Search

Your search keyword '"Ishii, Masaru"' showing total 2,042 results
Start Over Author "Ishii, Masaru"
2,042 results on '"Ishii, Masaru"'

1. An Endoscopic Chisel: Intraoperative Imaging Carves 3D Anatomical Models

Author

Mangulabnan, Jan Emily, Soberanis-Mukul, Roger D., Teufel, Timo, Sahu, Manish, Porras, Jose L., Vedula, S. Swaroop, Ishii, Masaru, Hager, Gregory, Taylor, Russell H., and Unberath, Mathias

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Purpose: Preoperative imaging plays a pivotal role in sinus surgery where CTs offer patient-specific insights of complex anatomy, enabling real-time intraoperative navigation to complement endoscopy imaging. However, surgery elicits anatomical changes not represented in the preoperative model, generating an inaccurate basis for navigation during surgery progression. Methods: We propose a first vision-based approach to update the preoperative 3D anatomical model leveraging intraoperative endoscopic video for navigated sinus surgery where relative camera poses are known. We rely on comparisons of intraoperative monocular depth estimates and preoperative depth renders to identify modified regions. The new depths are integrated in these regions through volumetric fusion in a truncated signed distance function representation to generate an intraoperative 3D model that reflects tissue manipulation. Results: We quantitatively evaluate our approach by sequentially updating models for a five-step surgical progression in an ex vivo specimen. We compute the error between correspondences from the updated model and ground-truth intraoperative CT in the region of anatomical modification. The resulting models show a decrease in error during surgical progression as opposed to increasing when no update is employed. Conclusion: Our findings suggest that preoperative 3D anatomical models can be updated using intraoperative endoscopy video in navigated sinus surgery. Future work will investigate improvements to monocular depth estimation as well as removing the need for external navigation systems. The resulting ability to continuously update the patient model may provide surgeons with a more precise understanding of the current anatomical state and paves the way toward a digital twin paradigm for sinus surgery.

Published
2024

3. A Quantitative Evaluation of Dense 3D Reconstruction of Sinus Anatomy from Monocular Endoscopic Video

Author

Mangulabnan, Jan Emily, Soberanis-Mukul, Roger D., Teufel, Timo, Hernández, Isabela, Winter, Jonas, Sahu, Manish, Porras, Jose L., Vedula, S. Swaroop, Ishii, Masaru, Hager, Gregory, Taylor, Russell H., and Unberath, Mathias

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Generating accurate 3D reconstructions from endoscopic video is a promising avenue for longitudinal radiation-free analysis of sinus anatomy and surgical outcomes. Several methods for monocular reconstruction have been proposed, yielding visually pleasant 3D anatomical structures by retrieving relative camera poses with structure-from-motion-type algorithms and fusion of monocular depth estimates. However, due to the complex properties of the underlying algorithms and endoscopic scenes, the reconstruction pipeline may perform poorly or fail unexpectedly. Further, acquiring medical data conveys additional challenges, presenting difficulties in quantitatively benchmarking these models, understanding failure cases, and identifying critical components that contribute to their precision. In this work, we perform a quantitative analysis of a self-supervised approach for sinus reconstruction using endoscopic sequences paired with optical tracking and high-resolution computed tomography acquired from nine ex-vivo specimens. Our results show that the generated reconstructions are in high agreement with the anatomy, yielding an average point-to-mesh error of 0.91 mm between reconstructions and CT segmentations. However, in a point-to-point matching scenario, relevant for endoscope tracking and navigation, we found average target registration errors of 6.58 mm. We identified that pose and depth estimation inaccuracies contribute equally to this error and that locally consistent sequences with shorter trajectories generate more accurate reconstructions. These results suggest that achieving global consistency between relative camera poses and estimated depths with the anatomy is essential. In doing so, we can ensure proper synergy between all components of the pipeline for improved reconstructions that will facilitate clinical application of this innovative technology.

