BDMC2018 Program
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Meet the Faculty Candidates
MEET THE FACULTY CANDIDATES Candidates are displayed in alphabetically by last name. Prospective employers are invited to attend and while no event pre-registration is required however they must be registered for the BMES 2018 Annual Meeting. A business card will be required to enter the event. COMPLETE DETAILED CANDIDATE INFORMATION AVAILABLE AT www.bmes.org/faculty. Specialty - Biomaterials Alessia Battigelli Woo-Sik Jang Sejin Son John Clegg Patrick Jurney Young Hye Song R. Cornelison Kevin McHugh Ryan Stowers Yonghui Ding Yifeng Peng Varadraj Vernekar Victor Hernandez-Gordillo Shantanu Pradhan Scott Wilson Marian Hettiaratchi Eiji Saito Yaoying Wu Era Jain Andrew Shoffstall Specialty - Biomechanics Adam Abraham Vince Fiore Panagiotis Mistriotis Edward Bonnevie Zeinab Hajjarian Simone Rossi Alexander Caulk Xiao Hu Alireza Yazdani Venkat Keshav Chivukula Heidi Kloefkorn Rana Zakerzadeh Jacopo Ferruzzi Yizeng Li Specialty - Biomedical Imaging Mahdi Bayat Chong Huang Katheryne Wilson Zhichao Fan Jingfei Liu Kihwan Han Alexandra Walsh Specialty - BioMEMS Jaehwan Jung Aniruddh Sarkar Mengxi Wu Specialty - Cardiovascular Engineering Reza Avaz Kristin French Zhenglun (Alan) Wei Specialty - Cellular Engineering Annie Bowles Kate Galloway Kuei-Chun Wang Alexander Buffone Laurel Hind Mahsa Dabagh Matthew Kutys See other side for more candidates Specialty - Device Engineering (Microfluidics, Electronics, Machine-Body interface) Taslim Al-Hilal Brian Johnson David Myers Jungil Choi Tae Jin Kim Max Villa Haishui Huang Jiannan Li Ying Wang Specialty -
General Pre-‐Departure Information
LIU GLOBAL • CHINA CENTER 4.14.16 GENERAL PRE-DEPARTURE INFORMATION VISA 1. If you have not applied for your Chinese visa, please do so ASAP. 2. Please refer to Important Visa Information document to check the visa application details. BUY AIR TICKETS LIU Global students are encouraged to book air tickets well in advance of their departure. We recommend that students traveling to China for the first time fly directly into Hangzhou Xiaoshan International Airport (HGH) on a domestic or international flight, although this may not be the least expensive options. Students with sufficient international travel experience may also fly directly to the Shanghai Pudong International Airport (PVG) or Shanghai Hongqiao International Airport (SHA) and arrange other transportation to Hangzhou by train or bus. For students arriving in China independently, there are several cities in China that have international connections with the United States and European countries, including Beijing, Shanghai and Hong Kong. Hangzhou Xiaoshan International Airport (HGH) has international connections to Hong Kong, Tokyo, Osaka, Seoul, Bangkok and Singapore. ITEMS TO BRING AND NOT TO BRING REQUESTED SUGGESTED DO NOT ² Passport ü Prescription Medications × Illicit narcotic and ² Valid Chinese Visa (All ü Laptop psychotropic drugs students are required to ü Feminine Hygiene Products × Pornographic material of arrange a student visa ü Non-Prescription Drugs you typically any kind prior to departure for use to control cold, flu, cough, × Religious or political China) allergies, and indigestion, such as material ² A valid Health Insurance aspirin and ibuprofen, Tums, × Cold cuts or fresh fruit Policy Robitussin ü Research books ü Dictionaries ü Winter coat CONTACT INFO 1. -
The Best of Hangz 2019
