Science Forward Fall 2018

Dr. Edyta Greer, Baruch College

Author: Ayelet Segal

Blog Post 3

December 19, 2018 / / 0 Comments

I started this semester thinking that I would be taking three very intense and concrete science classes. Biology, Chemistry and IDC: Science and Technology of New York City. I was correct about the first two, but IDC was definitely surprising. The concrete data, formulas and steps were still involved, yet this seminar was not the average “science class”. We started learning about the scientific method and how important following certain steps and creating results that can be reproduced are. We then utilized that information and went on to gather data at BioBlitz to form research questions and a hypothesis of our own. After a lot of hard work, extensive research and presenting, we created a final paper and poster. Instead of simply learning information in a classroom setting and then being tested on it, we used the tools we acquired and made something to call our own. I enjoyed this aspect of the class the most as after the time and effort dedicated to these projects this semester, we created an actual physical object that we could admire and take pride in. Simultaneously, we worked on our own innovative healthcare ideas based off our imagination or past experiences. This project also stemmed from what we learned in class. Combining the technology of 3D design and printing was a perfect way to modernize our work. Science requires discussion, debate and other peoples’ opinions, so working on these projects in groups was highly beneficial. Three sets of hands working on the same ultimate goal was systematic and practical in both cases. While I did not hear any previous comments about this IDC, I did assume we would be going on more field trips. Understandably, the class length is not that long, but even sitting outside of Baruch in the courtyard with pleasant weather would have been nice.

The scientific field is expanding at great speed and the ethics lecture was perfectly placed to conclude our semester. It is always important to abide by a moral compass and to make sure that the ultimate results of an experiment or potential healthcare innovation are to serve the greater good or enhance already proven scientific fact. Lastly, the in-class science experiments were highly appreciated. They added that extra spontaneity that is often desired in a science class. I hope to take what I have learned from IDC: Science and Technology of New York City and apply it to my future science classes, while taking the mundane and making the scientific method a bit more spontaneous and applicable.

Ayelet Segal Lab Reflection

November 8, 2018 / / 0 Comments

This past Wednesday in the lab, we integrated the two main topics of our IDC seminar by combining a health care innovation from years ago with our knowledge of the scientific method. A major criterion for a scientific experiment is its ability to be reproduced under the same conditions, by other people, possibly in later generations and that is exactly what we did in the lab. We synthesized the drug Aspirin from past knowledge and proven data. The scientists in the 1890s observed, researched, questioned, posed hypotheses and eventually experimented to create this drug. By correctly following the scientific method, they created a product that has affected many people worldwide and that was able to be reproduced by the students of Baruch College as a result of their efforts. We really did “stand on the shoulders of giants” like Sir Isaac Newton once said. Three times a week I am in the lab doing different biology and chemistry experiments, yet this was a different experience, as we had a specific end goal of pure Aspirin, rather than just observing and calculating. I rarely have the chance to test my experiment at the end to see if my procedure was correct, but this lab allowed me to retrace my steps and think about where I might have went wrong. I greatly enjoyed our time in the lab, especially as we are in the midst of our own scientific experiments and health care innovations.

HI Proposal- Portable Laser

October 16, 2018 / / 0 Comments

Group Members: Harmeet Kaur, Ayelet Segal, Pabvitraa Ramcharan

Open wounds are injuries with external or internal tissues exposed to the air. The four main types of wounds are: abrasions (skin scrapes), lacerations (deep cuts), punctures (holes in the skin), and avulsions (tearing away of tissues and skin). Minor types of open wounds are usually treated with sterile bandaging at home, while others require serious medical attention such as sutures, skin glue, and a tetanus shot. Overall, disinfection and cauterizing the open wound is necessary regardless of the type of injury. Without cauterization, the wound is left susceptible to the external environment, which may cause infections. Not to mention, the possibility of excessive bleeding. Without proper treatment, infections can lead to a high fever, a wound that won’t heal, lockjaw, necrotizing fasciitis, and Cellulitis. Therefore, the healthcare problem that we want to address is the lack of response time in cauterizing and disinfecting open wounds. That’s because with this lack of response time, open wounds become infected. Thus, the niche of our innovation focuses on the portability aspect of the innovation because many individuals get involved in fatal or serious accidents that cause serious avulsions. While waiting for the EMTs to arrive, a person can bleed out to death. However, with a portable cauterizing laser, these wounds are able to close and become disinfected before the response team arrives, stabilizing the bleeding. This innovation would help save lives and make the emergency response more efficient.

