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Molecular Chaperones at Fertilization Identifying molecules involved with infertility with help from starfish Read More Identifying Molecules Involved with Infertility with Help from Starfish Thousands of otherwise healthy men Software design coursework women battle infertility, yet scientists still have no explanation as to why.
What scientists do know is that when the sperm and the egg fuse, the newly fertilized egg begins to work overtime, producing a huge amount of brand new proteins in order to divide and grow.
Thankfully, as these new proteins start to proliferate, a set of helpers are involved in this process. Known as molecular chaperones, these regulatory molecules function to mediate cellular viability by binding to proteins and ensure proper folding.
Molecular Chaperones at Fertilization, developed a model for identifying these molecular chaperones using starfish. In addition, the starfish can carry millions of eggs at a time, so there are always plenty to work with in the lab.
Through her discovery, she found that molecular chaperones may be involved during early Software design coursework. We plan to publish this finding soon. This includes drugs that infertile patients could take that would be designed to increase their likelihood of successful fertilization.
Once she got into his lab sophomore year, she realized it was worth the wait.
Read More Students Design Greywater Recycling System for Drought Plagued Countries Challenged with designing a solution to a humanitarian aid issue, mechanical engineering major, Aasav Harania, has first-hand experience with an issue plaguing his home country of Kenya — water shortages.
For years, Kenyans have become used to normal drought seasons, but with climate change increasing the likelihood of droughts and increasing water costs in Africa, water recycling is in dire need. The team designed SWR with the user in mind. The greywater recycling station can be built from recycled aluminum and common PVC fittings.
The team designed a system that can be easily replicated with limited technical skills and built with supplies that Kenyans have access to. This was accomplished by their three filter system.
The water first enters the sedimentation tank where the larger particulates settle at the bottom while oil and scum rises to the top. The water then flows into the particulate tank, where small particulate matter is filtered out and goes into a reservoir.
Once the reservoir is full, the pump will push the water through the last filtering stage — the bio-organic filter. The bio-organic filter not only reduces turbidity, but suspended particulate as well as pathogens.
This filter includes a ceramic water filter candle coupled with activated carbon. Activated carbon is the same material used to filter fish tank water and ceramic candle filter have micro-scale pores that traps bacteria and prevents the growth of mold and algae in the filter.
Once the water has gone through all three filters, it is stored and later used for other non-potable household water uses.
To measure how much bacteria could be removed with their system, the team employed a glow in the dark bacteria marker known as glow germ. Using a black light, the team was able to get a visual understanding of how much bacteria was being removed as the water went through each filtering system.
A team of biomedical, software and electrical engineering students teamed up to create a device that would allow patients to more conveniently complete their rehab in an effort to help combat CVD mortality. Through the app, patients can monitor their progress over time as well as access CVD educational tools and the physician can remotely monitor patients in real time.
The team wanted to deliver a device that would be all inclusive, taking multiple vital signs and the only way to currently measure blood pressure is with a cuff. And the team took an inclusive device to the next level.
By choosing headphones, they were able to increase the likelihood of patient adoption since it is a device the patient would most likely already be wearing during their exercise program, listening to music or even taking phone calls are available with all-in-one device.
Not only were we able to do that, but we were also able to calculate blood pressure without a cuff. The data is put into a customized patient application where the patient monitor their progress and that same data is then uploaded into a doctor application in real-time.
If the doctor identifies any anomalies or concerning vital signs, they are able to call the patient, which can be picked up on the headphones.
Because there were so many aspects of the device beyond biomedical engineering, the team found value in combining the skills of software and electrical engineering. Through the process, Lopez learned how to use Creo and was able to design and 3D print the device.
DuBois and Canadell learned how to code different sensors and connect hardware to software via Bluetooth. The high level of collaboration and the passion the students channeled into creating a viable device for CVD patients was recognized at the Northrop Grumman Engineering and Science Student Design Showcase.
HeartPhones won the Design and Innovation Award. The team also received interest in patenting their blood pressure algorithm. ASPIS can monitor patients that suffer from epilepsy or suffered a spontaneous seizure by measuring the electrical activity of the brain as well as the heart.
The data collected from the sensors is sent via Bluetooth from a raspberry pie to a database.
An algorithm then processes the data and if the data points reach a certain threshold, a signal will be sent to a cellphone application.
The application can then alert the user of an oncoming seizure. The user can then has time to stop whatever activity they are doing to avoid potential injury.Catalyst Design Group develops highly specialized and compelling web, software and training solutions for all kinds of organizations, including yours.
This guide discusses software design documents and their effect on development. It will help you learn how to write effective software design documents through a series of helpful examples.
Hiring? Home › Blog › Why . MIT OpenCourseWare is a web-based publication of virtually all MIT course content. OCW is open and available to the world and is a permanent MIT activity.
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