Open Access. Powered by Scholars. Published by Universities.®
Biomedical Engineering and Bioengineering Commons™
Open Access. Powered by Scholars. Published by Universities.®
- Discipline
- Keyword
-
- Additive manufacturing (2)
- Pressure recovery (2)
- 3-aminopropyl (diethoxy) methylsilane (1)
- Antibacterial (1)
- Antimicrobial (1)
-
- Antiviral (1)
- Appropriate technology (1)
- Ascending aorta (1)
- Biodegradable implants (1)
- Biodegradable zinc (1)
- Biofilm prevention (1)
- Biomaterials (1)
- Biosensor (1)
- Blood damage (1)
- COVID-19 (1)
- Cetacean marine mammal (1)
- Cortisol (1)
- Customized implants (1)
- Dental (1)
- Department of Electrical and Computer Engineering (1)
- Direct cell viability (1)
- Drug delivery (1)
- Electrochemical sensor (1)
- Graphene oxide (1)
- Hydrogel (1)
- Improvisation (1)
- In vitro (1)
- Lattice (1)
- Left heart simulator (1)
Articles 1 - 11 of 11
Full-Text Articles in Biomedical Engineering and Bioengineering
Non-Antibiotic Antimicrobial Polydopamine Surface Coating To Prevent Stable Biofilm Formation On Satellite Telemetry Tags Used In Cetacean Conservation Applications, Ariana Smies, Jeremy Wales, Maureen Hennenfent, Laura Lyons, Caleigh R. Dunn, Jooke Robbins, Bruce Lee, Alexandre Zerbini, Rupak Rajachar
Non-Antibiotic Antimicrobial Polydopamine Surface Coating To Prevent Stable Biofilm Formation On Satellite Telemetry Tags Used In Cetacean Conservation Applications, Ariana Smies, Jeremy Wales, Maureen Hennenfent, Laura Lyons, Caleigh R. Dunn, Jooke Robbins, Bruce Lee, Alexandre Zerbini, Rupak Rajachar
Michigan Tech Publications
Satellite telemetry tags, used to monitor the migratory behavior of cetaceans, have the potential to be a vehicle for infection due to their invasive nature. Antibiotic coatings have been previously employed to reduce the chances of infection via the formation of a stable biofilm on the surface of the tags. However, increased use of antibiotics has the potential to lead to the development of antibiotic-resistant pathogens. To prevent the formation of antibiotic-resistant pathogens, a polydopamine surface coating that, when exposed to oxygen, releases low doses ( ~ 40-100 µ M ) of hydrogen peroxide over a prolonged period ( > 24 …
Electrochemical Behaviour And Direct Cell Viability Analysis Of Hybrid Implants Made Of Ti-6al-4v Lattices Infiltrated With A Bioabsorbable Zn-Based Alloy, Noa Gabay Bass, Galit Katarivas Levy, Tomer Ron, Razi Vago, Jeremy Goldman, Amnon Shirizly, Eli Aghion
Electrochemical Behaviour And Direct Cell Viability Analysis Of Hybrid Implants Made Of Ti-6al-4v Lattices Infiltrated With A Bioabsorbable Zn-Based Alloy, Noa Gabay Bass, Galit Katarivas Levy, Tomer Ron, Razi Vago, Jeremy Goldman, Amnon Shirizly, Eli Aghion
Michigan Tech Publications
Biodegradable metals are being developed for biomedical implants or components of implants. Biodegradable zinc-based materials, in particular, have been shown to promote bone regeneration in orthopaedic applications. Here, we investigated the potential of a hybrid Ti-Zn system, comprising a Ti-6Al-4V biostable lattice produced by additive manufacturing (AM) infiltrated by a bioabsorbable Zn-2%Fe alloy, to serve as an osseointegrated implant for dental and orthopaedic applications. The osseointegration of implants can be enhanced by a porous implant structure that facilitates bone ingrowth to achieve superior bonding between the bone tissue and the implant. The hybrid material was evaluated in terms of microstructure …
Thermomagnetic-Responsive Self-Folding Microgrippers For Improving Minimally Invasive Surgical Techniques And Biopsies, Caleigh R. Dunn, Bruce Lee, Rupak Rajachar
Thermomagnetic-Responsive Self-Folding Microgrippers For Improving Minimally Invasive Surgical Techniques And Biopsies, Caleigh R. Dunn, Bruce Lee, Rupak Rajachar
Michigan Tech Publications
Traditional open surgery complications are typically due to trauma caused by accessing the procedural site rather than the procedure itself. Minimally invasive surgery allows for fewer complications as microdevices operate through small incisions or natural orifices. However, current minimally invasive tools typically have restricted maneuverability, accessibility, and positional control of microdevices. Thermomagnetic-responsive microgrippers are microscopic multi-fingered devices that respond to temperature changes due to the presence of thermal-responsive polymers. Polymeric devices, made of poly(N-isopropylacrylamide-co-acrylic acid) (pNIPAM-AAc) and polypropylene fumarate (PPF), self-fold due to swelling and contracting of the hydrogel layer. In comparison, soft metallic devices feature a pre-stressed metal bilayer …
