Endemic Nephropathy Around the World.

There have been several global epidemics of chronic kidney disease of unknown etiology (CKDu). Some, such as Itai-Itai disease in Japan and Balkan endemic nephropathy, have been explained, whereas the etiology of others remains unclear. In countries such as Sri Lanka, El Salvador, Nicaragua, and India, CKDu is a major public health problem and causes significant morbidity and mortality. Despite their geographical separation, however, there are striking similarities between these endemic nephropathies. Young male agricultural workers who perform strenuous labor in extreme conditions are the worst affected. Patients remain asymptomatic until end-stage renal failure. Biomarkers of tubular injury are raised, and kidney biopsy shows chronic interstitial nephritis with associated tubular atrophy. In many of these places access to dialysis and transplantation is limited, leaving few treatment options. In this review we briefly describe the major historic endemic nephropathies. We then summarize the epidemiology, clinical features, histology and clinical course of CKDu in Mesoamerica, Sri Lanka, India, Egypt, and Tunisia. We draw comparisons between the proposed etiologies and supporting research. Recognition of the similarities may reinforce the international drive to establish causality and to effect prevention.

Chronic kidney disease (CKD) is common, and is a significant cause of morbidity and mortality globally. Low- and middle-income countries have seen an alarming rise in CKD over the past 20 years. Indeed, the prevalence in these countries has now overtaken that in many high-income countries. Furthermore, patients in these countries present with more severe CKD and at a younger age. Although these trends can largely be attributed to traditional risk factors such as diabetes and hypertension, a considerable proportion of CKD remains unexplained. This has been termed CKD of unknown etiology (CKDu). In general, CKDu is a diagnosis of exclusion, made when a patient fulfils the Kidney Disease Improving Global Outcomes (KDIGO) CKD criteria but without evidence of a recognized cause such as diabetes, hypertension, or glomerulonephritis. It should be noted that many population prevalence studies sample patients only at 1 time point, and therefore do not prove chronicity (as outlined in the KDIGO guidelines), which may lead to inaccurate prevalence rates.

There have been several global epidemics of unexplained kidney disease—Balkan endemic nephropathy (BEN), Itai-Itai disease in Japan, Mesoamerican nephropathy (MeN), and Sri Lankan CKDu (Table 1, Figure 1). Further epidemics are present in India, Egypt, and Tunisia, where robust research is currently lacking. Etiology has been established for Itai-Itai disease and BEN, with the help of international research collaboration. Unfortunately, despite ongoing collaboration, the etiology of CKDu elsewhere remains unknown. Furthermore, in many of these places, access to dialysis and transplantation is limited, magnifying the societal and economic burden of CKD and end-stage renal failure (ESRF). Recognizing the enormity of the problem, the World Health Organization (WHO) and the US Centers for Disease Control and Prevention (CDC) have taken an active interest in CKDu. In this review, we shall briefly summarize Itai-Itai disease and BEN, 2 forms of endemic nephropathy the etiologies of which were clarified in 1968 and 1993, respectively, following decades of research. Thereafter, we shall focus on endemic CKD that remains unexplained.

Table 1

Comparison of current and previous chronic kidney disease of unknown etiology (CKDu)

