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167 results on '"Xu, Haoping"'

1. Discovering Robotic Interaction Modes with Discrete Representation Learning

Author

Wang, Liquan, Goyal, Ankit, Xu, Haoping, and Garg, Animesh

Subjects
Computer Science - Robotics
Abstract

Human actions manipulating articulated objects, such as opening and closing a drawer, can be categorized into multiple modalities we define as interaction modes. Traditional robot learning approaches lack discrete representations of these modes, which are crucial for empirical sampling and grounding. In this paper, we present ActAIM2, which learns a discrete representation of robot manipulation interaction modes in a purely unsupervised fashion, without the use of expert labels or simulator-based privileged information. Utilizing novel data collection methods involving simulator rollouts, ActAIM2 consists of an interaction mode selector and a low-level action predictor. The selector generates discrete representations of potential interaction modes with self-supervision, while the predictor outputs corresponding action trajectories. Our method is validated through its success rate in manipulating articulated objects and its robustness in sampling meaningful actions from the discrete representation. Extensive experiments demonstrate ActAIM2's effectiveness in enhancing manipulability and generalizability over baselines and ablation studies. For videos and additional results, see our website: https://actaim2.github.io/.

Published
2024

2. MVTrans: Multi-View Perception of Transparent Objects

Author

Wang, Yi Ru, Zhao, Yuchi, Xu, Haoping, Eppel, Saggi, Aspuru-Guzik, Alan, Shkurti, Florian, and Garg, Animesh

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

Transparent object perception is a crucial skill for applications such as robot manipulation in household and laboratory settings. Existing methods utilize RGB-D or stereo inputs to handle a subset of perception tasks including depth and pose estimation. However, transparent object perception remains to be an open problem. In this paper, we forgo the unreliable depth map from RGB-D sensors and extend the stereo based method. Our proposed method, MVTrans, is an end-to-end multi-view architecture with multiple perception capabilities, including depth estimation, segmentation, and pose estimation. Additionally, we establish a novel procedural photo-realistic dataset generation pipeline and create a large-scale transparent object detection dataset, Syn-TODD, which is suitable for training networks with all three modalities, RGB-D, stereo and multi-view RGB. Project Site: https://ac-rad.github.io/MVTrans/, Comment: Accepted to ICRA 2023; 6 pages, 4 figures, 4 tables

Published
2023

3. Chemistry Lab Automation via Constrained Task and Motion Planning

Author

Yoshikawa, Naruki, Li, Andrew Zou, Darvish, Kourosh, Zhao, Yuchi, Xu, Haoping, Kuramshin, Artur, Aspuru-Guzik, Alán, Garg, Animesh, and Shkurti, Florian

Subjects
Computer Science - Robotics
Abstract

Chemists need to perform many laborious and time-consuming experiments in the lab to discover and understand the properties of new materials. To support and accelerate this process, we propose a robot framework for manipulation that autonomously performs chemistry experiments. Our framework receives high-level abstract descriptions of chemistry experiments, perceives the lab workspace, and autonomously plans multi-step actions and motions. The robot interacts with a wide range of lab equipment and executes the generated plans. A key component of our method is constrained task and motion planning using PDDLStream solvers. Preventing collisions and spillage is done by introducing a constrained motion planner. Our planning framework can conduct different experiments employing implemented actions and lab tools. We demonstrate the utility of our framework on pouring skills for various materials and two fundamental chemical experiments for materials synthesis: solubility and recrystallization., Comment: Equal author contribution from Naruki Yoshikawa, Andrew Zou Li, Kourosh Darvish, Yuchi Zhao and Haoping Xu

Published
2022

4. Large language models for chemistry robotics

Author

Yoshikawa, Naruki, Skreta, Marta, Darvish, Kourosh, Arellano-Rubach, Sebastian, Ji, Zhi, Bjørn Kristensen, Lasse, Li, Andrew Zou, Zhao, Yuchi, Xu, Haoping, Kuramshin, Artur, Aspuru-Guzik, Alán, Shkurti, Florian, and Garg, Animesh

Published
2023
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5. Seeing Glass: Joint Point Cloud and Depth Completion for Transparent Objects

Author

Xu, Haoping, Wang, Yi Ru, Eppel, Sagi, Aspuru-Guzik, Alàn, Shkurti, Florian, and Garg, Animesh