Published
2023

4. The Quiet Eye Phenomenon in Minimally Invasive Surgery

Author

Abdelaal, Alaa Eldin, Van Rumpt, Rachelle, Zaman, Sayem Nazmuz, Tong, Irene, Jarc, Anthony, Gallia, Gary L., Ishii, Masaru, Hager, Gregory D., and Salcudean, Septimiu E.

Subjects
Computer Science - Robotics
Abstract

In this paper, we report our discovery of a gaze behavior called Quiet Eye (QE) in minimally invasive surgery. The QE behavior has been extensively studied in sports training and has been associated with higher level of expertise in multiple sports. We investigated the QE behavior in two independently collected data sets of surgeons performing tasks in a sinus surgery setting and a robotic surgery setting, respectively. Our results show that the QE behavior is more likely to occur in successful task executions and in performances of surgeons of high level of expertise. These results open the door to use the QE behavior in both training and skill assessment in minimally invasive surgery.

Published
2023

7. Periportal macrophages protect against commensal-driven liver inflammation

Author

Miyamoto, Yu, Kikuta, Junichi, Matsui, Takahiro, Hasegawa, Tetsuo, Fujii, Kentaro, Okuzaki, Daisuke, Liu, Yu-chen, Yoshioka, Takuya, Seno, Shigeto, Motooka, Daisuke, Uchida, Yutaka, Yamashita, Erika, Kobayashi, Shogo, Eguchi, Hidetoshi, Morii, Eiichi, Tryggvason, Karl, Shichita, Takashi, Kayama, Hisako, Atarashi, Koji, Kunisawa, Jun, Honda, Kenya, Takeda, Kiyoshi, and Ishii, Masaru

Published
2024
Full Text
View/download PDF

9. Contributors

Author

Abello, Eric H., primary, Abiri, Arash, additional, Adappa, Nithin D., additional, Ahmad, Meleha, additional, Almeida, Joao Paulo, additional, Alrasheed, Abdulaziz S., additional, Arrighi-Allisan, Annie, additional, Barton, Blair M., additional, Bastien, Amanda J., additional, Battaglia, Paolo, additional, Biousse, Valérie, additional, Bleier, Benjamin S., additional, Carrau, Ricardo L., additional, Castelnuovo, Paolo, additional, Chaaban, Mohamad R., additional, Chan, David, additional, Chemas-Velez, Maria Manuela, additional, Chen, Benson S., additional, Chou, Brian W., additional, Cote, David J., additional, Cutsforth-Gregory, Jeremy K., additional, Czaczkes, Camilla, additional, Dalfino, Gianluca, additional, Das, Paramita, additional, Junior de Andrade, Erion, additional, Filho, Leonardo de Macedo, additional, Eloy, Jean Anderson, additional, Evans, James J., additional, Fang, Christina H., additional, Filip, Peter, additional, Francis, Courtney E., additional, Gallia, Gary L., additional, Gardner, Paul A., additional, Gentili, Fred, additional, Georgalas, Christos, additional, Ginat, Daniel T., additional, Gogia, Angad S., additional, Govindaraj, Satish, additional, Grayson, Jessica W., additional, Gudis, David A., additional, Halderman, Ashleigh A., additional, Harvey, Richard J., additional, Hernandez, Stephen, additional, Higgins, Mamie, additional, Horowitz, Peleg Moshe, additional, Illing, Elisa A., additional, Ishii, Masaru, additional, Kamel, Peter, additional, Kang, Keiko M., additional, Karp, Emily, additional, Karsy, Michael J., additional, Kshettry, Varun R., additional, Kshirsagar, Rijul S., additional, Kuan, Edward C., additional, Lamarre, Eric, additional, Levy, Joshua M., additional, Link, Michael, additional, Little, Andrew S., additional, Liu, Ann, additional, Liu, James K., additional, Locatelli, Davide, additional, Luna, Licia P., additional, Mahomva, Chengetai, additional, McCulley, Timothy J., additional, Medina, Eduardo J., additional, Michael, Alex P., additional, Miglani, Amar, additional, Mihal, David, additional, Moe, Kris S., additional, Nadgir, Rohini, additional, Nicholson, Patrick, additional, Nyquist, Gurston G., additional, Oostra, Amanda, additional, Oswald, Aaron, additional, Palmer, James N., additional, Parsel, Sean M., additional, Patel, Prayag, additional, Petrauskas, Laura, additional, Porto, Edoardo, additional, Pradilla, Gustavo, additional, Prashant, Giyarpuram N., additional, Prevedello, Daniel, additional, Qureshi, Hannan A., additional, Rabinowitz, Mindy R., additional, Radovanovic, Ivan, additional, Ramanathan, Murugappan, additional, Rao, Shilpa M., additional, Ray, Amrita, additional, Rech, Matheus, additional, Recinos, Pablo F., additional, Barbero, J. Manuel Revuelta, additional, Rincon-Torroella, Jordina, additional, Rosen, Marc R., additional, Roxbury, Christopher R., additional, Ruggieri, Paul, additional, Safi, Chetan, additional, Santarelli, Griffin D., additional, Sarris, Christina E., additional, Schlosser, Rodney J., additional, Schwartz, Theodore H., additional, Shah, Janki, additional, Sindwani, Raj, additional, Snyderman, Carl H., additional, Sommerfeld, Connor, additional, Soriano, Roberto M., additional, Sreenath, Satyan B., additional, Stokken, Janalee, additional, Tabaee, Abtin, additional, Tang, Dennis M., additional, Timmons, Shelly D., additional, Ting, Jonathan, additional, Turri-Zanoni, Mario, additional, Vorster, Sarel J., additional, Vyskocil, Erich, additional, Warren, Zachary, additional, Watley, Duncan C., additional, White, Alexandra J., additional, Williams, Michael A., additional, Woodard, Troy D., additional, Woodworth, Bradford A., additional, Workman, Alan D., additional, Wormald, Peter-John, additional, Wrobel, Bozena B., additional, Zada, Gabriel, additional, Zanation, Adam, additional, Zhao, Jiawei, additional, and Zimmer, David I., additional

