Indonesian Journal of Halal Research, 4, 1 (2022): 19-25 

E-ISSN: 2657-0165 

P-ISSN: 2656-3754 

DOI: 10.15575/ijhar.v4i1.12097 

https://journal.uinsgd.ac.id/index.php/ijhar/ 

Safety Assessment of Questionable Food Additives  

in the Halal Food Certification: A Review 
 

Siti Mariyam1*, Huseyin Bilgic2, Ivonne M.C.M. Rietjens3, Devi Yuni Susanti4 

 
1,4Department of Agricultural and Biosystems Engineering, Faculty of Agricultural Technology, Universitas 

Gadjah Mada, Jalan Flora 1. Bulaksumur, Yogyakarta 55281, Indonesia 

2Halal Feed and Food Inspection Authority, Fijnjekade 225, Den Haag, 2521 DT/ 2500 BT, The Netherlands 

3Division of Toxicology, Wageningen University and Research, Stippeneng 4, Wageningen, 6708 WE, The 

Netherlands 

e-mail: siti.mariyam@ugm.ac.id*1, huseyin@halal.nl2, ivonne.rietjens@wur.nl3, deviyunisusanti@ugm.ac.id4 

 

*Corresponding Author 

Received: September 15, 2021; Accepted: February 27, 2022 

 

Abstract: Food additive demand was increased due to the higher need for long-lasting and ready-to-eat food. 

Some food ingredients are concerned about their halal status due to the source of ingredients and technology 

processes. Halal is not only related to the religious motif but also the food’s integrity. This research aims to 

describe the scientific relevance of some questionable food additives in halal food certification in HFFIA (Halal 

Feed and Food Inspection Authority). The ingredients of food that have unclear halal status were subjected in 

this study. Literature reviews from some scientific sources for relevant papers in English were used to 

understand the suspected food additive. Food safety is included of certification process; it is essential for 

certificate application and verification procedures requirement. Food additives are used at food industry to 

enhance food quality. Some food additives have questionable halal status because of their principal ingredients. 

According to this study, those food additives were found in the screening process. The plant-based ingredients 

are good alternatives to ensure the halal status of those food additives. Also, the use of raw materials and 

processing aids from halal-approved origins and suitable processing technologies will provide the halal status 

and give the trustworthy among consumers. This review may serve as a basis for using food additives 

considering halal. It is not only for further research but also for food industry. 

Keywords: food safety, halal, health, hygiene. 

 

1. Introduction 
State of The Global Islamic Economy Report (SGIE) 2020/2021 reported that the Muslim 

population spent around USD 2.2 trillion on halal products, such as food and beverages, medicines, 

and other lifestyle products that support the halal lifestyle. The prediction for 2024 is suspected that 

there will be the increase into USD 2.4 trillion. Halal food and beverage industry, cosmetics, 

medicines, Islamic financial services, fashion, halal tourism, and Islamic media are the significant role 

areas. Pandemic COVID-19 has affected the Muslims spend in 2020 significantly at the travel sectors 

(70%), while food fares the best (0.2%). Ready to eat meals and food delivery significantly increased 

by 219% to USD 6.3 billion (DinarStandards, 2020).  

The demand of ready-to-eat meals and meal kits increased as the government's regulation to 

cook and eat at home due to pandemic COVID-19 situation. The use of food additives is essential to 

preserve food so that it can become ready-to-eat food and add other beneficial functions. Food 

additives are components which are added during food preservation to improve the shelf-life, flavor, 

savor, or food appearance. Food additives can be used if they have an appropriate technology. It will 

not misleads the consumers. Also it is used as a specific technical function (World Health 

Organization, 2018). Food additives sources are diverse. Because of that, they need to clarify the 

characteristics and origins of those components. The uncertainty of which raw materials, the food 

additives face an essential problem of halal food. Halal means allowance, proper, and permission. 

Halal foods are good foods for Muslim based on Islamic Law. It states that the foods are allowed and 

good for being the product. 