	Itai-Itai	BEN	MeN	SL CKDu	IndianCKDu
Date first described	1912	1956	2002	Early 1990s	2010
Endemic areas	Jinzu river basin, Toyama, Japan	Danube region: Serbia,BulgariaCroatiaRomaniaBosnia	NicaraguaEl SalvadorCosta RicaLow-altitudeAgricultural areas	“Dry Zone” of Sri LankaFirst noticed in NCPLow altitudeAgricultural areasGeographical foci of diseaseLow socio-economic status	Uddanam coastal region, Andhra PradeshAgricultural areasFoci of disease Low socio-economic status
Etiology confirmed?	Yes: 1968Cd exposure	Yes: 1993Aristolochia sp.	Unexplained	Unexplained	Unexplained
Characteristic clinical features	Postmenopausal womenBone pain, waddling gait	Presents: fifth through sixth decadeM:F = 1:1Tubular proteinuriaImpaired concentrating capacityTubular acidosis	Presents: fourth through fifth decadeM:F = 5:1Asymptomatic until ESRFRecurrent “Chistata”: dysuria, frequency, sterile urine	Presents: fourth through fifth decadeM:F = 1:1.3Severe disease more common in menAsymptomatic until ESRFRecurrent dysuria, loin/back pain, sterile urine	Presents: fifth through sixth decadeM:F = 1:1Asymptomatic until ESRF
Associated findings	OsteomalaciaProximal tubular dysfunctionTubular proteinuria	Urothelial carcinoma in 50%	Normotensive at presentationAbsent/mild proteinuriaElevated tubular biomarkersHyperuricemiaHypokalemiaSmall kidneys on US	Normotensive at presentationAbsent/mild proteinuriaElevated tubular biomarkersPeripheral edema with late diseaseSmall kidneys on US	Normotensive at presentationAbsent or mild proteinuria
Renal histology	Interstitial fibrosisTubular atrophyGlomerular ischemia	Interstitial fibrosisTubular atrophyAristolactam (AL)-DNA adducts in renal cortex	Interstitial fibrosisTubular atrophyGlomerulosclerosis(despite normal BP)Chronic glomerular ischaemiaLittle vasculopathy	Interstitial fibrosisTubular atrophyGlomerulosclerosis(55% hypertensive at biopsy)Glomerular collapseModerate vasculopathy	Interstitial fibrosisTubular atrophyNormal glomeruli
Frequently reported risk factors	Water source: Jinzu river basinConsumed contaminated crops	Consumption of wheat contaminated by Aristolochia sp.	Occupation: sugarcaneHeat stressAgrochemical exposureHeavy metal exposureGenetic predispositionAlcohol “Lija” consumption	Agricultural workersResident in dry zone ≥5 yrsHeat stressAgrochemical exposureHeavy metal exposureGenetic predispositionAlcohol/betel/tobacco	Agricultural workersHeat stressAgrochemical exposureHeavy metalsGenetic predisposition

Highlighted in bold are the features common across different endemic nephropathies. BEN, Balkan endemic nephropathy; BMI, body mass index; BP, blood pressure; Cd, cadmium; CKDu, chronic kidney disease of unknown etiology; ESRF, end-stage renal failure; F, females; GFR, glomerular filtration rate; M, males; MeN, Mesoamerican nephropathy; NCP, North Central Province (Sri Lanka); SL, Sri Lankan; US, ultrasound.

Figure 1

World map indicating areas with high prevalence of chronic kidney disease of unknown etiology (CKDu). Central map taken from Wikipedia (https://commons.wikimedia.org/wiki/File:The_World_map.png). Peripheral maps modified from Google maps (Tunisia, https://www.google.co.uk/maps/place/Tunisia; Andhra Pradesh, https://www.google.co.uk/maps/place/Andhra+Pradesh; Sri Lanka, https://www.google.co.uk/maps/place/Sri+Lanka; Egypt, https://www.google.co.uk/maps/place/Egypt; Nicaragua/El Salvador, https://www.google.co.uk/maps/place/Nicaragua). NCP, North Central Province of Sri Lanka.

Itai-Itai Disease

From 1910 to the 1960s, wastewater from a mine near the Jinzu river basin in Toyama, Japan, polluted water and rice paddies with heavy metals, including cadmium (Cd). As early as 1912, patients reported bone pain, muscle weakness, and renal failure. In 1968, the Japanese Ministry of Health and Welfare identified this as “Itai-Itai” (“ouch-ouch”) disease from chronic Cd exposure. Cd has an elimination half-life of 10 to 30 years and accumulates in the kidney. Bone pain (hence the name), waddling gait, osteomalacia, and irreversible proximal tubular dysfunction led to a severe, disabling condition. Evidence revealed a dose−effect relationship between blood Cd level (an effective estimate of whole body Cd burden) and ESRF. Histology from the few reported kidney biopsies revealed interstitial fibrosis, tubular atrophy, and ischemic glomerular lesions. High concentrations of Cd were found in soil, rice, and in pathology specimens of individuals with Itai-Itai. A large 16-year follow-up study identified a dose-related increase in overall age-adjusted mortality, and mortality related to cardiovascular and kidney disease.