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

The basis of many object manipulation algorithms is RGB-D input. Yet, commodity RGB-D sensors can only provide distorted depth maps for a wide range of transparent objects due light refraction and absorption. To tackle the perception challenges posed by transparent objects, we propose TranspareNet, a joint point cloud and depth completion method, with the ability to complete the depth of transparent objects in cluttered and complex scenes, even with partially filled fluid contents within the vessels. To address the shortcomings of existing transparent object data collection schemes in literature, we also propose an automated dataset creation workflow that consists of robot-controlled image collection and vision-based automatic annotation. Through this automated workflow, we created Toronto Transparent Objects Depth Dataset (TODD), which consists of nearly 15000 RGB-D images. Our experimental evaluation demonstrates that TranspareNet outperforms existing state-of-the-art depth completion methods on multiple datasets, including ClearGrasp, and that it also handles cluttered scenes when trained on TODD. Code and dataset will be released at https://www.pair.toronto.edu/TranspareNet/, Comment: Accepted for Oral at Conference on Robot Learning (CoRL) 2021; Haoping Xu and Yi Ru Wang contributed equally; 8 pages, 6 figures, 3 tables

Published
2021

6. Predicting 3D shapes, masks, and properties of materials, liquids, and objects inside transparent containers, using the TransProteus CGI dataset

Author

Eppel, Sagi, Xu, Haoping, Wang, Yi Ru, and Aspuru-Guzik, Alan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We present TransProteus, a dataset, and methods for predicting the 3D structure, masks, and properties of materials, liquids, and objects inside transparent vessels from a single image without prior knowledge of the image source and camera parameters. Manipulating materials in transparent containers is essential in many fields and depends heavily on vision. This work supplies a new procedurally generated dataset consisting of 50k images of liquids and solid objects inside transparent containers. The image annotations include 3D models, material properties (color/transparency/roughness...), and segmentation masks for the vessel and its content. The synthetic (CGI) part of the dataset was procedurally generated using 13k different objects, 500 different environments (HDRI), and 1450 material textures (PBR) combined with simulated liquids and procedurally generated vessels. In addition, we supply 104 real-world images of objects inside transparent vessels with depth maps of both the vessel and its content. We propose a camera agnostic method that predicts 3D models from an image as an XYZ map. This allows the trained net to predict the 3D model as a map with XYZ coordinates per pixel without prior knowledge of the image source. To calculate the training loss, we use the distance between pairs of points inside the 3D model instead of the absolute XYZ coordinates. This makes the loss function translation invariant. We use this to predict 3D models of vessels and their content from a single image. Finally, we demonstrate a net that uses a single image to predict the material properties of the vessel content and surface.

Published
2021

8. Computer vision for liquid samples in hospitals and medical labs using hierarchical image segmentation and relations prediction

Author

Eppel, Sagi, Xu, Haoping, and Aspuru-Guzik, Alan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This work explores the use of computer vision for image segmentation and classification of medical fluid samples in transparent containers (for example, tubes, syringes, infusion bags). Handling fluids such as infusion fluids, blood, and urine samples is a significant part of the work carried out in medical labs and hospitals. The ability to accurately identify and segment the liquids and the vessels that contain them from images can help in automating such processes. Modern computer vision typically involves training deep neural nets on large datasets of annotated images. This work presents a new dataset containing 1,300 annotated images of medical samples involving vessels containing liquids and solid material. The images are annotated with the type of liquid (e.g., blood, urine), the phase of the material (e.g., liquid, solid, foam, suspension), the type of vessel (e.g., syringe, tube, cup, infusion bottle/bag), and the properties of the vessel (transparent, opaque). In addition, vessel parts such as corks, labels, spikes, and valves are annotated. Relations and hierarchies between vessels and materials are also annotated, such as which vessel contains which material or which vessels are linked or contain each other. Three neural networks are trained on the dataset: One network learns to detect vessels, a second net detects the materials and parts inside each vessel, and a third net identifies relationships and connectivity between vessels.