While the U.S. military is attempting to use similar technology, they have not created any such device that may be widely used on the battlefield yet. The Air Force’s research agency, Darpa, has proposals for the development of such lasers but has not made anything available to the public.  The lasers that do exists are not widely used yet, still need major improvements in effectiveness, are expensive to create, and result in minor to major infections.

One aspect that those who have already done background trials or observations regarding the idea encounter is, as mentioned before, keeping the wound sterile. Depending on the laser, wounds either become completely healed without the need for further care, infested with bacteria, or scarred from the cauterization process. According to orthopedic surgeon Dr. Bruce Reid and plastic surgeon Dr. Miroslaw Stranc in their article “Healing of Infected Wounds following Iodine Scrub or CO2 Laser Treatment”, they found that using a CO2 laser to heal infected rabbit wounds was much more sterile than using an iodine scrub. However, three of the laser treatments did lead to sepsis in the wound. Although this was a better outcome than the 12 iodine scrubs that lead to sepsis, the CO2 laser may still lead to infection. Hence although more sterile than antiseptics, it is not a full proof laser to cauterize and heal open wounds in the long run. Yet, it may suffice for a portable laser wound healing device in the short run, at least until the patient can seek professional help at a hospital.  

Laser temperature is also imperative in cauterizing wounds since too high of a temperature may permanently damage the skin and leave scarring, while too low of a temperature may be ineffective in cauterizing the wound. In “LASERS- The Future of Suture,” Physics Professor Dr. Abraham Katzir and his team from Tel Aviv University have been experimenting with CO2 lasers using infrared fibers on ten human patients who underwent gallbladder removal. Some incisions were sutured while others were soldered with the CO2 laser. The team found that the ideal temperature to create tight bonding and minimal scarring in the tissue was between the narrow range of 60 to 65 degrees Celsius. Yet, this is a small sample size and patient variability might be massive in future trials, especially with variances in wound size, wound deepness, and wound tissue. Therefore we propose increasing the laser temperature proportionally to the wound temperature to minimize the risk of overheating or under heating the tissue.

Biodegradability would certainly reduce costs and scarring, as well as invalidate the need for sutures or staples to close wounds. However, lasers are limited to their extent in penetrating the skin since most can only reach the surface of the skin. This brings cause to wonder how exactly the cauterization laser would tackle the deep wound healing aspect, like bullet holes, of the health care innovation idea. According to BBC Senior Science Journalist Richard Gray in his article, “Is This the End of Stitches? Lasers Close Wounds and Cut Scarring,” scientists at St. Andrews University have created a biodegradable optical fiber that allows laser light to penetrate about one inch into the skin. Within 15 minutes, the green light from the laser would release a medical dye into the wound, which would unite collagen molecules. The optical insert would then be absorbed by the skin since it would not be made of glass.

Unfortunately, this has only been tested on pig skin and not in a clinical setting since there are still many safety concerns regarding the toxicity of the laser healing the wound from the inside, and the absorption rate of the  optical fiber material. Therefore, the portable laser should be supplemented by a flexible and soluble polymer based optical fiber that would not require a second surgery if it implants or breaks off into the wound. This would also increase response time as the EMT worker for example, can disperse the laser evenly across the wound.

Lastly, portability is a must. Most everyday lasers come in the form of laser pointers while others, such as those found in medical offices, are heavy and useless unless plugged into a power source.

Our solution to the problem of delayed response time in cauterizing and disinfecting open wounds is a portable laser. As mentioned before, the idea of a laser has been thought of, but there is a lack of efficiency or completion with this innovation. Moreover, our innovation focuses more on the portability aspect, which comes in many forms. For instance, the laser won’t be huge or hooked up to wires. Instead, it would be something that can be handheld or easy to carry. In fact, we are planning to structure the laser in such a way that it can even be attached to a keychain. By making the laser more portable, there is an easier access to the laser when necessary. This helps decrease the danger present in delayed response times with EMTs. Overall, the laser works to cauterize the wounds through disinfection and closing the wound to prevent bleeding out. Of course, this is not a substitute for entire medical attention. Instead, it stabilizes patients during the time between getting injured and meeting the medical professional.

