ABSTRACT
A study was made of tissues from 130 pocket mice after a single head-only exposure to high-LET 20Ne particle radiation at 1000, 100 or 10 rad (nominal surface dose) with the view of obtaining base"line data regarding the effectiveness of HZE (cosmic-ray) particles during spaceflight. First seen at 2-3 weeks after exposure, necrotic neurons in the cerebrum reached peak incidence (0 . 04 per cent at 1000 rad, 0 . 003 per cent at 100 rad and less than 0 . 0005 per cent at 10 rad) after 4-5 weeks and decreased to low levels thereafter. Incidence in the cerebellum was lower. Neuroglia, cells of the subependymal matrix and dentate gyrus precursor cells suffered acute damage at 1000 and at 100 rad. At 1000 rad, enlarged hyperchromatic neuroglia, first noted at 3 weeks, increased in number up to 7 months, then declined. Alterations in the retina and olfactory epithelium were seen at 1000 rad, and reaction in the scalp at 100 rad. Damage was incurred by dentinoblasts at 10 rad. Changes similar to those observed in pocket mice were found in the brains of gerbils and C57B1 mice.
Subject(s)
Brain/radiation effects , Eye/radiation effects , Neon , Animals , Brain/pathology , Brain/ultrastructure , Eye/pathology , Frontal Lobe/pathology , Frontal Lobe/radiation effects , Head/pathology , Head/radiation effects , Mice , Microscopy, Electron , Nasal Mucosa/pathology , Nasal Mucosa/radiation effects , Neuroglia/pathology , Neuroglia/radiation effects , Particle Accelerators , Radiation Dosage , Scalp/pathology , Scalp/radiation effects , Tooth/pathology , Tooth/radiation effectsABSTRACT
Fractionated irradiation with high-energy protons was given postoperatively to seven patients with malignant glioma. In four cases in which detailed microscopic examinations were performed, radiation induced tumour necrosis was evident but in all four cases viable tumour cells were also observed. No abnormalities that could be attributed to radiation were observed in brain tissue free from tumour. The therapeutic results were comparable to the results achieved by other modern therapies. The results support the view that the RBE of high-energy protons is similar to that for 60Co radiation. It is suggested that a larger radiation dose, delivered by a homogeneous, well-defined proton field could possibly result in an improved therapeutic result without undue risk of injury to normal brain tissue.
Subject(s)
Brain Neoplasms/radiotherapy , Glioma/radiotherapy , Protons , Radiotherapy, High-Energy , Adult , Astrocytoma/pathology , Astrocytoma/radiotherapy , Astrocytoma/surgery , Brain/pathology , Brain Neoplasms/pathology , Brain Neoplasms/surgery , Female , Glioblastoma/pathology , Glioblastoma/radiotherapy , Glioma/pathology , Glioma/surgery , Humans , Male , Middle AgedABSTRACT
To detect the passage of cosmic ray particles through the heads of the pocket mice during the Apollo XVII flight, a "monitor" (dosimeter) composed of plastics was prepared and implanted under the scalp. The monitor was mounted on a platform, the undersurface of which fitted the contour of the skull. Numerous tests were run to assure that the presence of the monitor assembly beneath the scalp would be compatible with the well-being of the mice and that the capacity of the monitor to detect the traversal of cosmic ray particles would be preserved over the several weeks during which it would remain under the scalp.
Subject(s)
Cosmic Radiation , Radiation Effects , Radiation Monitoring/instrumentation , Space Flight , Animals , Mice , Scalp , United StatesABSTRACT
The primary objective of the experiment was to determine whether a specific portion of the high Z-high energy (HZE)* galactic cosmic ray particle spectrum, especially particles with Z greater than or equal to 6, can produce microscopically visible injury of brain and eye tissues. Pocket mice (Perognathus longimembris), obtained from the California desert, were selected as the biological target. Five of these mice were flown on Apollo XVII. Not only the brain and eyes but also many other tissues of these animals were studied for evidence of cosmic ray particle damage. The lack of prior experimental evidence as to the character of the potential injury induced by HZE particles required reliance on the physical characteristics of particle radiation in ascertaining the probable nature of the injruy. These characteristics and the key aspects of the experiment are summarized in this paper. Subsequent articles in this special supplement give details of the biological, engineering, and dosimetric aspects of BIOCORE together with the results.
