTED MANUSCRIPT malignant tumor. However, no other area of abnormal high FDG uptake was found
61
(Fig 3 A-B). Base on the image examinations, a preoperative diagnosis of malignant
62
lung tumor was made. In order to make a definite diagnosis, the patient received a
63
pulmonary needle biopsy after consultation. After H-E staining, large amount of
64
caseous necrosis with focal accumulation of lymphocytes could be seen inside the
65
tissue (Fig.3C). Tumor cell or abnormal mitoses were absent in the mass. Base on
66
these findings, pathology diagnosis of inflammation (possibly TB) was made. Then
67
the boy was transferred to the infectious disease hospital for further diagnoses and
68
treatments. There, a positive sputum AFB smear and positive nucleic amplification
69
test proved an active pulmonary TB. The pulmonary mass shrank after half-a-year’s
70
antituberculosis therapy with isoniazid, rifampicin, ethambutol and pyrazinamide.
71
Regretfully, for many reasons, the clear CT images after treatment were unobtainable.
AC C
EP
TE D
M AN U
SC
RI PT
60
72
ACCEPTED MANUSCRIPT Fig.1. A-B: The anterior-posterior and lateral chest radiography shows a mass with clear
74
margin located in the left upper lobe (arrow). And the other lung field is clear.
RI PT
73
SC
75
Fig.2.A-B: The axial and coronal CT images show a solitary mass located in the
77
apicoposterior segment of the left upper lobe. The mass has sharply margin, swallow
78
lobulation and homogenous intensity. C-D: In the soft tissue window of non-enhanced and
79
contrast-enhanced CT images, the non-enhanced nodular hypoattenuation areas (arrow) and
80
annular hyperattenuation can be seen inside the tumor.
81
AC C
EP
TE D
M AN U
76
82
Fig.3.A-B:18F-FDG-PET scan of the boy. Maximum intensity projection image and the axial
83
scan of integrated PET/CT image shows the high 18F-FDG uptake of the mass (arrow),
84
especially in the peripheral area. The hypoattenuation areas in CT image shows low uptake of
85
18F-
FDG. C: Pathologic image (HE, original magnification × 200) reveal the red-stained
ACCEPTED MANUSCRIPT caseous necrosis inside the mass. Focal accumulation of lymphocytes can also be seen in the
87
peripheral area (long arrow).
88
3. Discussion and conclusion
89
RI PT
86
Herein we reported a case of large pediatric pulmonary tuberculoma. The boy was
90
ever misdiagnosed as malignant tumor by CT imaging and
91
diagnosis of pulmonary TB was not taken into account before the biopsy. Hence the
92
prevention measure of the medical worker and his families to the active pulmonary
93
TB was far from insufficient, which might cause regionally spreading of Mtb. Luckily,
94
no medical workers or the families and classmates of the patient was found infected in
95
this case. Besides, tuberculoma is considered as a late and severe complication of
96
tuberculosis in childhood, which need timely and effective treatment. This experience
97
calls for the vigilance to atypical imaging appearance of pediatric tuberculosis.
FDG-PET/CT. The
TE D
M AN U
SC
18F-
The CT appearance of pulmonary tuberculosis in children is different from that of
99
adult. The most common form of active pulmonary TB in children is primary disease.
100
As the age increases, the morbidity of primary disease decreases and the postprimary
101
TB increases. The primary TB in infants and children were characterized by
102
lymphadenopathy and parenchymal diseases. The parenchymal disease most
103
frequently shows as consolidation, followed by nodules of bronchogenic spread.
104
Besides, pleural involvement is also usually seen in the children with TB[5, 6]. While
105
tuberculoma, as a very common manifestation in adult with TB, is rarely seen in
AC C
EP
98
ACCEPTED MANUSCRIPT children. There are a few cases of pulmonary TB manifested as solid pulmonary
107
nodule or mass in children published in articles. In 2014, Ushiki A et al. published a
108
case of a 14-year-old girl with a solid pulmonary nodule in posterior segment of right
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lower lobe and reported that the tuberculoma is an infrequent form of TB in
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children[7]. Tomà P et al. reviewed 217 children with pulmonary TB and none of
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them manifested as tuberculoma[5]. This could be explained by that the immune
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system is not so mature in children, and the tuberculoma is a kind of outcome by the
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immune system against the Mtb.