In the intention of food, it is essential to consider both of quality and safety. Food safety is 

needed to guarantee human health and promote public health. The contaminants of food can enter the 

food supply chain during production, distribution, or consumption. Cleanliness and purity are essential 

in controlling food to promote human health. It is crucial to guarantee food authenticity to protect 

human health and consumer protection. The risk of food fraud increases the lack of the control 

operation or specific measurement as intended by management (Manning, 2016). Halal is one of the 

https://journal.uinsgd.ac.id/index.php/ijhar/
mailto:siti.mariyam@ugm.ac.id
mailto:huseyin@halal.nl
mailto:ivonne.rietjens@wur.nl
mailto:deviyunisusanti@ugm.ac.id


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Siti Mariyam et al. 

concern issues. It is related to the religious motif and food integrity. Halal has provided the rules of 

cleanliness and purity of the raw materials from the products are made and the technology process. 

The safety of human life by eating healthy makes that halal become essential. 

The specific aim of this review is to establish a scientific understanding of the properties of food 

about food safety and halal aspects. This paper elaborates on halal status of questionable food 

additives and related to food safety. This study is essential to provide scientific proof of halal 

authenticity. This study summarized the characteristics, chemical structure, toxicology, regulatory 

status, health concern, and possible alternatives for questionable food additives. 

 

2. Materials and Methods 
To specify a more precise context of food safety and halal status, this work reviews some 

questionable food additives food safety and halal status. The information gathered from the literature 

can recognize the challenges of halal food safety specifically. The list of compounds was collected 

from Halal Feed and Food Inspection Authority (HFFIA). It is an independent halal certification that 

works to assess halal requirements for worldwide companies. The compounds are chosen by according 

to their potency’s unclear ingredients. Food additives with questionable halal status were the subject of 

this research. A literature review was conducted in Science Direct, Scopus, and Scholar for relevant 

papers in English. The methods are conducted comprehensively by using recurrent processes of 

describing relevant and revealing keywords, querying the literature, and undertaking rigorous analytics 

(Saunders et al., 2009). 

 

3. Results and Discussion 
The awareness in purchasing the safe food has increased among consumers. Also, the case of 

wholesomeness failures, such as unwanted harmless physical, chemical, or fraud ingredients raised. 

The manufacturer has to strengthen its control by providing brand quality protection. One of the best 

ways to guarantee quality is by certification. Halal certification ensures the produced product 

according to Islamic law. Based on Halal regulation, the use of food additives originating from animal 

sources has become a concern. For example, if the start of this fat comes from pork, it will be 

considered Haram. Besides, if it comes from the halal animal, the slaughtering procedure has to follow 

the method that has been described by Islam. There are some essential aspects to be considered in 

Halal certification since it is mentioned explicitly by the Halal regulation. Some animals are forbidden 

for Muslims. They are pigs, swine, dogs, donkeys, snakes, and cats. According to Islamic rituals that 

the materials which has come from animal ingredients should be taken from Halal animal species and 

slaughtered. Also alcoholic beverages, wines, spirits, and other intoxicants are prohibited.  

Food safety has a strong correlation with halal concepts, which is related to the requirements for 

hygiene standards (Sani & Dahlan, 2015). According to MS 1500:2009, hygiene, food safety, and 

sanitation are required at all stages of halal food production. Recently, the global food’s supply chain 

certification is the best way to communicate product status (Manning, 2017). Nevertheless, the food 

industry also needs to stay in commiting to its food safety management. Food safety is a scientific 

control for the definition, preparation, and storage food in ways that avoid foodborne diseases. A farm-

to-table approach can reach food safety. The goal is to control hazards in the whole food production 

process. It is essential to prevent the contamination of the raw materials from plant or animal origin to 

ensure food safety (Chaves et al., 2017). Good Manufacturing Practice (GMP) or Good Hygiene 

Practice (GHP) implementation accompanied with Hazard Analysis and Critical Control Point 

(HACCP) during the food processing is essential to guarantee food safety (FAO, 2015). The halal 

certification implies that the whole process should follow hygienic and clean manners. It includes all 

the parts of the supply chain, such as the raw material, production, and distribution. 