Our laser wound healer has huge potential for success. Our device would be small, user friendly, chargeable in any outlet and best of all, instant! Currently, many laser therapies to heal wounds involve a special doctor’s visit and are used on wounds that have tried, but cannot heal themselves. This device would eliminate the middleman and cure the wound on the spot. There have been previous attempts of other technological devices to quickly heal up wounds, but they have not become mainstream just yet. We will use recycled material to make the products, showing the eco friendly and inexpensive side of our idea.  

 

Sources For Laser Wound Healer

October 16, 2018 / / 0 Comments

Group members: Pabvitraa and Harmeet

Health Care Innovation Idea: Portable Laser Device to Heal Wounds

 

Primary Sources (Peer-reviewed)

 

  1. Kristo Nuutila,Shintaro Katayama,Jyrki Vuola,and Esko Kankuri.2014.”Human Wound-Healing Research: Issues and Perspectives for Studies Using Wide-Scale Analytic Platforms”. Journal of Advances in Wound Care, March 1. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3955962/

 

The authors of this article are Kristo Nuutila, Shintaro Katayama, Jyrki Vuola,and Esko Kankuri. They are all professionals in their respective scientific fields around the world. Mary Ann Liebert is the primary independent publisher of this journal. This company, Many Ann Liebert Inc., publishes a wide array of worldwide scientific, technical, and medical reports in their peer-reviewed journals and books. They discuss biotechnology, biomedical research, public health, technology and engineering and much more.This article focuses on the importance of quickly healing wounds and how critical it is to avoid infection. The process of healing a wound is incredibly complex and often times leaves the wound exposed to diseases and when coupled with a person’s physical health could sometimes prove fatal. The article also discusses ways to test new techniques in an ethical way using animals with similar skin to humans. This source would be helpful in providing us with a reason for our innovation, while also giving us a proven practical way to test our idea.

 

 

  1. Sorg H,Tilkorn D.J,Hager S, Hauser J and Mirastschijski U.“Skin Wound Healing: An Update on the Current Knowledge and Concepts” European Surgical Research Journal. 2017;58:81-94. https://www.karger.com/Article/FullText/454919

 

The authors of this article are Sorg H,Tilkorn D.J,Hager S, Hauser J and Mirastschijski U, who all belong to different surgical departments around the world. Karger Publishing published this article found in the European Surgical Research Journal. This journal provides relevant information on various fields of medicine that supports new drugs or innovations. The Editor in Chief is B. Vollmar Rostock who specializes in experimental surgery and has received many awards for her scientific research. This article discusses the need for a medical innovation to improve our bodies wound healing process and it delineates the steps the body takes to heal itself while maintaining homeostasis. This source gives a much more technical explanation of the body allowing us to engineer our idea with more knowledge. Additionally, current research being published about this topic is mentioned giving us a accurate and up to date view. This source can be used for fact checking based on the past research, and can use biological information to support the laser cauterizer.

 

Popular Media Source:

 

1.2014.Rose Pastore.”How a simple New Invention Seals A Gunshot Wound in 15 Seconds”. Popular Science, February 3.

https://www.popsci.com/article/technology/how-simple-new-invention-seals-gunshot-wound-15-seconds

The author of this article is Rose Pastore who has published many scientific articles particularly about space, including one about testing medical devices for astronauts. The article was published by Popular Science, an online magazine, containing articles about science and technology, which has received many awards. This source talks about how difficult and painful it is for a patient when pressure is applied to an artery in order to seal up a gunshot wound. Gauze can only go so far, so a start-up in Oregon proposed an idea for a portable injection in which little sponges are used to close up a wound. After testing animals and then receiving a grant to continue the research they made a new sterile lightweight product. This article shows how others had this idea, but implemented the healing process with different material. They have not tested it in the battlefield yet, so it will be interesting to see the results.

 

 

