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Effect of Negative Air Ion Treatment on Blood
Serotonin..in Weather Sensitive Patients.
Y Pfeifer & FG
Sulman
This research was made possible by a
generous grant from Mr & Mrs Herman Lane N.Y. and the
Felton International Inc N.Y.
ABSTRACT. - Positive air ionization
elicited by hot dry desert wind spells (Sharav) was found to
correlate with blood serotonin in 20 weather sensitive
patients increasing from 14-20 mg% to 21-29 mg%. Exposure of
12 of these patients to artificial negative air ionization
during 3-6 hours brought blood serotonin back to normal values
of 15-20 m% (p,0.001-0.005), while in the 8 control patients,
who did not receive the ionising treatment, there remained a
high of 21-31 m%. The 12 treated patients had received during
3-6 hours from a grounded ionizer (Modulion) a negative ion
load ranging between 2.5 x 105 = 2.5 x 104 ions/cm3/s.
Thus, it can be concluded that increased
concentration of positive ions in the air increases blood
serotonin levels, whereas negative air ionization neutralizes
the effect of positive air ionization and reduces blood
serotonin levels to normal values.
Other blood parameters measured before
3-6 hours after negative air ionization included sodium,
potassium, CO2, chloride, glucose, urea nitrogen, cholesterol,
total protein, albumin, total bilirubin, alkaline phosphatase
and serum glutamic oxaloacetic transaminase (SGOT); none of
them were significantly changed.
INTRODUCTION
The use of negative air ionising
apparatuses has increased recently due to the enthusiastic
reports of their success in the lay press (Soyka and Edmonds,
1977). Negative air ionization has been progressively
introduced in Europe for daily use. It has also been found
useful in telephone exchanges, airplane cockpits, post
offices, tunnels and buildings where air conditioning may
produce a positive ion stream which has to be neutralized by
ionizer's with high negative output (Sulman, 1976).
There seems to be no doubt that positive
air ionization - in contradistinction to the negative one -
produces highly unpleasant reactions due to serotonin release
(Krueger, 1972). Weather sensitive people report before the
arrival of positive ion rich thunderstorms that they become
irritable and anxious, and they may be subject to heart
oppression, palpitations, dyspnoe and migraine. Others
complain of insomnia, tension, oedemata, rheumatic pain, scar
aching, precordial pain, flushes with sweat or chills,
vasomotor rhinitis, hyperperistalsis and polakisuria. We were
able to show that these complaints are provoked by the
prevalence of positive air ions which may completely replace
the negative ions. This ion shift to the positive charge
releases serotonin (Danon and Sulman, 1969). The passage of
hot or cold weather fronts in Israel is characterised by
abnormally high counts of positive ions and sferics which
provoke the "Serotonin Irritation Syndrome" (SIS) (Sulman et
al.,1976). Quantitatively hot fronts excel in high positive
ion counts and cold fronts in high sferics counts (Sulman,
1980). In view of these findings we studied the effect of
protracted negative air ionization on human blood serotonin
and other common blood parameters.
MATERIALS AND
METHODS
IONISING APPARATUS. - Negative ions were
generated by the Modulion(R) ionizer of Amcor-Amron (Herzliya,
Israel) which contains four ionising needles, each with a
5,000v charge. They produce corona discharges each emitting
2.5 x 1011 ions/s/mm3. As a Modulion can be used at a distance
of 1-4m, the actual ion density reaching a patient is 2.5 x
105 or 104 ions. The specifications of the apparatus are:
220/240v, 50/60Hz. A control neon light built into the on/off
switch flashes to indicate working condition. The 4 needles
can be touched without receiving any unpleasant electrical
discharge as the short circuit current on the high voltage
side is limited to ,0.1mA. Power consumption is 2W only.
Dimensions: length - 14.5cm, width - 9.5cm and height - 7.5cm.
Production of ozone and nitrous oxides is reduced to a minimum
and at a distance of 10cm ozone could not be traced by 0.05/a
Draeger Detection Tubes. Electrically charged aerosols have
not been encountered. Design is according to international and
European safety standards (VDE, SEV, IEC). the casing of the
Modulion is grounded which guarantees a stable and continuous
ion flux.
