Levels of Heavy Metals in Pasta Available in the Nigerian Market: Assessing the Health Implications

Levels of Heavy Metals in Pasta Available in the Nigerian Market: Assessing the Health Implications

Abstract

The concentrations of Ni, Mn, Cd, Cu, Zn, Pb and Cr, were determined in some pastas consumed in Nigeria, with a view to providing information on the dietary intakes of heavy metals and exposure of humans to toxic metals. The concentrations of these seven (7) elements were determined by atomic spectrometry after nitric acid/perchloric acid digestion. The concentrations of the metals (µg/g) in the locally manufactured pasta samples were in the following ranges: Ni (0.109 – 0.344); Mn (0.377 – 2.279); Cd (Nd to 0.011); Cu (0.115 – 0.287); Zn (0.162 – 4.846); Pb (0.315 – 0.542); Cr (0.003 – 0.178). The concentrations of the metals (µg/g) in the imported pasta samples were in the following ranges: Ni (0.077 – 0.234); Mn (Nd – 1.118); Cd (Nd – 0.779); Cu (0.028 – 0.289); Zn (0.015 – 2.141); Pb (0.328 – 0.847); Cr (Nd – 0.125). The estimated daily intakes of metals (µg/kg bw/day) from the consumption of local pasta were in these ranges, for noodles: (0.003 – 1.366) for generally exposed children and adults; (0.005 – 2.342) for typically exposed children and adult; for spaghetti (0.003 – 3.382) for generally exposed children and adults; (0.005 – 6.764) for typically exposed children and adult; for macaroni: (0.007 – 6.118) for generally exposed children and adults; (0.014 – 12.236) for typically exposed children and adults. The estimated daily intakes of metals (µg/kg bw/day) from the consumption of imported pasta were in these ranges, for noodles: (0.002 – 2.375) for generally exposed children and adult; (0.004 – 4.75) for typically exposed children and adults; for spaghetti: (0.002 – 0.965) for generally exposed children and adults; (0.003 – 1.93) for typically exposed children and adults, for macaroni: (0.028 – 3.285) for generally exposed children and adults; (0.055 – 6.569) for typically exposed children and adults. The estimated daily intakes of these pastas were below the provisional tolerable daily intake limits of the metals as stipulated by FAO/WHO and Expert Committee on Food Additives (ECFA). The individual and combined metals total hazard quotient values were less than 1. However, the total hazard quotient in imported macaroni (0.919) was appreciable when compared to others. From the estimated total hazard index, no long life health concerns of metals are associated with the consumption of these pastas.

TABLE OF CONTENTS

Title Page
Declaration
Certification
Dedication
Acknowledgement
Abstract
Table of Contents
List of Tables
List of Figures

CHAPTER ONE

1.1 Introduction ……………………………. 1
1.2 Background of the Study …………………. 1
1.3 Statement of the Problem ……………… 3
1.4 Objective of Study ………………… 4

CHAPTER TWO

2.0 Literature Review …………………………………… 6
2.1 Heavy Metals …………………………….. 9
2.1.1 Chemical Toxicity ………………………………… 10
2.1.2 Preferred Minerals (Essential Minerals) ……………….. 10
2.1.3 Modern Diets and Heavy Metals ……………………………. 11
2.1.4 Health Implications of Heavy Metals in Food Products ………………………………. 12
2.2 Pasta and Pasta Processing ……………………… 14
2.2.1. Pasta Raw Material ……………………………….. 15
2.2.2 Durum wheat and semolina ……………………. 16
2.3 Wheat Milling Operations ………………… 16
2.4 Additives Used in Pasta ………………… 18
2.5 The Manufacturing Process of Making Pasta ……………. 21
2.5.1 Mixing and Kneading …………………. 21
2.5.2 Flavoring and Coloring Pasta ……………. 21
2.5.3 Rolling Process of Making Pasta …………………. 22
2.5.4 Pasteurization Process of Making Pasta …………….. 22
2.5.5 Cutting Process of Making Pasta ……………… 22
2.5.6 Drying ………………………………………………….. 24
2.5.7 Packaging ……………………………… 24
2.5.8 Quality Control ……………………… 24
2.6 The Health Benefits of Pasta ……………… 26
2.7 PossibleContaminationSources during PastaProduction………… 27

