In modern society, living a long life is meaningless since the quality of life is the axis, which defines a happy life. Consequently, drugs and exercises are being continuously developed and the environment is becoming a vital issue. As our method of life is becoming more complex, unexpected accidents happen and diverse lifestyles are causing people to lose their health. Furthermore, there are incidents where individuals lose some functions of the body or have to live an uncomfortable life due to an infection or a disease. Thus, two experiments were held to solve the question of regeneration, in order to recover body functions and strengthening immunity, in order to fight back diseases more successfully. The first experiment was about regeneration of the skin and the …show more content…
Ten of each species were divided again into two and were specified into one control group and four experiment groups. Afterwards, oxytocin was injected into each group with different concentration and observed the effect of oxytocin on regeneration. As a result, as for axolotl, one could evidently determine the optimal concentration of oxytocin and could even compare and analyze the effect of regeneration on different areas of the body. In addition, by looking at the experiment with pander mice (pander mice were used to experiment whether oxytocin had an influence on mammals like humans) compared to the control group, where purified water was injected, the effect was clearly shown with fast wound regeneration and increased appetite symptoms in the experiment group. However, a difference occurred with pander mice, unlike axolotl, with the amount of regeneration of skin and joints. Thus, it was concluded that mammals have different regeneration ability in accordance with the tissue and it was also noted that permanent tissue cells like the tail does not regenerate when
When microdermabrasion removes the outer layer of skin the body then goes into a healing mode that promotes the making of new healthier cells. Microdermabrasion is like when one sustains an injury to his skin and the body sends treatment molecules to heal the damage. Mariane Fernandes conducted an experiment with the aim to evaluate the effects of microdermabrasion on skin rejuvenation. Fernandes stated in her article “Effects of microdermabrasion on skin rejuvenation” in the Journal of Cosmetic and Laser Therapy that “Microdermabrasion treatment promoted skin rejuvenation through an increase in skin thickness due to an increase in epidermal thickness and collagen organization” (Fernandes 26). Acne weakens and thins the skin epidermal layers, causing acne scars. Microdermabrasion heals the weak, thin, and fragile skin, which makes the skin smooth and more resistant to other damaging conditions. Doctor Bruce M. Freedman an aesthetic plastic surgeon and assistant professor of plastic surgery at Georgetown University also analyzed the dermatological changes associated with microdermabrasion in “Clinical and histologic changes determine optimal treatment regimens for microdermabrasion” in the Journal of Dermatological Treatment. Freedman’s experiment also yielded results of an increase of epidermal thickness
The cells unique nature has scientists intrigued to do research with the focus of finding a way that these cells can be used to replace patients’ injured or diseased tissues. Advancement is made to all the three types of stem cells namely embryonic stem cells, adult stem cells in addition to induced pluripotent cells. Embryonic cells are the building blocks of an embryo that is developing, and can develop into almost all body cell types. Somatic cells are found in the body tissues. They renew and regenerate in healthy bodies. The third type which is induced pluripotent is genetically modified embryo cells from skin cells.2 Research on these cells are geared towards saving humanity; a noble course.
in the trenches with so much time to just sit and think, it is only
The “Fast Plant” experiment is an observation of a plants growth over the span of twenty-eight days. The objective is to observe how plants grow and use their resources throughout the span of their life. In our lab we observed the Brassica rapa, a herbaceous plant in the mustard family which has a short cycle which makes it a perfect plant to observe in this experiment. Like other plants the Brassica rapa must use the resources in the environment to create energy to complete itʻs life cycle and reproduce. By observing the plant it is easy to see in what organ or function the plant is using itʻs energy and resources and if overtime the resources switch to other part of the plants. By conducting this experiment we are able to observe where and how plants allocate their resources throughout their life by harvesting plants at different points in their life.
A. Regeneration center of Thailand, a medical team trained in biotechnology of cell therapy, published in January 2017, an article describing the differences (RCT).
The term “medical transplant” is referred to the process of organ donation. In current modern trends, the world is moving towards the fifth generation. The new innovative medical techniques have enabled the people to reform from severe diseases. The phenomenon of organ donation and transplant is based on two primary persons. It involves surgical process to remove a body organ and tissue form from donor and fitting it into the body of recipient. In addition, the transplant that is performed within same body is called auto graft. Medical transplant that is performed in between to different bodies of same species is called allografts (Hewitt, 2008). The main reason of medical transplantation and organ donation is any injury and disease which prohibit the organ to work in proper condition.