Measurements of ions, sferics and
electrofields were carried out using the method of Sulman et
al., 1976. They showed that weather sensitive patients
suffered only from changes in ion and sferics counts, not,
however, from extreme fluctuations of the
electrofields.
PATIENTS. - Twenty weather sensitive
patients suffering from incoming hot weather fronts were
chosen for the present study. They comprised 12 females and 8
males. Their sufferings began 24-48 hours before the arrival
of the weather front, thus stressing the medical importance of
the weather front which precedes the actual weather change.
The complaints included typical symptoms of the Serotonin
Irritation Syndrome (SIS), as described by Danon and Sulman,
1969, such as migraine, multiple oedemata of face (Quincke),
fingers or legs, heart palpitations, dyspnoe, hot flushes with
sweat or chills, vasomotoric rhinitis resembling hay fever,
conjunctivitis resembling conjunctivitis vernalis, rheumatic
pain of the extremities, hyperperistalsis resulting in
multiple defecation and polakisuria including hourly
micturition. SIS sufferings could be predicted by our daily
monitoring of air ions, sferics and electrofields during the 3
Sharav months March April May 1979. When the patients
complained of SIS symptoms 24-48 hours before the arrival of
the weather front - 10ml of blood were taken to measure blood
serotonin at zero hour (Sample I), and again on the arrival of
the weather front 1-5 hours later (Sample II). Then 12 of the
patients were exposed to negative air ionization, which could
be discontinued after 3-6 hours, as all of them reacted
favorably; the remaining 8 patients who served as controls
were not given negative air ionization. Subsequently, 10ml of
blood were again taken from all patients including the
controls for comparison at different time intervals (Sample
III).
IBLOOD ASSAYS. - Blood serotonin was
assayed according to Yuwiler et al., 1970: 5ml blood were
transferred to a tube containing 0.06ml of a K3 EDTA solution
with 0.2mg/ml of potassium sorbate. To avoid serotonin
destruction or release from thrombocytes the tube was gently
inverted and placed on ice until used. Another 5ml of
coagulated blood were transferred to a sequential multiple
analyzer (SMA) for determination of sodium, potassium, CO2,
chloride, glucose, urea nitrogen, cholesterol, total protein,
albumin, total bilirubin alkaline phosphatase and serum
glutamine oxaloacetic transaminase (3GOT). 5-HIAA was not
assayed since its blood level is too low to allow exact
determinations.
RESULTS
Table 1 shows the results obtained with
the 20 patients studied, 12 of whom were exposed to 3-6 hours
of negative air ionization during an incoming Sharav weather
front and 8 of whom had a dummy apparatus switched on for
control. The cases selected were those where positive air
ionization preceding a weather front would allow prediction of
their typical manifestation of a serotonin reaction. In all
cases blood serotonin values were within normal range when
patients came in (14-20 mg)% (SE + 1.7)*. These rose, however,
within 2 days with the arrival of the weather front, ranging
between 21-29mg% (SE + 1.8)* and decreased on the third day to
14-20mg% (SE + 2)* following ionising treatment. In the
controls, (i.e., no negative ions) high values of blood
serotonin (28-29mg%) (SE + 1.9)* persisted as long as the
Sharav lasted (1-2 days).
*
The SE values compared well with the daily exercise of our
laboratory where hundreds of such examinations are carried out
for 10 years
There were no changes in the other blood
parameters studied, viz. sodium, potassium, CO2, chloride,
glucose, urea nitrogen, cholesterol, total protein, albumin,
total bilirubin, alkaline phosphatase and serum glutamic
oxaloacetic transaminase (SGOT): they were normal before the
ionization treatment and remained so after the
treatment.