CHAPTER THREE

3.0 Analysis ……………….. 28
3.1 Heavy Metal Analysis ……………….. 28
3.1.1 Sample Collection ………………… 28
3.1.2 Washing of glass wares ……………… 29
3.1.3 Sample Preparation …………………. 29
3.1.4 Digestion of Samples …………………… 29
3.1.5 Preparation for Standard Solutions for Heavy Metal Recovery Experiments ………….. 30
3.1.5.1 Cadmium Standard Solution…………… 30
3.1.5.2 Zinc Standard Solution …………………… 30
3.1.5.3 Copper Standard Solution …………………. 31
3.1.5.4 Manganese Standard Solution ……………….. 31
3.1.5.5 Nickel Standard Solution …………………. 31
3.1.5.6 Chromium Standard Solution …………………….. 31
3.1.5.7 Lead Standard Solution ……………………… 32
3.1.6 Preparation of Mixed Standard Solution ………………… 32
3.1.7 Recovery Experiments ……………………… 32
3.2 Statistical Analysis ………………………… 33
3.3 Estimation of Dietary Intake ……………………. 33
3.4 Hazard Quotient (HQ) ……………………….. 34
3.5 Total Hazard Index (THI) …………………… 34

CHAPTER FOUR

4.1 Results of Metal Analysis ……………………… 35
4.1.1 Recovery ………………………….. 35
4.1.2 Metal Analysis ………………………………………………. 36
4.2 Statistical Analysis ………………………………………… 47
4.2.1 Result of Statistical Analysis ………………………………… 47
4.3 Estimation of Potential Health Risks …………………………… 51

CHAPTER FIVE

Conclusion …………………………… 58

Chapter One

1.1 Introduction

1.2 Background of the Study

In line with industrial development; pollution in the environment, and consequently agricultural raw materials, leads to high levels of food contamination across the world from the food safety viewpoint. Cases of environmental pollution confronted very frequently and threatening food safety is due to heavy metals. As a result of soil, atmosphere, underground and surface water pollution, our foods and beverages are getting contaminated by heavy metals.

Heavy metals occur in all food as natural or inherent component of plant and animal tissues and fluids and also maybe present as a result of contamination or deliberate addition. Heavy metal is a term given to a group of metals and metalloids which in their standard states have atomic density greater than 5g/cm3, usually associated with pollution and toxicological problems. ASTDR states that heavy metals are a group of metals and semi-metals associated with contaminations and are potentially toxic. Based on these definitions and observations, heavy metals are therefore classified as essentials if they play the basic role as components of vital biochemical or enzymatic activities in human body, for example, Fe, Mn, Mo, Cr, V, Zn and as non-essential if they metals are classified as with no biological, chemical and physiological importance to man, for example, Cd, Pb, As and Hg.

Essentially, heavy metals have only become a focus of public interest since analytical techniques have made it possible to detect them even in very small traces. This has made it possible for toxicologists, in animal experiments to follow up the effects of individual substances down to the smallest concentrations. The warnings they give particularly about the effects of these metals on the health of chronic consumers and the effects of the accumulations leaves the public disturbed and often times creates pandemonium among activists.

Cereals are the main source of food in many countries. Concerning human diet, the most important cereals are wheat (Titicum), rice (Oryza Sativa), oats (Avena Sativa), barley (Ordeum vulgare), rye (Secale cereale), corn (Zea mays), and millet (Panicum miliaceum). Among them wheat is one of the most consumed and spread. Nowadays, the derived products of wheat are more relevant than wheat itself, especially wheat flour. Wheat flour is the irreplaceable raw material of a group of basic and essential food in a balanced diet like bread, pastries and cookies as well as pizzas, sponge cakes and other starchy products.

