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TI:Title: Is Water Pollution a Cause of Cutaneous Melanoma
Chloroform in Alveolar Air of Individuals Attending Indoor
Swimming Pools
Disinfection of public pools and management of fecal
accidents
Risk of infection associated with microbiological quality of
public swimming pools in Bologna, Italy
Disinfection by-product formation in swimming pool waters: A
simple mass
balance
Gastroenteritis outbreak. Disease linked to swimming pool
and spa use
Factors associated with respiratory problems in swimmers
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TI:Title: Is Water Pollution a Cause of
Cutaneous Melanoma
AU: Author: Rampen, FHJ; Nelemans, PJ;
Verbeek, ALM
AF: Author Affiliation
Department of Dermatology, Sint Anna Hospital, Oss, The
Netherlands
SO: Source Epidemiology EPIDEY, Vol. 3, No. 3, p 263-265,
May 1992. 26 ref.
AB:Abstract
The incidence of cutaneous melanoma has risen steeply in
most countries with a predominantly white population. It is
the malignancy increasing most rapidly in incidence in
Western countries; incidence rates have almost doubled each
decade. Theoretically, water pollution is an important
candidate to consider as a cause of melanoma. Noxious agents
in the water come into direct contact with the skin and its
pigmentary system. Three possible routes of contact are: (1)
aquatic sports in
open waters which are heavily polluted with industrial and
domestic impurities; (2) swimming pools which are usually
decontaminated by chlorination with sodium hydrochlorite, an
agent which has been shown to be mutagenic in the Ames test
and other mutagenicity tests; and (3) in torrid regions, the
frequent use of bathing water. Although the maximum
concentration of polluting substances in tap water is
bound by strict regulations, certain chemicals, including
chlorinated organic
materials (organo-halides), may be present in such
concentrations as to be
mutagenic to the pigment cell, with its specific metabolic
pathways, without causing any health problems when ingested.
In all three routes of exposure, chlorine plays a critical
role. The skin pigmentary system seems to be a suitable
target organ for chlorine compounds or by-products having
oxidizing characteristics. It is concluded that the role of
worldwide pollution of rivers and oceans, and the
chlorination of swimming pool water, in causing melanoma
needs urgent appraisal by the scientific community.
(Lantz-PTT)
PY:
Publication Year
1992
DE:
Descriptors
*Chlorination; *Melanoma; *Public health; *Water pollution
effects; Cancer;
Chlorination byproducts; Cutaneous melanoma; Mutagens;
Recreation; Swimming
pools; Water treatment
CL:
Classification
SW 3060 Water treatment and distribution; SW 3030 Effects of
pollution
SF:
Subfile
Water Resources Abstracts
AN:
Accession Number
9210521
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Page
Title
Chloroform in Alveolar Air of Individuals Attending Indoor
Swimming Pools
Author
Aggazzotti, G; Fantuzzi, G; Righi, E; Tartoni, P; Cassinadri,
T
SO:
Source
Archives of Environmental Health AEHLAU, Vol. 48, No. 4, p
250-254,
July/August 1993. 4 fig, 1 tab, 17 ref.
AB:
Abstract
In an effort to minimize the risk of microbiological
contamination, swimming-pool water is usually chlorinated
with sodium hypochlorite or sodium
dichloroisocyanurate. Chemical reaction between chlorine and
organic substances in water produces halogenated compounds;
among these, trihalomethanes are the most common. Chloroform
is the most frequently occurring trihalomethane. As a
volatile substance, chloroform can be released from water to
air, where it can reach measurable levels in indoor swimming
pools. Alveolar air samples were collected from 163 subjects
at indoor swimming pools and from 77 non-exposed subjects to
determine the public health risk of chloroform in these
recreational areas. Chloroform was present in all samples
collected from exposed subjects (median = 695.02 nmol/cubic
m). Chloroform was found at very low levels in 53% of
samples from non-exposed subjects. Alveolar air chloroform
levels from people
attending indoor swimming pools (mean value within each
sampling session) were correlated with environmental air
concentration (r = 0.907, p = .002). Analysis of variance
showed that levels of chloroform in alveolar air depend on
environmental air concentration, age, intensity of the sport
activity, and kind of swimming.