DISCUSSION
The technique of Yuwiler et al (1970)
used here prevents serotonin loss as well as serotonin release
from thrombocytes by blood manipulation. It is also not
dependent on fasting or ingestion of serotonin rich food, eg
bananas. Its SE is extremely low + 1.8 - 2.*
The effect of an increased concentration
of positive ions in the air on serotonin release confirms the
findings of Krueger, Hicks and Beckett (1963) and Sulman,
Levy, Lewy et al. (1974). The opposite effect of negative air
ionization on serotonin release and destruction has been shown
in man by Danon and Sulman (1969) and in vitro by Tal. Pfeifer
and Sulman (1976). It is noteworthy that the patients'
complaints of SIS appeared already before serotonin levels
were maximally increased. This may be due to normal breakdown
of 5-HT to 5-HIAA which was overridden when positive air
ionization became excessive.
The site of serotonin release is probably
mainly the hypothalamus which is the sensor of heat stress
effects. Participation of the carotid body has been mooted by
Behar et al. (1979). The involvement of the enterochromaffine
cells would elicit much higher values than those encountered
here.
The fact that negative air ionization
over 3-6 hours did not influence blood chemical components is
noteworthy, however more study should be devoted to this
finding using negative ionization for 24 hours, a period which
has been shown by us to be free of harmful side effects
(Sulman et al., 1978). Russian investigators cited in a NASA
report (1966) claimed that negative air ions may cause a
decrease in elevated blood cholesterol - a finding not yet
closely studied.
REFERENCES
BEHAR, AJ DEUTCH, E., POMERANTZ, E.,
PFEIFER, Y and SULMAN, FG (1979): Migraine, serotonin and the
carotid body. Lancet i: 550-551.
DANON, A. and SULMAN, FG (1969): Ionising
effect of winds of ill repute on serotonin metabolism.
Biometeorology 4. (Suppl. to Int. J. Biometeor.) 4 - Part II
135-136.
KRUEGER, AP (1972): Are air ions
biologically significant? A review of a controversial subject.
Int. J. Biometeor., 16: 313-322.
KRUEGER, AP., HICKS, WW and BECKETT, JC
(1963): Influence of air ions on certain physiological
functions. In Medical Biometeorology. SW Tromp (ed.). Elsevier
Publ. Comp., Amsterdam, 351-369.
NASA (1966): The aero-ionic composition of
pressurised cabin air and its influence on the human body.
Soviet Congress on Space Biol. & Med. Moscow. 10 Nov.
1966.
SOYKA, F. and EDMONDS, A. (1977): The Ion
Effect. Dutton & Co. Publ. N.Y., 181pp. SULMAN, FG (1976):
Health, Weather and Climate. Karger, Basel, 160pp.
SULMAN, FG (1980): The Effect of Air
Ionization, Electric Fields, Atmospherics and other Electric
Phenomena on Man and Animal. Charles C. Thomas, Springfield,
III., 400pp.
SULMAN, FG., DANON, A., PFEIFER, Y., TAL.,
E. and WELLER, CP (1970): Urinalysis of patients suffering
from climatic heat stress (Sharav). Int. J. Biometeor., 14:
45-53.
SULMAN, FG., LEVY, D., LEWY., PFEIFER, Y.,
SUPERSTINE, E. and TAL, E. (1974): Air ionmetry of hot, dry
desert winds (sharav) and treatment with air ions of weather
sensitive subjects. Int. J. Biometeor., 18: 313-318.
SULMAN, FG., LEVY, D. and LUNKAN, L
(1976): Wetterfuehligkeit und ihre Beziehung zu Sferics, Ionen
und Electrofeldern. Z. Physik. Medizin 5: 229-238.
SULMAN , FG., LEVY, D., LUNKAN, L.,
PFEIFER, Y. and TAL, E. (1978): Absence of harmful effects of
protraced negative air ionization. Int. J. Biometeor., 22:
53-59.
TAL, E., PFEIFER, Y. and SULMAN, FG
(1976): Effect of air ionization on blood serotonin in vitro.
Experienta (Basel) 32: 326-327.
YUWILER, A., PLOTKIN, S., GELLER, E. and
RITVO, EG (1970): A rapid accurate procedure for the
determination of serotonin in whole human blood. Biochem. Med.
(USA) 3: 426-436.
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