Hazard Analysis Critical Control Point (HACCP) is an approach to safety that addresses 

physical, chemical, and biological hazards for the prevention rather than final product inspection. It is 

recommended a strategy to improve food safety from farm to fork. This approach used by food 

industry to identify the food safety problems considers the Critical Control Points (CCP). This CCP 

describes factors that need specific attention and also the consumer requirements. Applying HACCP in 

Halal standard refers to the system guarantee food safety (Latif, 2014). 

Food safety assurance is essential to preserve a safe and healthy food supply. It encompasses the 

total supply chain from raw materials to the finished product. It controls the quality of the raw 

materials and the critical processing elements. It guarantees that ingredients have quality and there are 

processes in place that are validated and monitored by concerning food safety (Batt, 2016). Foods and 



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Safety Assessment of Questionable Food Additives in the Halal Food Certification: A Review 

beverages which do not contain meat or alcohol naturally comply with halal criteria. Furthermore, 

some technological processes can lead the food being non-halal, for example, alcohol or food additives 

that are not halal. Food Safety Objective (FSO) describes an approach to set the elements of the 

HACCP system. The objective of FSO is to prevent sickness by focusing on food manufacturing and 

avoiding exposure to pathogens. FSO considered the entire process, including production, distribution, 

storage, and food consumption (Whiting & Buchanan, 2014). Table 1 is informations about GAP 

between the food safety measurement and the halal standards. 

Table 1. Scope of GMP, HACCP and Halal Standards 

Food additives are components added during food preservation to improve the shelf-life, 

flavour, savour, or food appearance. Food additives can be obtained from natural sources, chemical 

synthesis, and biotechnological processes. In European Union, food additives indicated by “E” codes 

are followed by numbers expressing the chemical element (Moldes et al., 2017). The safety concept 

included the potential hazards to the health of human beings and needed the prove validation. There 

are some considerations to determine the safety of food additives: the intake of food additives, the 

effect of food additives on the food, the cumulative effect of food additives in human diet, and safety 

factors using the animal experiment data (Featherstone, 2015). 

Food additives are essential in halal certification since the manufacturer usually uses them and 

has complex components. The halal issue of food additives is related to the raw materials origin and 

the technological process. The raw materials from animal derivate being the concern since some 

animals cannot be used as Halal food ingredients. In addition, insect-based food is also essential to be 

considered. Some of food additives which have a questionable halal status that found during HFFIA 

screening are E120 (Carmines), E441 (Gelatin), E542 (Edible Bone Phosphate), E471 (mono- and 

diglycerides), E483 (Stearyl tartrate), E422 (Glycerol), E904 (Shellac), E920 (L-Cysteine). 

3.1. E120 (Cochineal extract, Carminic, and Carmines) 
The categorized E number for food colouring is E100-E199. The exact colour is carminic acid, 

while the pigment's name is called carmine. Cochineal is a natural food colouring obtained from the 

female insect Dactylopius coccus Costa. This insect lives on cactus plants in some Peru and the 

Canary Islands (Ramesh & Muthuraman, 2018). It was used widely as a food colourant since it has 

many advantages over other natural food colourants. Cochineal is one of the natural dye. It is soluble 

in water and can resist degradation through time. It has high stability through light, heat, and 

oxidation. It is even more stable than some synthetic colours. 