Cd-induced nephropathy still exists today. Exposure is primarily through contaminated food, smoking, or occupational contact. The WHO set a “safe exposure level” in 1981, based on the relationship between urinary Cd excretion and renal dysfunction in occupationally exposed workers. Renal dysfunction was thought to be unlikely at urinary Cd concentrations of ≤10 μg Cd/g creatinine. Later work revealed this to be a gross underestimate of risk. Cd-induced renal disease was found in 10% of an environmentally exposed Belgian population at urinary concentrations of only 2 to 3 μg Cd/g creatinine. A study of 902 Swedish battery workers identified urinary β2 microglobulin (a measure of tubular dysfunction) as an effective screening tool for early identification of Cd nephrotoxicity. Prompt recognition and subsequent avoidance can prevent progression to ESRF.15, 16 No chelating agent has been identified, so renal replacement therapy remains the mainstay of treatment.

Balkan Endemic Nephropathy

BEN was first recognized in the 1950s in rural villages along the Danube River. Those affected presented in their sixth decade with tubular proteinuria, impaired concentrating capacity, and reduced glomerular filtration rate (GFR). Additional features included tubular acidosis, glycosuria, and aseptic leucocyturia. Hypertension was a late feature and edema rare. Kidney biopsy revealed interstitial fibrosis with tubular atrophy, and up to 50% of patients had a concomitant urothelial carcinoma. Progression to ESRF was slow. Affected villages were situated next to unaffected ones, and familial clustering suggested possible genetic susceptibility. Males and females were equally affected, but children did not develop the disease.

In 1969, Lijec Vjesn first proposed that ingestion of flour contaminated with seeds from Aristolochia clematitis might be the cause of BEN. Approximately 25 years later, Vanherwegham et al. published a case series of 9 Belgian women who developed “Chinese herb nephropathy” after ingesting slimming remedies containing aristolochic acid. Similar renal histology and concurrent urothelial malignancy strongly suggested that Aristolochia plants, found growing among wheat in the endemic area, were responsible for BEN. More recently, this was confirmed when aristolactam (AL)−DNA adducts were demonstrated in the renal cortex of individulals with BEN and their urothelial tumors. Specific adenine:thymine to thymine:adenine transversion of the p53 tumor suppressor gene was identified. Similar mutations and AL-DNA adducts have been identified in Taiwan, which has the world’s highest prevalence of urothelial malignancy and where use of aristolochic acid containing herbal remedies is widespread. Cases have also been reported in Australia, North America, and Europe. Aristolochia species continue to be used in herbal remedies worldwide. There is no specific treatment, so therapy is largely supportive, aiming to delay disease progression.

Mesoamerican Nephropathy

Epidemiology

Mesoamerican nephropathy (MeN) has emerged as a leading cause of morbidity and mortality in low-altitude coastal areas of Nicaragua and El Salvador, with additional foci in Costa Rica and Guatemala. WHO data for 2012 showed a CKD mortality rate of 54 deaths per 100,000 population in Nicaragua and 36 per 100,000 in El Salvador, compared to 10 per 100,000 in the United States. CKD mortality increased ∼3-fold in Nicaragua between 1990 and 2009 and ∼7-fold in El Salvador. A community survey in El Salvador found that 18% of adults had CKD, of whom more than half had no traditional risk factors. Prevalence varies conspicuously with occupation; those affected are predominantly young male agricultural workers. Sugarcane seed cutters have the highest prevalence, although other “hot occupations” such as port workers, miners, and cotton and construction workers are also affected. Increased urinary biomarkers of tubular dysfunction (neutrophil gelatinase-associated lipocalin (NGAL) and N-acetyl-β-d-glucosaminidase [NAG]) in Nicaraguan adolescents from high-risk areas suggest that kidney injury may start in childhood. However, population reference values are unknown, so these results should be interpreted with caution.

