Engineering Commons^™

Computational Analysis And Classification Of Shg Images Of Cancerous Pancreatic Tissue Based On Collagen Fiber Alignment, Gerren Welch

Honors College

Pancreatic cancer is a deadly disease, with a low five-year survival rate partly due to the difficulty in diagnosing the cancer early in its development, as it shares symptoms with more common and less lethal conditions. Using Second Harmonic Generation (SHG) microscopy and computer analysis, our knowledge of the biophysics of the pancreatic tumor microenvironment increases which may lead to the development of more effective therapies. In collaboration with Maine Medical Center Research Institute (MMCRI), we have identified 20 pancreatic cancer patients. In these 20 pancreatic cancer patients, Dr. Jones, a pathologist at MMCRI has identified normal adjacent pancreas, fibrotic …

Covid-19_Umaine News_Umaine Students Get Immersive Experience In Engineering Education, University Of Maine Division Of Marketing And Communications

Division of Marketing & Communications

Screenshot of UMaine News press release regarding Asli Sezen-Barrie, associate professor of curriculum, assessment and instruction in the University of Maine College of Education and Human Development redesigning her class on Teaching Science in the Secondary School to provide more opportunities for preservice teachers at UMaine to learn about engineering concepts and meet with engineers.

Covid-19_Umaine News_Kirkmann Speaks With Wabi About Student Construction Projects At Leonard’S Mill, University Of Maine Division Of Marketing And Communications

Division of Marketing & Communications

Screenshot of UMaine in the News regarding Meredith Kirkmann, University of Maine assistant professor of Construction Engineering Technology (CET), about the outdoor projects senior CET students are working on at the Maine Forest and Logging Museum's Leonard's Mills.

Covid-19_Umaine News_Virtual Groundbreaking For Ferland Engineering Education And Design Center, University Of Maine Division Of Marketing And Communications

Division of Marketing & Communications

Screenshot of Maine News release regarding the virtual groundbreaking for the University of Maine's Ferland Engineering Education and Design Center.

College Of Engineering_Gee 230 Introduction To Engineering Leadership And Management_Group Team Project, Dana N. Humphrey

College of Engineering

Course assignment for a group project for the two sections of the GEE 230 Introduction to Engineering Leadership and Management course, focused on plans for manufacturing productive equipment and respirators. Also, includes cover email from Dean Dana N. Humphrey to the Provost Office regarding the course Dean Humphrey taught.

Advanced Manufacturing Center_Aerosol Box_Negative Pressure Designs, Forest Wentworth

Advanced Manufacturing Center

CAD specification designs for aerosol box's negative pressure chamber to be used by doctors in treating COVID-19. The designs were produced by John Belding, Director, Advanced Manufacturing Center, University of Maine.

College Of Engineering_Pandemic Related Projects, Courses And Materials, University Of Maine College Of Engineering

College of Engineering

Report from the University of Maine College of Engineering chairs/faculty and center directors detailing projects directly relevant to COVID-19 and course materials/strategies/assignments/approaches to create infrastructures of support for students in the face of COVID-19.

Advanced Manufacturing Center_Aerosol Box_Negative Pressure_First Prototype Images, Forest Wentworth

Advanced Manufacturing Center

Photographs of the negative pressure chamber original prototype "NPC OG" for an aerosol box intended to be used by frontline medical staff. The prototype was manufactured by the University of Maine's Advanced Manufacturing Center.

Advanced Structures And Composites Center_Aerosol Box Notes & Photographs, David Erb Jr.

Advanced Manufacturing Center

Notes regarding an early prototype of an aerosol box produced by the University of Maine Advanced Structures and Composites Center in response to a need from front line medical staff when treating COVID-19. The design didn't ultimately make it into production.

Also, including as supplementary content are photographs of the box taken by David F. Erb Jr., Senior R&D Program Manager, Advanced Structures and Composites Center.

