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2. New Developments in NASA's Rodent Research Hardware for Conducting Long Duration Biomedical and Basic Research in Space

Author

Shirazi, Yasaman, Choi, S, Harris, C, Gong, C, Fisher, R. J, Beegle, J. E, Stube, K. C, Martin, K. J, Nevitt, R. G, and Globus, R. K

Subjects
Life Sciences (General), Aerospace Medicine
Abstract

Animal models, particularly rodents, are the foundation of pre-clinical research to understand human diseases and evaluate new therapeutics, and play a key role in advancing biomedical discoveries both on Earth and in space. The National Research Councils Decadal survey emphasized the importance of expanding NASA's life sciences research to perform long duration, rodent experiments on the International Space Station (ISS) to study effects of the space environment on the musculoskeletal and neurological systems of mice as model organisms of human health and disease, particularly in areas of muscle atrophy, bone loss, and fracture healing. To accomplish this objective, flight hardware, operations, and science capabilities were developed at NASA Ames Research Center (ARC) to enhance science return for both commercial (CASIS) and government-sponsored rodent research. The Rodent Research Project at NASA ARC has pioneered a new research capability on the International Space Station and has progressed toward translating research to the ISS utilizing commercial rockets, collaborating with academia and science industry, while training crewmembers to assist in performing research on orbit. The Rodent Research Habitat provides a living environment for animals on ISS according to standard animal welfare requirements, and daily health checks can be performed using the habitats camera system. Results from these studies contribute to the science community via both the primary investigation and banked samples that are shared in publicly available data repository such as GeneLab. Following each flight, through the Biospecimen Sharing Program (BSP), numerous tissues and thousands of samples will be harvested, and distributed from the Space Life and Physical Sciences (SLPS) to Principal Investigators (PIs) through the Ames Life Science Data Archive (ALSDA). Every completed mission sets a foundation to build and design greater complexity into future research and answer questions about common human diseases. Together, the hardware improvements (enrichment, telemetry sensors, cameras), new capabilities (live animal return), and experience that the Rodent Research team has gained working with principal investigator teams and ISS crew to conduct complex experiments on orbit are expanding capabilities for long duration rodent research on the ISS to achieve both basic science and biomedical research objectives.

Published
2017

3. New Development in NASA's Rodent Research Hardware for Conducting Long Duration Biomedical and Basic Research in Space

Author

Shirazi-Fard, Y, Choi, S, Harris, C, Gong, C, Beegle, J. E, Stube, K. C, Martin, K. J, Nevitt, R. G, and Globus, R. G

Subjects
Life Sciences (General), Aerospace Medicine
Abstract

Animal models, particularly rodents, are the foundation of pre-clinical research to understand human diseases and evaluate new therapeutics, and play a key role in advancing biomedical discoveries both on Earth and in space. The National Research Councils Decadal survey emphasized the importance of expanding NASAs life sciences research to perform long duration, rodent experiments on the International Space Station (ISS). To accomplish this objective, flight hardware, operations, and science capabilities were developed at NASA Ames Research Center (ARC) to enhance science return for both commercial (CASIS) and government-sponsored rodent research. The Rodent Research program at NASA ARC has pioneered a new research capability on the International Space Station and has progressed toward translating research to the ISS utilizing commercial rockets, collaborating with academia and science industry, while training crewmembers to assist in performing research on orbit. Throughout phases of these missions, our practices, hardware and operations have evolved from tested to developed standards, and we are able to modify and customize our procedure and operations for mission specific requirements. The Rodent Research Habitat is capable of providing a living environment for animals on ISS according to standard animal welfare requirements. Using the cameras in the Habitat, the Rodent Research team has the ability to perform daily health checks on animals, and further analyze the collected videos for behavioral studies. A recent development of the Rodent Research hardware is inclusion of enrichment, to provide the animals the ability to rest and huddle. The Enrichment Hut is designed carefully for adult mice (up to 35 week old) within animal welfare, engineering, and operations constraints. The Hut is made out of the same stainless steel mesh as the cage interior, it has an ingress and an egress to allow animals move freely, and a hinge door to allow crewmembers remove the animals easily. The Rodent Research team has also developed Live Animal Return (LAR) capability, which will be implemented during Rodent Research-5 mission for the first time. The animals will be transported from the Habitat to a Transporter, which will return on the Dragon capsule and splashes down in the Pacific Ocean. Once SpaceX retrieves the Dragon, all powered payloads will be transferred to a SeaVan and transferred to the Long Beach pier. The NASA team then receives the transporter and delivers to a PI-designated laboratory within 120 mile radius of Long Beach. This is a significant improvement allowing researchers to examine animals within 72 hrs. of reentry or to conduct recovery experiments. Together, the hardware improvements and experience that the Rodent Research team has gained working with principal investigators and ISS crew to conduct complex experiments on orbit are expanding capabilities for long duration rodent research on the ISS to achieve both basic science and biomedical objectives.

Published
2017

4. Selected Attitudes and Opinions of Michigan's Rural Population. Research Report 169, Development and Public Affairs.

Author

Michigan State Univ., East Lansing. Agricultural Experiment Station., Koebernick, Tom, and Beegle, J. Allan

Abstract

The attitudes and opinions of rural Michigan residents were surveyed on selected issues and policies in 1970. The sample included 343 respondents drawn from 34 randomly selected sampling points. Each point was a rural township from which about 10 interviews were made. Responses of the 88 farm and 255 nonfarm residents were compared in the study. Some major areas covered in the interviews were farm policy, political tactics, strikes by farm workers, and the family farm. It was found that meaningful differences in attitudes on certain social issues existed between rural subgroups, that including the respondent's sex as a control variable led to additonal insights, that farm males always supported positions interpreted as favorable to agriculture, and that the nonfarm female clearly reflected the consumer orientation. It was noted that, while it was difficult to draw many generalizations from this limited study, sex should be taken into account in future studies of farm families. (PS)

