Leading Indian research body looks for reasons behind CKDue
prevalence in North Central region of Sri Lanka
Rules out heavy metals in drinking water as a probable
cause
·
New
Delhi-based research and advocacy non-profit Centre for Science and Environment
(CSE) has conducted tests to ascertain the causes behind growing prevalence of
Chronic Kidney Disease of unknown etiology
(CKDue)
·
Findings
of the CSE study released in Anuradhapura by Sri
Lanka’s minister for water supply and drainage, Dinesh Gunawardene
·
At
present, CKDue affects over 15,000 people in the North Central region,
especially in the districts of Anuradhapura and Polonnaruwa
·
Study
rules out heavy metals in water as the cause for the disease. However, finds
that people in the affected areas were drinking relatively poor quality water
with high levels of hardness, calcium, TDS and
fluoride
·
Calls
for provision of better medical facilities and clean drinking water to villages
to reduce their dependence on poor quality
groundwater
·
Gunawardene
supports CSE’s recommendations. Says government trying to provide clean drinking
water and better medical facilities
Anuradhapura,
Sri Lanka, August 16, 2012:Way
back in the 1990s, Sri Lanka’s North Central Province had come in the news for
an emerging health crisis: experts noted endemic occurrence of Chronic Kidney
Disease of unknown etiology (also referred to as CKDue) in this dry zone. Two
key districts -- Anuradhapura and Polonnaruwa – were found to be severely
affected.
Over the years, incidence of CKDue has increased and spread to the
adjoining provinces -- North Western, Uva, Eastern, Central and Northern. The
affected area now covers approximately 17,000 sq km, holding a population about
2.5 million in which more than 95 per cent live in rural areas. Over 15,000
people are being treated at present for CKDue.
Studies done to ascertain the causes behind prevalence of CKDue
have come up with various theories – linking the disease that leads to renal
failure, to the presence of arsenic, cadmium or fluoride in water, among other
things.
Centre for Science and Environment (CSE), the New Delhi-based
research and advocacy body,decided to help by joining in the search. CSE’s
Pollution Monitoring Laboratory collected and analyzed 35 water samples from the
key CKDue-affected areas -- Hingurukgoda and Medirigiriya in Polonnaruwa
district; Padaviya, Medawachchiya and Kabithigollawa in Anuradhapura;
Dehiattakandiya in Ampara; and Girandurukotte and Mahiyanganaya in Badulla. Five
water samples were also collected and studied from the non-affected areas of
Kandy district.
In addition to this, 16 soil samples, six rice plant and grain
samples, five pesticide samples and three fertilizer samples were also collected
from the endemic areas and analyzed for their arsenic
content.
The
findings of the CSE study were released here today by Sri
Lanka’s minister for water supply and drainage, Dinesh Gunawardene, in a public
meeting which was jointly organised by CSE, the Sri Lankan Ministry of Water Supply and Drainageand the
Centre for Environmental Justice, Colombo.
Speaking
on the occasion, Gunawardene supported the approach that CSE recommended: he
said that providing
clean drinking water and good medical facilities was the primary solution to the
problem, and that the President of Sri Lanka had a special interest in this
issue and was trying to provide clean drinking water to villages. The minister
also said that he believed research should continue to find the actual reasons
behind the uncommonly high prevalence of the disease in the region. “We need to
do research on pesticides and fertilizers and their impacts. Water and soil are
interconnected and these studies should be done,” he said.
The minister hoped the Sri Lankan government would continue to
work together with CSE and similar organizations to find a solution to the
issue.
What did CSE find
The CSE lab’s aim was to analyze drinking water quality for
physico-chemical parameters and heavy metals in affected and unaffected regions.
Samples of soil, food commodities (rice grain and plant), pesticides and
fertilizers were also tested for arsenic to understand the linkage of arsenic
with CKDue.
The key results of the analysis are as follows:
·
Total
Dissolved Solids (TDS) exceeded the maximum desirable levels of 500 ppm in
six out of 40 water samples – five of dug-well water and one of tube-well water,
all in affected areas. The mean TDS level in all water samples of the affected
area was 271.3 ppm as compared to 113.2 ppm in the unaffected
area.
·
Hardness
exceeded the maximum desirable
level of 250 ppm in 14 out of 40 water samples -- 11 of dug-well water
and three of tube-well water -- all but one from the affected areas. The mean
hardness level in all water samples of the affected area was 225.8 ppm as
compared to 136 ppm in the unaffected area.