Increasing demand for flour-based products such as bread, pasta, semolina, meat pies, sausage rolls, and so on etc has continued to expand market for wheat flour. The pastas produced in Nigeria are wheat-based. This commodity is mainly produced by processing wheat, and processing involves sorting and milling of dry grains, and addition of some adjuncts; sugar, honey and dried raisins. Minerals constitute 1 to 3 percent of the weight of a cereal grain and concentrate more in the external areas of the wheat grain [8]. From a nutritional and toxicological point of view, their presence is very important. The metallic content is very variable and will depend on the variety, the type of land where it has been cultivated, the fertilization that has been used and the weather. Concerning wheat flour, the content of heavy metals like lead and cadmium is usually very low.

Pastas commonly consumed in Nigeria include noodles, macaroni and spaghetti. These commodities serve as quick foods for children and adults in more than one third of homes in Nigeria and beyond. The import ban, changing consumption patterns, increasing demand for more nutritious and easy-to-cook food and the more expensive local substitutes, all have also contributed to the growing demand of domestic pasta products. The high food demand, due principally to the increasing population and urbanization, the severe shortage of time on part of bachelors, spinster and the working mothers and the change in feeding habits and way of life have combined to make the eating of pasta very popular. Regardless of the wide consumption of this group of food (pasta) by Nigerians, little data are available as regards heavy metal levels in them; hence the need for this study. Food safety is an important aspect of a nation’s economic stability and due to previous reports on the degree of pollution of some other food items this study was aimed at assessing some heavy metal like Cr, Cd, Cu, Mn, Ni, Pb, and Zn levels in locally produced and imported pasta (noodles, spaghetti and macaroni), and also estimate the associated health risk involved in their consumption by both adults and children.

1.3 Statement of the Problem

Heavy metals are persistent in the environment and are subject to bioaccumulation in food chains. Monitoring the concentrations of various metals in food is critical because these contaminants have deleterious effects on humans. Many illnesses and diseases such as hypertension, cancer, depression and metal disorders have been associated with increased concentrations of heavy metals such as cadmium, lead, copper, chromium, nickel, manganese and zinc in human organs. However exposure does not result only from the presence of a harmful agent in the environment.

The key word in the definition of exposure is contact.

Exposure is often defined as “an event that occurs when there is contact at a boundary between a human and the environment with a contaminant of a specific concentration for an interval of time. Since our nation is fast turning into a ‘fast food’ society, it is imperative for a research to be carried out to ascertain if these packaged products are actually good for our health. Considering that food including pasta is a particularly important source of the overall metals exposure, undertaking a risk assessment appears to be justified. This can be done by intake measurement which is a quantitative evaluation of exposure. Several organizations such as FAO, WHO, CDC, USFDA etc provided guidelines on the intakes of metal elements by humans. The acceptable daily intake (ADI) or tolerable daily intake (TDI) or provisional tolerable weekly intakes (PTWI) are used to describe safe levels of intake for several toxicants including toxic metals.

Exposure exceeding the TDI value for short periods should not have deleterious effect upon health, however acute effects may occur if the TDI is substantially exceeded even for short periods of time.

1.4 Objective of Study

1.4.1 General Objectives

· To determine the levels of Cd, Pb, Zn, Mn, Cu, Cr and Ni in locally produced and imported pasta in the Nigerian market.

1.4.2 Specific Objectives

· To determine the levels of Cd, Pb, Zn, Mn, Cu, Cr and Ni in the locally manufactured and imported pasta available in the Nigerian market.

· To compare the levels of these metals in the locally produced and imported pasta.

· To determine any correlation in the metal levels in each pasta product.

· To compare the extent of compliance to guideline values of these metals to some International Standards.

· To estimate the daily intake (DI) of these metals through pasta consumption for adults and children.

· To compare the DI values with accepted daily intakes stipulated by International Standard bodies.

· To estimate any associated health risk in the consumption of pasta by children and adult.

Figure 1: A Cross-section of Some Samples