Advanced Manufacturing Center_Aerosol Box_Intubation Hood Designs, Forest Wentworth, John Belding

Advanced Manufacturing Center

CAD specification designs for an aerosol box's incubation hood to be used by doctors in treating COVID-19. The designs were produced by John Belding, Director, Advanced Manufacturing Center, University of Maine.

Chemical And Biomedical Engineering _Vaporized Hydrogen Peroxide N95 Decontamination Summary, Caitlin Howell

Advanced Manufacturing Center

Summary evaluation of Vaporized Hydrogen Peroxide for the decontamination of N95 filtering facepiece respirators by Caitlin Howell, Department of Chemical and Biomedical Engineering, University of Maine.

Collaborative Research: North East Cyberinfrastructure Consortium, Michael Eckardt

University of Maine Office of Research Administration: Grant Reports

EPS-0918284, University of Vermont & State Agricultural College, J. L. Van Houten, linked to EPS-0918033 (University of New Hampshire), EPS-0918078 (University of Delaware), EPS-0918018 (University of Maine), EPS-0918061 (University of Rhode Island)
Collaborative Research: North East Cyberinfrastructure Consortium

This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5).

The North East Cyberinfrastructure Consortium (NECC) unites Maine (ME), New Hampshire (NH), Vermont (VT), Rhode Island (RI), and Delaware (DE) to support cyber-enabled research that requires analyses of large datasets. The project is organized around sharing resources, expertise and facilities in order to make cyber-enabled collaborative …

Development Of Porous Polymeric Implants For Use In Orthopedic Research And Development Applications, Alexander Caddell

Honors College

Current orthopedic implants comprised of plastic, ceramic, or metal alloys are susceptible to surface degradation at the implant-implant interface. The resulting microscopic fragments cause tissue irritation that can lead to osteolysis. In addition, existing percutaneous implants, such as pins used to stabilize fractures, are prone to bacterial infections due to the inability of the surrounding soft tissue to adhere to the implant and form a biologic seal. The goal of this Honors Thesis was to develop porous polymeric implants for orthopedic research and development applications that improve upon current designs in an attempt to remedy the issues detailed above. A …

Dickey-Lincoln School Lakes Project At Dickey, Maine : Final Environmental Statement, New England Division, United States Army Engineer Division

Dickey-Lincoln School Lakes Project

This document contains those comments and responses on the Revised Draft Environmental Impact Statement. It is a continuation of Volume II published by the Corps in 1978. In addition, it contains reproductions of those letters of comment received on the March 1980 Draft Fish and Wildlife Mitigation Plan, and the responses to these comments.

Dickey-Lincoln School Lakes Project Environmental Impact Statement: Appendix C: Social And Economic Assessment, Edward C. Jordan, Roger Creighton

Dickey-Lincoln School Lakes Project

The purpose of this assessment of the social and economic impact of implementing the Dickey-Lincoln School Lakes Project, therefore, is not to flatly predict impacts. Rather, the intent is to provide information and judgments which can help people recognize the potential for changes and take appropriate steps to prepare for, accommodate, and adjust to those changes. Thus we hope that this report's success will be measured by how well it provides information with which local citizens and all others involved in this project can proceed with their planning and decision-making processes.

Dickey-Lincoln School Lakes Project Environmental Impact Statement: Appendix H: Noise Impact Assessment, Stone & Webster Engineering Corporation, New England Division, United States Army Engineer Division

Dickey-Lincoln School Lakes Project

The overall project area can be described as a very quiet natural area remote from any major industrial activity, but subject to high traffic noise levels along the main road. Noise sensitive areas consist of low density residential areas in the villages and widely spaced residences along the main road. The estimated yearly average Ldn for all noise sensitive areas 1s 60 dB due to the close proximity of traffic to all residences. The yearly average Ldn decreases to 40 dB at 600 ft from the main road, and to 30 dB 1n the timberland areas.