·
Calcium
exceeded the maximum desirable
level of 100 ppm in nine out of 40 water samples – seven of dug-well
water and two of tube-well water, all from the affected areas.The mean calcium
level in all water samples of the affected area was 70.7 ppm as compared to 43.2
ppm in the unaffected area.
·
Alkalinity
exceeded the maximum desirable
level of 200 ppm in the five out of 40 water samples – four of dug-well
water and one of tube-well water, all from the affected areas. The mean
alkalinity level in all water samples of the affected area was 95 ppm as
compared to 26 ppm in the unaffected area
·
Fluoride
levels exceeded the maximum desirable
level of 0.6 ppm in 22 out of 40 water samples -- 15 of dug-well water,
five of tube-well water, one from municipal supply and one tank water sample.
One tube-well water sample from Polonnaruwa exceeded the maximum permissible
level of 1.5 ppm. The mean fluoride level in all water samples of the affected
area was 0.8 ppm as compared to 0.5 ppm in the unaffected
area.
·
The
other parameters tested were for pH, chloride, sulfate and magnesium. In all the
40 water samples, these parameters were found to be within the maximum desirable
levels prescribed for drinking water under SLS
614:1983.
·
Cadmium,
arsenic, chromium and lead were not detected in drinking water samples collected
either from the affected area or from the unaffected area.
·
Arsenic
was present in 16 soil samples in the range of ‘Not Detectable’ level to 0.28
ppm.The levels of arsenic found in the soil samples of the affected and
unaffected areas of Sri Lanka are well within permissible levels prescribed by
the US Agency for Toxic Substances and Disease Registry (7.2 ppm) and the
European Community (20.0 ppm). Also, the difference in the arsenic levels in the
soil samples of the affected and the unaffected areas are not
significant.
·
Arsenic
was not detected in rice grain and rice plant samples samples collected from the
affected region.
·
Arsenic
was detected in the range of 0.009 to 0.254 ppm in 5 most commonly used
pesticides—insecticide, weedicide and fungicide. The levels detected are very
low and suggest that arsenic is likely to be present as an impurity from other
ingredients rather than adulteration of these
products.
·
Arsenic
was detected in the range of 0.09 to 0.406 ppm in fertilizer samples – Urea
0.203 ppm, TSP 0.406 ppm and MOP 0.090 ppm.The levels detected are very low and
suggest that arsenic is likely to be present as an impurity from other
ingredients rather than adulteration of these
products.
·
The
samples of pesticides and fertilizer were randomly selected and the sample size
was small. A larger study on the agrochemicals needs to be done conclusively
establish the levels of arsenic in them.
Says
Chandra Bhushan, CSE’s deputy director general: “What this study shows is that
heavy
metals – cadmium, chromium, arsenic and lead -- in drinking water are not linked
to CKDue in the North Central region of Sri Lanka. However, we are not ruling
out heavy metals. If heavy metals are responsible, then there is a different
source for them than the drinking water and that source should be
explored.”
The CSE study found that parameters such as TDS, alkalinity,
hardness, calcium and fluoride were
higher in groundwater (dug-well and tube-well) samples than the samples
collected from tanks, municipal supply, springs and river. People in the
affected areas of Ampara, Badulla, Polonnaruwa and Anuradhapura were consuming
water directly from groundwatersources.
Adds
Chandra Bhushan: “We also clearly establish that people in the affected areas
are consuming poor quality water than those from the unaffected
areas.”
What can be done
CSE recommended that:
- Efforts should be made to supply clean drinking water to villages
so that their dependence on unfiltered groundwater is
eliminated.
- Medical facilities in the affected area should be upgraded.
Government should increase the number of mobile clinics so that patients can be
diagnosed at an early stage and treatment can begin. Dialysis is critical.
Enough dialysis sets should be made available in the district hospitals to
ensure that patients do not have to travel far for their
treatment.
- The government of Sri Lanka should support further research on
CKDue and its linkages with environmental and lifestyle patterns. It should also
organize an annual symposium/ meeting and bring all the experts working on the
issue of CKDue together to forge a way ahead.
New Delhi-based Centre for Science and Environment (CSE) is one of
the foremost research and advocacy bodies working in the South Asian region on
issues of environment and development. CSE’s Pollution Monitoring Lab has
conducted some seminal studies on health and environment, and its work has had
immense impact in driving policy as well as public opinion in India.
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