Published
1972

5. Advances in Rodent Research Missions on the International Space Station

Author

Choi, S. Y, Ronca, A, Leveson-Gower, D, Gong, C, Stube, K, Pletcher, D, Wigley, C, Beegle, J, and Globus, R. K

Subjects
Life Sciences (General), Space Sciences (General)
Abstract

A research platform for rodent experiment on the ISS is a valuable tool for advancing biomedical research in space. Capabilities offered by the Rodent Research project developed at NASA Ames Research Center can support experiments of much longer duration on the ISS than previous experiments performed on the Space Shuttle. NASAs Rodent Research (RR)-1 mission was completed successfully and achieved a number of objectives, including validation of flight hardware, on-orbit operations, and science capabilities as well as support of a CASIS-sponsored experiment (Novartis) on muscle atrophy. Twenty C57BL6J adult female mice were launched on the Space-X (SpX) 4 Dragon vehicle, and thrived for up to 37 days in microgravity. Daily health checks of the mice were performed during the mission via downlinked video; all flight animals were healthy and displayed normal behavior, and higher levels of physical activity compared to ground controls. Behavioral analysis demonstrated that Flight and Ground Control mice exhibited the same range of behaviors, including eating, drinking, exploratory behavior, self- and allo-grooming, and social interactions indicative of healthy animals. The animals were euthanized on-orbit and select tissues were collected from some of the mice on orbit to assess the long-term sample storage capabilities of the ISS. In general, the data obtained from the flight mice were comparable to those from the three groups of control mice (baseline, vivarium and ground controls, which were housed in flight hardware), showing that the ISS has adequate capability to support long-duration rodent experiments. The team recovered 35 tissues from 40 RR-1 frozen carcasses, yielding 3300 aliquots of tissues to distribute to the scientific community in the U.S., including NASAs GeneLab project and scientists via Space Biology's Biospecimen Sharing Program Ames Life Science Data Archive. Tissues also were distributed to Russian research colleagues at the Institute for Biomedical Problems. The expression levels of select genes including albumin, catalase, GAPDH, HMGCoA Reductase, and IGF1 were determined using RNA isolated from the livers by qPCR and no significant differences by one factor ANOVA were found between flight and ground control groups. In addition, some of the liver samples were analyzed for transcriptomic, epigenomic and proteomic profiles; some of the data sets are now available to the scientific community through GeneLabs open science data website. A second long duration mission, Rodent Research-2 (RR-2) was completed on the ISS in 2015; 20 female C57BL6J mice were successfully maintained on the ISS for various durations, with the last group of 5 animals living on-orbit for 54 days. Furthermore, we continue to expand the ISSs capabilities by introducing new on-orbit technologies including blood collection and separation, bone densitometry scanning, muscle grip strength and anesthesia with recovery. In addition, series of ground-based verification testing to fly male mice and increase the total number of mice on-orbit from 20 to 40. Subsequent missions will provide the capability to return live mice from the ISS animals to evaluate recovery on Earth, further expanding operational and science capabilities of the RR project on the ISS.

Published
2016

6. Advances in Rodent Research Missions on the International Space Station

Author

Choi, S, Ronca, A, Leveson-Gower, D, Gong, Cynthia, Pletcher, D, Wigley, C, Beegle, J, and Globus, R. K

Subjects
Space Sciences (General), Life Sciences (General)
Abstract

A Research platform for rodent experiment on the ISS is an essential tool for advancing biomedical research in space. The Rodent Research allows for experiments of much longer duration that experiments on the Shuttle. NASA’s Rodent Research (RR)-1 mission was successfully completed, including post-flight analysis and achieved a number of objectives including validation of flight hardware, on-orbit operations, and science capabilities that were developed at the NASA Ames Research Center. Briefly, twenty C57BL/6J adult female mice were launched on the SpX4 Dragon vehicle, which thrived for up to 37 days in microgravity. Daily health checks of the mice were performed during the mission via downlinked video; all animals were healthy and displayed normal behavior without any significant signs of stress. Behavioral analysis demonstrated that Flight and Ground Control mice exhibited the same range of behaviors, including eating, drinking, exploratory behavior, self- and allo-grooming, and social interactions indicative of healthy animals. The animals were euthanized and select tissues were collected from some of the mice on orbit to assess the long-term sample storage capabilities of the ISS. The data obtained from the flight mice were comparable to those from the 3 groups of control mice (baseline, vivarium and ground controls), suggesting that the ISS has adequate capability to support long-duration rodent experimentations. We recovered over 35 tissues from 40 RR1 frozen carcasses, yielded over 3200 aliquots of tissues, and distributed to the scientific community, including NASA’s GeneLab and scientists in the U.S. through Biospecimen Sharing Program via Ames Life Science Data Archive. Tissues were also distributed to Russian research colleagues at the Institute for Biomedical Problems. The expression levels of select genes including albumin, catalase, GAPDH, HMGCoA Reductase, and IGF1 were determined using RNA isolated from the livers by qPCR and no significant differences by one factor ANOVA were found between flight and ground control groups. In addition, some of the liver samples were subject to transcriptomics, epigenomics and proteomics. The data are now available to the scientific community through GeneLab’s open science data website. Since the RR1 mission, another long duration mission (Rodent Research-2) was completed on the ISS in 2015 in which 20 female C57 BL/6J mice were successfully maintained on the ISS for varying time points, with the last group of 5 animals being on-orbit for 54 days. This second Rodent Research flight expanded the program’s capabilities with the introduction of new technologies including blood collection and separation and bone densitometry scanning. Furthermore, we have continued to expand the ISS’s capabilities by running a series of ground-based verification testing using male mice. Our next step is to fly male mice for Rodent Research-4 on SpaceX-10 to study the effects of microgravity on bone healing and regeneration. It will be the first long-duration mission using male mice using Rodent Hardware. In addition, the number of mice will increase from 20 mice (on RR-1 and RR-2) to 40 for RR-4. When samples return to Earth, a number of tissues will be dissected from the frozen carcasses and select tissue samples will become available to the scientific community via BSP. Altogether, we have continued to expand our capabilities for performing long-duration missions on the ISS as emphasized in the National Research Council’s Decadal Survey released in 2011 and to maximize science return from each mission.