Published
2024
Full Text
View/download PDF

10. SAGE: SLAM with Appearance and Geometry Prior for Endoscopy

Author

Liu, Xingtong, Li, Zhaoshuo, Ishii, Masaru, Hager, Gregory D., Taylor, Russell H., and Unberath, Mathias

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Robotics
Abstract

In endoscopy, many applications (e.g., surgical navigation) would benefit from a real-time method that can simultaneously track the endoscope and reconstruct the dense 3D geometry of the observed anatomy from a monocular endoscopic video. To this end, we develop a Simultaneous Localization and Mapping system by combining the learning-based appearance and optimizable geometry priors and factor graph optimization. The appearance and geometry priors are explicitly learned in an end-to-end differentiable training pipeline to master the task of pair-wise image alignment, one of the core components of the SLAM system. In our experiments, the proposed SLAM system is shown to robustly handle the challenges of texture scarceness and illumination variation that are commonly seen in endoscopy. The system generalizes well to unseen endoscopes and subjects and performs favorably compared with a state-of-the-art feature-based SLAM system. The code repository is available at https://github.com/lppllppl920/SAGE-SLAM.git., Comment: Accepted to ICRA 2022

Published
2022

11. Analysis of distribution, collection, and confirmation of capacity dependency of small extracellular vesicles toward a therapy for liver cirrhosis

Author

Takeda, Nobutaka, Tsuchiya, Atsunori, Mito, Masaki, Natsui, Kazuki, Natusi, Yui, Koseki, Yohei, Tomiyoshi, Kei, Yamazaki, Fusako, Yoshida, Yuki, Abe, Hiroyuki, Sano, Masayuki, Kido, Taketomo, Yoshioka, Yusuke, Kikuta, Junichi, Itoh, Tohru, Nishimura, Ken, Ishii, Masaru, Ochiya, Takahiro, Miyajima, Atsushi, and Terai, Shuji