Clinical Features

Individuals affected complain of dysuria, frequency, urgency, and chills, collectively termed “chistata.” They have leucocyturia, although urine culture results are rarely positive. These episodes are often misdiagnosed as urinary tract infections and treated with (potentially nephrotoxic) aminoglycosides. Serum creatinine rises indolently, and persons affected usually present at ESRF. Histopathology is outlined in Table 1.

In a cross-sectional study of 284 Nicaraguan workers, estimated GFR (eGFR) and urinary biomarkers of kidney injury were measured prior to and during zafra, the 5-month period of sugarcane harvest. The authors compared different roles in the industry—cane cutter, seed cutter, irrigator, driver, seeder, agrochemical applicator, and factory worker. Cane and seed cutters had significantly lower late-zafra eGFR compared to individuals of other occupations, and their mean fall in eGFR during zafra was 5 to 7 ml/min/1.73 m2 greater. Urinary NGAL increased significantly during zafra among cane cutters. Moreover, late-zafra NGAL and NAG levels were negatively associated with eGFR. Workers who reported chistata had significantly lower eGFR and higher NGAL concentrations. Proteinuria remained low in all affected individuals. A recent longitudinal study by Wesseling et al. supports these findings.

Etiological Hypotheses

Heat Stress

The etiology of MeN is likely multifactorial (Figure 2). The 2nd International Workshop on the Epidemic of MeN in 2015 emphasized the growing evidence for a causal role of strenuous work in intense heat with inadequate rehydration. A recent review has also articulated the role that global warming might play in the upsurge of CKDu in affected regions. Intense heat and strenuous work are common to those most at risk for MeN. However, CKDu is not observed in similar agricultural communities of developing countries in other tropical regions. Moreover, heat-associated acute kidney injury (AKI) is uncommon in developed countries but, when present, tends to accompany multi-organ injury.

Figure 2

Multifactorial etiology of chronic kidney disease of unknown etiology (CKDu). ESRF, end-stage renal failure.

Roncal-Jimenez et al. postulated that dehydration-induced increases in urinary osmolality activate the aldose reductase pathway, converting glucose to fructose. In proximal tubules, fructose is metabolized by fructokinase to urate, oxidants, and inflammatory mediators, causing tubular injury. Workers chew sugarcane and rehydrate with fructose-rich drinks, exacerbating the problem. In support of this theory, recurrent heat-induced dehydration led to cortical urate accumulation, reduced GFR, proximal tubular injury, and fibrosis in mice. Strenuous exercise in hot climates causes lactic acid production and subclinical rhabdomyolysis, exacerbating hyperuricemia. Under such acidic conditions, urinary urate can exceed its solubility and form microcrystals. Indeed, urate crystalluria was identified in sugarcane workers, which may explain chistata. It should be noted, however, that although hyperuricemia is common in MeN, marked uricosuria is not universally demonstrated.

Agrochemicals

Agrochemicals are used extensively throughout Nicaragua and El Salvador, and workers are often highly exposed. These may damage kidneys made vulnerable by heat-stress during zafra. Animal studies have identified dose-dependent and exposure duration-dependent kidney damage with specific pesticides including 2-4-dichlorophenoxyacetic acid (2,4-D), carbofuran, and dicrotophos.39, 40, 41 Data on the nephrotoxic effects of pesticides in humans are limited. A review of Nicaraguan pesticide use revealed no association between the 36 pesticides tested and CKD. However, there was a strong association between AKI and exposure to 2,4-D or glyphosate, the 2 most widely used herbicides in Nicaragua. Glyphosate was the most frequently used herbicide in the United States 10 years ago and, until recently, was used widely in Sri Lanka and El Salvador. It is recognized to cause kidney injury. A large US prospective clinical study showed no association between glyphosate exposure and ESRF; however, an association between cumulative, general agrochemical exposure and increased ESRF was identified.45, 46 This relationship was especially marked in those who reported multiple doctor visits or hospitalizations due to agrochemical poisoning, suggesting that recurrent high-level exposure may lead to irreversible kidney damage.