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The pulmonary tuberculoma is characterized by the following:
1) Mostly locating in the apicoposterior lung segments or the apical segments of the
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lower lobes.
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2) Nodular caseous necrosis manifesting as non-enhanced hypoattenuation areas.
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3) Annular or patchy calcification around the necrosis areas[8].
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Nonetheless, the tuberculoma in our case was manifested with typical CT
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characteristic, which calls for the alertness that typical tuberculoma may also exist in
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children.
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Moreover, though solid pulmonary nodule or mass can be secondary to a varies of
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different cause, it is rarely found in children. The differential diagnosis may include
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metastatic tumor and primary pulmonary neoplasms like pleuropulmonary blastoma
ACCEPTED MANUSCRIPT (PPB) and pulmonary hamartoma[9]. Metastatic tumor can be differentiated by
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medical history and the primary cancer focus. Moreover, metastatic tumor usually
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manifests as multiple nodules rather than solitary pulmonary mass. PPB is the most
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common malignant pediatric primary lung parenchymal neoplasm. It can appear as
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both cystic and solitary masses on CT, according to its pathologic feature[10]. The
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absence of chest wall invasion, presence of pleural fluid and heterogeneous low
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attenuation are the CT characteristics of PPB. But calcification is rarely seen in
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PPB[11]. Pulmonary hamartoma in children appears as a smooth or lobulated
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peripheral mass with the classic popcorn calcification and fat on CT, just like its
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appearance in adult. Besides, the Kaposi sarcoma should be taken into account if the
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children has immune deficiency[9].
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In our case, the mass showed high FDG uptake on 18F-FDG-PET imaging. To some
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extent, it made the diagnosis to be more complicated.
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detect the glucose uptake of the mass, which is usually capable to differentiate the
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malignant form the benign mass. But for many infection diseases, the inflammation
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process can also consume glucose, which may cause the high uptake of
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this case, as a nonspecific tracer,18F-FDG cannot reliably distinguish tuberculomas
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from malignant lung lesions[12]. On the other hand, many studies have proved that
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the disease activity and monitoring the response to therapy as a non-invasive method,
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for the level of
F-FDG-PET can be used to
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F-FDG. In
F-FDG-PET can be used in Mtb infection for detection of active lesion, assessing
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F-FDG uptake can reveal the activity level of TB lesion in some
ACCEPTED MANUSCRIPT degree[13]. As in our case, the level of 18F-FDG uptake is high of the mass, which is
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consistent with the hyperactivity of the TB lesion. Regretfully, limited by the
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condition of the local hospital, 18F-FDG PET haven’t been used during the follow-up
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examinations in this case.
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Sputum culture plays a critical role in the diagnosis of active pulmonary TB, which has the highest specificity of 98%. But it takes too long (2-8 weeks) to get the result,
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which also has a high false negative rate, especially in children. While AFB smear and
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polymerase chain reaction (PCR) are hard to detect Mtb in children due to the poor
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bacteriologic specimen. QuantiFERON-TB (QFT) test for detection of interferon
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gamma (IFN-γ) concentration together with tuberculin skin test (TST) seems more
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reliable and exercisable in the TB detection of children[14, 15]. In developed
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countries, contact history to patient with active Mtb infection is a critical rule to the
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suspective of TB. However, the rate to contact with a patient with infectious TB are
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relatively high in China, especially in rural area. In this case, every patient suspective
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of TB by clinical manifestation, imaging examination or other laboratory tests should
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receive a primarily screen of TB.
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In conclusion, the report of our case reveals that the tuberculoma may also be seen
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in children. The clinical manifestations combine with the typical CT characteristic
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should call for the awareness of Mtb infection and the necessary protective measures
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should be taken to reduce the risk of infection.
ACCEPTED MANUSCRIPT Ethics statement
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The study was approved by the Research Ethics Committee of Sun Yat-sen University,
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China and the written informed consent was obtained from the subject.
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Financial disclosure
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This research did not receive any specific grant from funding agencies in the public,
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commercial, or not-for-profit sectors.
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