Published
2023
Full Text
View/download PDF

17. Learning Representations of Endoscopic Videos to Detect Tool Presence Without Supervision

Author

Li, David Z., Ishii, Masaru, Taylor, Russell H., Hager, Gregory D., and Sinha, Ayushi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this work, we explore whether it is possible to learn representations of endoscopic video frames to perform tasks such as identifying surgical tool presence without supervision. We use a maximum mean discrepancy (MMD) variational autoencoder (VAE) to learn low-dimensional latent representations of endoscopic videos and manipulate these representations to distinguish frames containing tools from those without tools. We use three different methods to manipulate these latent representations in order to predict tool presence in each frame. Our fully unsupervised methods can identify whether endoscopic video frames contain tools with average precision of 71.56, 73.93, and 76.18, respectively, comparable to supervised methods. Our code is available at https://github.com/zdavidli/tool-presence/, Comment: 10 pages, 4 figures, CLIP 2020

Published
2020

18. Reconstructing Sinus Anatomy from Endoscopic Video -- Towards a Radiation-free Approach for Quantitative Longitudinal Assessment

Author

Liu, Xingtong, Stiber, Maia, Huang, Jindan, Ishii, Masaru, Hager, Gregory D., Taylor, Russell H., and Unberath, Mathias

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Reconstructing accurate 3D surface models of sinus anatomy directly from an endoscopic video is a promising avenue for cross-sectional and longitudinal analysis to better understand the relationship between sinus anatomy and surgical outcomes. We present a patient-specific, learning-based method for 3D reconstruction of sinus surface anatomy directly and only from endoscopic videos. We demonstrate the effectiveness and accuracy of our method on in and ex vivo data where we compare to sparse reconstructions from Structure from Motion, dense reconstruction from COLMAP, and ground truth anatomy from CT. Our textured reconstructions are watertight and enable measurement of clinically relevant parameters in good agreement with CT. The source code is available at https://github.com/lppllppl920/DenseReconstruction-Pytorch., Comment: Accepted to MICCAI 2020

Published
2020

19. Extremely Dense Point Correspondences using a Learned Feature Descriptor

Author

Liu, Xingtong, Zheng, Yiping, Killeen, Benjamin, Ishii, Masaru, Hager, Gregory D., Taylor, Russell H., and Unberath, Mathias

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

High-quality 3D reconstructions from endoscopy video play an important role in many clinical applications, including surgical navigation where they enable direct video-CT registration. While many methods exist for general multi-view 3D reconstruction, these methods often fail to deliver satisfactory performance on endoscopic video. Part of the reason is that local descriptors that establish pair-wise point correspondences, and thus drive reconstruction, struggle when confronted with the texture-scarce surface of anatomy. Learning-based dense descriptors usually have larger receptive fields enabling the encoding of global information, which can be used to disambiguate matches. In this work, we present an effective self-supervised training scheme and novel loss design for dense descriptor learning. In direct comparison to recent local and dense descriptors on an in-house sinus endoscopy dataset, we demonstrate that our proposed dense descriptor can generalize to unseen patients and scopes, thereby largely improving the performance of Structure from Motion (SfM) in terms of model density and completeness. We also evaluate our method on a public dense optical flow dataset and a small-scale SfM public dataset to further demonstrate the effectiveness and generality of our method. The source code is available at https://github.com/lppllppl920/DenseDescriptorLearning-Pytorch., Comment: The work has been accepted for publication in CVPR 2020

Published
2020

20. Hematopoietic cell-derived IL-15 supports NK cell development in scattered and clustered localization within the bone marrow

Author

Abe, Shinya, Asahi, Takuma, Hara, Takahiro, Cui, Guangwei, Shimba, Akihiro, Tani-ichi, Shizue, Yamada, Kohei, Miyazaki, Kazuko, Miyachi, Hitoshi, Kitano, Satsuki, Nakamura, Naotoshi, Kikuta, Junichi, Vandenbon, Alexis, Miyazaki, Masaki, Yamada, Ryo, Ohteki, Toshiaki, Ishii, Masaru, Sexl, Veronika, Nagasawa, Takashi, and Ikuta, Koichi