Subject(s)
Brain/radiation effects , Cosmic Radiation , Eye/radiation effects , Radiation Effects , Space Flight , Animals , Brain/pathology , Ear/pathology , Environment, Controlled , Erythropoiesis/radiation effects , Eye/pathology , Humidity , Kidney/pathology , Life Support Systems , Liver/pathology , Lung/pathology , Meninges/pathology , Mice , Models, Biological , Olfactory Mucosa/pathology , Oxygen , Partial Pressure , Scalp/pathology , Temperature , United StatesABSTRACT
Experiments designed to ascertain the effects of oxgen at 8, 10, and 12 psi partial pressure on the brains of pocket mice (Perognathus longimembris) were carried out at room temperature (24 degrees C, 75 degrees F) and at 32 degrees C (93 degrees F). The animals exposed to 8-12 psi at 32 degrees C had been in earlier KO2 oxygen tests. Five animals exposed either to 10 or 12 psi (517 mm or 620 mm HG) PO2 at 32 degrees C died during the course of the tests, possibly as a consequence of injury sustained by the earlier PO2 testing. Autopsy was not carried out. In the other 36 exposed animals, no pathological changes were observed in the brain. It is thus highly probable that oxygen pressures at the hyperbaric levels to which the pocket mice would be exposed during the Apollo XVII mission would not result in any lesions in the brain.
Subject(s)
Adaptation, Physiological , Brain/drug effects , Cosmic Radiation , Hot Temperature , Oxygen/toxicity , Radiation Effects , Space Flight , Animals , Atmosphere Exposure Chambers , Brain/pathology , Environment, Controlled , Mice , Partial Pressure , United StatesABSTRACT
The final phase to fly five pocket mice in the Apollo XVII command module was carried out at the NASA Kennedy Space Center. Upon completion of the 13-d space flight, the package was removed from the spacecraft and, after having been purged with an oxygen-helium gas mixture, was flown to American Samo. Four of the five mice were recovered alive from the package. Analysis of the mouse that died during the flight revealed several factors that could have contributed to its death, the chief of which was massive hemorrhage in its middle ear cavities.
Subject(s)
Cosmic Radiation , Radiation Effects , Space Flight , Animals , Behavior, Animal , Brain/pathology , Ear Diseases/pathology , Ear, Middle/pathology , Female , Hemorrhage/pathology , Life Support Systems/instrumentation , Male , Mice , United StatesABSTRACT
In the five pocket mice flown on Apollo XVII, no evidence was found that the inner ear had been damaged, though poor fixation precluded detailed study. On the other hand, the middle ear cavity was involved in all the mice, hemorrhage having occurrred in response to excursions in pressure within the canister that housed the mice during their flight. The same occurred in flight control mice which had been subjected to pressure excursions of much the same magnitude. A greater degree of exudation into air cells and greater leukotaxis were noted in the flight animals than in the control animals. There was no increase in leukocyte population along the paths of the 23 cosmic ray particles registered in the subscalp dosimeters that traversed the middle ear cavities of the flight mice. The increased exudation and the greater response by leukocytes in the flight mice may have been causally related to the lesions found in their olfactory mucosa but there were no data in support of this possibility.
Subject(s)
Cosmic Radiation , Ear, Middle/radiation effects , Radiation Effects , Space Flight , Animals , Atmospheric Pressure , Cell Aggregation , Ear Diseases/pathology , Ear, Middle/anatomy & histology , Ear, Middle/pathology , Exudates and Transudates , Hemorrhage/pathology , Leukocytes , Mice , Oxides , Oxygen , Potassium , United StatesABSTRACT
The olfactory epithelium, but not the nasal respiratory epithelium, of the four pocket mice (Perognathus longimembris) that survived their flight on Apollo XVII showed both diffuse alterations and numerous disseminated focal lesions. The olfactory mucosa of the mouse that died during flight was also affected, but to a minor degree insofar as could be determined. All this was in contrast to the normal appearance of the olfactory mucosa of the numerous control animals. A number of possible causes were considered: systemic or regional infection; inhaled particulate material (seed dust); by-products from the KO2 bed in aerosol or particulate form; gas contaminants originating in the flight package; volatile substances from the dead mouse; weightlessness; and cosmic ray particle radiation. Where feasible, studies were conducted in an effort to rule in or rule out some of these potentially causative factors. No definitive conclusions were reached as to the cause of the lesions in the flight mice.
