New Insights in Prebiotic Utilization: A Systematic Review

: The hectic pace of modern life often leads to quick solutions, both in lifestyle and the choice of food we consume. The importance of the gut microbiome and its balance is being increasingly researched, with the prebiotic concept itself becoming a topic of scientific investigation. The aim of this paper is to analyze scientific studies on the understanding of prebiotics conducted between 2019 and 2024 in order to see what new knowledge, new sources, new ways of use, and newly established effects on certain disease states have been discovered during this period. The question that the authors are trying to answer is how specific prebiotics affect the growth and activity of selected probiotic strains in the human gut (have impact on gut microbiome) and what the implications of these interactions are. Four databases were searched: Pubmed/MEDLINE, Springerlink, Google Scholar, and Scopus. The keywords used were prebiotics, functional food, probiotics, gut microbiome, and trends. A systematic review of 30 scientific studies on the topic of prebiotics revealed significant advances in understanding and application. Research particularly indicates how prebiotics stimulate the growth of beneficial probiotic strains, such as Lacticaseibacillus rhamnosus , Lactiplantibacillus plantarum , and Bifidobacterium . In addition, innovative approaches in food production, including pasta rich in prebiotic fibers, chocolate with inulin and stevia, and the use of fruit by-products, show promising results in creating “healthier” food options. Although the papers had differing objectives and research methodologies, certain similarities were found. All papers emphasized the importance of using prebiotics, although it depended on the type they come from and their impact on the gut microbiome, i


Introduction
"Let food be thy medicine, and medicine be thy food" (Hippocrates) In the last decade, prebiotics have attracted significant attention in scientific research due to their role in stimulating the intestinal microflora in the degradation of nutrients and improving the overall health status of humans.Their degradation products are short-chain fatty acids (SCFA) that are released into the bloodstream, consequently affecting not only the gastrointestinal tract but also other distant organs [1].Through the effort and work of scientists, prebiotics today, after numerous studies thanks to the microorganisms conferring a health benefit" [2].The concept of prebiotics was first introduced by Glenn Gibson and Marcel Roberfroid in 1995 [3].Only a few compounds from the group of carbohydrates, such as short-chain and long-chain β-fructans (FOS and inulin) and lactulose or galactooligosaccharides (GOS), can be classified as prebiotics.By modulating the gut microbiota, prebiotics stimulate the growth of "good bacteria" probiotics, such as Lactobacillus and Bifidobacterium, while reducing the growth of those "bad bacteria" or pathogens [4].By emphasizing research and raising people's awareness of proper and balanced nutrition, the problem of the onset of related diseases is sought to be suppressed.Thus, the aim of this paper is to analyze the latest findings on the prebiotic potential and answer the question of how specific prebiotics affect the growth and activity of selected strains of probiotics in digestion (in vitro and in vivo) and what the implications of these interactions are.This will be investigated by reviewing the literature and studying papers in databases relevant to the given subject of research.Also, the aim is to identify key knowledge gaps in the field of prebiotics and topics that are currently of interest to scientists, such as optimal dosages, their interactions with probiotics that potentially result in the greatest health benefits, and similar topics.

Existing Knowledge: Types of Prebiotics, Their Sources, and Impact
In the next section, we will cover the most frequently mentioned types of prebiotics and their sources that have been mentioned in further research.In addition to the mentioned ones, other known groups of potential prebiotics are oligosaccharides derived from starch and glucose, where resistant starch belongs, which is an indigestible component of human intestines, and other oligosaccharides, such as pectin (pectin oligosaccharide-POS), for example, flavanols from cocoa, which belong to oligosaccharides without carbohydrates and have shown their potential by acting on the stimulation of lactic acid bacteria.

Fructans
Fructans are a type of prebiotic composed of inulin and fructooligosaccharides (FOS) or oligofructose.Their structure is a linear chain of fructose with a β (2→1) bond.They usually consist of glucose units with a β (2→1) bond at the end [5].Initial research pointed to the selective stimulation of fructans on lactic acid bacteria, but in recent years, more and more emphasis is being placed on chain length as an important factor influencing the determination of the type of bacteria that can ferment [6].

Inulin
Inulin-type fructans are polymers made from fructose linked to terminal α-linked glucose via a β (2→1) bond.Chicory is considered the richest source of inulin.Several studies have shown that inulin-type fructans can enhance the growth of bifidobacteria and Anaerostipes [7].Inulin is most commonly used as a fat substitute [8]; it has been proven to enhance mineral absorption in the body [9,10], alleviate constipation [11], and promote the growth and development of Lactobacillus and Bifidobacterium strains within the colon [12], which is why it is important to this study.