Published
2021

9. AEP-cleaved DDX3X induces alternative RNA splicing events to mediate cancer cell adaptation in harsh microenvironments

Author

Zhang, Wenrui, Cao, Lu, Yang, Jian, Zhang, Shuai, Zhao, Jianyi, Shi, Zhonggang, Liao, Keman, Wang, Haiwei, Chen, Binghong, Qian, Zhongrun, Xu, Haoping, Wu, Linshi, Liu, Hua, Wang, Hongxiang, Ma, Chunhui, Qiu, Yongming, Ge, Jianwei, Chen, Jiayi, and Lin, Yingying

Subjects
Gliomas -- Development and progression, RNA, Cancer -- Development and progression, Health care industry
Abstract

Oxygen and nutrient deprivation are common features of solid tumors. Although abnormal alternative splicing (AS) has been found to be an important driving force in tumor pathogenesis and progression, the regulatory mechanisms of AS that underly the adaptation of cancer cells to harsh microenvironments remain unclear. Here, we found that hypoxia- and nutrient deprivation-induced asparagine endopeptidase (AEP) specifically cleaved DDX3X in a HIF1A-dependent manner. This cleavage yields truncated carboxyl-terminal DDX3X (tDDX3X-C), which translocates and aggregates in the nucleus. Unlike intact DDX3X, nuclear tDDX3X-C complexes with an array of splicing factors and induces AS events of many premRNAs; for example, enhanced exon skipping (ES) in exon 2 of the classic tumor suppressor PRDM2 leads to a frameshift mutation of PRDM2. Intriguingly, the isoform ARRB1-[DELTA]exon 13 binds to glycolytic enzymes and regulates glycolysis. By utilizing in vitro assays, glioblastoma organoids, and animal models, we revealed that AEP/tDDX3X-C promoted tumor malignancy via these isoforms. More importantly, high AEP/tDDX3X-C/ARRB1- [DELTA]exon 13 in cancerous tissues was tightly associated with poor patient prognosis. Overall, our discovery of the effect of AEP-cleaved DDX3X switching on alternative RNA splicing events identifies a mechanism in which cancer cells adapt to oxygen and nutrient shortages and provides potential diagnostic and/or therapeutic targets., Introduction In the tumor microenvironment, cells often face a certain degree of oxygen and nutrient deprivation. Cancer cells strive to survive and proliferate in this harsh environment in multiple ways, [...]

Published
2024
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13. ORGANA: A Robotic Assistant for Automated Chemistry Experimentation and Characterization

Author

Darvish, Kourosh, Skreta, Marta, Zhao, Yuchi, Yoshikawa, Naruki, Som, Sagnik, Bogdanovic, Miroslav, Cao, Yang, Hao, Han, Xu, Haoping, Aspuru-Guzik, Alán, Garg, Animesh, Shkurti, Florian, Darvish, Kourosh, Skreta, Marta, Zhao, Yuchi, Yoshikawa, Naruki, Som, Sagnik, Bogdanovic, Miroslav, Cao, Yang, Hao, Han, Xu, Haoping, Aspuru-Guzik, Alán, Garg, Animesh, and Shkurti, Florian

Abstract

Chemistry experimentation is often resource- and labor-intensive. Despite the many benefits incurred by the integration of advanced and special-purpose lab equipment, many aspects of experimentation are still manually conducted by chemists, for example, polishing an electrode in electrochemistry experiments. Traditional lab automation infrastructure faces challenges when it comes to flexibly adapting to new chemistry experiments. To address this issue, we propose a human-friendly and flexible robotic system, ORGANA, that automates a diverse set of chemistry experiments. It is capable of interacting with chemists in the lab through natural language, using Large Language Models (LLMs). ORGANA keeps scientists informed by providing timely reports that incorporate statistical analyses. Additionally, it actively engages with users when necessary for disambiguation or troubleshooting. ORGANA can reason over user input to derive experiment goals, and plan long sequences of both high-level tasks and low-level robot actions while using feedback from the visual perception of the environment. It also supports scheduling and parallel execution for experiments that require resource allocation and coordination between multiple robots and experiment stations. We show that ORGANA successfully conducts a diverse set of chemistry experiments, including solubility assessment, pH measurement, recrystallization, and electrochemistry experiments. For the latter, we show that ORGANA robustly executes a long-horizon plan, comprising 19 steps executed in parallel, to characterize the electrochemical properties of quinone derivatives, a class of molecules used in rechargeable flow batteries. Our user study indicates that ORGANA significantly improves many aspects of user experience while reducing their physical workload. More details about ORGANA can be found at https://ac-rad.github.io/organa/.