Our skin functions as a daily defense for our bodies against disease because of skin and mucous membranes. The skin is a massive organ and it protects everything inside our bodies such as our muscles, bones and organs. Our skin protects us from bacteria, parasites, viruses and pathogens ...
The rapid pace of vaccine development convinces people that they are safe from the infectious diseases. Unfortunately, the anthrax outbreak in 2001, having killed five people, reveals the vulnerability of the public health, suggesting that further research on contagious epidemics should be developed abruptly. In response to this issue, the National Institute of Allergy and Infectious Diseases (NIAID) granted Boston University a $128 million funding for the construction of a new leading facility known as the National Emerging Infectious Diseases Laboratory (NEIDL or BU Biolab), which would be sited on the Boston University Medical Campus, to battle against contagious ailments. Besides conducting research on infectious diseases, the BU Biolab will also perform research to prepare for bioterrorism (Le Duc). According to the Center for Disease Control, there are four levels of increasing of containment for research on infections ranging from Biosafety Levels 1 through 4 (BSL-1 to BSL-4). While much of the research on epidemics is done in laboratories with BSL-2 to BSL-3, the BU Biolab, with the highest level of precaution, BSL-4, will conduct research on rare contagious epidemics including anthrax, ebola, and plague, which are usually life threatening.
To begin we will look at the integumentary system and its entire multitude of functions. The main components of the integumentary system are the skin, hair, nails, glands and nerves. For the purpose of this paper we will focus mainly on the levels of the skin and their functions. While the integumentary
Jason Hope is a champion for those who may face age related illnesses in the future. Rather than treating illnesses such as Alzheimer disease and diabetes, he is hoping to push a movement for prevention. Jason feels that the medical field is more focused on being reactive, when it would be better for all, if there was a way to be proactive instead.
Kubota, X. C., and X. Yang. "Cloning of Aged Animals: A Medical Model for Tissue and Organ Regeneration." TMC 11.8 (2001): 313-17. ScienceDirect. Web. 13 Mar. 2011.
The Cell, the fundamental structural unit of all living organisms. Some cells are complete organisms, such as the unicellular bacteria and protozoa, others, such as nerve, liver, and muscle cells, are specialized components of multicellular organisms. In another words, without cells we wouldn’t be able to live or function correctly. There are Animal Cells and Plant Cells. In Biology class the other day we studied the Animal Cell. We were split into groups of our own and we each picked a different animal cell slide to observe. My group chose the slide,'; Smeared Frog Blood ';.
Throughout history, mankind has been obsessed with discovering a cure for any ailments or disorders that could disrupt or hinder their short lives, especially those to evade the aging process. With society becoming increasingly interested in everlasting beauty and living longer, the race to discover the main contributor toward aging begun in the early nineteen hundreds. In the midst of this quest, several biological theories had been developed. Among these theories is the immunity or immunological theory. This paper will discuss the immunological theory of aging by explaining the theory, giving a history of its origin and a description of further development within the evolution of the theory.
In order to discover the ways for the remedy of diseases, studies in therapeutic approaches have been doing widely and kept increasing at accelerated pace. A lot of research areas had emerged for that purpose including one of the most fascinating and highly active areas at present, stem cells therapies. Due to self-renewal property and differentiation capability of stem cell, it becomes a new hope in modern treatment.
Second, I’ll attempt to explain how these methods and procedures could benefit mankind. These procedures hold infinite possibilities in the practice healing the sick. Of all of the procedures mentioned cloning is the only method that has been given any amount of serious research. Cloning could do away with the need for organ transplants. Instead of a transplant a new organ could be cloned, thus removing any chance that the body might reject the organs. Nano-robotics could be used to fight off foreign infections and repair internal wounds. Retro-viruses and gene-specific medications could be used to alter a person’s genetic code, ridding a person of inherited maladies such as heart disease or diabetes. With the introduction of some, if not all, of these different methods of treating ailments we could effectively wipe out a large amount of diseases that would otherwise be untreatable. Senior citizens would no longer have to suffer from maladies such as Alzheimer’s or other such illnesses related with age. With these procedures a child can grow up never having to suffer from a learning disorder such as ADHD (Attention Deficit Hyper-activity Disorder) or even cases of mental retardation by eliminating or modifying the genes that are responsible for these and other problems.