FOS
Fructooligosaccharides (FOS) are a researched type of prebiotic that can be found in bananas, wheat, onions, and garlic.The main component of the FOS structure in β (2→1) bonds is fructose.FOS derivatives are beneficial for colon health, as they promote the selective growth of bifidobacteria and lactobacilli and potentially inhibit microorganisms in intestinal cells, enhance the maintenance of body bacterial balance, alleviate constipation, and maintain healthy gut flora [13].

GOS
Galactooligosaccharides (GOSs), a product of lactose degradation, are classified into two subgroups: GOS with an excess of galactose at C3, C4, or C6 and GOS produced from lactose by enzymatic transglycosylation.The end product of this reaction is mainly a mixture of tri-to pentasaccharides with galactose in β (1→6), β (1→3), and β (1→4) bonds.This type of GOS is also called trans-galacto-oligosaccharides or TOS [14].GOS is considered one of the most researched types of prebiotics and is safe for consumption.Galactooligosaccharides can greatly stimulate the growth of bifidobacteria and lactobacilli [15].Its most common use currently is in infant milk formula, where it has proven to be a help in gut modulation by promoting the growth of Bifidobacterium strains in infants who cannot be fed breast milk [16].

Newly Recognized Unclassified Prebiotics
With the advancement of technology, prebiotic preparation methods have been optimized.In addition, various new types of prebiotics have been developed (mainly including polysaccharides, polyphenols, and polypeptide polymers) [17].Emerging prebiotics are mainly found in algae, fruit juices, and fruit such as chokeberry [18].Although knowledge about them is not yet as established as about prebiotic types FOS and GOS, their potential deserves in-depth study and has a promising future.The mentioned research is located in Section 4.

Importance of Prebiotic Interaction on Probiotic Growth and Stimulation Mechanism
The human digestive system, often described as the "second brain," plays a crucial role in maintaining health.The gut microbiome consists of approximately 3.9 × 10 13 bacteria in the large intestine, composed of probiotics, neutral bacteria, and pathogenic bacteria [19], which compete with each other to establish a balance in order to prevent the development of diseases.Scientists are constantly searching for new sources of prebiotics and probiotics and their synergistic action, as diseases related to gut balance disorders, such as obesity, type 2 diabetes, irritable bowel syndrome, various mental disorders, and colon cancer, are in constant worrying increase.The notion of probiotic food often brings to mind mild kefir and fermented dairy food [20].The gut microbiome is in constant interaction with the human body, helping the body digest and absorb nutrients from food, metabolize toxic waste produced in the intestines, and produce functional substances necessary for life.This primarily refers to amino acids, vitamins, short-chain fatty acids (SCFA), and other substances [21].Since probiotics are live microorganisms that enhance gut function with sufficient intake, their growth and reproduction require the intake of mainly polysaccharides that the body cannot digest-prebiotics.After the intake of a prebiotic compound, it passes through the small intestine and reaches the large intestine undegraded.Here, probiotic microorganisms break them down primarily into SCFAs, which later act on the organism, using fermentation.Firmicutes and Bacteroidetes are physiologically dominant species in the fecal microbiota of the adult large intestine, while Actinobacteria predominates in infants [22].The ratio of Firmicutes to Bacteroides was often considered a trigger for obesity, but newer meta-analyses refute this theory.Unlike studies done on mice, human studies have not confirmed these results.Disagreements between these studies highlight the lack of reliable microbial taxonomic indicators for obesity [23].Further research is needed to establish this fact.Furthermore, research indicates that the composition of the gut microbiome may be related to personality traits [24].Among probiotic strains, the most commonly described are strains of Lactobacillus (belongs to the phylum Firmicutes) and Bifidobacterium (belongs to the phylum Actinobacteria) [22].In addition to them, this group also includes Enterococcus, Streptococcus, and Escherichia.The fungus Saccharomyces boulardii is not naturally found in the gut microbiome, but its supplementation is of particular interest to people who need to replace gut dysbiosis caused by the use of antibiotics [25].

Materials and Methods
Due to PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses), guidelines were followed in this review.Search was performed from inception until January 2024 in Pubmed/Medline, Springerlink, Google Scholar, and Scopus databases for randomized clinical trials that assessed the effects of prebiotic type on human gut in vitro and in vivo among adults and children and that were published in English language.

