Study on Medium Chain Triglycerides for Weight Loss

의대ium-ch한에서 중성지방 수치s (MCT) 한re formed by 이 re-esterificati에 의 이 hydrolys은 products 의 medium-cha에서 지방이 많은 산s (MCFAs) 그리고 중성지방 수치s (TG). MCFAs are a mixture 의 saturated 지방이 많은 산 와 carb에 cha에서 lengths r한g에서g from C6 을 C12, primarily composed 의 caprylic acid (C8:0) 그리고 capric acid (C10:0), which are mixed 에서 approximately a 2:1 ratio.

When MCT is mixed or esterified with l에g-cha에서 중성지방 수치s (LCT), it forms a fat emulsion that has ga에서ed signific한t favor 에서 cl에서ical sett에서gs 에서 recent years, 의ten used for parenteral nutrition 에서 various clinical conditions. Abroad, MCT is 의ten used as 다이어트ary fat for 건강 한 individuals, obese individuals, 그리고 patients with hyper지질emia 을 help control weight 그리고 body fat. In 을day's world, where 이 incidence 의 cardiovascular diseases closely 관련 with obesity is rising annually, MCT has garnered significant attention due to its ability to reduce fat 축적 그리고 its potential lipid-regulating 효과s.

1 Metabolic characteristics 의 MCT

Fatty acids can be classified based on the length 의 their carbon chains into long-chain fatty acids (≥14 carbon atoms), medium-chain fatty acids (6–12 carbon atoms), 그리고 short-chain fatty acids (≤5 carbon atoms). Based on their degree 의 saturation, they can be classified into saturated fatty acids (SFA), monounsaturated fatty acids (MFA), 그리고 polyunsaturated fatty acids (PFA). Generally, the carbon chain length 그리고 number 의 unsaturated double bonds in fatty acids influence fat absorption [1], meaning that shorter-chain fatty acids are more easily absorbed, 그리고 those with more double bonds are also more easily absorbed. Saturated fats, which lack double bonds, typically have high melting points 그리고 are solid at room temperature, which can impair emulsification 그리고 absorption.

그러나,MCT, a saturated fat, has a lower melting point, similar to that 의 LCT, which primarily contains PUFA. Additionally, since MCFA have shorter carbon chains than long-chain fatty acids (LCFA), they are more easily absorbed. MCT has low dependence on bile salts 그리고 pancreatic enzymes, is easily hydrolyzed in the intestine, 그리고 its hydrolysis products, MCF한, bind to albumin after absorption, and are directly transported to the liver via the portal vein [2]. In contrast, the hydrolysis products 의 LCTs, LCFAs, must be transported to the lymphatic system or peripheral circulation via chylomicrons. Additionally, MCFAs do not require carnitine and directly enter liver cell mitochondria for β-산화, which occurs rapidly and completely, thus avoiding 축적 in adipose tissue and liver tissue.

2 효과 의 MCT on body weight and blood lipids

As is well known, obesity, hypertension, hyperlipidemia, diabetes, coronary heart disease, and cerebrovascular accidents are all closely associated with lipid 신진대사 disorders, collectively referred to as metabolic syndrome. Considering that the use of drugs to control obesity and hyperlipidemia, which are independent risk factors for cardiovascular diseases (CVD), has side effects, and that traditional dietary treatments involving simply reducing lipid intake are prone to causing deficiencies in fat-soluble vitamins, improving the quality of lipid intake has become particularly important. In recent years, it has been discovered that replacing part of the traditional dietary LCT 기름 with low-energy-density MCT 기름 can improve the quality of lipid intake.

2.1 Effects of MCT on Body Weight and Body Fat

이metabolic characteristics of MCT suggest that it may play a role in dietary therapy for obesity. Noguchi et al. [3] observed the thermic effect of food and fat accumulation in obese 쥐 fed diets containing MCT and LCT, and found that the MCT group had a significantly higher food thermic effect, as well as lower body fat and abdominal fat content compared to the LCT group, consistent with previous studies.

Numerous studies have reported positive effects of dietary MCT on human body weight and body composition changes, as well as investigations into their mechanisms. Detailed research has also been conducted on the influence of confounding factors such as intake amount, intake timing, and BMI on body fat distribution, energy expenditure (EE), postprandial thermic effect, and fat oxidation. Overall, the conclusion is that MCT not only helps reduce total body weight but also helps reduce visceral fat and subcutaneous fat area.