Heavy Metals

Heavy metals such as Cd, uranium, arsenic, and lead are known nephrotoxins.16, 47, 48 They contaminate water and soil in MeN-affected regions, although only at concentrations considered to be nontoxic.16, 30 Large volumes of contaminated water, consumed to replace exceptional fluid losses during zafra, may lead to a high total filtered load and potentially result in heavy metal nephrotoxicity. Conversely, the association between water consumption and renal insufficiency may simply highlight that individuals experiencing repeated episodes of dehydration then consume more water, or it may reflect a urinary concentrating defect secondary to tubular injury. Lija, a locally produced, unregulated rum, is another potential source of heavy metal and agrochemical exposure. Reports suggest that Lija is prepared in industrial containers previously containing pesticides. One small study identified a dose-dependent relationship between Lija consumption and reduced eGFR.

Communicable Diseases

Leptospirosis is common and often subclinical in agricultural workers. Leptospirosis-induced AKI is nonoliguric with tubular dysfunction followed by reduced GFR. Renal histology reveals an acute interstitial nephritis with tubular necrosis. Theoretically, recurrent infection could contribute to CKDu. but it is unlikely to be independently responsible. Recurrent leptospirosis has been shown to cause CKD in other mammals, although not yet in humans.

Sri Lankan CKDu

Contemporaneous to the MeN epidemic, a dramatic rise in CKDu, occurred in the North Central Province of Sri Lanka (NCP). First recognized in the early 1990s, recent estimates are that almost 20,000 persons have died of CKDu. A WHO community-based screening study revealed a prevalence of 13% in males and 17% in females. More severe disease was more common in men who had been resident in low-altitude farming communities in the dry zone for 5 years (Table 1). This may explain why previous studies, based on hospital attendance, identified a greater prevalence of CKDu in males, in keeping with MeN. Moreover, the CKDu problem is not confined to NCP. It is now the seventh leading cause of death nationally. Strikingly, many published studies aim to prove or disprove a single etiological factor, rather than address the complex interplay of insults likely to underlie etiology. The recent introduction of a CKDu patient registry should aid epidemiological research in the future.

Patients typically present in their fifth decade with ESRF. The mean age of diagnosis has fallen since the introduction of community screening. Early CKDu is largely asymptomatic, although patients describe recurrent dysuria with back pain and sterile urine. Anemia, hypertension, and edema are late features.

In 2012 Jayatilake et al. proposed a unifying definition for Sri Lankan CKDu: namely, an albumin-to-creatinine ratio ≥30 mg/g, a normal glycosylated hemoglobin (HbA1c <6.5%) not on treatment for diabetes, blood pressure <160/90 mm Hg (or <140/90 mm Hg on antihypertensive medication), and no history of kidney disease or snake bite. Defined diagnostic criteria are essential for meaningful research. Unfortunately, this definition is likely to be underrepresentative, as proteinuria is mild or absent in early disease.

Urinary tubular markers such as α1-microglobulin and NGAL are elevated in early CKDu, and steadily rise with disease progression.57, 58 Similarly, urinary kidney injury molecule−1 (KIM-1) may represent an early marker of disease. These tests represent more sensitive screening tools, although their cost prevents widespread use. A potential alternative may be calculation of the ratio of urinary albumin to total protein, which has been shown to be 99% specific for biopsy-proven primary tubulointerstitial disease. These tests should be considered in future study designs. The pathological findings of Sri Lankan CKDu are outlined in Table 1.

Genetic Predisposition

There are discrete regions of high prevalence in a mosaic pattern that could represent a genetic predisposition. Certainly, family history has repeatedly been shown to have a strong association with CKDu. Recent whole-exome sequencing revealed a possible rare variant in the KCNA10 gene, which encodes for a voltage-gated potassium channel found in proximal tubular cells, that could predispose to disease.

Contaminated Water

Drinking from shallow wells increases CKDu risk.63, 64 Conversely, local residents who consume spring water have a low prevalence. Well water levels fluctuate with those of nearby canals, suggesting that the ground water table is recharged from irrigation and reservoir systems with significant potential for contamination. Mice fed with extracts of cyanobacteria (bluegreen algae) from endemic area reservoirs developed acute tubular necrosis, but not interstitial nephritis. Field work >6 hours per day, sun exposure, consumption of <3 L water per day, and history of malaria have been identified as Sri Lankan CKDu risk factors. Drinking pretreated water had significant protective effects.