Inclusion Criteria
The research encompasses insights into the effects of prebiotics based on clinical trials, specifically randomized controlled trials (RCTs).The target population was adults and children with specific health conditions, comparing the composition of the gut microbiota and its impact on health before and after the study.The studies include comparisons of the type of prebiotic sources used and their impact on health.The consequences of prebiotic action, including improvement, stimulation of probiotic growth, and the duration of the study, are taken into account.The time span of the studies considered was within the last 5 years (2019-2024).

Exclusion Criteria
All studies not conducted on humans were excluded (animals, review papers, study protocols, or observational studies).Case studies were also not included.Clinical trials that did not have a precisely defined type of prebiotic used and an examination of their subsequent action either on the gut microbiome or on the stimulation of probiotic strain growth in the gut microbiome were not considered.Papers that did not belong to this study by title, i.e., included a type of research that is not the subject of inclusion, were excluded.The duration of the studies was not limited.

Research Process
Four databases were utilized for the search: PubMed/MEDLINE, Scopus, Springerling, and Google Scholar.The keywords used for Google Scholar were "prebiotics", "functional food", "probiotics", "gut microbiome", "trends".During the Scopus database search, the "Food Science" filter was applied.After the search, a database of 6120 scientific papers was obtained.Prior to the search, papers that overlapped (n = 3355), were not originally written in English (n = 26), and did not belong to the range of research subjects by year (n = 1506) were excluded.Through the processing of the obtained papers (n = 1233), studies conducted on animals (n = 236), non-randomized controlled trials (n = 76), those not relevant to the title of this systematic review (n = 99), and those without access enabled (n = 592) were excluded.Inclusive, this study covered 53 literature sources, of which 30 scientific papers were taken for analysis.

Results and Discussion
The investigated articles are listed in Tables 1 and 2, and the PRISMA flowchart is presented in Figure 1.Based on the stated inclusion criteria for the research, the authors have arrived at the following observations.

Impact of Prebiotics from New Sources on the Growth of Specific Probiotics
The act of choosing and utilizing food does not need to be intricate.In their research, [26] tested the ways how different concentrations of apple, banana, and mango peel powder affect the growth of probiotics.In this way, they tried to utilize the by-products of fruit processing.They concluded that a small amount of purified fruit peel powder at a concentration of 2% shows prebiotic action by stimulating the growth of Lactocaseibacillus rhamnosus (LGG), L. casei, and B. animalis subslactis (BB-12), proving that the by-product can be commercially utilized.Furthermore, researching purified banana peel powder, [27] enriched cookies with fibers while controlling the growth rate parameter of the probiotic strain Lactobacillus spp.They found a significantly higher number of colonies compared to the controlled groups of inulin, glucose, and the placebo.Further research is anticipated on the organoleptic assessment of this type of cookie.Aiming to exploit the potential of radish leaf by-products, ref. [28] investigated its potentials as prebiotics.Specifically, plant extracts show promise as potential therapeutics for the prevention of metabolic syndrome and obesity.The composition of immature radish extract, i.e., the prebiotic activity of RGP (radish green polysaccharide), was analyzed.Prebiotic action was established, resulting in changes in the concentration of SCFA and the pH of the gut microbiome.Probiotic strains successfully utilize RGP, proving its potential as a prebiotic.In addition, research conducted with oral consumption of the probiotic strain Lactiplantibacilus plantarum P-8, in combination with RGP, resulted in an increase in the probiotic strain and the inhibition of fat accumulation in adipocytes.The final results led to a reduction in fat accumulation in the body, which could effectively reduce obesity.This study proves that RGP, as a polysaccharide, promises as a natural prebiotic ingredient in the food industry.With the aim of proving polyphenols as prebiotics, in a 12-week study conducted on a group of healthy young men [18], the subjects consumed aronia extract or whole aronia fruit powder, which had been previously purified.The research findings indicate a positive impact on the potential consumption of polyphenols from aronia for maintaining the cardiovascular health of the young men studied.In an attempt to demonstrate the prebiotic effect of five types of legume honey and the probiotic effect on L. rhamnosus and L. paracasei, ref. [29] used astragalus, carob, alfalfa, sainfoin, and indigo honey in their research.They concluded that the polyphenols present in these types of honey show a prebiotic potential on L. rhamnosus and L. paracasei strains with antagonistic action towards the five most dangerous pathogens depending on the type of honey.The authors look forward to further research on the postbiotic action of legume honey.Fucoidan (purity ≥ 95%), isolated from brown algae, attracted the attention of [30], so they investigated its prebiotic potential.In their research, finding an optimal concentration of 8 mg/mL, they proved the regulation of the antibacterial ability of L. rhamnosus and noticed a great concentration dependence on the action.They observed the growth inhibition zone.Unlike them, ref. [31] concluded that the water extract of P. ostreatus, obtained via extraction from white oyster mushroom, stands out due to its β-glucan content.Namely, water-soluble β-glucan from P. ostreatus proved a prebiotic potential by stimulating the growth of L. plantarum, creating a symbiotic.Ref. [32] investigated the prebiotic properties of a sample of purified rice bran extract (RB) on the stimulation of the growth and the inhibition of gastrointestinal probiotic pathogens.As a parallel control, they used inulin and distilled water.They followed the growth of the genera L. casei and L. plantarum.The results of this study indicate that the rice bran extract obtained by xylanase (RB1) contains a higher concentration of oligosaccharides that serve as a prebiotic compound alongside those obtained with water (RB2).This study predicts another possibility of using by-products from the food industry with the aim of creating functional food.Trying to mitigate the negative effect of sugar in chocolate but not to eliminate it from the diet, ref. [33] conducted research on chocolate with a low content of fat, sugar, phytochemicals, and prebiotics, making chocolate from cocoa, inulin, and stevia.The more acceptable version of chocolate proved to give the best sensory experience to consumers based on the hedonic scale.Furthermore, the polyphenols, flavonoids, and alkaloids coming from cocoa powder were noted as good sources of phytochemicals and contributed to the benefits.The addition of inulin together with phytonutrients gave the product prebiotic properties and stimulated the growth of L. rhamnosus.In addition, inulin was used to limit the caloric value acting as a good substitute for fat.The glycemic index was limited since stevia was used as a sweetener.This product promises to be a healthier, prebiotically richer version of chocolate, and future research is expected.↑-increasing value.