hou AUGUST 呈涡 The Best of Hangz 2019 TOP ALTERNATIVE BEAUTY SPOTS THE BEST CONVENIENCE STORE ICE-CREAMS TRAVEL DESTINATIONS FOR AUGUST TAKE ME Double Issue WITH YOU Inside Do you want a behind the scenes look at a print publication? Want to strengthen your social media marketing skills? Trying to improve your abilities as a writer? Come and intern at REDSTAR, where you can learn all these skills and more! Also by REDSTAR Works CONTENTS 茩嫚 08/19 REDSTAR Qingdao The Best of Qingdao o AUGUST 呈涡 oice of Qingda 2019 City The V SURFS UP! AN INSIGHT INTO THE WORLD OF SURFING COOL & FRESH, Top (Alternative) WHICH ICE LOLLY IS THE BEST? 12 TOP BEACHES BEACH UP FOR Beauty Spots SUMMER The West Lake is undoubtedly beautiful, but where else is there? Linus takes us through the best of the rest. TAKE ME WITH YOU Double Issue 郹曐暚魍妭鶯EN!0!䉣噿郹曐暚魍旝誼™摙 桹䅡駡誒!0!91:4.:311! 䉣噿壈攢鲷㣵211誑4.514!0!舽㚶㛇誑䯤 䉣墡縟妭躉棧舽叄3123.1125誑 Inside Life’s a Beach Creative Services 14 redstarworks.com Annie Clover takes us to the beach, right here in Hangzhou. Culture 28 Full Moon What exactly is the Lunar Calendar and why do we use it? Jerry answers all. Follow REDSTAR’s Ofcial WeChat to keep up-to-date with Hangzhou’s daily promotions, upcoming events and other REDSTAR/Hangzhou-related news. Use your WeChat QR scanner to scan this code. 饅燍郹曐呭昷孎惡㠬誑䯖鑫㓦椈墕桭 昦牆誤。釣䀏倀謾骼椈墕0郹曐荁饅㡊 㚵、寚棾羮孎惡怶酽怶壚䯋 Creative Team 詇陝筧䄯 Ian Burns, Teodora Lazarova, Toby Clarke, Alyssa Domingo, Jasper Zhai, David Chen, Zoe Zheng, Viola Madau, Linus Jia, Brine Taz, Alison Godwin, Features Vicent Jiang, Mika Wang, May Hao, Business Angel Dong, Wanny Leung, Penny Liu, Lim Jung Eun, Luke Yu, Athena Guo, Cool Off Jordan Coates and Fancy Fang. -
Feasibility Study of Car-Sharing Service in Hangzhou, China Iskender Alp Humbaraci Worcester Polytechnic Institute
Worcester Polytechnic Institute Digital WPI Major Qualifying Projects (All Years) Major Qualifying Projects August 2011 Feasibility Study of Car-Sharing Service in Hangzhou, China Iskender Alp Humbaraci Worcester Polytechnic Institute Joseph Michael Papotto Worcester Polytechnic Institute Lorey Michelle Aragon Worcester Polytechnic Institute Follow this and additional works at: https://digitalcommons.wpi.edu/mqp-all Repository Citation Humbaraci, I. A., Papotto, J. M., & Aragon, L. M. (2011). Feasibility Study of Car-Sharing Service in Hangzhou, China. Retrieved from https://digitalcommons.wpi.edu/mqp-all/2375 This Unrestricted is brought to you for free and open access by the Major Qualifying Projects at Digital WPI. It has been accepted for inclusion in Major Qualifying Projects (All Years) by an authorized administrator of Digital WPI. For more information, please contact [email protected]. Project Number: ZAZ-E111 Feasibility Study of Car-sharing Service in Hangzhou, China A Major Qualifying Project Report Submitted to the Faculty of WORCESTER POLYTECHNIC INSTITUTE In partial fulfillment of the requirements for the Degree of Bachelor of Science By: Lorey Aragon Alp Humbaraci Joseph Papotto In partnership with Hangzhou Dianzi University students: Xiaoyan Fei Wanqiong Lin Jinpin Quan Hexin Tian Yingchao Wu Ling Li Pu Wang Date: August 13, 2011 Approved: _________________________ Prof. Amy Zeng, Major Advisor i Abstract The goal of this project was to prepare an in-depth study of the feasibility of car-sharing service in Hangzhou city to effectively asses the business opportunities and social effects of this alternative of transportation. We analyzed the social, marketing and financial aspects of the feasibility of this business idea through a large survey, interviews and site visits. -
Engineering Photocrosslinkable Bicomponent Hydrogel Constructs