Published
2016

7. Rodent Habitat on ISS: Advances in Capability for Determining Spaceflight Effects on Mammalian Physiology

Author

Globus, R. K, Choi, S, Gong, C, Leveson-Gower, D, Ronca, A, Taylor, E, and Beegle, J

Subjects
Space Sciences (General), Life Sciences (General)
Abstract

Rodent research is a valuable essential tool for advancing biomedical discoveries in life sciences on Earth and in space. The National Research Counsel's Decadal survey (1) emphasized the importance of expanding NASAs life sciences research to perform long duration, rodent experiments on the International Space Station (ISS). To accomplish this objective, new flight hardware, operations, and science capabilities were developed at NASA ARC to support commercial and government-sponsored research. The flight phases of two separate spaceflight missions (Rodent Research-1 and Rodent Research-2) have been completed and new capabilities are in development. The first flight experiments carrying 20 mice were launched on Sept 21, 2014 in an unmanned Dragon Capsule, SpaceX4; Rodent Research-1 was dedicated to achieving both NASA validation and CASIS science objectives, while Rodent Reesearch-2 extended the period on orbit to 60 days. Groundbased control groups (housed in flight hardware or standard cages) were maintained in environmental chambers at Kennedy Space Center. Crewmembers previously trained in animal handling transferred mice from the Transporter into Habitats under simultaneous veterinary supervision by video streaming and were deemed healthy. Health and behavior of all mice on the ISS was monitored by video feed on a daily basis, and post-flight quantitative analyses of behavior were performed. The 10 mice from RR-1 Validation (16wk old, female C57Bl6/J) ambulated freely and actively throughout the Habitat, relying heavily on their forelimbs for locomotion. The first on-orbit dissections of mice were performed successfully, and high quality RNA (RIN values>9) and liver enzyme activities were obtained, validating the quality of sample recovery. Post-flight sample analysis revealed that body weights of FLT animals did not differ from ground controls (GC) housed in the same hardware, or vivarium controls (VIV) housed in standard cages. Organ weights analyzed post-flight showed that there were no differences between FLT and GC groups in adrenal gland and spleen weights, whereas FLT thymus and liver weights exceeded those of GC. Minimal differences between the control groups (GC and VIV) were observed. In addition, Over 3,000 aliquots collected post-flight from the four groups of mice were deposited into the Ames Life Science Data Archives for the Biospecimen Sharing Program and Genelab project. New capabilities recently developed include DEXA scanning, grip strength tests and male mice. In conclusion, new capability for long duration rodent habitation of group-housed rodents was developed and includes in-flight sample collection, thus avoiding the complication of reentry. Results obtained to date reveal the possibility of striking differences between the effects of short duration vs. long duration spaceflight. This Rodent Research system enables achievement of both basic science and translational research objectives to advance human exploration of space.

Published
2016

8. Experimental Design for Pre-Clinical Animal Model Study in Microgravity

Author

Dinh, Marie Thien-Huong, Hing, Michelle Mariko, Eikemeyer, Peter G, Chen, Anthony Jen-Fong, Kapusta, A, Smithwick, M, Wigley, C, Beegle, J, Globus, R. K, and Leveson-Gower, D

Subjects
Behavioral Sciences, Exobiology
Abstract

The Rodent Research program at NASAs Ames Research Center (ARC) has pioneered a new research capability on the International Space Station in less than four years and has progressed toward translating research to the ISS utilizing commercial rockets, collaborating with academia and science industry, and training crew for research purposes on-orbit. Animal models are the foundation of pre-clinical research to understand human diseases and evaluate new therapeutics. Advancement in alleviating ground diseases such as muscle atrophy and osteoporosis can come from the study of similar conditions that are known to occur as a result of exposure to the spaceflight environment. During the completion of the flight phase of two missions, our practices, hardware and operations evolved from tested to developed standards, which successfully translated the studies from ground to space. Results from these studies contribute to the science community via both the primary investigation and banked samples that are shared in publicly available data repository such as GeneLab. Every completed mission sets a foundation to build and design greater complexity into future research and answer questions about common human diseases on ground and in space. Here, we present methods developed for the translation of a rodent experiment to the ISS including a description of hardware and kits available for investigators and a discussion of operational constraints.

Published
2015

9. NASA's Rodent Research Project: Validation of Flight Hardware, Operations and Science Capabilities for Conducting Long Duration Experiments in Space

