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Atrophy Mitigation of Long-Term Exposure to Zero-Gravity with a Soft Robotic Exosuit

Description

Interplanetary space travel has seen a surge of interest in not only media but also within the academic field as well. No longer are we designing and investigating extravehicular activity (EVA) suits, scholars and researchers are also engineering the future suit to protect humans on the surfaces of Martian planets.…

Interplanetary space travel has seen a surge of interest in not only media but also within the academic field as well. No longer are we designing and investigating extravehicular activity (EVA) suits, scholars and researchers are also engineering the future suit to protect humans on the surfaces of Martian planets. As we are progressing with technology capable of taking us even further distances than before imaginable, this thesis aims to produce an exosuit that will find a place between the planets and stars, by providing countermeasures to muscle and bone atrophy. This is achieved through the rapidly growing field of soft robotics and the technology within it. An analytical model governing torque production of an array of soft pneumatic actuators was created to provide resistive forces on the human joints. Thus, we can recreate and simulate a majority of the loads that would be experienced on earth, in microgravity. Where push-ups on earth require on average 30Nm of torque about the elbow joint, by donning this exosuit, the same forces can be experienced when pushing off of surfaces while navigating within the space capsule. It is ergonomic, low-cost, and most importantly lightweight. While weight is negligible in micro-G, the payloads required for transporting current exercising equipment are costly and would take up valuable cargo space that would otherwise be allocated to research related items or sustenance. Factor in the scaling of current "special space agent" missions times 20-50, and the problem is further exacerbated. Therefore, the proposed design has warranted potential for the short term need of Mars missions, and additionally satisfy the long-term goal of taking humanity to infinite and beyond.

ContributorsLam, Quoc Phuong (Author) / Polygerinoa, Panagiotis (Thesis director) / Zhang, Wenlong (Committee member) / Engineering Programs (Contributor) / Barrett, The Honors College (Contributor)

Created2018-05

Leonard Hayflick (1928- )

Description

Leonard Hayflick studied the processes by which cells age during the twentieth and twenty-first centuries in the United States. In 1961 at the Wistar Institute in the US, Hayflick researched a phenomenon later called the Hayflick Limit, or the claim that normal human cells can only divide forty to sixty…

Leonard Hayflick studied the processes by which cells age during the twentieth and twenty-first centuries in the United States. In 1961 at the Wistar Institute in the US, Hayflick researched a phenomenon later called the Hayflick Limit, or the claim that normal human cells can only divide forty to sixty times before they cannot divide any further. Researchers later found that the cause of the Hayflick Limit is the shortening of telomeres, or portions of DNA at the ends of chromosomes that slowly degrade as cells replicate. Hayflick used his research on normal embryonic cells to develop a vaccine for polio, and from HayflickÕs published directions, scientists developed vaccines for rubella, rabies, adenovirus, measles, chickenpox and shingles.

ContributorsBartlett, Zane (Author) / Turriziani Colonna, Federica (Editor) / Elliott, Steve (Editor) / Arizona State University. School of Life Sciences. Center for Biology and Society. Embryo Project Encyclopedia. (Publisher) / Arizona Board of Regents (Publisher)

Created2014-07-20

Thomas Hunt Morgan (1866-1945)

Description

Although best known for his work with the fruit fly, for which he earned a Nobel Prize and the title "The Father of Genetics," Thomas Hunt Morgan's contributions to biology reach far beyond genetics. His research explored questions in embryology, regeneration, evolution, and heredity, using a variety of approaches.

ContributorsSunderland, Mary E. (Author) / Arizona State University. School of Life Sciences. Center for Biology and Society. Embryo Project Encyclopedia. (Publisher) / Arizona Board of Regents (Publisher)

Created2007-09-25