Kaolin Consumption Affects Serum Electrolytes, Glucose and Amylase Levels of Pregnant Women

Background: Geophagy is the consumption of earth materials which occurs across several cultures. For several reasons, pregnant women in many parts of West Africa including Nigeria frequently consume kaolin. This study was carried out to determine the influence of kaolin consumption on serum electrolytes, glucose and amylase levels of pregnant women attending antenatal clinic in a Teaching Hospital in the south east Nigeria. Methods: A total of eighty pregnant women recruited for this study were grouped as follows; Group 1, (30 geophagic pregnant women in the first trimester), Group 2 (30 geophagic pregnant women in the second trimester) and Group 3 (20 non-geophagic pregnant women that served as control). Subjects in Groups 1 and 2 were subdivided into three based on the quantity of kaolin consumed per week: group A (100 g/week), group B (150 g/week) and group C (200 g/week). Preliminary analysis of the calcium content of kaolin was carried out. Serum levels of potassium, sodium, chloride, bicarbonate, glucose and amylase of the subjects were determined. Results: Calcium level in kaolin was below the recommended daily intake in food. The concentrations of potassium in geophagic pregnant women who consumed 150 g and 200 g of kaolin per week were significantly (p < 0.05) lower in both 1 st and 2 nd trimester groups., There was a significant (p < 0.05) decrease in sodium concentration This tinal enzymes activities.


Introduction
Eating of soil has been internationally practised throughout the world, in all age groups, races, and socio-economic environment [1]. The eating of clay (kaolin) occurs among cultural groups in many continents. Clay eating is widespread among women in Africa but in particular five African countries of Malawi, Zambia, Zimbabwe, Swaziland and South Africa, where an estimated prevalence level in the rural areas of these countries is put at 90% [2]. In human, it is postulated that kaolin consumption creates iron, zinc, or potassium deficiencies [3]. Kaolin ingestion is thought to inhibit absorption of iron from foods. Those who eat clay at the expense of healthier foods often develop malnutrition. This phenomenon of nutrient deficiency is exacerbated when clays with high cation-exchange capacities are ingested. Complications from geophagia include hypokalemia, hypogonadism, and iron deficiency [4]. In sub-Saharan Africa, the rate of geophagia among pregnant women ranges from 28% in Tanzania to 65% in Kenya [5], Geophagia has also been reported in Senegal, Mali [6], Guinea [7] as well as Nigeria [8]. Kaolin consumption (geophagia) is common among pregnant women, perhaps because of its anti-nausea effect [9]. A cross-sectional study showed that 46.4% of pregnant women in Southern Ebonyi State, Nigeria who were in attendance at antenatal clinics deliberately and regularly indulged in the habit of earth consumption [10]. Clay eating is observed among pregnant women in South Africa where the prevalence of pica among urban and rural black South African women was reported to be high [2]. There are reports that geophagia is common among the Tanzanians and Kenyans in the Eastern part of Africa, and that the prevalence remained high during pregnancy, and then declined after post-partum [11].
There is a hypothesis that geophagy is a physiological response to nutrients deficiencies, such as iron and calcium [12]. Pregnancy is a period of both increased nutritional needs and increased vulnerability Nutrition during pregnancy is increasingly demanding, especially regarding minerals such as iron and calcium, to support both the growing fetus and elevated blood production. Unfortunately, this period of nutritional need often occurs coincidentally with digestive difficulties such as nausea and vomiting. This, often enhances the eating of kaolin at first and second trimesters as anti-nausea agent [1]. Since kaolin consumption occurs during pregnancy, there is a likelihood of deleterious effects on both the mother and unborn child [13]. Kaolin has been noted to have adsorbing effect on other elements; thus chronic exposure may result in nutritional and electrolytes deficiency or even affect carbohydrate metabolism and intestinal

Estimation of Calcium Content in Kaolin
Five gram (5 g) of the dried kaolin was placed into a digestion flask and 20 ml of acid mixture (650 ml conc HNO 3 ; 80 ml perchloric acid; 20 ml conc H 2 SO 4 ) was added. The flask was then, heated until a clear digest was obtained. The digest was diluted with distilled water to 100 ml mark. The calcium content was measured using FS240AA Atomic Absorption Spectroscopy (Agilent Technologies South San Francisco, USA).

Experimental Protocols
This is a cross-sectional study involving eighty (80) pregnant women recruited from the antenatal clinic of Chukwuemeka Odimegwu Ojukwu University Teaching Hospital (COOUTH), Awka, Anambra State, Nigeria. They were pregnant women within first and second trimester of pregranacy. Ethical approval for the study was obtained from the Ethical Committee of the COOUTH (COOUTH/CMAC/ETH.C/VOL.1/01Q4 Date: 15/10/2018) before the commencement of the study, and written informed consent was obtained from each of the participants. The subjects were divided into three main groups as follows: Groups 1 (30 geophagic pregnant women in the first trimester), group 2 (30 geophagic pregnant women in the second trimester) and group 3 (20 non-geophagic pregnant women that served as control). Groups 1 and 2 were subdivided into three (A -C) each (n = 10) according to the quantity of kaolin consumed. The groups were treated as follows: Group A (14.3 g of kaolin/day), group B (21.4 g of kaolin/day) and group C (28.6 g of kaolin/day), corresponding to 100, 150 and 200 g of kaolin/week respectively.