Author

Choi, S. Y, Beegle, J. E, Wigley, C. L, Pletcher, D, and Globus, R. K

Subjects
Life Sciences (General)
Abstract

Research using rodents is an essential tool for advancing biomedical research on Earth and in space. Rodent Research (RR)-1 was conducted to validate flight hardware, operations, and science capabilities that were developed at the NASA Ames Research Center. Twenty C57BL/6J adult female mice were launched on Sept 21, 2014 in a Dragon Capsule (SpaceX-4), then transferred to the ISS for a total time of 21-22 days (10 commercial mice) or 37 (10 validation mice). Tissues collected on-orbit were either rapidly frozen or preserved in RNA later at less than or equal to -80 C (n=2/group) until their return to Earth. Remaining carcasses were rapidly frozen for dissection post-flight. The three controls groups at Kennedy Space Center consisted of: Basal mice euthanized at the time of launch, Vivarium controls, housed in standard cages, and Ground Controls (GC), housed in flight hardware within an environmental chamber. FLT mice appeared more physically active on-orbit than GC, and behavior analysis are in progress. Upon return to Earth, there were no differences in body weights between FLT and GC at the end of the 37 days in space. RNA was of high quality (RIN greater than 8.5). Liver enzyme activity levels of FLT mice and all control mice were similar in magnitude to those of the samples that were optimally processed in the laboratory. Liver samples collected from the intact frozen FLT carcasses had RNA RIN of 7.27 +/- 0.52, which was lower than that of the samples processed on-orbit, but similar to those obtained from the control group intact carcasses. Nonetheless, the RNA samples from the intact carcasses were acceptable for the most demanding transcriptomic analyses. Adrenal glands, thymus and spleen (organs associated with stress response) showed no significant difference in weights between FLT and GC. Enzymatic activity was also not significantly different. Over 3,000 tissues collected from the four groups of mice have become available for the Biospecimen Sharing Program. Together, these validation flight findings demonstrate the capability to support long-duration RR on the ISS to achieve both basic science and biomedical objectives.

Published
2015

10. NASA's Rodent Research Project on ISS: Validation of a New Platform for Conducting Biomedical and Basic Research into the Consequences of Long Duration Habitation in Space

Author

Globus, R. K, Choi, S, Stodiek, L, Cadena, S, Solis, S, Ronca, A, Pletcher, D, Wigley, C, and Beegle, J

Subjects
Space Sciences (General)
Abstract

Rodent research has played a key role in advancing biomedical discoveries both on Earth and in space. The National Research Counsel’s Decadal survey(1) emphasized the importance of expanding NASAs life sciences research to perform long duration, rodent experiments on the International Space Station (ISS). To accomplish this objective, flight hardware, operations, and science capabilities were developed at NASA ARC to support both commercial and government-sponsored rodent research.Rodent Research-1 (RR-1) was the first mission in which animals were delivered and maintained in the ISS for a long duration mission in modified Animal Enclosure Module hardware. Both RR validation and commercial science objectives were pursued on the RR-1 mission. Adult female mice (20 total Flight, FLT) were launched Sept 21, 2014 in RR hardware within a Dragon Capsule (SpaceX4), then after 4 days in transit, were transferred for habitation on the ISS for 17 days (commercial) or 33 days (validation), when animals were euthanized and select tissues recovered on orbit. Various controls groups consisted of: 1) Basal mice from the same cohorts as FLT mice, but tissues were recovered at time of launch, 2) Vivarium (VIV) were housed in standard cages 3) Ground Controls (GC) were housed in flight hardware within an environmental chamber at Kennedy Space Center. The health and behavior of all mice on the ISS were monitored by video feed on a daily basis. Mice were euthanized by injection of Euthasol, then either fast frozen intact or dissected to preserve livers (fast frozen) and spleens (RNAlater). Samples were stored at ≤ -80˚C until their return to Earth for later analyses.Hardware performed nominally throughout the mission and the planned in-flight science operations were completed successfully. FLT mice appeared generally more physically active on orbit than respective GC groups. After 33 days on the ISS, mean body weights of FLT mice did not differ from GC, with both groups showing a 6% rise compared to time of launch, while VIV mice showed an 8% rise over the same period. Importantly, there were no significant differences in body weights between groups at the end of 33 days on the ISS, providing an indication that the RR hardware supported the health of the mice both on Earth and in space. Based on the preliminary data obtained from the livers and spleens of mice after 17 days on the ISS, purified RNA was of high quality (RIN values of spleen: FLT=9.48 +0.40, GC=9.28 +0.44, n=5/group); therefore, RNA quality from samples retrieved on orbit was acceptable for even the most demanding transcriptomic analyses. In addition, liver enzyme activity levels (units/mg protein) of FLT mice (after 17d on ISS) and all control mice were similar in magnitude to samples that were optimally prepared by freezing in liquid nitrogen in the laboratory (enzymes analyzed included catalase, glutathione reductase and glyceraldehyde-3-phosphate dehydrogenase). Validation analyses still in progress include behavior and tissue biochemistries, as well as optimization of science return by post-flight recovery of tissues for biospecimen sharing and global expression analyses.Together, these preliminary findings demonstrate new capability for supporting long duration rodent research on the ISS to achieve both basic science and biomedical objectives.

Published
2015

15. Maximizing Science Return from Future Rodent Experiments on the International Space Station (ISS): Tissue Preservation

Author

Choi, S. Y, Lai, S, Klotz, R, Popova, Y, Chakravarty, K, Beegle, J. E, Wigley, C. L, and Globus, R. K

Subjects
Space Sciences (General)
Abstract

To better understand how mammals adapt to long duration habitation in space, a system for performing rodent experiments on the ISS is under development; Rodent Research-1 is the first flight and will include validation of both on-orbit animal support and tissue preservation. To evaluate plans for on-orbit sample dissection and preservation, we simulated conditions for euthanasia, tissue dissection, and prolonged sample storage on the ISS, and we also developed methods for post-flight dissection and recovery of high quality RNA from multiple tissues following prolonged storage in situ for future science. Mouse livers and spleens were harvested under conditions that simulated nominal, on-orbit euthanasia and dissection operations including storage at -80 C for 4 months. The RNA recovered was of high quality (RNA Integrity Number, RIN(is) greater than 8) and quantity, and the liver enzyme contents and activities (catalase, glutathione reductase, GAPDH) were similar to positive controls, which were collected under standard laboratory conditions. We also assessed the impact of possible delayed on-orbit dissection scenarios (off-nominal) by dissecting and preserving the spleen (RNAlater) and liver (fast-freezing) at various time points post-euthanasia (from 5 min up to 105 min). The RNA recovered was of high quality (spleen, RIN (is) greater than 8; liver, RIN (is) greater than 6) and liver enzyme activities were similar to positive controls at all time points, although an apparent decline in select enzyme activities was evident at the latest time (105 min). Additionally, various tissues were harvested from either intact or partially dissected, frozen carcasses after storage for approximately 2 months; most of the tissues (brain, heart, kidney, eye, adrenal glands and muscle) were of acceptable RNA quality for science return, whereas some tissues (small intestine, bone marrow and bones) were not. These data demonstrate: 1) The protocols developed for future flight experiments will support science return despite delayed preservation post-euthanasia or prolonged storage, and 2) Many additional tissues for gene expression analysis can be obtained by dissection following prolonged storage of the tissue in situ at -80 C. These findings have relevance both to high value, ground-based experiments when sample collection capability is severely constrained, and to all future spaceflight experiments that entail on-orbit sample recovery by the ISS crew.