BioBlitz Research Project

October 7, 2018 / / 0 Comments

Group Members: Harmeet Kaur, Ayelet Segal, Pabvitraa Ramcharan

  1. What is the final version of the question you are interested in asking? 
    1. How does altitude affect the abundance and diversity of microorganisms found in soil?
  2. List some keywords to use when searching for related scientific literature. Be specific!
    1. Microbial soil
    2. Effects of microorganisms on the environment
    3. Effect of altitude on microorganisms
    4. Importance of microorganisms
    5. Physicochemical properties of soil
  3. Where will your data come from? Do you need to collect new data? Please describe.
    1. Our data will come from previous BioBlitz data, as well as the data collected from this year’s BioBlitz. This year’s BioBlitz data for microbial soil will be available by the first week in November.
  4. What will you be measuring or comparing? What are the dependent and independent variables?
    1. We will be measuring the amount/diversity of microorganisms present within soil found at different altitudes.
    2. We will compare the abundance and diversity of microorganisms found on higher altitudes to those found on lower altitudes.
    3. The dependent variable is the amount of microorganisms, while the independent variable is the altitude those microorganisms are found on.
  5. Please make a list of your methods. If you are using existing BioBlitz data, you do not need to describe those data collection methods on this worksheet, but you do need to describe how you are extracting the relevant data from the entire BioBlitz data set.
    1. Soil sampling: collecting soil found at different altitudes and having the lab analyze them (lab work is taken care of by those in charge of BioBlitz)
    2. Researching the topic of how altitude affects the diversity and abundance of microorganisms found in soil.
    3. Applying previous years BioBlitz data to our data, by looking at all the microorganisms (and quantity of each) was found on different altitudes.
  6. Why is this question interesting to you? Why should others care about this topic?
    1. We don’t learn much about microorganisms in school. This may be due to the common phrase, “out of sight, out of mind” since the microorganisms are literally out of our minds as we cannot see them. So, this project helps us learn more about microorganisms and where we would be able to find more of them in soil. Others should care about this topic because microorganisms are important to our ecosystems. They break down substances, like dead plants, into simpler substances which release gases that are necessary for other organisms to survive.

Portable laser device to cauterize wounds in the field

October 2, 2018 / / 0 Comments

This summer I volunteered as a first responder on ambulances and unfortunately witnessed many patients profusely bleeding. I believe that if there was such a device at the scene of a trauma incident that could immediately close up a wound, many lives could be saved. This device would directly clean and protect a gun shot wound, battle would, or even just a deep cut. It is critical to work fast when trying to save a bleeding patient and with this tool, stitches could become a last resort and there would be less of a need for exact blood types and enough blood supply for transfusions. With the use of this tool, patients would arrive to a hospital in a more stable condition and with a wound that is less prone to infection.

Blog Post 1

September 25, 2018 / / 0 Comments

If I was the author of a New York Times article, reporting on a scientific matter, I would make sure that I conveyed the information accurately and in a way that will draw in the readers and keep them interested until the end. To do that, I would read any relevant information found in other journals or scientific articles until I had a comprehensive understanding of the topic I was writing about. No matter how passionate I was about the subject, I would  address any and all sides including any disagreements or  controversies. I noticed that the author of my popular report remained unbiased and completely objective when reporting about animal therapy. In addition, if I referenced another article or heard a scholar say something interesting, I would not only cite the information, but also put the complex data into simple words, so professionals and nonprofessionals can understand. Fascinating statistics have always been the most interesting parts of scientific articles for me and I believe they are not used enough.  If I was an author, I would fill my article with unbelievable numbers and data in big bold letters that would make it hard for the readers to stop reading.  While listening to my classmates, I noticed how well they conveyed the scientific information as if they were writing their own scientific reports. Everyone accurately and successfully simplified the information they read in the scientific journals, which was not easy to do, and still engaged their classmates like real authors.

Animals Assisting With Therapy

September 6, 2018 / / 0 Comments

Popular Artcile:

Kingson, Jennifer. 2018.“As Animal-Assisted Therapy Thrives, Enter the Cats.” The New York Times, September 6, https://nyti.ms/2MOquWy                                            

Primary Source:

Lynette A. Hart, Abigail P. Thigpen, Neil H. Willits, Leslie A. Lyons, Irva Hertz-Picciotto and Benjamin L. Hart. 2018. “Affectionate Interactions of Cats with Children Having Autism Spectrum Disorder.” Frontier Journal, March 12. https://doi.org/10.3389/fvets.2018.00039

 

 

The Importance of Training School Nurses

September 6, 2018 / / 0 Comments

It is the job of school nurses to keep students safe at all costs, but it is not always easy. School nurses have been dealing with an ongoing issue regarding health care providers, as they can advise patients on matters that either go against what the school district allows for or clash with the Academy of Asthma, Allergy and Immunology guidelines. This issue is putting students’ lives at risk as it creates unnecessary mix-ups in the school and causes a delay in the reaction time of the nurses. An allergic reaction is an example of a potential emergency that can happen in a school that must be dealt with immediately. An author of a recent study states that school nurses should have “self confidence in preventing, recognizing, and treating food allergy reactions” (Wahl et al. 2015, 91). They should be trained enough to know how to handle any situation without breaking protocol.

 

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