The halal status of insects is not clear, except for locusts declared as Halal. Nevertheless, 

 GMP Standard Scope HACCP Halal Standards 

Summary Guides towards developing a 

safe food processing operation 

Directions on the processing 

operation, including setting 

parameters for secure food 

processing, maintenance, and 

troubleshooting procedures 

Introductory guides on Halal 

for food processors with 

emphasis on Islamic animal 

slaughtering methods 

Scopes Premises and facilities 

locations, premises, facilities, 

and processing machines 

Analyze hazards- biologically, 

chemically and physically 

Najis terms definition 

 Operation control – 

developing standard operating 

procedure (SOP)  

Determine critical control points  Define Management 

responsibility  

 Sanitation and maintenance Establish limits for critical control 

points  

Premises and machinery 

hygiene  

 Personnel – Hygiene and 

training  

Establish monitoring procedures 

for critical control points  

Processing of Halal food  

 Logistic – 

compartmentalization and 

maintenance  

Establish corrective actions  Slaughtering process  

 GMP Standard Scope HACCP Halal Standards 

 Traceability system  Establish verification procedures  

 

Storage, transportation, 

display, sale and servings of 

Halal food.  

 Internal audit training  Establish a record system  Packaging,  labeling and 
advertising  



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valuable insects such as bees, ants, and spiders, and dangerous or unclean animals like louse, flies, and 

midges are forbidden as food. Honey, as the product of insects, is suggested by the prophet to use in 

daily life to maintain health. Other accepted products such as wax, royal jelly, shellac, and carmine are 

approved to use, although some people may consider that carmine and shellac are debatable (Chaudry 

& Riaz, 2014). 

The cochineal uses in the form of food colourant can be replaced by artificial colours, for 

example, Erythrosine (E127), Allura Red, Carmoisine (E122), Ponceau 4R (E124), Amaranth (E123), 

Red 2G (E128), Brown FK (E154) and Iron oxides (E172). Besides, food colourants from plant-based 

ingredients can solve the consumer demand for natural food colourants. Natural food colouring, which 

is accepted in the European Union, consists of Carotenoids (E160), anthocyanins (E163), and betalains 

(E162) (Downham & Collins, 2000). Furthermore, carotenoid red-coloured lycopene from tomatoes 

and capsanthin from paprika are more functional substituents than cochineal and its derivative 

(Müller-Maatsch & Gras, 2016). 

Carmines have a long history of being used as a food additive. The market for natural colourants 

is rising due to the consumer demand for natural products. Besides, carmine as a natural dye has some 

problems. The problems are related to the source of this additive, which is from an insect. Moreover, 

the Halal status of the carmine is questionable. Consumption of insects did not allow. There are some 

potential substitutes and future trends for the use of carmines. The artificial colourant is an alternative, 

but the consumer demands natural products. Hence, the use of plant-based dyes such as Carotenoids 

(E160), anthocyanins (E163) and betalains (E162). These colourants can be derived from plant origins 

such as red beet, papaya, tomatoes and paprika. 

3.2. E441 (Gelatin) 
Gelatin is a refined essence of collagenous tissue from various animals that form clear, sticky 

water solutions or just proteins of high pureness. It has no taste in either colour. The average humidity 

and temperature condition contains 9-13percent moisture and 1.3-1.4 relative density. During the 

heating in solution 40°C, extremes pH, and proteolytic enzymes, the effectiveness of gel and viscosity 

will be decreased (Featherstone, 2015). Gelatin has functionalities, such as gelling, binding, 

stabilizing, thickening, whipping, emulsifying, sticking, and foaming powder, syneresis prevention 

and thermos-reversibility in some food products, such as cookies, sweets, desserts, drinks, butter, ice 

cream, and cakes. 

As an alternative, fish gelatine can be used in manufacturing. Fish gelatine is produced from the 

skin of deepwater fish. Moreover, it can be extracted from another fish part, such as the fish head and 

air bladder (Benjakul & Kittiphattanabawon, 2019). This allows for having many same characteristics 

as animal gelatin. Furthermore, the alternatives can be from the fish skin, scales, and bones from the 

byproduct of aquatic products processing. Aquatic gelatin is a potential alternative for pork and beef 

gelatins since it has similar characteristics to mammalian gelatins. The improvement of aquatic gelatin 

properties is needed to be broaden of the use of aquatic gelatin in food production (Lin et al., 2017). 