The Impact of Consuming Fructans as Prebiotics
In an attempt to prevent the diseased states of the "modern age", there is increasing research in the correlation between gut microbiota, its composition, and its impact on human health.Hectic lifestyles make it difficult to properly choose and access "healthy" foods, so researchers are trying to discover new, modify existing, and make "healthier" versions of popular foods.In the search for healthy food, ref. [34] researched the impact of dragon fruit oligosaccharides on gut microbiota.The research proved prebiotic activity and the modulation of the gut microbiome.A small dose of just 4 g/day had an impact on IgA, while a dose of 8 g/day successfully promotes the growth of the probiotic strains Bifidobacterium spp.and Faecalibacterium while inhibiting the growth of Escherichia coli strains.Conducting a double-blind RCT study, where FOS was used as a placebo and a parallel encapsulated combination of FOS with Lactiplantibacillus plantarum and Bifidobacterium breve, ref. [35] interestingly, concluded that despite increased fat intake, markers associated with obesity improved in the group where the combined version of prebiotics and probiotics was consumed.This evidence provides important information on the possible use of prebiotics in the prevention of obesity, but further research is still required.Investigating the correlation between the intakes of the antipsychotic olanzapine in individuals suffering from schizophrenia and weight gain, ref. [36] attempted to prevent this side effect.By setting up two studies, they examined the effect of olanzapine on the consumption of the probiotic itself and olanzapine and probiotic with a combination of 10 g of bitter melon (Momordica charantia) and oligosaccharides.It was concluded that this combination effectively reduces the weight gain caused by the use of olanzapine while retaining the desired psychopathological effects.Probiotics alone were not sufficient to prevent the side effect of weight gain caused by the use of this drug.Also, it was discovered that the addition of a combination of probiotics and prebiotic fibers of bitter melons have a significant benefit for insulin resistance.Striving to make a modified and "healthier" version of pasta, ref. [37] proved to be able to lower the glycemic index by adding barley β-glucans and probiotic spores BC30.This study shows for the first time that basic food such as pasta can be modified into a symbiotic food that can have beneficial effects in people at risk of developing diseases due to an unhealthy lifestyle.This opens up possibilities for designing new "healthier" alternatives to basic foods.Unlike [37], in the research of [38], the impact of barley β-glucans on lipid metabolism in patients at high risk of developing metabolic syndrome was monitored.Β-glucans influenced the formation of short-chain fatty acids, a change in the composition of the gut microbiota with an increase in the diversity of microorganisms in accordance with previous observations conducted on animal models, primarily Bifidibacteriae.The need for a "personalized" approach to nutrition has also been concluded.Comparing the prebiotic properties of β-glucans from oats and caffeine-free extracts from green coffee on obesity and its comorbidities, ref. [39], conducting research on individuals with excessive body weight, concluded that regular consumption of the four nutraceuticals based on the combination of oat beta glucans and prebiotics from green coffee may reduce cardiovascular risk and help in preventing type 2 diabetes and obesity.By supplementing oligofructose-enriched p-inulin, ref. [40] researched its impact on the metabolic response of the gut in people with chronic kidney disease (CKD).The results suggest a reduction in carbohydrate metabolism in the subjects, which led to a change in the gut microbiome and consequently resulted in an increase in Bifidobacteria and Anaerostipes.Trying to create a non-pharmacological drug for people suffering from respiratory diseases, ref. [41] researched the impact of adding inulin to inflammatory indicators in obese people with asthma.They proved the potential of using inulin alone, unlike that with the addition of probiotics, which interestingly had fewer benefits than inulin alone.The authors look forward to further research on this non-pharmacological drug.Pointing to the persistence of the link between strength and muscle function in older people and the use of prebiotics, ref. [42] gave their subjects a prebiotic supplement (inulin and fructo-oligosaccharide). Healthy older twin pairs were used in the examination.They concluded the prebiotic effect on improving cognition in the elderly, but they did not have an impact on strength and muscle function compared to the placebo, as expected.With their research on the impacts of adding the prebiotic fiber inulin (fructooligosaccharide), Vitafiber (isomaltooligosaccharide), and Fibremax (mixture of different fiber) to the diet of healthy women, [43] proved that the greatest impact was from the addition of inulin on the intestinal microflora and the increase in the strain Bifidobacterium.Further research is needed to individually determine the selection of the most suitable prebiotic fibers for maximum utilization in the formation of short-chain fatty acids.

