Riqiang Gao
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Explore the profile of Riqiang Gao including associated specialties, affiliations and a list of published articles.
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Citations
162
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Recent Articles
11.
Yu X, Tang Y, Yang Q, Lee H, Gao R, Bao S, et al.
Proc SPIE Int Soc Opt Eng
. 2023 Jul;
12464.
PMID: 37465093
Metabolic health is increasingly implicated as a risk factor across conditions from cardiology to neurology, and efficiency assessment of body composition is critical to quantitatively characterizing these relationships. 2D low...
12.
Xu K, Li T, Khan M, Gao R, Antic S, Huo Y, et al.
Med Image Anal
. 2023 Jun;
88:102852.
PMID: 37276799
Field-of-view (FOV) tissue truncation beyond the lungs is common in routine lung screening computed tomography (CT). This poses limitations for opportunistic CT-based body composition (BC) assessment as key anatomical structures...
13.
Xu K, Gao R, Tang Y, Deppen S, Sandler K, Kammer M, et al.
Proc SPIE Int Soc Opt Eng
. 2022 Oct;
12032.
PMID: 36303578
Certain body composition phenotypes, like sarcopenia, are well established as predictive markers for post-surgery complications and overall survival of lung cancer patients. However, their association with incidental lung cancer risk...
14.
Gao R, Li T, Tang Y, Xu K, Khan M, Kammer M, et al.
Comput Biol Med
. 2022 Oct;
150:106113.
PMID: 36198225
Objective: Patients with indeterminate pulmonary nodules (IPN) with an intermediate to a high probability of lung cancer generally undergo invasive diagnostic procedures. Chest computed tomography image and clinical data have...
15.
Bao S, Tang Y, Lee H, Gao R, Yang Q, Yu X, et al.
Proc SPIE Int Soc Opt Eng
. 2022 May;
12039.
PMID: 35531320
Multiplex immunofluorescence (MxIF) is an emerging technique that allows for staining multiple cellular and histological markers to stain simultaneously on a single tissue section. However, with multiple rounds of staining...
16.
Bao S, Tang Y, Lee H, Gao R, Chiron S, Lyu I, et al.
Proc Mach Learn Res
. 2022 Jan;
156:36-46.
PMID: 34993490
Multiplex immunofluorescence (MxIF) is an emerging imaging technique that produces the high sensitivity and specificity of single-cell mapping. With a tenet of "seeing is believing", MxIF enables iterative staining and...
17.
Gao R, Tang Y, Khan M, Xu K, Paulson A, Sullivan S, et al.
Radiol Artif Intell
. 2021 Dec;
3(6):e210032.
PMID: 34870220
Purpose: To develop a model to estimate lung cancer risk using lung cancer screening CT and clinical data elements (CDEs) without manual reading efforts. Materials And Methods: Two screening cohorts...
18.
Gao R, Tang Y, Xu K, Kammer M, Antic S, Deppen S, et al.
Proc SPIE Int Soc Opt Eng
. 2021 Oct;
11596.
PMID: 34650321
Clinical data elements (CDEs) (e.g., age, smoking history), blood markers and chest computed tomography (CT) structural features have been regarded as effective means for assessing lung cancer risk. These independent...
19.
Xu K, Gao R, Khan M, Bao S, Tang Y, Deppen S, et al.
Proc SPIE Int Soc Opt Eng
. 2021 Sep;
2021.
PMID: 34531633
A major goal of lung cancer screening is to identify individuals with particular phenotypes that are associated with high risk of cancer. Identifying relevant phenotypes is complicated by the variation...
20.
Tang Y, Gao R, Lee H, Xu Z, Savoie B, Bao S, et al.
Proc SPIE Int Soc Opt Eng
. 2021 Sep;
11596.
PMID: 34531632
Renal segmentation on contrast-enhanced computed tomography (CT) provides distinct spatial context and morphology. Current studies for renal segmentations are highly dependent on manual efforts, which are time-consuming and tedious. Hence,...