Hiroto Hatabu
Brigham and Women's Hospital
Publications 393
#1Junya Tominaga (Saitama Medical University)
#2Alexander A. Bankier (BIDMC: Beth Israel Deaconess Medical Center)H-Index: 44
Last.Yukihiko SugiyamaH-Index: 34
view all 23 authors...
Purpose To assess inter-observer variability in identifying traction bronchiectasis on computed tomography (CT) using additional criteria for chronic fibrosing interstitial pneumonia.
#1Hyesun Park (Brigham and Women's Hospital)
#2Lynette M. Sholl (Brigham and Women's Hospital)H-Index: 43
Last.Mizuki Nishino (Brigham and Women's Hospital)H-Index: 37
view all 5 authors...
The knowledge of the recent advances of precision lung cancer therapy and their impact on image-based diagnosis and treatment monitoring is essential for radiologists to continue to be key members ...
#1Babina Gosangi (Brigham and Women's Hospital)H-Index: 3
#2Hiroto Hatabu (Brigham and Women's Hospital)H-Index: 57
Last.Mark M. Hammer (Brigham and Women's Hospital)H-Index: 10
view all 3 authors...
Abstract Purpose To describe the imaging findings of lung infiltration by leukemia and differential findings of lymphoid and myeloid leukemias. Materials and Methods Through a search of electronic medical records from 2005 to 2017, we identified 21 patients with pathologically proven lung involvement by leukemia. Concurrent CT findings were analyzed by 2 chest radiologists in consensus for ground glass or consolidative opacities, septal thickening, bronchovascular bundle thickening, pulmonary no...
#1Richard Thomas (Brigham and Women's Hospital)
#2Rachna Madan (Harvard University)H-Index: 11
Last.Mark M. Hammer (Harvard University)H-Index: 10
view all 5 authors...
OBJECTIVE. The purpose of this study is to assess the most common causes of the reverse halo sign (RHS) in immunocompromised patients and to identify clinicoradiologic features that help in achievi...
#1Jeffrey A. Sparks (Brigham and Women's Hospital)H-Index: 16
#2Xintong He (Brigham and Women's Hospital)H-Index: 1
Last.Tracy J. Doyle (Brigham and Women's Hospital)H-Index: 12
view all 20 authors...
3 CitationsSource
#1Andrew J. Synn (Harvard University)H-Index: 2
#2Wenyuan Li (Harvard University)H-Index: 9
Last.Mary B. Rice (BIDMC: Beth Israel Deaconess Medical Center)H-Index: 14
view all 11 authors...
Radiographic abnormalities of the pulmonary vessels, such as vascular pruning, are common in advanced airways disease, but it is unknown if pulmonary vascular volumes are related to measures of lung health and airways disease in healthier populations. In 2388 participants of the Framingham Heart Study computed tomography (CT) sub-study, we calculated total vessel volumes and the small vessel fraction using automated CT image analysis. We evaluated associations with measures of lung function, air...
#1Hyesun Park (Brigham and Women's Hospital)
#2Suzanne E. Dahlberg (Brigham and Women's Hospital)H-Index: 40
Last.Mizuki Nishino (Brigham and Women's Hospital)H-Index: 37
view all 8 authors...
#1Brian D. Hobbs (Brigham and Women's Hospital)H-Index: 10
#2Rachel K. Putman (Brigham and Women's Hospital)H-Index: 8
Last.Gary M. Hunninghake (Brigham and Women's Hospital)H-Index: 78
view all 42 authors...
Rationale Interstitial lung abnormalities (ILA) are associated with the highest genetic risk locus for IPF; however, the extent to which there is additional overlap with IPF, or unique associations...
#1Rachel K. Putman (Brigham and Women's Hospital)H-Index: 8
#2Gunnar Gudmundsson (University of Iceland)H-Index: 36
Last.Gary M. Hunninghake (Brigham and Women's Hospital)H-Index: 78
view all 20 authors...
Rationale: Interstitial lung abnormalities (ILA) are radiologic abnormalities on chest computed tomography scans that have been associated with an early or mild form of pulmonary fibrosis. Although...
1 CitationsSource
#1Rola Harmouche (Brigham and Women's Hospital)H-Index: 9
#2Samuel Y. Ash (Brigham and Women's Hospital)H-Index: 8
Last.Raúl San José Estépar (Brigham and Women's Hospital)H-Index: 34
view all 15 authors...
Background Tobacco smoke exposure is associated with emphysema and pulmonary fibrosis, both of which are irreversible. We have developed a new objective CT analysis tool that combines densitometry with machine learning to detect high attenuation changes in visually normal appearing lung (NormHA) that may precede these diseases. Methods We trained the classification tool by placing 34,528 training points in chest CT scans from 297 COPDGene participants. The tool was then used to classify lung tis...