Antimicrobial Mechanisms Of Biomaterials: From Macro To Nano, Shounak Roy, Sanchita Sarkhel, Deepali Bisht, Samerender Nagam Hanumantharao, Smitha Rao, Amit Jaiswal
Antimicrobial Mechanisms Of Biomaterials: From Macro To Nano, Shounak Roy, Sanchita Sarkhel, Deepali Bisht, Samerender Nagam Hanumantharao, Smitha Rao, Amit Jaiswal
Michigan Tech Publications
Overcoming the global concern of antibiotic resistance is one of the biggest challenge faced by scientists today and the key to tackle this issue of emerging infectious diseases is the development of next-generation antimicrobials. The rapid emergence of multi-drug resistant microbes, superbugs and mutated strains of viruses have fueled the search for new and alternate antimicrobial agents with broad-spectrum biocidal activity. Biomaterials, ranging from macroscopic polymers, proteins, and peptides to nanoscale materials such as nanoparticles, nanotubes and nanosheets have emerged as effective antimicrobials. An extensive body of research has established the antibacterial and antiviral efficiencies of different types of biomaterials. …
Comparison Of Performance Of Self-Expanding And Balloon-Expandable Transcatheter Aortic Valves, Hoda Hatoum, Milad Samaee, Janarthanan Sathananthan, Stephanie Sellers, Maximilian Kuetting, Scott M. Lilly, Abdul R. Ihdayhid, Philipp Blanke, Jonathon Leipsic, Vinod H. Thourani, Lakshmi Prasad Dasi
Comparison Of Performance Of Self-Expanding And Balloon-Expandable Transcatheter Aortic Valves, Hoda Hatoum, Milad Samaee, Janarthanan Sathananthan, Stephanie Sellers, Maximilian Kuetting, Scott M. Lilly, Abdul R. Ihdayhid, Philipp Blanke, Jonathon Leipsic, Vinod H. Thourani, Lakshmi Prasad Dasi
Michigan Tech Publications
Objective: To evaluate the flow dynamics of self-expanding and balloon-expandable transcatheter aortic valves pertaining to turbulence and pressure recovery. Transcatheter aortic valves are characterized by different designs that have different valve performance and outcomes. Methods: Assessment of transcatheter aortic valves was performed using self-expanding devices (26-mm Evolut [Medtronic], 23-mm Allegra [New Valve Technologies], and small Acurate neo [Boston Scientific]) and a balloon-expandable device (23-mm Sapien 3 [Edwards Lifesciences]). Particle image velocimetry assessed the flow downstream. A Millar catheter was used for pressure recovery calculation. Velocity, Reynolds shear stresses, viscous shear stress, and pressure gradients were calculated. Results: The maximal velocity …
Overcoming Supply Disruptions During Pandemics By Utilizing Found Hardware For Open Source Gentle Ventilation, S. Oberloier, N. Gallup, J. M. Pearce
Overcoming Supply Disruptions During Pandemics By Utilizing Found Hardware For Open Source Gentle Ventilation, S. Oberloier, N. Gallup, J. M. Pearce
Michigan Tech Publications
This article details the design of an open source emergency gentle ventilator (gentle-vent) framework that can be used in periods of scarcity. Although it is not a medical device, the system utilizes a wide range of commonly-available components that are combined using basic electronics skills to achieve the desired performance. The main function of the gentle-vent is to generate a calibrated pressure wave at the pump to provide support to the patient's breathing. Each gentle-vent permutation was tested using a DIY manometer as it would be utilized in the field in low-resource settings and validated with an open source VentMon. …
Gradient And Pressure Recovery Of A Self-Expandable Transcatheter Aortic Valve Depends On Ascending Aorta Size: In Vitro Study, Milad Samaee, Hoda Hatoum, Michael Biersmith, Breandan Yeats, Shelley C. Gooden, Vinod H. Thourani, Rebecca T. Hahn, Scott Lilly, Ajit Yoganathan, Lakshmi Prasad Dasi
Gradient And Pressure Recovery Of A Self-Expandable Transcatheter Aortic Valve Depends On Ascending Aorta Size: In Vitro Study, Milad Samaee, Hoda Hatoum, Michael Biersmith, Breandan Yeats, Shelley C. Gooden, Vinod H. Thourani, Rebecca T. Hahn, Scott Lilly, Ajit Yoganathan, Lakshmi Prasad Dasi
Michigan Tech Publications
Objective: In this study we aimed to understand the role of interaction of the Medtronic Evolut R transcatheter aortic valve with the ascending aorta (AA) by evaluating the performance of the valve and the pressure recovery in different AA diameters with the same aortic annulus size. Methods: A 26-mm Medtronic Evolut R valve was tested using a left heart simulator in aortic root models of different AA diameter (D): small (D = 23 mm), medium (D = 28 mm), and large (D = 34 mm) under physiological conditions. Measurements of pressure from upstream to downstream of the valve were performed …