www.advancedsciencenews.com www.advhealthmat.de FULL PAPER Engineering Photocrosslinkable Bicomponent Hydrogel Constructs for Creating 3D Vascularized Bone Mehdi Kazemzadeh-Narbat, Jeroen Rouwkema, Nasim Annabi,* Hao Cheng, Masoumeh Ghaderi, Byung-Hyun Cha, Mansi Aparnathi, Akbar Khalilpour, Batzaya Byambaa, Esmaiel Jabbari, Ali Tamayol,* and Ali Khademhosseini* 1. Introduction Engineering bone tissue requires the generation of a highly organized vasculature. Cellular behavior is affected by the respective niche. Directing Even though bone tissue has a remarkable cellular behavior and differentiation for creating mineralized regions sur- regenerative capacity, large bone defects are often unable to fully heal on their rounded by vasculature can be achieved by controlling the pattern of own partially due to the destruction of osteogenic and angiogenic niches. This manuscript reports on engineering the local vascular network.[1,2] Traditional vascularized bone tissues by incorporating osteogenic and angiogenic approaches for treatment of large bone cell-laden niches in a photocrosslinkable hydrogel construct. Two-step defects include autologous bone transplan- photolithography process is used to control the stiffness of the hydrogel and tation and cancellous bone allografts.[3] distribution of cells in the patterned hydrogel. In addittion, osteoinductive Allografts carry the risk of immune rejec- tion.[4–7] Autologous bone grafts, particu- nanoparticles are utilized to induce osteogenesis. The size of microfabricated larly vascularized grafts of the fibula and constructs has a pronounced effect on cellular organization and function. iliac crest, are effective in the treatment It is shown that the simultaneous presence of both osteogenic and of large bone defects since they provide angiogenic niches in one construct results in formation of mineralized both an osteogenic environment and a [8] regions surrounded by organized vasculature. -
Enabled Multimaterial Maskless Stereolithographic Bioprinting
COMMUNICATION Bioprinting www.advmat.de Microfluidics-Enabled Multimaterial Maskless Stereolithographic Bioprinting Amir K. Miri, Daniel Nieto, Luis Iglesias, Hossein Goodarzi Hosseinabadi, Sushila Maharjan, Guillermo U. Ruiz-Esparza, Parastoo Khoshakhlagh, Amir Manbachi, Mehmet Remzi Dokmeci, Shaochen Chen, Su Ryon Shin, Yu Shrike Zhang,* and Ali Khademhosseini* A stereolithography-based bioprinting platform for multimaterial fabrication of heterogeneous hydrogel constructs is presented. Dynamic patterning by a digital micromirror device, synchronized by a moving stage and a microfluidic device containing four on/off pneumatic valves, is used to create 3D constructs. The novel microfluidic device is capable of fast switching between different (cell-loaded) hydrogel bioinks, to achieve layer-by-layer multimaterial bioprinting. Compared to conventional stereolithography-based bioprinters, the system provides the unique advantage of multimaterial fabrication capability at high spatial resolution. To demonstrate the multimaterial capacity of this system, a variety of hydrogel constructs are generated, including those based on poly(ethylene glycol) diacrylate (PEGDA) and gelatin methacryloyl (GelMA). The biocompatibility of this system is validated by introducing cell-laden GelMA into the microfluidic device and fabricating cellularized constructs. A pattern of a PEGDA frame and three different concentrations of GelMA, loaded with vascular endothelial growth factor, are further assessed for its neovascularization potential in a rat model. The proposed system provides a robust platform for bioprinting of high-fidelity multimaterial microstructures on demand for applications in tissue engineering, regenerative medicine, and biosensing, which are otherwise not readily achievable at high speed with conventional stereolithographic biofabrication platforms. Dr. A. K. Miri, Prof. D. Nieto, L. Iglesias, H. Goodarzi Hosseinabadi, Dr. A. Manbachi Dr. -