Published
2014

16. Maiden Voyage of the Rodent Habitat on ISS: Opportunities for Investigating Molecular Mechanisms and Biomedical Consequences of Long Duration Spaceflight

Author

Globus, R. K, Choi, S, Wigley, C, Pletcher, D, and Beegle, J

Subjects
Life Sciences (General)
Abstract

Research using rodents is an essential tool for advancing biomedical research on Earth and in space. The National Research Counsel’s Decadal survey (1) emphasized the importance of expanding NASAs life sciences research to perform long duration, rodent experiments on the International Space Station (ISS). To accomplish this objective, flight hardware, operations, and science capabilities were developed at NASA ARC to support both commercial and government-sponsored research. In preparation for the maiden voyage of the Rodent Habitat hardware and operations system (Rodent Research-1), and in close consultation with a Science Working Group comprised of veterinarians and experienced spaceflight investigators, we modified existing Animal Enclosure Module hardware, developed new hardware, operations, and science activities, and performed a series of ground-based verification tests. Preflight, ground based hardware tests included a simulation of SpaceX Dragon launch conditions (vibration and hypergravity) using the Transporter, and also two long-term biocompatibility tests (32 and 92 days) using the Habitat developed for long term housing on the ISS. The launch simulation test showed that adult mice housed in Transporter hardware adapted well, even if launch simulation was followed by a period of simulated weightlessness (via hind limb unloading). The biocompatibility tests demonstrated that the Habitat successfully supported animal health and also provided a useful video imaging system that enables frequent monitoring of animal health and behavior by veterinary and scientific experts on the ground, independent of ISS crew intervention. At the conclusion of all tests, mice were deemed healthy and suitable for conducting biological research. Additional preflight analyses of tissues preserved by freezing or fixation for gene expression analyses revealed that spleen and liver tissues recovered under conditions that simulated on-orbit activities yielded high quality RNA (RIN values 8-10) and liver enzyme activities and protein content (e.g. catalase). In addition, new methods were developed to optimize future science return by dissecting tissues post-euthanasia and storage. Various tissues were harvested from either intact or partially dissected, frozen carcasses after storage for ~2-6 months; most of the tissues (brain, heart, kidney, eye, adrenal glands and skeletal muscle) were of high RNA quality for science return, whereas some tissues (small intestine, bone marrow and bones) were not. These data demonstrated the protocols developed for future flight experiments supported science return despite delayed preservation post-euthanasia or prolonged storage, and furthermore, that high-quality RNA samples from many different tissues can be recovered by dissection following prolonged storage of the tissue in situ at -80˚C. The first flight experiments carrying 20 mice were launched on Sept 21, 2014 in an unmanned Dragon Capsule, SpaceX4; Rodent Research-1 is dedicated to achieving both NASA validation and CASIS science objectives. Ground based control groups (housed in flight hardware or standard cages) were maintained in environmental chambers at Kennedy Space Center. Crewmembers previously trained in animal handling transferred mice from the Transporter into Habitats under simultaneous veterinary supervision by video streaming and were deemed healthy. Health and behavior of all mice on the ISS was monitored by video feed on a daily basis. The 10 mice for validation (16wk old, female C57Bl6/J) ambulated freely and actively throughout the Habitat, relying heavily on their forelimbs for locomotion. The first on-orbit dissections of mice were performed successfully on Oct 12 and 13, 2014, and the validation mice will reside on ISS for up to 30 days. In conclusion, new capability for long duration rodent research is under development, including in-flight sample collection (which avoids the complication of reentry); results obtained to date will be described. This new Rodent Research system enables achievement of both basic science and translational research objectives to advance human exploration of space.

Published
2014

17. Rodent Research Development for Long Duration Studies on the International Space Station

Author

Globus, R. K, Choi, S, Leveson-Gower, D, Wigley, C. L, Pletcher, D, Souza, JK, and Beegle, J

Subjects
Life Sciences (General)
Abstract

Rodent research in space is needed to advance our understanding of the health risks,consequences and possible countermeasures to protect crew during future, long duration missions. TheAnimal Enclosure Module (AEM) was designed originally to support habitation of rats and mice onrelatively short duration, Shuttle missions (<19 days). The AEM was flown previously on 27 SpaceShuttle missions, and recently was modified extensively to support future long duration space biology andbiomedical research on the International Space Station (ISS). In consultation with a Science WorkingGroup comprised of veterinarians and investigators experienced in rodent spaceflight experimentation inspace, the Rodent Habitat project team at Ames Research Center modified existing hardware, developednew hardware, operations, and science activities, and performed a series of ground-based operational andscience habitat verification tests in preparation for the first validation flight.