In the 1960s, the “green revolution” saw the introduction of high-yield seeds, chemical fertilizers, and pesticides. Further progress in the 1990s saw the introduction of the mini-tractor and agricultural mechanization. Agrochemicals are overused in Sri Lanka, and poor safety compliance leads to marked exposure.68, 69 The relationship between pesticide exposure and CKDu risk has been shown repeatedly.6, 70 Jayasumana et al. implicated glyphosate, suggesting that glyphosate−metal complexes could be responsible. Theoretically, the hard water in endemic areas could convert glyphosate to solid complexes of magnesium, calcium, and arsenic that are highly insoluble and poorly absorbed. However, the researchers showed urinary glyphosate and heavy metal excretion to be higher in both individuals with CKDu and healthy controls in endemic areas, compared to controls in nonendemic areas. Interestingly, CKDu is not observed in the northern province of Sri Lanka, despite harsher environmental conditions than NCP. It has been suggested that this may be linked to a ban on agrochemicals in this area during the conflict (1980–2009) because of the potential for use in improvised explosive devices.

In 2008, Bandara et al. reported high Cd concentrations in reservoirs serving CKDu households (as well as in soil, rhizomes, rice, and milk). They were unable to reproduce these findings in 2010, and others later contested their results.6, 76 Significant seasonal variation in toxin concentration is likely. Unfortunately, the authors did not publish the dates of sample collection.

Nanayakkara et al. showed urinary Cd excretion to be lower in CKDu patients (and their unaffected relatives) compared to controls. This was consistent with the findings of Bandara et al. (2008), who suggested that an inability to express the urinary chelating protein metallothionine led to both reduced urinary Cd concentration and increased tubular damage. More recent collaboration between the Sri Lankan Ministry of Health and WHO has again implicated Cd. However, they found increased urinary Cd in CKDu patients compared to healthy controls from both endemic and nonendemic areas, demonstrating a dose−effect relationship between urinary Cd and CKD stage. The absence of controls with CKD of known etiology makes the applicability of this finding uncertain. Conflicting results can be explained, in part, by heterogeneity of study design, control selection, and diverse means of assaying Cd. Inclusion criteria and CKDu definition (where defined) also vary.

One study has suggested that Sri Lankan agrochemicals and fertilizers can be contaminated by arsenic. A recent systematic review supported an association between arsenic exposure and proteinuria, but reported mixed evidence for any association with CKD. Arsenic contamination of well water was reported to be high; however, this finding has not been reproduced, and urinary arsenic levels do not vary across regions. Jayasumana et al. suggested that a high calcium concentration in endemic area ground water may exacerbate arsenic toxicity.

Chandrajith et al. suggested that hard water could enhance the cytotoxic properties of fluoride. Undeniably, fluoride levels in drinking water from endemic regions are above WHO safe levels for tropical countries80, 81; however, adjoining farms have not seen significant CKDu. Other theories include the formation of fluoro-aluminium complexes when boiling fluoride-rich water in aluminum kettles (often constructed from discarded car engines). Normal serum aluminum concentrations in CKDu patients suggest little association.

Communicable Disease

Ochratoxin A, a mycotoxin known to cause interstitial fibrosis, has been identified in many foods in NCP, but at levels below European safety limits. Higher urinary Ochratoxin A levels found in CKDu patients and their unaffected relatives compared with Japanese controls are of uncertain significance. Traditional (ayuverdic) medications have also been implicated. Acute interstitial nephritis has been reported after ingestion of the herbal medicine Dioscorea quinqueloba. However, use of traditional medication is not limited to endemic areas. Interestingly, Aristolochia spp were found in 66 ayuverdic prescriptions investigated by the WHO. Moreover, as described in MeN, leptospirosis is endemic in Sri Lanka and has been linked to CKDu. Hantavirus is another important zoonotic disease that is spread through the inhalation of aerosolized rodent excrement. It presents with clinical features similar to those of leptospirosis (flu-like illness and fever) and is known to cause AKI. Although it has been implicated in the etiology of CKDu, hematuria is almost always present in hantavirus-induced AKI, and progression to CKD has not been proved.