Chloroform levels in samples collected
from competitive swimmers versus
non-swimming visitors were different (F = 10.911, p = .001).
Moreover, their pattern of swimming may affect chloroform
concentration in alveolar air. The analysis of chloroform in
alveolar air assesses indoor exposure in healthy subjects in
a simple and inexpensive technique. (Brunone-PTT) 35
018389001
PY:
Publication Year
1993
DE:
Descriptors
*Chlorination; *Chloroform; *Disinfection byproducts;
*Public health;
*Swimming pools; *Trihalomethanes; *Water treatment; Air
pollution sources;
Analysis of variance; Correlation analysis; Population
exposure; Recreational
areas; Statistical analysis
CL:
Classification
SW 3060 Water treatment and distribution
SF:
Subfile
Water Resources Abstracts
AN:
Accession Number
9310188
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Page
Disinfection of public pools and management of fecal
accidents
AU:
Author
Kebabjian, RS
AF:
Author Affilition
Recreational Health Program, Los Angeles Co. Dep. Health
Serv., 2525
Corporate Pl., Rm. 150, Monterey Park, CA 91754, USA
SO:
Source
Journal of Environmental Health [J. ENVIRON. HEALTH], vol.
56, no. 1, pp.
8-12, 1995
IS:
ISSN
0022-0892
AB:
Abstract
The association between the use of swimming pools and
illness has long been
recognized. Discovery of hardier varieties of pathogens and
increased use of spa pools and hot tubs has resulted in
higher recommended levels of disinfectants. Chlorine is the
most widely used disinfectant in pools. When maintained at
proper levels, chlorine can inactivate or control most
pathogens in swimming pool water. The exception is
Cryptosporidium oocysts which are extremely resistant to
most disinfectants and require high levels of chlorine for
long periods of time to achieve deactivation. With the
prevalence of Cryptosporidium infection estimated as high as
4.5% in the general population and the recent occurrence of
five outbreaks of
Cryptosporidiosis at public pools, more extreme measures
must be taken to
protect the health of pool users. Depending on the
circumstances, when a fecal accident occurs at a public
pool, it is prudent to consider closing the pool for up to a
day so that the pool water can be properly disinfected and
filtered.
LA:
Language
English
SL:
Summary Language
English
PY:
Publication Year
1995
PT:
Publication Type
Journal Article
DE:
Descriptors
feces; pools; swimming; public health; pathogens;
disinfection; chlorine;
swimming pools; microbial contamination; Cryptosporidium;
fecal coliforms
ID:
Identifiers
Cryptosporidium; oocysts
CL:
Classification
SW 3060 Water treatment and distribution; P 2000 FRESHWATER
POLLUTION; H SE3.21 WATER POLLUTION/WATER QUALITY
SF:
Subfile
Water Resources Abstracts; Pollution Abstracts; Health &
Safety Science
Abstracts
AN:
Accession Number
3858766
Top of
Page
Title
Risk of infection associated with microbiological quality of
public swimming pools
in Bologna, Italy
AU:
Author
Leoni, E; Legnani, P; Guberti, E; Masotti, A
AF:
Affiliation
Dipartimento di Medicina e Sanita Pubblica, Via S Giacomo
12, 40126 Bologna,
Italy
SO:
Source
Public Health (Stockton) [Public Health (Stockton)]. Vol.
113, no. 5, pp.
227-232. Sep 1999.
IS:
ISSN
0033-3506
AB:
Abstract
Twelve public swimming pools in Bologna (Emilia-Romagna
region, Italy) were
investigated for the microbiological quality of water and
surfaces of the pool edges, showers and changing rooms. At
the same time a cross-sectional study was carried out on the
health of 238 users (bathers) compared with 238 controls who
practised sports other than swimming. Data regarding
duration and frequency of exposure, behaviour and recent
medical history were gathered by means of a questionnaire.
All participants also underwent a medical examination.
Compliance of the pool water to the microbiological
standards set by Italian regulations was generally good;
compliance was total when free chlorine residual was within
the recommended limits. However, when analysis was extended
to the various surfaces, potentially pathogenic bacteria
such as P. aeruginosa and C. albicans were isolated. Eye
burning and diarrhoea were the only declared symptoms and
verrucas the only diagnosed disease showing statistically
significant differences between bathers and controls.