Published
2014

18. Retirement Function and Community Growth in Michigan Nonmetropolitan Areas.

Author

Wang, Ching-li and Beegle, J. Allan

Abstract

In an effort to determine the extent to which the development of the retirement function can contribute to growth and development of rural communities, 42 counties not adjacent to Standard Metropolitan Statistical Areas in Michigan were studied. The retirement function was treated as a specialized community function, parallel to specialization such as agriculture, manufacturing, or services; community was seen as the basic form of organization in which a population adapts to its environment. It was found that none of the specialized functions directly promoted community growth between 1970 and 1975. The retirement function, however, had an impact on wholesale and retail activities and on migration of younger people, which in turn affected population growth and structural development. Migration of younger people to the community was found to be the crucial factor determining population growth and structural development. Since the inmigration of younger people to nonmetropolitan areas was associated with the development of the retirement function more strongly than with any other specialized community function, it was concluded that the development of the retirement function in nonmetropolitan areas was the most important factor contributing to population growth and structural development between 1970 and 1975. (BR)

Published
1978

19. The Integration of Rural Migrants in New Settings

Author

Rieger, Jon H. and Beegle, J. Allan

Abstract

Using an index measuring both formal and informal social contacts with native urban residents, the integration process of rural migrants was plotted over time through a cross-sectional analysis of 688 residences for a sample from Michigan's Upper Peninsula. (Author/KM)

Published
1974

20. Differential Fertility in a Metropolitan Society. Rural Sociological Society Monograph Number 1, 1972.

Author

West Virginia Univ., Morgantown., Rice, Rodger R., and Beegle, J. Allen

Abstract

Information presented in this monograph is an extension and reanalysis of data forming a part of the 1960 census monograph, "The People of Rural America." The main purpose of the monograph is the analysis of the variation in rural and urban fertility levels in the United States. Major questions upon which the study is focused include: (1) What is the magnitude and trend of the urban-rural fertility differential, and (2) How are intercommunity differences in urban fertility levels to be explained? Findings based on the data analysis are that there is a need for new approaches to the study of differential fertility; that a distributive approach, operationalized in the form of multiple regression analysis, is valuable for studies of this type; and that substitution of metropolitan dominance theory for urban dominance theory in differential fertility analysis produces new questions and problems and produces new dimensions for further research. (PS)

Published
1972

21. SOME DEMOGRAPHIC CHARACTERISTICS OF RURAL YOUTH.

Author

National Committee for Children and Youth, Washington, DC. and BEEGLE, J. ALLAN

Abstract

RURAL YOUTH, DEFINED AS THOSE AGED 15 TO 24, COMPRISE AN IMPORTANT PORTION OF THE U.S. POPULATION. THEY NUMBER 7.5 MILLION PERSONS, WITH 5.7 MILLION RESIDING IN RURAL-NONFARM AREAS AND 1.8 MILLION RESIDING IN RURAL-FARM AREAS. RURAL-NONFARM AND RURAL-FARM YOUTH IN THESE AGES FORM A LARGER PERCENTAGE OF THEIR RESPECTIVE TOTAL POPULATION THAN URBAN YOUTH. RURAL YOUTH AGED 15 TO 19 ARE MORE NUMEROUS THAN THOSE AGED 20 TO 24, BECAUSE OF OUT-MIGRATION. RURAL YOUTH ARE MORE CONCENTRATED IN THE SOUTH THAN IN ANY OTHER REGION. OF THE 7.5 MILLION RURAL YOUTH, APPROXIMATELY 925,000 ARE NONWHITES NONWHITES REPRESENT SLIGHTLY MORE THAN 11 PERCENT OF THE RURAL-NONFARM YOUTH BUT NEARLY 15 PERCENT OF RURAL-FARM YOUTH. SEX RATIOS OF MALES PER 100 FEMALES ARE HIGH IN RURAL POPULATIONS. AMONG RURAL-NONFARM YOUTH AGED 15 TO 24, THE SEX RATIO IS 113 TO SIX, AMONG RURAL-FARM YOUTH OF THESE AGES, THE SEX RATIO IS 120 TO FOUR. THESE HIGH RATIOS ARE ASSOCIATED WITH THE HIGH RATE OF OUT-MIGRATION OF FEMALES FROM RURAL AREAS, AND WITH THE LOCATION OF MILITARY BASES AND PENAL INSTITUTIONS IN RURAL AREAS. THE AGE GROUP UNDER CONSIDERATION COVERS THE PERIOD IN WHICH MOST MARRIAGES OCCUR IN THE UNITED STATES. APPROXIMATELY ONE IN EVERY SIX OR SEVEN FEMALES AGED 15 TO 19 IN RURAL AREAS IS MARRIED WHEREAS ONLY ONE IN 25 OR 30 MALES OF THIS AGE IS MARRIED. AT EACH AGE BETWEEN 14 AND 24, LOWER PROPORTIONS OF RURAL THAN URBAN YOUTH ARE ENROLLED IN SCHOOL. THE AGE 15 TO 24 IS THE ONE IN WHICH MOST YOUTHS ENTER THE LABOR FORCE. FOR URBAN MALES 14 TO 15 YEARS OLD, THE PERCENTAGE IN THE LABOR FORCE RANGES FROM 12 TO 23 PERCENT, FOR RURAL MALES, THE COMPARABLE RANGE IN PERCENTAGE IS FROM 77 TO 91. THE RURAL-NONFARM POPULATION WILL KEEP PACE WITH URBAN GROWTH, THE RURAL-FARM PORTION WILL DECLINE.

Published
1963

25. Accounting instructors' perceptions of how they teach versus how they were taught.

Author

Beegle, J. and Coffee, D.

Subjects
*BUSINESS education
Abstract

Comments on the types of teaching techniques found among accounting professors and holds that the dominant techniques are lecture and problem presentation. Assumes that accounting professors tend to emulate in the classroom the teaching that they experienced as students under the instructors whom them considered most effective. Survey design; Results; Discussion; Conclusion.

Published
1991
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26. THE CONSEQUENCES OF POPULATION GROWTH FOR PINE TREE COUNTY, MICHIGAN.