Engineered Materials That Integrate Advances in Polymer Chemistry, Nanotechnology, and Biological Sciences Have the Potential to Create Powerful Medical Therapies
Title of Talk: Engineering in Precision Medicine Abstract: Engineered materials that integrate advances in polymer chemistry, nanotechnology, and biological sciences have the potential to create powerful medical therapies. Dr. Khademhosseini’s group is interested in developing ‘personalized’ solutions that utilize micro- and nanoscale technolgoies to enable a range of therapies for organ failure, cardiovascular disease and cancer.In enabling this vision he works closely with clinicians (including interventional radiologists, cardiologists and surgeons). For example, he has developed numerous techniques in controlling the behavior of patient- derived cells to engineer artificial tissues and cell-based therapies. His group also aims to engineer tissue regenerative therapeutics using water-containing polymer networks called hydrogels that can regulate cell behavior. Specifically, he has developed photo-crosslinkable hybrid hydrogels that combine natural biomolecules with nanoparticles to regulate the chemical, biological, mechanical and electrical properties of gels. These functional scaffolds induce the differentiation of stem cells to desired cell types and direct the formation of vascularized heart or bone tissues. Since tissue function is highly dependent on architecture, he has also used microfabrication methods, such as microfluidics, photolithography, bioprinting, and molding, to regulate the architecture of these materials. He has employed these strategies to generate miniaturized tissues. To create tissue complexity, he has also developed directed assembly techniques to compile small tissue modules into larger constructs. It is anticipated that such approaches will lead to the development of next-generation regenerative therapeutics and biomedical devices. PLENO-IDEA: New materials for tissue engineering that can mimic natural tissue structure Presenters Biography: Ali Khademhosseini is currently the CEO and Founding Director at the Terasaki Institute for Biomedical Innovation. -
Passenger Flow Forecasting in Metro Transfer Station Based on the Combination of Singular Spectrum Analysis and Adaboost-Weighted Extreme Learning Machine
sensors Article Passenger Flow Forecasting in Metro Transfer Station Based on the Combination of Singular Spectrum Analysis and AdaBoost-Weighted Extreme Learning Machine Wei Zhou 1,2,3 , Wei Wang 1,2,3,* and De Zhao 1,2,3 1 School of Transportation, Southeast University, Nanjing 211189, China; [email protected] (W.Z.); [email protected] (D.Z.) 2 Jiangsu Key Laboratory of Urban ITS, Nanjing 211189, China 3 Jiangsu Province Collaborative Innovation Centre of Modern Urban Traffic Technologies, Nanjing 211189, China * Correspondence: [email protected] Received: 19 May 2020; Accepted: 19 June 2020; Published: 23 June 2020 Abstract: The metro system plays an important role in urban public transit, and the passenger flow forecasting is fundamental to assisting operators establishing an intelligent transport system (ITS). The forecasting results can provide necessary information for travelling decision of travelers and metro operations of managers. In order to investigate the inner characteristics of passenger flow and make a more accurate prediction with less training time, a novel model (i.e., SSA-AWELM), a combination of singular spectrum analysis (SSA) and AdaBoost-weighted extreme learning machine (AWELM), is proposed in this paper. SSA is developed to decompose the original data into three components of trend, periodicity, and residue. AWELM is developed to forecast each component desperately. The three predicted results are summed as the final outcomes. In the experiments, the dataset is collected from the automatic fare collection (AFC) system of Hangzhou metro in China. We extracted three weeks of passenger flow to carry out multistep prediction tests and a comparison analysis. -