Published
2024

15. AEP-cleaved DDX3X induces alternative RNA splicing events to mediate cancer cell adaptation in harsh microenvironments

Author

Zhang, Wenrui, primary, Cao, Lu, additional, Yang, Jian, additional, Zhang, Shuai, additional, Zhao, Jianyi, additional, Shi, Zhonggang, additional, Liao, Keman, additional, Wang, Haiwei, additional, Chen, Binghong, additional, Qian, Zhongrun, additional, Xu, Haoping, additional, Wu, Linshi, additional, Liu, Hua, additional, Wang, Hongxiang, additional, Ma, Chunhui, additional, Qiu, Yongming, additional, Ge, Jianwei, additional, Chen, Jiayi, additional, and Lin, Yingying, additional

Published
2023
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19. Exosomal miRNA‐166‐5p derived from G‐MDSCs promotes proliferation by targeting ITM3E in colorectal cancer.

Author

Ma, Tao, Jiang, Jinling, Shi, Min, and Xu, Haoping

Subjects
COLORECTAL cancer, MYELOID-derived suppressor cells, SUPPRESSOR cells, EXOSOMES, TRANSMISSION electron microscopy
Abstract

Background: The immune milieu of colorectal cancer is a complex phenomenon. It is imperative to investigate the crucial immune factors that promote the progression of colorectal cancer. Immune suppressor cells are granulocytic myeloid‐derived suppressor cells (G‐MDSCs). However, they also increased cancer growth in other ways that need to be investigated further. Methods: Using flow cytometry, we isolated G‐MDSCs from colorectal cancer tissues. Ultracentrifugation was used to separate exosomes from the supernatant of G‐MDSCs, and western blotting, transmission electron microscopy (TEM), and flow cytometry were used to confirm their presence. RNA sequencing was used to identify unique miRNAs and transcripts, which were subsequently confirmed by RT‐qPCR (real‐time quantitative real‐time PCR). The CCK‐8 test was used to determine the rate of proliferation. Lentiviral vectors were employed to manipulate the expression of miRNAs and genes in order to investigate their role in the development of colorectal cancer. Results: Colorectal cancer tissues have been found to contain granulocyte‐myeloid‐derived suppressor cells (G‐MDSCs) that secrete exosomes. These exosomes have been shown to accelerate cancer progression by promoting cell proliferation. Further research has identified microRNA‐166‐5p as a target from G‐MDSC‐derived exosomes. This downregulation leads to the inhibition of integral membrane protein 2B (ITM3E) transcription, which in turn activates the PI3K/Akt signaling pathway. This pathway promotes cell proliferation and can be inhibited using deguelin. The accelerated development of colorectal cancer has been further confirmed in mice models. Conclusion: The primary results of this work show that exosomes produced from G‐MDSCs and the miR‐166‐5p/ITM3E axis have therapeutic and diagnostic promise in colorectal cancer. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Hypofractionated versus conventional intensity-modulated radiation irradiation (HARVEST-adjuvant): study protocol for a randomised non-inferior multicentre phase III trial

Author

Xie, Jinrong, primary, Xu, Feifei, additional, Zhao, Yutian, additional, Cai, Gang, additional, Lin, Xiao, additional, Zhu, Qiwei, additional, Lin, Qing, additional, Yao, Yuan, additional, Xu, Cheng, additional, Cai, Rong, additional, Wang, Shubei, additional, Tang, Xiaolu, additional, Chen, Chuying, additional, Zheng, Siyue, additional, Chen, Mei, additional, Chen, Min, additional, Qian, Xiaofang, additional, Shen, Chunhong, additional, Li, Jian, additional, Xu, Haoping, additional, Xu, Fei, additional, Han, Yimin, additional, Li, Min, additional, Ou, Dan, additional, Shen, Kun Wei, additional, Qi, Wei-Xiang, additional, Cao, Lu, additional, Huang, Xiaobo, additional, and Chen, Jiayi, additional

Published
2022
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35. Comparison of Outcomes and Side Effects for Neoadjuvant Chemotherapy with Weekly Cisplatin and Paclitaxel Followed by Chemoradiation versus Chemoradiation Alone in Stage IIB-IVA Cervical Cancer: study protocol for a randomized controlled trial

Author

Li, Jing, primary, Cai, Rong, additional, Liu, Hua, additional, Shen, Lifei, additional, Long, Wenqing, additional, Yang, Chenmin, additional, Li, Ya, additional, Xu, Haoping, additional, Xi, Wenqi, additional, and Feng, Weiwei, additional

Published
2021
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42. 18F-fluorodeoxyglucose positron emission tomography-computed tomography scan after gastric endoscopy in those who present with non-specific symptoms, is it necessary or not?