Published
2023
Full Text
View/download PDF

22. Self-supervised Dense 3D Reconstruction from Monocular Endoscopic Video

Author

Liu, Xingtong, Sinha, Ayushi, Ishii, Masaru, Hager, Gregory D., Taylor, Russell H., and Unberath, Mathias

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We present a self-supervised learning-based pipeline for dense 3D reconstruction from full-length monocular endoscopic videos without a priori modeling of anatomy or shading. Our method only relies on unlabeled monocular endoscopic videos and conventional multi-view stereo algorithms, and requires neither manual interaction nor patient CT in both training and application phases. In a cross-patient study using CT scans as groundtruth, we show that our method is able to produce photo-realistic dense 3D reconstructions with submillimeter mean residual errors from endoscopic videos from unseen patients and scopes.

Published
2019

23. Dense Depth Estimation in Monocular Endoscopy with Self-supervised Learning Methods

Author

Liu, Xingtong, Sinha, Ayushi, Ishii, Masaru, Hager, Gregory D., Reiter, Austin, Taylor, Russell H., and Unberath, Mathias

Subjects
Computer Science - Computer Vision and Pattern Recognition, Statistics - Machine Learning
Abstract

We present a self-supervised approach to training convolutional neural networks for dense depth estimation from monocular endoscopy data without a priori modeling of anatomy or shading. Our method only requires monocular endoscopic videos and a multi-view stereo method, e.g., structure from motion, to supervise learning in a sparse manner. Consequently, our method requires neither manual labeling nor patient computed tomography (CT) scan in the training and application phases. In a cross-patient experiment using CT scans as groundtruth, the proposed method achieved submillimeter mean residual error. In a comparison study to recent self-supervised depth estimation methods designed for natural video on in vivo sinus endoscopy data, we demonstrate that the proposed approach outperforms the previous methods by a large margin. The source code for this work is publicly available online at https://github.com/lppllppl920/EndoscopyDepthEstimation-Pytorch., Comment: Accepted to IEEE Transactions on Medical Imaging

Published
2019

26. Towards automatic initialization of registration algorithms using simulated endoscopy images

Author

Sinha, Ayushi, Ishii, Masaru, Taylor, Russell H., Hager, Gregory D., and Reiter, Austin

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics, Computer Science - Machine Learning, J.2, J.3, I.2.6, I.2.10, I.3.3, I.3.7
Abstract

Registering images from different modalities is an active area of research in computer aided medical interventions. Several registration algorithms have been developed, many of which achieve high accuracy. However, these results are dependent on many factors, including the quality of the extracted features or segmentations being registered as well as the initial alignment. Although several methods have been developed towards improving segmentation algorithms and automating the segmentation process, few automatic initialization algorithms have been explored. In many cases, the initial alignment from which a registration is initiated is performed manually, which interferes with the clinical workflow. Our aim is to use scene classification in endoscopic procedures to achieve coarse alignment of the endoscope and a preoperative image of the anatomy. In this paper, we show using simulated scenes that a neural network can predict the region of anatomy (with respect to a preoperative image) that the endoscope is located in by observing a single endoscopic video frame. With limited training and without any hyperparameter tuning, our method achieves an accuracy of 76.53 (+/-1.19)%. There are several avenues for improvement, making this a promising direction of research. Code is available at https://github.com/AyushiSinha/AutoInitialization., Comment: 4 pages, 4 figures