SPOTLIGHT Hangzhou Report 2018
Savills China Research Hangzhou SPOTLIGHT Hangzhou Report 2018 savills.com.cn/research 2018 Hangzhou Report City and Economy Overview Hangzhou is at the forefront of China’s push to develop its tech industry, and serves as a blueprint for other cities across the country. Hangzhou’s growth is symbolic as China’s continuing transition from manufacturing to a value-added, serviced-based and technologically-advanced economy. Economy & Population size FIGURE 1: 2017 Top 10 city tertiary GDP per capita Hangzhou’s GDP achieved an 8% real Guangzhou 105,214 growth in 2017, totalling RMB1,255.62 Suzhou 104,986 billion, which put the city as the 10th Beijing 103,972 largest economy in China. Tertiary GDP increased by 14% in 2017, Shanghai 85,942 accounting for 63% of the total GDP. Hangzhou 82,988 The percentage of tertiary GDP to Shenzhen 70,733 total GDP has risen from 49% in Tianjin 69,285 2011. The Hangzhou permanent Wuhan 65,555 population reached 9.47 million, up Chengdu 46,061 3.05% YoY. Urban population reached Chongqing 7.27 million, accounting for 76.8% 31,101 of the total population. According to - 20,000 40,000 60,000 80,000 100,000 120,000 2017 China Urban Research Report Source: National Bureau of Statistics released by Baidu Maps (2017年 度中国城市研究报告), Hangzhou was 9th place in China in terms of TABLE 1 : Hangzhou GDP and population growth past decade urban vitality1. The incoming work force keeps the economy attractive 5 year CAGR 2007 2012 2017 and builds up a virtuous cycle of (2012-2017) business growth and technological advancement. -
ALI KHADEMHOSSEINI Partners Research Building 65 Landsdowne Street, Rm
ALI KHADEMHOSSEINI Partners Research Building 65 Landsdowne Street, Rm. 265 Cambridge, MA, USA 02139 http://mit.edu/aliklab Office: (617) 768-8395 Fax: (617) 768-8477 Mobile: (617) 388-9271 [email protected] EDUCATION: September 2001- Massachusetts Institute of Technology (MIT) April 2005 Ph.D. in Bioengineering • PhD Thesis: “Nanoscale and microscale approaches for engineering the in vitro cellular microenvironment”; Supervisor: Robert Langer • Cumulative GPA: 5.0/5.0 September 1999- University of Toronto (U of T) August 2001 M.A.Sc. in Chemical Engineering and Applied Chemistry in Collaboration with Institute of Biomaterials and Biomedical Engineering (IBBME) • Masters Thesis: “In vitro study of bone marrow derived progenitor cells in liver- like microenvironments” ; Supervisor: Peter Zandstra and Michael Sefton September 1995- University of Toronto May 1999 B.A.Sc. in Chemical Engineering and Applied Chemistry and Collaborative Program in Environmental Engineering (graduated with honors) • Undergraduate Thesis: “A novel method to conformally coat mammalian cells using magnetically driven beads”; Supervisor: Michael Sefton th • Cumulative Average, 1996-99: 88% (4 year average: 93% - rank: 2 of 73) September 1990- Jarvis Collegiate Institute June 1995 Ontario Secondary School Diploma (Ontario Scholar) RECENT AWARDS AND HONORS: • BMW Group Scientific award “Passion for Innovation”- 2007 • TR35 – Technology Review Top Young Innovator award – 2007 • Ignited Minds Undergraduate Mentoring Award - 2007 • Coulter Foundation Early Career Award - 2006 • OMNOVA/MIT Program for Polymer Science and Technology - OMNOVA Solutions Signature University Award for Outstanding contribution to Polymer-related Research- 2005 • Biomedical Engineering Society Outstanding Graduate Student Award – 2005 st • 1 prize presentation at the Current Progress in Tissue Engineering Conference – 2005 (with 5 others) • MIT – Patrick J. -