Novel Stimuli-Responsive Pectin-Pvp-Functionalized Clay Based Smart Hydrogels For Drug Delivery And Controlled Release Application, Shabnam Rehmat, Nayab Batool Rizvi, Saba Urooge Khan, Abdul Ghaffar, Atif Islam, Rafi Ullah Khan, Azra Mehmood, Hira Butt, Muhammad Rizwan
Novel Stimuli-Responsive Pectin-Pvp-Functionalized Clay Based Smart Hydrogels For Drug Delivery And Controlled Release Application, Shabnam Rehmat, Nayab Batool Rizvi, Saba Urooge Khan, Abdul Ghaffar, Atif Islam, Rafi Ullah Khan, Azra Mehmood, Hira Butt, Muhammad Rizwan
Michigan Tech Publications
Stimuli-responsive drug delivery systems are urgently required for injectable site-specific delivery and release of drugs in a controlled manner. For this purpose, we developed novel pH-sensitive, biodegradable, and antimicrobial hydrogels from bio-macromolecule pectin, polyvinylpyrrolidone (PVP), 3-aminopropyl (diethoxy)methyl silane (3-APDEMS), and sepiolite clay via blending and solution casting technique. The purified sepiolite (40 um) was functionalized with 3-APDEMS crosslinker (ex-situ modification) followed by hydrogels fabrication. FTIR and SEM confirmed crosslinked structural integrity and rod-like morphology of hydrogels respectively. The swelling properties of hydrogels could be controlled by varying the concentration of modified clay in pectin/PVP blends. Moreover, the decrease in pH …
Graphene Oxide Functionalized Biosensor For Detection Of Stress-Related Biomarkers, Erican Santiago, Shailu Shree Poudyal, Sung Y. Shin, Hyeun Joong Yoon
Graphene Oxide Functionalized Biosensor For Detection Of Stress-Related Biomarkers, Erican Santiago, Shailu Shree Poudyal, Sung Y. Shin, Hyeun Joong Yoon
Michigan Tech Publications
A graphene oxide (GO)-based cortisol biosensor was developed to accurately detect corti-sol concentrations from sweat samples at point-of-care (POC) sites. A reference electrode, counter electrode, and working electrode make up the biosensor, and the working electrode was functional-ized using multiple layers consisting of GO and antibodies, including Protein A, IgG, and anti-Cab. Sweat samples contact the anti-Cab antibodies to transport electrons to the electrode, resulting in an electrochemical current response. The sensor was tested at each additional functionalization layer and at cortisol concentrations between 0.1 and 150 ng/mL to determine how the current response differed. A potentiostat galvanostat device was …
Stress Corrosion Analysis And Direct Cell Viability Of Biodegradable Zn-Fe-Ca Alloy In In-Vitro Conditions, Orit Avior, Noa Ben Ghedalia-Peled, Tomer Ron, Jeremy Goldman, Razi Vago, Eli Aghion
Stress Corrosion Analysis And Direct Cell Viability Of Biodegradable Zn-Fe-Ca Alloy In In-Vitro Conditions, Orit Avior, Noa Ben Ghedalia-Peled, Tomer Ron, Jeremy Goldman, Razi Vago, Eli Aghion
Michigan Tech Publications
Due to the excellent biocompatibility of Zn and Zn-based alloys, researchers have shown great interest in developing biodegradable implants based on zinc. Furthermore, zinc is an essential component of many enzymes and proteins. The human body requires ~15 mg of Zn per day, and there is minimal concern for systemic toxicity from a small zinc-based cardiovascular implant, such as an arterial stent. However, biodegradable Zn-based implants have been shown to provoke local fibrous encapsulation reactions that may isolate the implant from its surrounding environment and interfere with implant function. The development of biodegradable implants made from Zn-Fe-Ca alloy was designed …
Patient-Specific Cardiovascular Superelastic Niti Stents Produced By Laser Powder Bed Fusion, Valentina Finazzi, Francesca Berti, Roger J. Guillory Ii, Lorenza Petrini, Barbara Previtali, Ali Gökhan Demir
Patient-Specific Cardiovascular Superelastic Niti Stents Produced By Laser Powder Bed Fusion, Valentina Finazzi, Francesca Berti, Roger J. Guillory Ii, Lorenza Petrini, Barbara Previtali, Ali Gökhan Demir
Michigan Tech Publications
To date, there is a general lack of customizability within the selection of endovascular devices for catheter-based vascular interventions. Laser powder bed fusion (LPBF) has been flexibly exploited to produce customized implants using conventional biomedical alloys for orthopedic and dental applications. Applying LPBF for cardiovascular applications, patient-specific stents can be produced with small struts (approximately 100-300 µm), variable geometries, and clinically used metals capable of superelastic behaviour at body temperature (eg. equiatomic nickel-titanium alloys, NiTi). Additionally, the growing availability and use of patient-specific 3D models provides a unique opportunity to outline the necessary manufacturing process that would be required for …