Published
2018

27. Self-supervised Learning for Dense Depth Estimation in Monocular Endoscopy

Author

Liu, Xingtong, Sinha, Ayushi, Unberath, Mathias, Ishii, Masaru, Hager, Gregory, Taylor, Russell H., and Reiter, Austin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We present a self-supervised approach to training convolutional neural networks for dense depth estimation from monocular endoscopy data without a priori modeling of anatomy or shading. Our method only requires sequential data from monocular endoscopic videos and a multi-view stereo reconstruction method, e.g. structure from motion, that supervises learning in a sparse but accurate manner. Consequently, our method requires neither manual interaction, such as scaling or labeling, nor patient CT in the training and application phases. We demonstrate the performance of our method on sinus endoscopy data from two patients and validate depth prediction quantitatively using corresponding patient CT scans where we found submillimeter residual errors., Comment: 11 pages, 5 figures

Published
2018
Full Text
View/download PDF

28. Endoscopic navigation in the absence of CT imaging

Author

Sinha, Ayushi, Liu, Xingtong, Reiter, Austin, Ishii, Masaru, Hager, Gregory D., and Taylor, Russell H.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, G.3, I.4.m, J.3
Abstract

Clinical examinations that involve endoscopic exploration of the nasal cavity and sinuses often do not have a reference image to provide structural context to the clinician. In this paper, we present a system for navigation during clinical endoscopic exploration in the absence of computed tomography (CT) scans by making use of shape statistics from past CT scans. Using a deformable registration algorithm along with dense reconstructions from video, we show that we are able to achieve submillimeter registrations in in-vivo clinical data and are able to assign confidence to these registrations using confidence criteria established using simulated data., Comment: 8 pages, 3 figures, MICCAI 2018

Published
2018
Full Text
View/download PDF

29. Towards computational fluorescence microscopy: Machine learning-based integrated prediction of morphological and molecular tumor profiles

Author

Binder, Alexander, Bockmayr, Michael, Hägele, Miriam, Wienert, Stephan, Heim, Daniel, Hellweg, Katharina, Stenzinger, Albrecht, Parlow, Laura, Budczies, Jan, Goeppert, Benjamin, Treue, Denise, Kotani, Manato, Ishii, Masaru, Dietel, Manfred, Hocke, Andreas, Denkert, Carsten, Müller, Klaus-Robert, and Klauschen, Frederick

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent advances in cancer research largely rely on new developments in microscopic or molecular profiling techniques offering high level of detail with respect to either spatial or molecular features, but usually not both. Here, we present a novel machine learning-based computational approach that allows for the identification of morphological tissue features and the prediction of molecular properties from breast cancer imaging data. This integration of microanatomic information of tumors with complex molecular profiling data, including protein or gene expression, copy number variation, gene methylation and somatic mutations, provides a novel means to computationally score molecular markers with respect to their relevance to cancer and their spatial associations within the tumor microenvironment.

Published
2018

30. Multiphoton intravital microscopy of rodents

Author

Scheele, Colinda L. G. J., Herrmann, David, Yamashita, Erika, Lo Celso, Cristina, Jenne, Craig N., Oktay, Maja H., Entenberg, David, Friedl, Peter, Weigert, Roberto, Meijboom, Franck L. B., Ishii, Masaru, Timpson, Paul, and van Rheenen, Jacco

Published
2022
Full Text
View/download PDF

35. Spatial heterogeneity and functional zonation of living tissues and organs in situ.

Author

Miyamoto, Yu and Ishii, Masaru

Subjects
*TRANSCRIPTOMES, *SPATIAL arrangement, *IMMUNE system, *IMAGING systems, *CELL physiology
Abstract

In most organs, resources such as nutrients, oxygen and physiologically active substances are unevenly supplied within the tissue spaces. Consequently, different tissue functions are exhibited in each space. This spatial heterogeneity of tissue environments arises depending on the spatial arrangement of nutrient vessels and functional vessels, leading to continuous changes in the metabolic states and functions of various cell types from regions proximal to these vessels to distant regions. This phenomenon is referred to as 'zonation'. Traditional analytical methods have made it difficult to investigate this zonation in detail. However, recent advancements in intravital imaging, spatial transcriptomics and single-cell transcriptomics technologies have facilitated the discovery of 'zones' in various organs and elucidated their physiological roles. Here, we outline the spatial differences in the immune system within each zone of organs. This information provides a deeper understanding of organs' immune systems. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