The Impact of Consuming GOS as Prebiotics
An extremely high-quality study proved the prebiotic potential of their objects of research, GOS, MOS, GMOS, and GMPS, by [44] showing prebiotic effects for C. butyricum and bifidobacteria.In conclusion, different prebiotic effects of galactosyl and mannosyl carbohydrates have been proven, as well as the production of SCFA and potential symbiotic effects, and a connection to their physical-chemical characteristics has been established.An in vivo study, compared to commercial GOS and MOS, showed that hydrolyzed galactomannans with specific degrees of polymerization have special advantages in prebiotic effects and display potential as new prebiotic products.The first study that followed the correlation between the intake of prebiotic galactooligosaccharides (GOS) and the gut microbiome of children with autism was conducted by [45].A significant increase in the probiotic strain Bifidobacterium was determined after consumption when compared to the placebo group, but there were no changes in the spectrum of children's behavior.Although there was no significant difference in the results between the groups, the absence of side effects and the discovered medium effects of the study were encouraging and require further research.Ref. [46], in their double-blind, placebo-controlled, 4-week study of galactooligosaccharide (GOS) supplement interventions, sought to characterize the impact of GOS on indices of emotional well-being and gut microbial composition in a sample of participants at the end of adolescence and in early adulthood.It was found that GOS increases the abundance of Bifidobacterium in 4 weeks in tandem with a reduced manifestation of anxiety and indications of modifying attention bias in a sample of adolescent women.The presented data promise that GOS could be effective in influencing the reduction of anxiety.