Author

Rathge, Richard W. and Beegle, J. Allan

Subjects
POPULATION, SOCIAL work education, LAND economics, REAL estate development, WEALTH tax, EMIGRATION & immigration, RURAL sociology
Abstract

The purpose of this study was to examine the institutional responses to population growth in a rural Michigan county. Observations in Pine Tree County suggest that newcomers were quite selective in their choice of residence sites, they located primarily along lakes and rivers and in wooded areas on sites that are generally hidden. Hence, many long-time residents in the county are not aware of the nature and extent of population growth. Varied perceptions among community leaders often attenuate successful efforts at mitigating impacts of population growth. Inadequate communication between residents and school administrators, for instance, has fostered an array of problems in the educational system. A desire to maintain a laissez-faire stance in regard to land use by officials has helped to create some undesirable environmental and aesthetic impacts. Higher property taxes and increased dependency ratios have accompanied population growth. Shifts in the characteristics of the county's population, especially the increased numbers of elderly and welfare clients due to in-migration, has increased the demand for health and social services. Evidence from Pine Tree County suggests a need to understand more fully the range and nature of the impacts of urban-to-rural migration. A major issue brought to the forefront by the Pine Tree County case concerns changing land use. Increased demand for land, for example, serves to inflate land values and to elevate property taxes, which disproportionately affect those on fixed incomes, such as the elderly. The changing characteristics of the population in rural areas will have significant ramifications.

Published
1985

27. URBAN DOMINANCE AND THE RURAL-FARM STATUS STRUCTURE.

Author

Stoeckel, John and Beegle, J. Allan

Subjects
RURAL families, POPULATION, SEX differences (Biology), HYPOTHESIS, RURAL population
Abstract

The impact of urban dominance on the status structure (occupation, education, income) of the rural-farm population in the U. S. North Central Region was analyzed. Hypotheses based on the diminishing effect urban centers have on the farm population as size of center decreases and as distance from the center increases were tested by a correlational analysis. in addition, the predictive value of these variables for the status structure was assessed by a multiple R analysis. The findings indicated a direct relationship between dominance and farm occupational and income status, and dominance was found to be an adequate predictor of these variables. No relationship was found between dominance and farm educational status. Lack of control of sex differences in educational attainment and the older age structure of the farm population are proposed as reasons. [ABSTRACT FROM AUTHOR]

Published
1969

28. SOCIAL STRUCTURE AND CHANGING FERTILITY OF THE FARM POPULATION.

Author

Beegle, J. Allan

Subjects
HUMAN fertility, RURAL-urban differences, SOCIAL structure, HOMESITES, RURAL population, CENSUS
Abstract

Relatively large rural-urban differences persisted in the United States in 1960 despite the well-documented narrowing of many of the usual fertility differentials. Higher rural-farm than urban fertility levels were found for all age groups of married women in all census divisions, as measured by the number of children ever-born per 1,000 married women aged 15 to 45. Nine independent variables were successful in explaining a substantial proportion of the variation in rural-farm fertility levels of whites and nonwhites. Location of the farm population with respect to metropolitan area was the most useful "explanatory" variable in most of the analyses. It is suggested that rural-urban fertility differences will continue to diminish as the two sectors become even less differentiated. The apparent strength of the fertility differential in 1960, it is contended, is related to the farm family structure which is not yet obsolete in a large sector of American agriculture. [ABSTRACT FROM AUTHOR]

Published
1966

29. THE RELATIONSHIP BETWEEN THE RURAL-FARM AGE STRUCTURE AND DISTANCE FROM A METROPOLITAN AREA.

Author

Stoeckel, John and Beegle, J. Allan

Subjects
RURAL population, METROPOLITAN areas, OLD age, POPULATION, URBAN growth
Abstract

The relationship between the age structure of the rural-farm population of the United States by regions and distance from the nearest Standard Metropolitan Statistical Area (SMSA) is investigated. Hypotheses are generated on the basis of the diminishing effect a metropolitan area has upon its hinterland population as distance increases. The findings indicate a direct relationship between proportions of rural-farm youth and distance (operationalized in terms of 50-mile bands) from the nearest SMSA; proportions of rural-farm aged show an inverse relationship with distance. It was also found that those in the younger portion of the economically active segment of the farm age structure exhibited little or no variation with distance. Two factors are proposed that may contribute an additional explanation of the findings: these are size and economic function of urban place and occupational composition of the rural-farm population within distance bands. [ABSTRACT FROM AUTHOR]

Published
1966

30. THE MEASUREMENT OF COMMUNITY SATISFACTION AND THE DECISION TO MIGRATE.

Author

Schulze, Rolf, Artis, Jay, and Beegle, J. Allan

Subjects
COMMUNITIES, SATISFACTION, IMMIGRANTS, RURAL youth, EMIGRATION & immigration
Abstract

This article reports an attempt to test the basic assumption that the desire to migrate is inversely related to the degree of satisfaction with the home community, and some related factors on a sample of potential migrants, namely, high school seniors in a rural area of Michigan. It presents a study of the migration attitudes of farm youth from rural areas with relatively high outmigration. It examines some of the social-psychological aspects of migration, which have received relatively less attention than demographic factors. More specifically, this study, examines the residential, occupational, and educational plans of a sample of high school seniors from four rural counties of central Michigan. The focus of this article is the anticipated migration behavior of rural high school seniors about to graduate. In the spring of 1958 a self-administered questionnaire, designed to elicit information on community satisfaction, occupational, residential, and educational aspirations was submitted to the 545 respondents in this study.

Published
1963

31. News Notes.

Author

Beegle, J. Allan

Subjects
RURAL sociology, UNIVERSITIES & colleges
Abstract

The article presents information on recent developments related to rural sociology in the U.S. At the Louisiana State University researcher Alvin L. Bertrand was awarded a Social Science Research Travel Grant to the European Rural Sociological Association Meeting in Saint Woffgang, Austria, from September 24-28, 1962. Louis Guttman served as Distinguished Visiting Professor at Michigan State University during the fall quarter. Guttman was at Michigan State under the joint auspices of the Departments of Psychology and Sociology and Anthropology. An alumnus of the University of Minnesota, where he received the Ph.D. degree in sociology, he has served on the faculty at Cornell University and was a special consultant to the Department of the Army during World War H. Wade H. Andrews has resigned as associate professor of rural sociology to accept a position as U.S.D.A. Social Science Analyst, stationed at Colorado State University. His new responsibilities include coordination of rural sociological research in the Inter-Mountain Area sponsored by the U.S.D.A. Division of Farm Population and Rural Life.