Indian CKDu

In 2010, the first Indian CKD registry report was published with data from 52,273 adults. Although the most common cause of CKD was diabetes (31%), a significant proportion (16%) had CKDu. Geographical disease foci were recognized, with prevalence reaching ∼40% in coastal regions of Andhra Pradesh. Affected individuals are young and of low socio-economic status. Men and women are affected equally. In keeping with Sri Lankan CKDu and MeN, patients remain asymptomatic until late in the disease, have absent or mild hypertension, and have little or no proteinuria. Farming communities are severely affected, and local residents believe that manual labor performed in severe heat is responsible, alongside liberal pesticide use. When biopsied, histology reveals interstitial fibrosis, tubular atrophy, and a variable lymphocytic peritubulitis. Unfortunately, creatinine estimation is not standardized across India, CKD diagnostic criteria vary, and the biopsy rate is unknown, making large-scale research challenging.

Interestingly, an association between CYP1A1 polymorphisms and Indian CKDu suggests a possible genetic predisposition. Further work has linked polymorphisms of xenobiotic metabolizing enzymes with increased pesticide accumulation and reduced eGFR. Although some studies suggest that water contamination by Cd-containing manures and lead-containing pesticides may be responsible, this is not a universal finding.

Egyptian CKDu

CKD is also emerging as a serious health problem in Egypt. Although national statistics are not available, ESRF prevalence increased from 250 to 367 per million population in Egypt’s El Minya Governorate between 2002 and 2007. A cross-sectional study of dialysis patients revealed that 13% had diabetic nephropathy, 21% hypertension, and 27% CKDu. Drinking from tube wells, family history of renal disease, inhabiting a rural area, and pesticide exposure were all associated with increased CKDu risk. The authors suggest that CKDu develops when genetically predisposed individuals are exposed to an environmental trigger.

Tunisian CKDu

In Tunisia, a chronic interstitial nephritis of unknown etiology with striking similarities to CKDu was first described in 2003. After an insidious course, patients present in their fourth or fifth decade with ESRF. Food contamination with ochratoxin A is widespread, and serum ochratoxin levels are higher in CKDu patients than in controls. Despite this, not all who are heavily exposed develop CKD, suggesting a genetic predisposition.

Recommendations and Conclusions

CKDu is a serious global health problem. The past 5 years have seen increased awareness and worldwide collaboration, which are pivotal in the attempt to control the epidemic. The current body of evidence supports the theory of heat stress, arduous exercise, and inadequate hydration, in a genetically predisposed population or those exposed to a further insult such as agrochemicals. If this is accurate, global warming will inevitably lead to even greater disease burden in these, and other, vulnerable populations. There remains a need for concise diagnostic criteria, not only in MeN and Sri Lankan CKDu, but also in other endemic nephropathies. Similarly, validation of and funding for more sensitive biomarkers of disease would allow early detection and an opportunity to try to slow disease progression. Wider use of renal biopsy would provide useful diagnostic information. Further evaluation of the cardiovascular impact of CKDu would enable more effective primary prevention. Fundamentally, many of the proposed etiological factors are potentially preventable with appropriate education, health and safety regulations, and public health intervention. Improved working conditions and the provision of adequate, safe drinking water are essential. A recent intervention in El Salvador revealed that the provision of accessible water, mobile shaded rest areas, and scheduled rest periods not only reduced heat stress symptoms, but increased worker productivity. Moreover, the WHO and the Food and Agriculture Organization of the United Nations (FAO) have made strong recommendations including quality control for imported fertilizers, compulsory provision of personal protective equipment for agrochemical sale and use, tighter regulation on sales of agrochemicals thought to be nephrotoxic, improved health education, and financial assistance for both individuals with CKDu and researchers. Despite significant resistance, the sale of glyphosate was recently banned in both Sri Lanka and El Salvador.

Disclosure

All the authors declared no competing interests.