Estimation of Biochemical Parameters
Blood samples were collected from the subjects via venipuncture and dispensed into plain test tubes. The samples were allowed to clot, suspended and then centrifuged at 2500 g for 10 minutes. The serum was separated from the cells and was kept in the freezer till ready for use. The following electrolytes: potassium, sodium, chloride and bicarbonate were analyzed using an automated Ion Selective Electrolyte (ISE) analyser (Audicom AC 9900, Audicom Medical Instruments Co., Ltd., China).
The blood samples were analyzed for random plasma glucose using One Touch Ultramini Glucometer (LifeScan GmbH Switzerland). Serum amylase level was determined by spectrophotometric method using Teco Reagent Kit (Teco Diagnostic, Anaheim, USA). The working reagent was prepared as specified. Amylase reagent (1 ml) was introduced into test tubes and incubated at 37˚C for 3 minutes. Thereafter, 25 μl of samples and standards were added to the respective tubes and their absorbance read at 500 nm after 15 sec and after 30 sec. for 2 min. The amylase concentration was calculated using the formula: Amylase concentration = (Abs sample /Abs standard ) × standard concentration

Data Analysis
The results were expressed as the mean ± standard deviation (SD). Data were analysed using SPSS and excel. The mean comparison was performed between groups using the one way ANOVA at 95% confidence level.

Results
The calcium content of kaolin was 10.6 mg/g while the estimated daily calcium intake by the three groups of pregnant women on kaolin was 151.6, 226.8 and 303.2 mg for 100, 150 and 200 g kaolin per week respectively. These values are below the recommended daily calcium intake of 1000 mg per day.

Effect of Kaolin Consumption on Serum Electrolytes in the 1 st Trimester Pregnant Women
The mean serum concentration of potassium decreased significantly (p < 0.05) in groups B and C that consumed 150 g and 200 g of kaolin per week compared to the control. The mean concentrations of sodium, chloride and bicarbonates were not significant (p > 0.05) affected in all the groups (Table 1).

Effect of Kaolin Consumption on Plasma Glucose and Amylase in 1 st Trimester Pregnant Women
There was a steady increase in plasma glucose level of geophagic pregnant women in all the groups. This increase was significant (p < 0.05) in groups B and C when compared to the control (Figure 1). The amylase concentration decreased significantly (p < 0.05) in all the groups (Figure 1).

Effect of Kaolin Consumption on Serum Electrolytes in 2 nd Trimester Pregnant Women
The mean serum potassium concentration in the 2 nd trimester pregnancy was significantly (p < 0.05) reduced in groups B and C (

Effect of Kaolin Consumption on Plasma Glucose and Amylase in 2 nd Trimester Pregnant Women
There was progressive increase in plasma glucose levels of kaolin consuming pregnant women. The increase was significant (p < 0.05) in groups B and C when compared to the control (Figure 2). Amylase concentration was significantly lower in all the groups compared to the control.

Discussion
Our findings revealed that potassium level in kaolin consuming pregnant women significantly decreased in both 1 st and 2 nd trimester in a concentration dependent manner. A few studies have made similar observations [14] [15]. The low serum potassium in maternal blood could be attributed to cation binding activities of kaolin in the gastrointestinal tract [16]. This would reduce intestinal absorption and increased gastrointestinal loss of potassium. Hypokalaemia is a very dangerous situation in pregnancy as it can adversely affect both the mother and foetus. Hypokalaemia in pregnancy causes extreme muscle weakness and temporary paralysis of the arms and legs.
The reduced serum sodium level was noticeable in 2 nd trimester and at high kaolin concentration. This agreed with the report of Deloris et al. [17]. Low sodium concentration in 2 nd trimester may be as a result of increased plasma volume [18] [19]. The effect of kaolin consumption on plasma glucose was dependent on the quantity of kaolin consumed. The effect of unregulated and continuous kaolin consumption in pregnancy may manifest as gestational diabetes and its associated complications. The mechanism by which kaolin elevates plasma glucose is not known, however, previous findings revealed that some heavy metals were elevated in pregnant women on kaolin [20]. Heavy metals especially lead and arsenic had demonstrated inhibitory activities on insulin and were capable of inactivating over 200 enzymes [21]. It has been postulated that arsenite from kaolin has high affinity for sulphydryl group of insulin which can form a covalent bond with disulfide bridges in insulin receptors, thereby altering glucose metabolism [22]. An increased glucose level in maternal blood predisposes foetus to excessive birth weight, early (pretem) birth, respiratory distress syndrome, low blood sugar after birth, while the mother may exhibit high blood glucose and pre-eclampsia [23].
The low serum amylase level may be connected with kaolin adsorption of biomolecules. Studies have shown that kaolin can adsorb some substances [16] [24] [25] and may likely bind and inactivate intestinal enzymes. Though, clinical relevance of low serum amylase is poorly understood, animal and cellular studies regarding the relationship with endocrine and exocrine pancreas have shown that insulin secretion affected the basal and stimulatory amylase secretion via islet of acinar axis, and there was negative association between serum amylase and heavy metals [26]. High concentration of some heavy metals in geophargic pregnant women has been documented [20], and in biological systems heavy metals have been reported to inactivate enzymes, and affect cellular organelles and components [27].

Conclusion
There are significant reductions in the serum potassium, sodium and amylase levels, and increased plasma glucose level in geophargic pregnant level. There may be likelihood of gestational diabetes, electrolyte imbalance and low intesti-