Published
1963

32. Minutes of the Annual Meeting of The Rural Sociological Society, 1961.

Author

Beegle, J. Allan, Ellenbogen, Bert, Copp, James H., Polson, Robert A., Rogers, Everett M., Coleman, A. Lee, and Wileden, A. F.

Subjects
RURAL sociology, CONFERENCES & conventions, PRESS conferences, COLLEGE teachers, SOCIOLOGY
Abstract

The article presents information about the proceedings of various meetings on sociology. The Executive Committee Meeting, held on Sunday, August 27, 1961, was called to order by President M. E. John. Other members present were Charles R. Hoffer, Paul J. Jehlik, Eugene A. Wilkening and James H. Copp. President-Elect Harold F. Kaufman was unable to attend because of an overseas assignment in India. The Executive Committee agreed that discussions of the relationship of the Rural Sociological Society to the American Sociological Association should be conducted with officials of the Association at the forthcoming meeting of the Association in St. Louis. It was pointed out that the Society and the Association are in a position to further each other's interests through cooperative action. The brochure being prepared by the Committee on the Development of Rural Sociology was discussed, and it was agreed that the membership should be asked at the business meeting for authorization to proceed with its publication. The Business Meeting, held on Sunday, August 27, 1961, was called to order by President M. K. John, who introduced Professor Robert Parks, Vice President for Academic Affairs, Iowa State University. Professor Parks extended greetings from Iowa State University to members of the Rural Sociological Society.

Published
1962

33. Demographic Characteristics of the United States-Mexican Border.

Author

Beegle, J. Allan, Goldsmith, Harold F., and Loomis, Charles P.

Subjects
DEMOGRAPHY, GEOGRAPHIC boundaries, PERSONAL names
Abstract

This paper attempts to describe and to summarize by means of a typological analysis the salient characteristics of the population in the United States--Mexican border area. The area under focus consists of the five southwestern states for which data on Spanish surnames were available and the six Mexican states adjacent to the international boundary. Distributions of Spanish surname persons are plotted for cities and minor civil divisions in the five southwestern states. The populations on both sides of the border are examined with respect to selected attributes. Demographic comparisons are made between Spanish surname and non-Spanish surname populations of the five southwestern states. This is followed by a typological analysis summarizing the characteristics of the relevant populations. [ABSTRACT FROM AUTHOR]

Published
1960

34. PART II LEVELS AND TRENDS IN RURAL MORTALITY.

Author

Hitt, Homer L., Beegle, J. Allan, and Burrus, John N.

Subjects
MORTALITY, DEATH rate, RURAL sociology, DEMOGRAPHY, SOCIAL history, SOCIAL indicators
Abstract

This article focuses on levels and trends in rural mortality in the U.S. and explores major causes related to it. It describes that mortality exerts a direct influence upon the size of a population and hence it is, suggestively, a factor to be considered in all predictions of population change and growth. The first half of 20th century in the U.S. has witnessed a steady decline in mortality. Data related to it, show that the reduction during this period was of much greater magnitude among urban than among rural people. Many studies have found that small urban centers, ranging in population from 2,500 to 10,000 persons, are characterized by the highest mortality of any residential category. It is suggested that the study of differentials in mortality for the several residence groups should be concerned with the varying importance of specific causes of death as well as with differences in general mortality rates. The analysis of levels and trends, the indispensability of taking account of the factors of age, sex, and race simultaneously with that of residence should also be recognized. Several investigators have pointed out in some detail the many data problems that confront the researcher investigating the relationship between residence and mortality.

Published
1954

35. SUICIDE: AN INSTANCE OF HIGH RURAL RATES.

Author

Schroeder, W. Widick and Beegle, J. Allan

Subjects
SUICIDE, RURAL population, FARM managers, DEATH, AGRICULTURAL scientists
Abstract

Contrary to expectation, rural males in Michigan exhibit higher suicide rates than urban males. The study shows that this difference remains when the two populations are controlled for variations in age, sex, race, and nativity. The rural male suicide rate in Michigan was found to be higher than the urban male suicide rate for both native-born white and foreign-born white persons at almost all ages. While "farmers and farm managers" have a very high suicide rate in Michigan, the majority of "rural" males who commit suicide are engaged in urban occupations and reside in urbanized fringe areas. These findings are based upon analysis of 3,081 cases of suicide in Michigan between 1945 and 1949. [ABSTRACT FROM AUTHOR]

Published
1953

36. Characteristics of Michigan's Fringe Population.

Author

Beegle, J. Allan

Subjects
RURAL sociology, FERTILITY, DEMOGRAPHY, CITY dwellers, AGE groups, SOCIAL status, SOCIAL history
Abstract

Copyright of Rural Sociology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
1947

38. THE AGE STRUCTURE OF THE FARM POPULATION IN 1950.

Author

Beegle, J. Allan

Subjects
AGE distribution, RURAL population, POPULATION research, FARMS, DEMOGRAPHY, SOCIAL sciences
Abstract

This article investigates the age structure of the rural-farm population in the U.S. By computing the index number for each five-year age group of the urban-rural farm populations, it was shown that the age structure has large proportions of young persons and small proportions in the economically productive as well as the older age group. Age structure differences within the farm population are notable due to variations in social and economic conditions. A summary of the age structure of the farm population of the four regions in the U.S. is presented.

Published
1954

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