Verrucas tended to increase in proportion to exposure.
Athlete's foot had a very high prevalence among both bathers
(34%)
and controls (27%). The environmental and epidemiological
investigations both confirmed the risk of infection, mainly
associated with the contamination of surfaces.
LA:
Language
English
SL:
Summary Language
English
PY:
Publication Year
1999
PD:
Publication Date
19990900
PT:
Publication Type
Journal Article
DE:
Descriptors
Recreation areas; Swimming pools; Public health; Microbial
contamination; Water
quality; Italy, Bologna; Infection; Risk; Microbiological
Studies; Contamination;
Epidemiology; Human Diseases; Pathogens
CL:
Classification
P 6000 TOXICOLOGY AND HEALTH; H 12000 Epidemiology and
Public
Health; R2 23060 Medical and environmental health; SW 3030
Effects of
pollution
UD:
Update
200008
SF:
Subfile
Pollution Abstracts; Health & Safety Science Abstracts; Risk
Abstracts; Water
Resources Abstracts
AN:
Accession Number
4662525
Top of
Page
Disinfection by-product formation in swimming pool waters: A
simple mass
balance
AU:
Author
Judd, SJ; Black, SH
AF:
Affiliation
School of Water Sciences, Cranfield University, Bedford, UK,
[mailto:s.j.judd@cranfield.ac.uk]
SO:
Source
Water Research [Water Res.]. Vol. 34, no. 5, pp. 1611-1619.
Apr 2000.
IS:
ISSN
0043-1354
DO:
DOI
10.1016/S0043-1354(99)00316-4
AB:
Abstract
Research into swimming pool water treatment has been
conducted on both bench and pilot scales. Initial work made
use of a recirculatory bench-scale rig containing about 45 1
of water. A more recent study was based on a 2.2 m
super(3)-capacity pilot plant, a one-seventh linear scale
model of an actual
operational pool, incorporating conventional unit operations
for swimming pool water treatment. The study is based on the
use of a body fluid analogue (BFA), comprising the key
dissolved organic and inorganic components of human
perspiration and urine. Initial bench-scale trials indicated
the analogue to be a reasonable representation of real body
fluids in terms of levels of the key disinfection
by-products (DBPs) of trihalomethanes (THMs) and chloramines
(CAs) generated from conventional chemical disinfection by
chlorination. Trials on the pilot-scale pool, on the other
hand, indicated that: measured THM levels were generally
much lower than those recorded on the bench scale, attaining
equilibrium values after about 3 days of operation; chlorine
demand, on the other hand, was about the same; for constant
rate dosing of BFA the change in DBP levels on changing key
operational determinants by plus or minus 50% was shown to
be significant only on increasing the BFA dose rate (33%
increase in THMs) and
decreasing the disinfectant dose (50% decrease in THMs), the
CA levels being
largely unaffected throughout; dosing of BFA at a
fluctuating rate (or intermittent) over a 14-h operating
cycle produces higher levels of THMs than constant rate
dosing at the same overall daily rate; the equilibrium ratio
of chlorine arising in dissolved chloramines to that in
dissolved THMs is around 42:1; a mass balance on the
steady-state system can be carried out according to an
assumption of either zero breakpointing or complete
breakpointing to define the limits of DBP accumulation; the
zero-breakpoint mass balance accounts for 38% of the organic
carbon, 61-63% of the chlorine and 84- similar to 100% of
the ammoniacal and amino nitrogen, the exact figures being
very sensitive to assumptions made regarding trichloramine
formation; the complete breakpoint analysis accounts for
52% of the chlorine for 100% oxidation of the ammoniacal and
amino nitrogen, the organic carbon usage being unchanged at
38%. It is surmised from the analyses undertaken that, even
at the 100% efficiency limits of Henry's law governed
physical desorption or total breakpoint chlorination, a net
accumulation of chlorine and carbon arises. More rigorous
analysis of both the pool water and the ventilated air would
reveal the extent to which such an accumulation actually
takes
place.