Curriculum Vitae
Dr. Samad Ahadian Terasaki Institute for Biomedical Innovation 1018 Westwood Blvd., Los Angeles, CA 90024, USA Email: [email protected] Curriculum Vitae EDUCATION 2007 – 2011 Tohoku University, Japan Ph.D. in Materials Science 2003 – 2006 Amirkabir University of Technology, Iran M.Sc. in Polymer Engineering 1999 – 2003 Amirkabir University of Technology, Iran B.Sc. in Polymer Engineering WORK EXPERIENCE 2020 – now Assistant Professor Terasaki Institute for Biomedical Innovation (TIBI), USA 2018 – 2020 Development Engineer Department of Bioengineering, University of California-Los Angeles (UCLA), USA Center for Minimally Invasive Therapeutics (C-MIT), UCLA, USA 2017 – 2018 Biomaterials Scientist Covalon Technologies Ltd., Canada 2015 – 2017 Postdoctoral Research Fellow Institute of Biomaterials and Biomedical Engineering, University of Toronto, Canada 2014 – 2015 Assistant Professor Advanced Institute for Materials Research, Tohoku University, Japan 2011 – 2014 Postdoctoral Research Associate Advanced Institute for Materials Research, Tohoku University, Japan CV-Dr. Samad Ahadian Page 1 of 24 Dr. Samad Ahadian Terasaki Institute for Biomedical Innovation 1018 Westwood Blvd., Los Angeles, CA 90024, USA Email: [email protected] PUBLICATIONS (h-index = 25, Citations > 2360 BOOK CHAPTERS 1. Serge Ostrovidov, Azadeh Seidi, Samad Ahadian, Murugan Ramalingam and Ali Khademhosseini, Micro- and nanoengineering approaches to developing gradient biomaterials suitable for interface tissue engineering, Micro and Nanotechnologies in Engineering Stem Cells and Tissues edited by Murugan Ramalingam, Esmaiel Jabbari, Seeram Ramakrishna and Ali Khademhosseini, Wiley-IEEE Press, 2013, ISBN: 9781118140420. 2. Samad Ahadian, Murugan Ramalingam and Ali Khademhosseini, The emerging applications of graphene oxide and graphene in tissue engineering, Biomimetics: Advancing Nanobiomaterials and Tissue Engineering, edited by Murugan Ramalingam, Xiumei Wang, Guoping Chen, Peter Ma and Fu-Zhai Cui, John Wiley-Scrivener publishing, 2013, ISBN: 9781118469620. -
Chinese Mainland
Address List of Special Warehousing Service Note: The address marked in red are newly added address. (Effective date:October 1, 2021) Province / Directly- controlled City District/county Town, Sub-district and House Number Municipality / Autonomous Region/SAR B4-25, Gate 1, ProLogis Logistics Park, No.1 Tiedi Road, Anhui Province Hefei Shushan District High-tech Zone No.18 Tianzhushan Road, Longshan Sub-district, Wuhu Anhui Province Wuhu Jiujiang District Economic and Technological Development Zone Anhui Province Chuzhou Langya District Longji Leye Photovoltaic Co., Ltd., No.19 Huai'an Road 3/F, No.8 Building, South Area, Lixiang Innovation Park, Anhui Province Chuzhou Nanqiao District Chuzhou, 018 Township Road Anhui Province Chuzhou Nanqiao District No.19 Huai'an Road Yuanrong New Material Holding Co., Ltd., 50 Meters Anhui Province Hefei Shushan District Westward of Bridge of Intersection of Changning Avenue and Ningxi Road Anhui Province Hefei Yaohai District No.88 Dayu Road Anhui Province Hefei Yaohai District No.2177 Dongfang Avenue Beijing BOE Vision-Electronic Technology Co., Ltd., No. Anhui Province Hefei Yaohai District 2177 Dongfang Avenue Anhui Province Hefei Yaohai District No.668 Longzihu Road Anhui Province Hefei Yaohai District No. 668 Longzihu Road Anhui Province Hefei Yaohai District No.2177 Tongling North Road Anhui Province Hefei Yaohai District No.3166 Tongling North Road Anhui Province Hefei Yaohai District No.8 Xiangwang Road Anhui Province Wuhu Jiujiang District No. 8 Anshan Road Anhui Province Wuhu Jiujiang District