Literature DB >> 23417720

Dendriform pulmonary ossification: unusual cause of spontaneous pneumothorax.

Jiro Abe¹, Hiroyuki Oura, Hiromichi Niikawa, Hiroshi Yaegashi, Takashi Kondo.

Abstract

Entities: Disease Species

Keywords: Imaging/CT MRI etc; Pleural Disease; Rare lung diseases

Mesh：

Year: 2013 PMID： 23417720 PMCID： PMC3888621 DOI： 10.1136/thoraxjnl-2012-203024

Source DB: PubMed Journal: Thorax ISSN： 0040-6376 Impact factor: 9.139

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A 53-year-old man was admitted to our hospital with a recurrence of spontaneous pneumothorax. He had no history of other diseases including chronic lung diseases. A month prior to this admission, he had a first pneumothorax and was treated with 4 days of intercostal drainage. CT scan showed no bulla, but revealed multiple small polygonal lesions consistent with fibrotic lesions mainly in the right lower lobe (figure 1). We performed right thoracotomy and found that air leakage arose from torn visceral pleura which had been pierced by a drumstick-shaped bony structure (figure 2A). Some other solid flat lesions were palpable in the lung. They were almost confluent, and had a dendriform appearance. We removed the bony tissue, and repaired the torn pleura. Pathological exam revealed that this was mature bone with normal marrow (figure 2B). The patient has been healthy without a further pneumothorax since the operation.

Figure 1

CT scan images of dendritic pulmonary ossification patient show dendriform irregular lesions in right lower lobe. A calcified deposit can be seen in one lesion, though calcification is not dominant.

Figure 2

In the centre of the photo, a drumstick-shaped bony solid tissue arose from inside the lung, and pierced the visceral pleura. Air leakage from the tear could be found during the operation. Irregular yellowish lesions under the pleura were dominant in the lower lobe (black arrows). (B) Microscopic view of the drumstick. Trabeculated mature bone structure with normal marrow was observed.

CT scan images of dendritic pulmonary ossification patient show dendriform irregular lesions in right lower lobe. A calcified deposit can be seen in one lesion, though calcification is not dominant. In the centre of the photo, a drumstick-shaped bony solid tissue arose from inside the lung, and pierced the visceral pleura. Air leakage from the tear could be found during the operation. Irregular yellowish lesions under the pleura were dominant in the lower lobe (black arrows). (B) Microscopic view of the drumstick. Trabeculated mature bone structure with normal marrow was observed.

Learning points

Spontaneous pneumothorax caused by pulmonary ossification is a rare event though pulmonary ossification is not so uncommon. A previous report described that pulmonary ossification had been observed in 0.4% of all autopsy cases.1 While many basic diseases such as congestive heart failure, pulmonary fibrosis, diabetes mellitus and other metabolic diseases can cause secondary pulmonary ossification, primary pulmonary ossification is of unknown aetiology and is called idiopathic pulmonary ossification. Pathologically, idiopathic pulmonary ossification is classified into two forms: dendritic (tree-like branched) pulmonary ossification (DPO) and nodular pulmonary ossification.1 CT scan images of dendritic pulmonary ossification show irregular nodules which are discrete or are joined to each other; they typically form a dendriform lesion. Calcified high density lesions are not always seen on radiological imaging even though mature bone tissue is demonstrated in such lesions under the microscope.2

2 in total

1. Dendriform pulmonary ossification, a form of diffuse pulmonary ossification: report of a 26-year autopsy experience.

Authors: Jonathan F Lara; James F Catroppo; Dae U Kim; Deline da Costa
Journal: Arch Pathol Lab Med Date: 2005-03 Impact factor: 5.534

2. Idiopathic diffuse pulmonary ossification.

Authors: C F Ryan; J D Flint; N L Müller
Journal: Thorax Date: 2004-11 Impact factor: 9.139

2 in total

5 in total

1. Investigation of aluminum and iron deposition on metaplastic bones in three patients with diffuse pulmonary ossification.

Authors: Yuji Ohtsuki; Kousuke Mori; Hirozo Ohnishi; Hideaki Enzan; Mitsuko Iguchi; Gang-Hong Lee; Mutsuo Furihata
Journal: Med Mol Morphol Date: 2015-01-29 Impact factor: 2.309

2. Whole exome sequencing identifies a rare variant in DAAM2 as a potential candidate in idiopathic pulmonary ossification.

Authors: Sheng-Wen Sun; Mei Zhou; Long Chen; Jiang-Hua Wu; Zhao-Ji Meng; Shuai-Ying Miao; Hong-Li Han; Chen-Chen Zhu; Xian-Zhi Xiong
Journal: Ann Transl Med Date: 2019-07

3. Progressive Restrictive Ventilatory Impairment in Idiopathic Diffuse Pulmonary Ossification.

Authors: Hidemasa Matsuo; Tomohiro Handa; Michiko Tsuchiya; Takeshi Kubo; Akihiko Yoshizawa; Yuko Nakayama; Shuichi Shiga; Takefumi Hitomi; Souichi Adachi; Hiroshi Date; Toyohiro Hirai; Satoshi Ichiyama
Journal: Intern Med Date: 2018-01-11 Impact factor: 1.271

4. Dendriform pulmonary ossification complicated by recurrent spontaneous pneumothorax: Two case reports and a review of the literature.

Authors: Yang Gao; Ashley M Egan; Teng Moua
Journal: Respir Med Case Rep Date: 2020-04-23

5. Three Cases of Idiopathic Diffuse Pulmonary Ossification.

Authors: Ryuya Edahiro; Hiroyuki Kurebe; Saeko Nakatsubo; Yuki Hosono; Nobuhiko Sawa; Kohei Nishida; Yuko Ohara; Yohei Oshitani; Hiroyuki Kagawa; Kazuyuki Tsujino; Kenji Yoshimura; Keisuke Miki; Mari Miki; Seigo Kitada; Masahide Mori
Journal: Intern Med Date: 2018-10-17 Impact factor: 1.271

5 in total