The transformation of gelatin only occurred physically, not chemically. Hence, istihalah of 

gelatin cannot be applied. Istihalah only be used if the change or transformation is entirely happened 

by physical and chemical aspects. The evolution of alcohol into the vinegar has wholly converted 

ethanol to another material and chemical product. In the auditing or physical inspection, for controling 

and checking the food race can be measured by laboratory analysis. 

3.3. E542 (Edible Bone Phosphate) 
Phosphate naturally presents organic esters in any food, such as meat, potatoes, bread, and other 

products. Only 40-60 percent phosphate is absorbed in the gastrointestinal tract. The source of this 

additive is animal bones. According to evaluation by FAO/WHO Expert Committee on Food 

Additives, E542 is a different residual combination of calcium phosphates, principally Ca3(PO4)2 

Ca(OH)2, gained by the grinding of bones that has been preserved with hot water and steam under 

pressure, may contain unextracted fat and proteins. Bone phosphate also includes some beneficial 

elements, such as fluorine and zinc. It has a white to pale colour and odourless powder form. It is not 

soluble in ethanol and water (FAO, 2013). It is considered a MacBook or questionable since the source 

of E542 is from animal bones. E542 cannot be used for vegans, vegetarians, Muslims, Jews or Hindus. 

It’s usually made from pigs and cattle bones. To get the benefit from E 542 in food, some alternative 

anti-caking agents and emulsifiers originating from plant-based can be used. In addition, E 542 will be 

accepted if the supplier guarantees that the ingredients used for the manufacture come from a halal 

animal origin. 



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Safety Assessment of Questionable Food Additives in the Halal Food Certification: A Review 

3.4. E471 (Mono- and Diglycerides) 
E471 is an artificial fat produced from glycerol and natural fatty acids. Mostly it is made from 

plant origin, but also animal origin may be used. The chemical structure of E471 from plant and 

animal origin have a similarity. Diglycerides are a minor natural constituent of many edible oils. They 

can combine hydrophilic and hydrophobic molecules. Diglycerides are glycerol esters in which two 

hydroxyl groups are esterified with long-chain fatty acids. (Ferretti et al., 2018). 

E471 is used as emulsifiers and stabilizers commonly. It is used widely in products such as 

cakes and other bakery products, puddings, margarine, ice cream, and chocolate. This emulsifier is 

usually used to increase the volume and improve the crumb structure of baked goods and lengthen 

their shelf life. In the sauce dressing, it has the function to maintain the water and oil phase together, 

thus improving the appearance and shelf life (Nicholson & Marangoni, 2018). 

The use of animal origin, for example, pork, cannot be excluded. To make it clear, the producer 

may give specific information about the source of the fatty acids. If the fat source is soy fat, then it is 

halal. If the source is from pork fat, it is considered not Halal. To determine the fatty acid source, the 

manufacturer may specify by stating the origin of the fatty acids, whether it’s made from plant or 

animal origin. The use of plant origin fatty acid is halal and permissible. 

3.5. E483 (Stearyl tartrate) 
E483 is a combination of stearic acid and tartaric acid. The synonym is Stearyl palmityl tartrate. 

The source of this additive can be plant and animal fat. Mostly, plant-origin has widespread used. The 

melting point of stearyl tartrate is between 67°C and 77°C. After saponification, the saturated long-

chain fatty alcohol has a melting range of 49°C to 55°C (EC, 2012a). 

It is used as an emulsifier, thickener, gelling agent and stabilizer in bakery products. Thereby, it 

can enhance the texture and quality of the food products. FAO set maximal level for some food 

categories, for dairy-based desserts (ice cream, ice milk, pudding, fruit or flavoured yoghurt), fat-

based desserts, fruit-based dessert, vegetable and nut, cereal and starch-based desserts and egg-based 

desserts is 5000 mg/kg, while for bakery wares is 4000 mg/kg (FAO, 2018). Stearyl tartrate is mostly 

made from vegetable oil, but the use of animal fat cannot be excluded. The producer should mention 

the origin of the fat to avoid ambiguousness. The use of plant-based ingredients that have the same 

function for the dough treatment could be an alternative. 