36. A Label‐Efficient Framework for Automated Sinonasal CT Segmentation in Image‐Guided Surgery.

Author

Sahu, Manish, Xiao, Yuliang, Porras, Jose L., Amanian, Ameen, Jain, Aseem, Thamboo, Andrew, Taylor, Russell H., Creighton, Francis X., and Ishii, Masaru

Abstract

Objective: Segmentation, the partitioning of patient imaging into multiple, labeled segments, has several potential clinical benefits but when performed manually is tedious and resource intensive. Automated deep learning (DL)‐based segmentation methods can streamline the process. The objective of this study was to evaluate a label‐efficient DL pipeline that requires only a small number of annotated scans for semantic segmentation of sinonasal structures in CT scans. Study Design: Retrospective cohort study. Setting: Academic institution. Methods: Forty CT scans were used in this study including 16 scans in which the nasal septum (NS), inferior turbinate (IT), maxillary sinus (MS), and optic nerve (ON) were manually annotated using an open‐source software. A label‐efficient DL framework was used to train jointly on a few manually labeled scans and the remaining unlabeled scans. Quantitative analysis was then performed to obtain the number of annotated scans needed to achieve submillimeter average surface distances (ASDs). Results: Our findings reveal that merely four labeled scans are necessary to achieve median submillimeter ASDs for large sinonasal structures—NS (0.96 mm), IT (0.74 mm), and MS (0.43 mm), whereas eight scans are required for smaller structures—ON (0.80 mm). Conclusion: We have evaluated a label‐efficient pipeline for segmentation of sinonasal structures. Empirical results demonstrate that automated DL methods can achieve submillimeter accuracy using a small number of labeled CT scans. Our pipeline has the potential to improve pre‐operative planning workflows, robotic‐ and image‐guidance navigation systems, computer‐assisted diagnosis, and the construction of statistical shape models to quantify population variations. Level of Evidence: N/A [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

37. A Deep Learning Framework for Analysis of the Eustachian Tube and the Internal Carotid Artery.

Author

Amanian, Ameen, Jain, Aseem, Xiao, Yuliang, Kim, Chanha, Ding, Andy S., Sahu, Manish, Taylor, Russell, Unberath, Mathias, Ward, Bryan K., Galaiya, Deepa, Ishii, Masaru, and Creighton, Francis X.

Abstract

Objective: Obtaining automated, objective 3‐dimensional (3D) models of the Eustachian tube (ET) and the internal carotid artery (ICA) from computed tomography (CT) scans could provide useful navigational and diagnostic information for ET pathologies and interventions. We aim to develop a deep learning (DL) pipeline to automatically segment the ET and ICA and use these segmentations to compute distances between these structures. Study Design: Retrospective cohort. Setting: Tertiary referral center. Methods: From a database of 30 CT scans, 60 ET and ICA pairs were manually segmented and used to train an nnU‐Net model, a DL segmentation framework. These segmentations were also used to develop a quantitative tool to capture the magnitude and location of the minimum distance point (MDP) between ET and ICA. Performance metrics for the nnU‐Net automated segmentations were calculated via the average Hausdorff distance (AHD) and dice similarity coefficient (DSC). Results: The AHD for the ET and ICA were 0.922 and 0.246 mm, respectively. Similarly, the DSC values for the ET and ICA were 0.578 and 0.884. The mean MDP from ET to ICA in the cartilaginous region was 2.6 mm (0.7‐5.3 mm) and was located on average 1.9 mm caudal from the bony cartilaginous junction. Conclusion: This study describes the first end‐to‐end DL pipeline for automated ET and ICA segmentation and analyzes distances between these structures. In addition to helping to ensure the safe selection of patients for ET dilation, this method can facilitate large‐scale studies exploring the relationship between ET pathologies and the 3D shape of the ET. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