Subject(s)
Cosmic Radiation , Nasal Mucosa/radiation effects , Radiation Effects , Space Flight , Aerosols , Animals , Dust , Environmental Pollutants , Infections , Mice , Nasal Mucosa/anatomy & histology , Nasal Mucosa/pathology , Potassium , Radiation Monitoring , Seeds , United StatesABSTRACT
Tissue reactions were found around the monitor (dosimeter) assemblies that had been implanted beneath the scalp of the five pocket mice that flew on Apollo XVII. Mitosis in the dentate gyrus of the hippocampal formation was considerably reduced in comparison with that in control animals. Otherwise the brain tissue as well as the menings in the flight animals appeared unaltered. Since the animals were exposed primarily to high Z-high energy (HZE) cosmic ray particles at the lower end of the high LET spectrum, the lack of changes in the brain cannot be taken as evidence that the brain will suffer no damage from the heavier HZE particles on prolonged manned missions.
Subject(s)
Brain/radiation effects , Cosmic Radiation , Meninges/radiation effects , Radiation Effects , Skull/radiation effects , Space Flight , Animals , Brain/pathology , Meninges/anatomy & histology , Mice , Mitosis , Radiation Monitoring , United StatesABSTRACT
A closed passive system independent of support from the spacecraft or its crew was developed to house five pocket mice for their flight on Apollo XVII. The reaction of potassium superoxide with carbon dioxide and water vapor to produce oxygen provided a habitable atmosphere within the experiment package. The performance of the system and the ability of the mice to survive the key preflight tests gave reasonable assurance that to mice would also withstand the Apollo flight.
Subject(s)
Cosmic Radiation , Ecological Systems, Closed/instrumentation , Life Support Systems/instrumentation , Radiation Effects , Space Flight , Animals , Atmosphere , Behavior, Animal , Carbon Dioxide , Ear, Middle/pathology , Environment, Controlled , Feeding Behavior , Gravitation , Hemorrhage/epidemiology , Lung/pathology , Mice , Oxygen , Potassium , Superoxides , United States , WeightlessnessABSTRACT
Pocket mice are facultative homoiotherms with the ability to drop their metabolic rate dramatically while at rest or in response to environmental stresses. Under these conditions, they characteristically enter a state of prolonged torpor. These animals require no drinking water and they can live in darkness for many months without apparent ill effect. They tolerate a wide range of ambient temperature, ralative humidity, and oxygen pressure and have survied without food for a mean of 14 d at an ambient temperature of 20 degrees C (68 degrees F). Studies carried out on the pocket mouse colony used for the Apollo XVII flight revealed, in the animals tested, no serological evidence of viral disease, no pathogenic enterobacteria or respiratory Mycoplasma on culture, a 25% incidence of sarcosporidiosis, and a 2% incidence of chronic meningitis or meningoencephalitis. The conclusion reached is that the pocket mouse is a highly adaptive animal and very well suited for space flight.
Subject(s)
Adaptation, Physiological , Cosmic Radiation , Radiation Effects , Space Flight , Animals , Environment, Controlled , Humidity , Meningitis/epidemiology , Meningoencephalitis/epidemiology , Mice/metabolism , Mice/physiology , Models, Biological , Sarcocystosis/epidemiology , Temperature , United StatesABSTRACT
Histopathological findings in the lungs, livers, bone marrows, small intestines, gonads, kidneys, and other tissues of the four pocket mice (Perognathus longimembris) that survived the Apollo XVII flight were evaluated in the light of their immediate environment and as targest of HZE cosmic ray particles. Results of this study failed to disclose changes that could be ascribed to the HZE particle radiation. Decreased numbers of erythropoietic cells in the bone marrow of the flight mice were probably related to the increased oxygen pressure. The small intestine showed no changes. Ovaries and tests appeared normal. Two of the three surviving male flight mice displayed early stages of spermatogenesis, just as ground-based controls did at the same season. Abnormalities were also not found in the thyroid, parathyroids, adrenals, or kidneys. The status of the juxtaglomerular apparatus could not be evaluated. The lungs exhibited nonspecific slight rections. A variety of incidental lesions were noted in the livers of both the flight mice and their controls. The heart muscle showed nothing that could be regarded as pathological. Sections of skeletal muscle examined were free from significant change.