3.6. E442 (Glycerol) 
Glycerol is a polyalcohol containing three hydroxyls (-OH) groups with the molecular formula 

C3H8O3. The boiling point is 290°C. The physical appearance is clear, colourless, hygroscopic syrup 

liquid. Glycerol is natural alcohol from carbohydrates. It is the main component of fat (EC, 2012b). In 

the blood, it is presented in low concentrations. 

Widely the application of glycerol is known as the low-calorie sweetener agent, food humidity, 

etc. Some products such as bakery and confectionery products use glycerol in their production. 

Glycerol is also used in meat products, sauces, flavoured drinks, gum, snack, chocolate, cereal, and 

food supplements. To determine the Halal status, information about its source is essential. It will be 

Halal if obtained from oils or soy fat. Glycerol is mainly originated from plants and animals sources, 

where it is present as triglycerides. Plant sources for glycerol production could be soybeans or palm 

trees. 

3.7. E904 (Shellac) 
Shellac is a purified secretion of lac insects, Laccifer lacca. It is used in tablet sealer, glazing 

agents, sweet, waxed fruit. Because of its ability to provide a glossy effect, shellac is commonly used 

to coat citrus and other fruit. Vegans usually avoid the product since there are lice in the raw product. 

Shellac is used and identified as a contact allergen in eye makeup. Plant-based ingredients can be a 

suitable alternative for halal food certification. 

Plant-based ingredients can be a suitable alternative for halal food certification. Edible films and 

coating applications in food not only can increase product quality but also extend the shelf life of the 

product. The edible film can be classified according to the original material. Components for palatable 

film preparation can be classified as hydrocolloids (protein, polysaccharides, and alginate), lipids 

(fatty acids, glycerol, waxes), and composites (Dhall, 2013). 

3.8. E920 (L-Cysteine) 
Cysteine is categorized as a non-essential amino acid since sufficient amounts of cysteine can be 

produced by the cells in our body, under normal physiological conditions, from the dietary essential 



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Siti Mariyam et al. 

amino acid, L-Methionine, and the non-essential amino acid, L-Serine, via a transsulfuration reaction. 

(Paul et al., 2018). It is used as a bread enhancer. It can stabilize the structure of leavened bread. 

Cysteine is currently being used for applications within the food, pharmaceutical and personal care 

industries. One of the most significant applications in food industries is the production of flavours, 

such as the meat flavour in vegetarian foods (Alimentarius, 2015). 

E920 is produced from animal sources. It has a crucial Halal issue. Therefore, a claim that 

cysteine from chicken feathers may be halal only if the feathers are from chickens slaughtered 

following the sharia. Cysteine can be produced by animal or plant origin. Plant-based ingredients will 

be suitable for vegans and another groups of religion like Muslims (Halal food) and Jews (Kosher 

food). Wacker (Germany) claims that they are the first company that produced L-Cysteine for vegans. 

This is a plant-based L-Cysteine produced by fermentation of vegetable materials and inorganic trace 

elements (Wacker, 2018). 

 

4. Conclusion 
The Halal requirement consists of the wholesomeness concept, which requires purity and free-

contamination in whole production. Briefly, food safety is included in certification process. It has an 

important invention in the requirement for certificate application and verification procedures. 

According to this study, some food additives with uncertain halal status are often found in the 

screening process. The plant-based ingredients are good alternatives to ensure the halal recognition of 

those food additives. Also, the use of raw materials and processing aids from halal approved origins 

and suitable processing technologies will provide the halal status and give trust among consumers. 

 

Acknowledgements 

The authors thank the HFFIA management for allowing us to do an internship in this respectful 

institution. Furthermore, thank you for Indonesia Endowment Fund for Education (LPDP) scholarship 

for providing the funding to do master study in Wageningen University and Research. 

 

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