Author

Xu, Haoping, Guo, Rui, Xu, Weihui, Pan, Yanying, and Ma, Tao

Subjects
ORIGINAL ARTICLE: GI Oncology, gastric malignancy positron emission tomography-computed tomography, gastric endoscopy, digestive, oral, and skin physiology, 18F-fluorodeoxyglucose, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, lcsh:RC254-282, digestive system diseases
Abstract

Background and Aims: Retrospectively analyze the sensitivity of 18F-fluorodeoxyglucose positron emission tomography-computed tomography (18F-FDG PET-CT) in the diagnosis of gastric malignancy compared with gastric endoscopy in persons with nonspecific symptoms and evaluate the necessity of 18F-FDG PET-CT scan before surgery. Materials and Methods: A total of 53 patients with gastric malignancy proven by surgery and pathology were enrolled in the study. All the patients underwent gastric endoscopy and PET-CT scan before surgery. And the PET-CT images were interpreted by the observers who were blinded to the results of the gastric endoscopy. The sensitivity of gastric endoscopy, 18F-FDG PET-CT, and serum tumor markers in the diagnosis of gastric malignancy were calculated ultimately. Results: Of 53 gastric malignancy patients, five cases were proven to be false-negative detected by gastric endoscopy, and the sensitivity of which was 90.57%. The sensitivity of PET scan alone was 86.79%, which was observed no significant difference to that of gastric endoscopy diagnosis, P = 0.54. While all of the patients had been detected positive on PET-CT images, the sensitivity of which was significantly higher than that of the gastric endoscopy diagnosis or that of the serum tumor markers, P < 0.001. And the FDG uptake was positively correlated with the depth of the cancer invasion into the gastric wall (P < 0.0001) and the degree of lymph nodes infiltration (P = 0.02). It also various from different differentiation degree significantly, P = 0.04. Conclusions: 18F-fluorodeoxyglucose PET-CT could detect gastric carcinoma in persons with nonspecific symptoms which showed negative in gastric endoscopy. And it is necessary to be aware of the possibility of gastric malignancy when the result of PET-CT scan is positive.

Published
2017

43. Weakly supervised deep learning for determining the prognostic value of 18F-FDG PET/CT in extranodal natural killer/T cell lymphoma, nasal type.

Author

Guo, Rui, Hu, Xiaobin, Song, Haoming, Xu, Pengpeng, Xu, Haoping, Rominger, Axel, Lin, Xiaozhu, Menze, Bjoern, Li, Biao, and Shi, Kuangyu

Subjects
DEEP learning, PROGNOSIS, PROGRESSION-free survival, LYMPHOMAS, SURVIVAL analysis (Biometry), T cells
Abstract

Purpose: To develop a weakly supervised deep learning (WSDL) method that could utilize incomplete/missing survival data to predict the prognosis of extranodal natural killer/T cell lymphoma, nasal type (ENKTL) based on pretreatment 18F-FDG PET/CT results. Methods: One hundred and sixty-seven patients with ENKTL who underwent pretreatment 18F-FDG PET/CT were retrospectively collected. Eighty-four patients were followed up for at least 2 years (training set = 64, test set = 20). A WSDL method was developed to enable the integration of the remaining 83 patients with incomplete/missing follow-up information in the training set. To test generalization, these data were derived from three types of scanners. Prediction similarity index (PSI) was derived from deep learning features of images. Its discriminative ability was calculated and compared with that of a conventional deep learning (CDL) method. Univariate and multivariate analyses helped explore the significance of PSI and clinical features. Results: PSI achieved area under the curve scores of 0.9858 and 0.9946 (training set) and 0.8750 and 0.7344 (test set) in the prediction of progression-free survival (PFS) with the WSDL and CDL methods, respectively. PSI threshold of 1.0 could significantly differentiate the prognosis. In the test set, WSDL and CDL achieved prediction sensitivity, specificity, and accuracy of 87.50% and 62.50%, 83.33% and 83.33%, and 85.00% and 75.00%, respectively. Multivariate analysis confirmed PSI to be an independent significant predictor of PFS in both the methods. Conclusion: The WSDL-based framework was more effective for extracting 18F-FDG PET/CT features and predicting the prognosis of ENKTL than the CDL method. [ABSTRACT FROM AUTHOR]

