On my return to Japan after this, I found a letter on my desk inviting me to make comments on the space tourism study today. The excitement I experienced in Disney World might have made me more aggressive than usual. I responded to the letter positively.

I now remember with surprise what made me decide to take a ride on the thrilling Space Mountain. I think I completely trusted in the safety of the attraction; both the vehicle and its operation. When we fly with air lines, we believe the aircraft is absolutely safe, that is why we use it as transportation. This fact is apparently shown by the statistics of general aviation. Therefore, the most important condition for space tourism is safety. This is the premise of my comments to follow.

At first, I would like to discuss the space environment from the medical point of view.

Most aircraft used for transportation are pressurized. The pressure level is equivalent to an altitude of 2700m for transoceanic flights. In the case of space vehicles the pressure program to match the rate of climb will be a key issue. The gas composition will be another issue, since the cabin atmosphere will be made of a mixture of gases carried in bottles.

This is a special feature of space flight different from aircraft. At first, the high acceleration during ascent to space is inevitable. To our knowledge, the maximum endurable level of acceleration depends on the direction acting on the human body. Four G acting from head to foot will cause blackout, while two G is the maximum in the reverse direction. The relations of endurable G and direction of acceleration are shown by Figure in the next page.

In this figure, curve A is the case of water immersion, that is the human body in water. In this case, tolerable G levels are higher than 10 and tolerable time is 4 minutes for 10G. Other curves are acceptable if they are out side the solid line which represents a constant acceleration level and duration for typical launching conditions. It is most favorable for the acceleration level to be kept lower than 3 G.

Slow pitching and rolling motion will cause air sickness, but I do not know much about the motion of space launch vehicles. Vibration and acoustic noise should be eliminated for passenger transportation. It should be noted that many medical data including the diagram shown here are concerned with physiological limits, which are too severe for tourist passengers.

Space sickness is caused by weightlessness. Sea sickness can be compared to space sickness, but the conditions of seasickness which can be defined by the three symptoms of cold sweat, nausea and pale face are not observed in the case of space sickness. A person suffering from spacesickness suddenly throws up without bad feeling. It is necessary to make a medicine to cure the sickness. When one is space sick, it is difficult to eat medicine, so that an ointment type of medicine should be studied.

Spacesickness is the main medical problem for space tourism. In this space tourism study plan, the phase one tour was proposed based on the assumption that three hours flight in weightless condition would not cause spacesickness. I am skeptical about this assumption. At present astronauts undertake various forms of physical training, which seem to improve their durability against space sickness. I am afraid some ordinary people may become sick in several minutes, as in the case of seasickness. Human blood moves to the upper past of the body under weightless condition. This occurs even during the short period of the phase one tour.

The Atlantic anomaly located between the altitudes of 90 and 160 km over the southern Atlantic ocean will be considered to be dangerous to human bodies.

In the scenario prepared for the proposed study, passengers are assumed to take a health inspection while they are enjoying rides on various types of attractions. This reminded me of my father's case. When he flew with airlines, there was a rule to reject aged persons who were older than seventy years old. But he always lied about his age. To make sure of this, I asked Japan Air Line if they had such old documents, but the answer was no.

For the future space tours, I hate to hang a sign to reject those who are "aged", and have "high blood pressure" and "lumbago". But we have to be careful of such a people who are determined to make their last tour to space. Actually the airlines have a simple criterion to check such a passenger. One such rule specifies warning against disease of the heart, low blood pressure, hypoxia and so on. However, some of these criteria are not clear, and so not useful. Thus, this is just an information for discussion.

In conclusion, medical aspects of space tourism can be discussed in such a frame work like this, but I would like to emphasize that only a few accidents can damage the dream of space tourism. In this respect, we should study practical themes such as the best angle of reclining seat or the attitude of passengers during flight, based on the phase one tourism described in the scenario.

NASA CR-1205, Compendium of Human Responses to the Aerospace Environment, Nov. 1968, Fig. 7-8 in p.7-20.