Coffee bean processing: Emerging methods and their effects on chemical, biological and sensory properties.

Emerging processing methods have been applied in coffee bean processing for improved sensory quality. The processes focus on optimizing the fermentation process of the coffee cherries and beans. This involves various pathways, including the formation of volatiles, flavor precursors and organic acids and the reduction in the concentrations of bioactive compounds. Comprehensive information regarding the effect of these emerging processes on the chemical, biological and sensory properties of the coffee beans is summarized. Emerging processes affected the coffee bean to various degrees depending on the raw material and the method used. The emerging methods promoted the reduction of bioactives such as caffeine and phenolics in coffee beans. Substantial improvement of these processes is needed to obtain coffee beans with improved biological activities. Effort to simplify the methods and optimize the post-fermentation process is crucial for the methods to be easily accessible by the producers and to produce defect-free coffee beans.

Comparison of bioactive components and flavor volatiles of diverse cocoa genotypes of Theobroma grandiflorum, Theobroma bicolor, Theobroma subincanum and Theobroma cacao.

Theobroma grandiflorum, T. bicolor and T. subincanum represent underutilized genetic resources for cocoa quality. The bioactive components and flavor volatiles of different bean genotypes of these species were profiled and compared with those of T. cacao. T. bicolor and T. grandiflorum had different profiles of methylxanthines and polyphenols from T. bicolor and T. cacao. T. subincanum and T. grandiflorum were rich in theacrine and flavones. T. grandiflorum, T. bicolor and T. subincanum beans generally had less phenolics than T. cacao. Roasting decreased the concentrations of polyphenols and methylxanthines in the beans. Roasted T. grandiflorum and T. subincanum beans had higher concentrations of pyrazines and esters than T. cacao. T. grandiflorum and T. subincanum beans had more odor-active volatiles than T. cacao. Overall, the underutilized Theobroma species have potential to be exploited to improve the flavor and nutritional quality of cocoa products.

Chemical and biological properties of cocoa beans affected by processing: a review.

Cocoa (Theobroma cacao L.) is widely cultivated in tropical countries. The cocoa beans are a popular ingredient of confectionery. Cocoa beans contain various chemicals that contribute to their bioactivity and nutritional properties. There has been increasing interest in developing cocoa beans for "healthy" food products. Cocoa beans have special combination of nutrients such as lipids, carbohydrates, proteins and other compounds of biological activities. The bioactive phytochemicals include methylxanthines, polyphenols, biogenic amines, melanoidins, isoprostanoids and oxalates. These phytochemicals of cocoa are related to various in vivo and in vitro biological activities such as antioxidation, anti-cancer, anti-microbial, anti-inflammation, anti-diabetes, cardiovascular protection, physical improvement, anti-photoaging, anti-depression and blood glucose regulation. The potential of bioactive compounds in cocoa remains to be maximized for food and nutritional applications. The current processing technology promotes the degradation of beneficial bioactive compounds, while maximizing the flavors and its precursors. It is not optimized for the utilization of cocoa beans for "healthy" product formulations. Modifications of the current processing line and non-conventional processing are needed to better preserve and utilize the beneficial bioactive compounds in cocoa beans.

Changes in the Composition of Methylxanthines, Polyphenols, and Volatiles and Sensory Profiles of Cocoa Beans from the Sul 1 Genotype Affected by Fermentation.

The Sul 1 cacao (Theobroma cacao) genotype has become more popular among cocoa producers due to its resistance toward vascular streak dieback, a devastating dieback disease in cacao plants. Sul 1 cocoa beans were subjected to prolonged fermentation of 10 days (240 h). Changes in the composition of methylxanthines, polyphenols, and volatiles and sensory profiles of the cocoa beans as affected by fermentation were analyzed. The first 48 h of fermentation significantly determined the composition of the methylxanthines and polyphenols in the cocoa beans. A prolonged fermentation (>96 h) period did not further reduce the contents of methylxanthines and polyphenols in the cocoa beans. Important volatiles characteristic of the cocoa/chocolate flavor were mostly developed after 48 h of fermentation. The fermentation for 72 h retained considerable amounts of methylxanthines and polyphenols in the beans while producing cocoa mass with good sensory profiles.

Diversity in Composition of Bioactive Compounds Among 26 Cocoa Genotypes.

Composition of bioactive compounds in cocoa beans is critical to the sensory and nutritional quality of cocoa based products. Twenty-six cocoa bean genotypes were freshly collected from the same plantation location in Indonesia. The bioactive compounds in these raw cocoa genotypes were identified and quantified. The results showed a great diversity in the composition of bioactive compounds among the 26 cocoa samples. The concentrations of methylxanthines, epicatechin, proanthocyanidin (PA) B-type oligomers, clovamide, and anthocyanins were important variables that differentiated these genotypes. MCC 01, SUL 3, ICCRI 03, and ICS 60 genotypes had the highest contents of flavan-3-ols including PAs and have the potential to be developed for "healthy" product formulations. Some genotypes such as DR 1, DR 2, DR 38, ICS 13, KPC 1, KW 617, RCC 71, and TSH 858 could be favored by industries due to the potential to be made into end-products with brighter appearance.

Intravariety Diversity of Bioactive Compounds in Trinitario Cocoa Beans with Different Degrees of Fermentation.

There has been increasing interest in the bioactive components of cocoa beans as they are related to the nutritional and sensory quality of cocoa products. Sulawesi 1 (Sul 1) cocoa beans (Trinitario variety) with different degrees of fermentation were collected from Indonesia. Quantification of bioactive compounds in these beans was done to better understand its intravariety diversity in the composition of bioactive components. Epicatechin, proanthocyanidin (PA) dimer, PA trimer, PA tetramer, and cyanidin glycosides were the major phenolics in Sul 1 cocoa beans. There was wide variation in the concentrations of bioactive compounds among the beans. These cocoa beans can be categorized into 4 distinct groups based on the profiles of flavan-3-ol derivatives, phenolic acids, flavonols, and anthocyanins. The fermentation index of cocoa beans could not be directly related to the polyphenol profile. This study provides insights into farm management using Sul 1 as planting material for quality improvement of cocoa-based products with targeted bioactive composition.