Published
2021
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44. The predictive value of pre-treatment 18F-FDG PET/CT on treatment outcome in early-stage extranodal natural killer/T-cell lymphoma.

Author

Guo, Rui, Xu, Pengpeng, Xu, Haoping, Miao, Ying, and Li, Biao

Subjects
TREATMENT effectiveness, PROGNOSIS, SURVIVAL analysis (Biometry), DNA viruses, EPSTEIN-Barr virus
Abstract

The diagnostic value of pretreatment 18F-FDG PET/CT in early-stage extranodal natural killer/T-cell lymphoma (ENKTL) is established, but its prognostic value is still unclear. We conducted 18F-FDG PET/CT-based quantitative and qualitative analysis as well as assessed related clinical parameters in 50 patients with recently diagnosed ENKTL and treated with methotrexate, etoposide, dexamethasone, and pegaspargase (MESA)-based therapy. Patients were followed-up for 38.6 ± 17.8 months. Six patients died of tumor-related disease, and six patients presented with persistence or recurrence. The estimates of the 2-year OS and PFS for the patients were 90.0% (SE: 4.0%) and 82.0% (SE: 5.0%), respectively. Survival curves were obtained using Kaplan–Meier analysis and compared using log rank test. Based on signifiacnt results of univariate analysis, we selected Epstein–Barr virus DNA (EB-DNA), metabolic tumor volume (MTV), and total lesion glycolysis (TLG) for multivariate analysis. Finally, MTV was found to be the significant independent predictor of both OS (p =.038) and PFS (p =.039). [ABSTRACT FROM AUTHOR]

Published
2020
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49. Pelvic insufficiency fracture (PIF) incidence in patients treated with intensity-modulated radiation therapy (IMRT) for gynaecological or anal cancer: single-institution experience and review of the literature

Author

Bazire, Louis, primary, Xu, Haoping, additional, Foy, Jean-Philippe, additional, Amessis, Malika, additional, Malhaire, Caroline, additional, Cao, Kim, additional, De La Rochefordiere, Anne, additional, and Kirova, Youlia M, additional

Published
2017
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50. Novel therapeutic modalities and drug delivery - erlotinib liposomes modified with galactosylated lipid: in vitro and in vivo investigations.

Author

Xu, Haoping, He, Changyu, Liu, Ying, Jiang, Jinling, and Ma, Tao

Subjects
*DRUG delivery systems, *LIPOSOMES, *ERLOTINIB
Abstract

The aim of this study to develop galactosylated erlotinib liposomes for treatment of lung cancer. The liposomes were prepared by using solvent evaporation method. Various parameters such as particle size, zeta potential, entrapment efficiency, stability and in vitro drug release were determined. The size of liposomes (both conventional and modified) was 103.5 and 121.4 nm. The zeta potential and EE of both liposomes were −7.1 ± 1.3 mV, −1.2 ± 0.5 mV and (82.3 ± 1.9)%, (83.4 ± 1.5)%, respectively. It was found that modified liposomes increase the size of particles. The in vitro release results indicated that the release of erlotinib from galactosylated liposomes was similar to that of conventional liposome, demonstrating that the modification did not affect erlotinib release. From the result of in vivo, it proved that erlotinib liposomes can significantly improve the drug targeting, rapidly distribute the drug in the body, prolong the drug circulation time and significantly increase the relative bioavailability of the drug. Biodistribution studies showed that erlotinib from galactosylated liposomes had higher AUC inside liver than the injection group and no histological change occurred to the rat liver after the administration of erlotinib conventional and galactosylated liposomes. [ABSTRACT FROM AUTHOR]

Published
2018
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