LA:
Language
English
SL:
Summary Language
English
PY:
Publication Year
2000
PD:
Publication Date
20000400
PT:
Publication Type
Journal Article
DE:
Descriptors
Disinfection; Byproducts; Swimming Pools; Chlorination;
Chlorine;
Trihalomethanes; Organic Carbon; Desorption; Pilot Plants;
Accumulation;
Halomethanes
CL:
Classification
SW 3060 Water treatment and distribution; P 2000 FRESHWATER
POLLUTION; H 3000 Environment and Ecology; AQ 00004 Water
Treatment
UD:
Update
200011
SF:
Subfile
Water Resources Abstracts; Pollution Abstracts; Health &
Safety Science
Abstracts; Aqualine Abstracts
AN:
Accession Number
4703532
Top of
Page
Title
Gastroenteritis outbreak. Disease linked to swimming pool
and spa use.
AU:
Author
Holmes, SE; Kinde, MR; Pearson, JL; Hennes, RF
AF:
Author Affilition
North Dakota State Dep. Health and Consol. Lab., Div. Dis.
Control, State
Capitol, Bismarck, ND 58505, USA
SO:
Source
Journal of Environmental Health [J. ENVIRON. HEALTH.], vol.
51, no. 5, pp.
286-289, 1989
IS:
ISSN
0022-0892
AB:
Abstract
A report of an outbreak of gastroenteritis led the North
Dakota State Department
of Health to investigate a suspected foodborne disease
outbreak. Initial Interviews
revealed no common meal, but all ill persons had stayed in
one motel in Williston,
N.D. Questionnaires were hand-delivered and/or mailed to 276
persons. Two
hundred and twenty-one (80%) of the returned questionnaires
were analyzable.
The 48 persons who became ill had the following signs and
symptoms: nausea,
94%; vomiting, 85%; abdominal cramps, 75%; diarrhea, 71%;
fever, 25%.
Swimming in the motel's pool/spa was statistically
significantly associated with
illness, with an odds ratio of 16.5, 95% confidence
intervals of 3.1, 88.5 and a
p-value < .001. Motel records showed several periods of free
chlorine residuals
of 0.0 mg/L for both the swimming pool and spa. Laboratory
analysis of pool and
spa water revealed Standard Plate Counts of greater than
6000 per ml. The spa
also had total coliform contamination of greater than 15 per
100 ml. The cause of
this outbreak was probably lack of adequate chlorination.
LA:
Language
English
SL:
Summary Language
English
PY:
Publication Year
1989
PT:
Publication Type
Journal Article
DE:
Descriptors
surveys; North Dakota; statistical analysis; laboratory
testing; environmental
health; microbiology; coliforms; water quality
ID:
Identifiers
gastrointestinal diseases; swimming pools
CL:
Classification
H SM6.1 BASIC APPROACHES, CONCEPTS, AND THEORY; H SE3.21
WATER POLLUTION/WATER QUALITY; P 6000 TOXICOLOGY AND
HEALTH; P 3000 SEWAGE & WASTEWATER TREATMENT
SF:
Subfile
Health & Safety Science Abstracts; Pollution Abstracts
AN:
Accession Number
2158656
Top of
Page
Title
Factors associated with respiratory problems in swimmers
AU:
Author
Potts, J
AF:
Author Affilition
Sch. Hum. Kinetics, Univ. British Columbia, Vancouver, BC,
Canada
SO:
Source
Sports Medicine [SPORTS MED.], vol. 21, no. 4, pp. 256-261,
1996
IS:
ISSN
0112-1642
AB:
Abstract
While swim training may improve fitness and reduce morbidity
associated with asthma, there is both anecdotal and
scientific information to suggest that there are
health-related problems associated with swimming in
chemically-treated pool water. Swimming pool water is
disinfected in the interests of public health, although it
would appear that chemical disinfection of the pool water
may be the cause of many of the health-related problems that
have been reported. There is some medical evidence
suggesting that exposure to chemicals such as chlorine and
its derivatives, chloramines or chloroform may damage the
respiratory epithelium and cause increased vascular
permeability and oedema of the mucous membranes lining the
airways and lung, both of which may result in severe
inflammatory reactions.
LA:
Language
English
PY:
Publication Year
1996
PT:
Publication Type
Journal Article
DE:
Descriptors
sports medicine; respiratory pathology; swimming pools;
chemicals; disinfectants
CL:
Classification
H SM9.45 SPORTS RELATED INJURIES
SF:
Subfile
Health & Safety Science Abstracts
AN:
Accession Number
3899976
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