39. Correcting for Rater Effects in Operating Room Surgical Skills Assessment

Author

Chou, Ryan, primary, Naz, Hajira, additional, Boahene, Kofi D.O., additional, Maxwell, Jessica H., additional, Wanamaker, John R., additional, Byrne, Patrick J., additional, Papel, Ira D., additional, Kontis, Theda C., additional, Hager, Gregory D., additional, Ishii, Lisa E., additional, Malekzadeh, Sonya, additional, Vedula, S. Swaroop, additional, and Ishii, Masaru, additional

Published
2024
Full Text
View/download PDF

42. Anatomically Constrained Video-CT Registration via the V-IMLOP Algorithm

Author

Billings, Seth D., Sinha, Ayushi, Reiter, Austin, Leonard, Simon, Ishii, Masaru, Hager, Gregory D., and Taylor, Russell H.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Functional endoscopic sinus surgery (FESS) is a surgical procedure used to treat acute cases of sinusitis and other sinus diseases. FESS is fast becoming the preferred choice of treatment due to its minimally invasive nature. However, due to the limited field of view of the endoscope, surgeons rely on navigation systems to guide them within the nasal cavity. State of the art navigation systems report registration accuracy of over 1mm, which is large compared to the size of the nasal airways. We present an anatomically constrained video-CT registration algorithm that incorporates multiple video features. Our algorithm is robust in the presence of outliers. We also test our algorithm on simulated and in-vivo data, and test its accuracy against degrading initializations., Comment: 8 pages, 4 figures, MICCAI

Published
2016
Full Text
View/download PDF

43. Perspectives on Surgical Data Science

Author

Vedula, S. Swaroop, Ishii, Masaru, and Hager, Gregory D.

Subjects
Computer Science - Computers and Society
Abstract

The availability of large amounts of data together with advances in analytical techniques afford an opportunity to address difficult challenges in ensuring that healthcare is safe, effective, efficient, patient-centered, equitable, and timely. Surgical care and training stand to tremendously gain through surgical data science. Herein, we discuss a few perspectives on the scope and objectives for surgical data science., Comment: Workshop on Surgical Data Science, Heidelberg, Germany, June 20, 2016

Published
2016

47. Automated Objective Surgical Skill Assessment in the Operating Room Using Unstructured Tool Motion

Author

Poddar, Piyush, Ahmidi, Narges, Vedula, S. Swaroop, Ishii, Lisa, Hager, Gregory D., and Ishii, Masaru

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Previous work on surgical skill assessment using intraoperative tool motion in the operating room (OR) has focused on highly-structured surgical tasks such as cholecystectomy. Further, these methods only considered generic motion metrics such as time and number of movements, which are of limited instructive value. In this paper, we developed and evaluated an automated approach to the surgical skill assessment of nasal septoplasty in the OR. The obstructed field of view and highly unstructured nature of septoplasty precludes trainees from efficiently learning the procedure. We propose a descriptive structure of septoplasty consisting of two types of activity: (1) brushing activity directed away from the septum plane characterizing the consistency of the surgeon's wrist motion and (2) activity along the septal plane characterizing the surgeon's coverage pattern. We derived features related to these two activity types that classify a surgeon's level of training with an average accuracy of about 72%. The features we developed provide surgeons with personalized, actionable feedback regarding their tool motion.

Published
2014

50. Recovering Physiological Changes in Nasal Anatomy with Confidence Estimates

Author

Sinha, Ayushi, Liu, Xingtong, Ishii, Masaru, Hager, Gregory D., Taylor, Russell H., Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Greenspan, Hayit, editor, Tanno, Ryutaro, editor, Erdt, Marius, editor, Arbel, Tal, editor, Baumgartner, Christian, editor, Dalca, Adrian, editor, Sudre, Carole H., editor, Wells, William M., editor, Drechsler, Klaus, editor, Linguraru, Marius George, editor, Oyarzun Laura, Cristina, editor, Shekhar, Raj, editor, Wesarg, Stefan, editor, and González Ballester, Miguel Ángel, editor

Published
2019
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results