Newly Recognized Unclassified Prebiotics and Their Impact on Health
In an attempt to exploit pectooligosaccharides (POS) from lemon peels as prebiotics, ref. [47], compared with the standard prebiotic fructooligosaccharides (FOS) in older people by researching in vitro fermentation, proved a greater potential of POS in the production of short-chain fatty acids (SCFA) and a smaller proportion of the formation of branched-chain fatty acids (BCFA) from the FOS group.The potential prebiotic properties of black and white pepper were investigated by [48] compared with inulin as a positive control, and it was concluded that black and white pepper shows significantly higher prebiotic properties by promoting the growth of bifidobacteria compared to inulin.The authors attribute this to the component of arabinogalactan present in Piper nigrum.In line with the research on prebiotic potentials of spices, ref. [49] concluded that the substrates present in Curcuma longa (turmeric), Zingiber officinale (ginger), Piper longum (pipli or long pepper), and Piper nigrum (black pepper) may drive beneficial alterations in gut communities, thereby altering their collective metabolism and contributing to the salubrious effects on digestive efficiency and health.Researching the potential of black rice [50] as a prebiotic, the authors concluded that the black rice extract contains 71.9 mg of anthocyanins per 100 g of dry weight of the extract, so it could be used as a prebiotic ingredient in the gut microbiota in obese people.The research was prompted by the fact that the consumption of 70.7 mg of anthocyanins daily during 8 weeks of consumption favorably affects the composition of gut bacteria.It has been established that there is a connection between high levels of anthocyanins to a reduction in inflammatory markers and changes in gut microbiota and the prevention of obesity in a way that produces strains of Lachnospiraceae and Ruminococaceae.These strains in turn produce butyrate, which plays a crucial role in increasing the protection of the intestinal barrier, thereby inhibiting the entry of anti-inflammatory molecules into the bloodstream and preventing the onset of metabolic endotoxemia.By researching the potential of arabinoxylan-oligosaccharides (AXOS) from wheat bran extract, ref. [51] found that the intake of wheat bran extract increases fecal Bifidobacterium and softens the consistency of the stool without major effects on energy metabolism in healthy people with slow GI transit.By proving the potential of resistant starch as a prebiotic, ref. [52] discovered the benefits of resistant corn starch that are associated with changes in the composition of the gut microbiota.These changes in the gut microbiota affect the bile acid profile, reduce inflammation by restoring the intestinal barrier, and inhibit lipid absorption.As a potential prebiotic polyphenol from Montgomery cherry, ref. [53] demonstrated an increase in Lactobacillus strains in 22/28 participants, but the examined middle-aged human population did not have significant changes in insulin responses as expected.However, there is still a lack of information in the literature about optimal bioactive doses for modifying the gut microbiome and managing the glucose response.Galacto-oligosaccharides (Biotis™ GOS, ≈7.5 g powder~5.5g GOS) 64 Double-blind placebo-controlled trial 7.5 g/day 4 weeks ↑ Bifidobacterium ; data presented are indicative that GOS may be effective in influencing the expression of anxiety ↑-increasing value.

The Limitations of the Reviewed Studies
Disadvantages that can be observed in this review, which the authors also highlighted, were primarily the heterogeneity of prebiotics.Namely, prebiotics are diverse and isolated from different sources, and their chemical structure and effect can vary.This complicates the comparison and generalization of results from different studies.Furthermore, methodological problems are highlighted, namely that research on prebiotics is often conducted on small samples with different doses and durations, which, given the lack of standardized protocols, can complicate the comparison of results.There is also a lack of long-term studies that are necessary for a better understanding of their effects on health.While there is evidence of short-term benefits, there is a lack of research tracking long-term outcomes, such as disease prevention.Finally, every person, and therefore the composition of their gut microbiota, is unique, so some people may benefit while others will not.It is important to note that prebiotics have the potential to improve overall health, however, future research should focus on addressing the aforementioned challenges in order to better understand the effects and optimal application.

Conclusions
A systematic review of 30 papers on the topic of prebiotics has revealed significant advancements in their understanding and application.The research particularly indicates that prebiotics promote the growth of beneficial probiotic strains such as Lacticaseibacillus rhamnosus, Lactiplantibacillus plantarum, and Bifidobacterium.In addition, innovative approaches in food production, including pasta rich in prebiotic fibers, chocolate with inulin and stevia, and the utilization of fruit by-products, show promising results in creating "healthier" food options.These discoveries are especially relevant in the larger context of the global obesity epidemic, wherein prebiotics show a potential to reduce and prevent the inflammatory markers associated with this condition.Furthermore, new doors are opening for therapeutic interventions via discoveries of the connections between the gut microbiome and what has been often referred to as "our second brain"-the gut itself-as well the impact of this connection on regulating metabolism and mental health.This work not only confirms and highlights numerous benefits of prebiotics but also aims to stimulate the scientific community for further research to fully exploit their potential and health benefits.In the future, scientists should investigate the long-term effects of prebiotic supplementation and its impacts on various aspects of human health.The addition of new types of prebiotics to the classification is anticipated to orient scientists more towards new insights and types of prebiotic potential.

Figure 1 .
Figure 1.PRISMA flow diagram used for research.

Table 1 .
Impact of prebiotics from new sources on the growth of specific probiotics.

Table 2 .
Correlation of the use of prebiotics from new sources and human health status.Cross-over intervention Study