Kasai et al. [4] divided 82 건강 한 individuals into two groups, with one group consuming 14 g/day of MCT and the other consuming 12 g/day of LCT for breakfast over a 12-week period. The results showed that compared to the LCT group, the MCT group experienced significant reductions in body weight, body fat, subcutaneous fat, and visceral fat, consistent with the findings of Nosaka et al. [5]. It is generally believed that the ability of MCT to control weight is primarily due to its effects on increasing EE, enhancing postprandial thermogenesis, promoting fat oxidation, and controlling appetite [5,6]. Some reports suggest that the weight loss effects of MCT are more pronounced in individuals with higher BMI [7], but St-onge et al. [8] found that in men with higher body weight, the increases in EE and fat oxidation induced by MCT intake were lower compared to men with lower body weight.

The intake 수준 and forms of MCT vary widely across studies, with no uniform standard. Generally, interventions using energy-balanced diets with appropriate MCT energy ratios yield more favorable results. The duration of intervention also varies, typically ranging from 2 to 12 weeks. Some studies have explored the time-dependent effects of MCT, suggesting that long-term effects may be less pronounced than short-term effects [9], potentially due to metabolic adaptation. Overall, moderate MCT intake appears to have a positive impact on short-term weight control in obese individuals.

2.2 Effects of MCT on Lipids

As an effective “weight-loss” fat, the effects of MCT on lipid metabolism and its mechanisms remain incompletely understood. In recent years, research findings on the effects of MCT on blood lipids and lipid metabolism have been inconsistent. Some researchers are concerned that the benefits of MCT on energy metabolism may be offset by its adverse effects on total cholesterol (TC) and total 중성지방 수치 (TG) levels, both of which are important risk factors for CVD.

2.2.1 Animal Studies

Animal studies have primarily compared MCT/LCT with LCT emulsions or feed. The conclusions regarding the effects of partially replacing LCT with MCT on blood lipids are inconsistent, but there is general agreement on the effects on liver lipid metabolism. LCT primarily contains polyunsaturated fatty acids (PUFAs), which include essential fatty acids that can help improve blood lipids. However, the presence of unsaturated bonds increases the risk of oxidative damage. In contrast, MCT, which contains only saturated bonds, is relatively resistant to oxidation.

Ronis et al. [10] selected 쥐 with alcoholic liver disease and replaced corn 기름 with MCT at energy ratios of 10%, 20%, and 30%. They found that as the content of saturated fat increased, all liver pathological indicators, including lipid peroxidation, and oxidative stress markers gradually decreased, indicating that MCT enhanced the antioxidant capacity of liver cell membranes. Other studies have also concluded that the intake of saturated fat MCT not only does not cause but actually improves liver fat deposition and 줄 oxidative stress [11]. This may be due to the rapid hydrolysis and extrahepatic transport of MCT, which directs more polyunsaturated fatty acids to extrahepatic utilization [12], thereby preventing the accumulation of liver triglycerides (TG). However, this may also lead to elevated plasma TG levels [13]. Some studies suggest that chemically bound MCT/LCT fat emulsions clear from the blood faster than physically mixed MCT/LCT fat emulsions and do not cause significant increases in plasma TG or TC levels [14].

2.2.2 Population studies

Currently, MCT/LCT emulsions have a wide range of applications in clinical nutritional support. Overseas, MCT is used as an adjunctive therapy for conditions such as sepsis, severe malnutrition in cancer patients, diarrhea in HIV-positive individuals, and fat malabsorption, achieving satisfactory results and gaining increasing popularity. However, recent studies on the effects of MCT on lipid levels have yielded inconsistent results, possibly due to differences in dosage and formulation. Most positive reports focus on MCT's ability to lower TG levels or maintain them within normal ranges.

Schlotzer et al. [15] found that in 12 건강 한 men who received an infusion of a new fat emulsion composed of MCT, olive 기름, and fish oil, serum TG concentrations were significantly reduced, and the half-life was significantly shorter compared to the use of a standard soybean oil emulsion. Other studies have also found that MCT 줄 the ratio of total cholesterol (TC) to high-density lipo단백질 cholesterol (HDL-C) [16].

Bourque et al. [17] used a 기능 oil blend containing MCT, plant sterols, and n-3 fatty acids (Fcto) in the diet of overweight women. After 27 days, the average plasma TC concentration and low-density lipoprotein cholesterol (LDL-C) concentration in the Fcto group were lower than those in the control group, HDL-C concentration remained unchanged, but the HDL:LDL ratio improved. Considering that a 1% reduction in LDL-C concentration reduces the risk of coronary heart disease by 2%, the reduction in LDL-C in the Fcto group could lower the risk of CVD by 31%. Similarly, St-Onge et al. [18] conducted a 29-day dietary study on healthy individuals and found that the functional oil Fcto, a mixture of MCT and plant sterols, resulted in a greater reduction in TC concentration compared to the olive oil control group, while LDL-C levels decreased in the Fcto group but remained unchanged in the olive oil group. These long-term studies involving large populations demonstrate that the combined use of LCT and MCT may indeed offer potential benefits in reducing the risk of cardiovascular disease by improving lipid profiles.

Although some studies have reported that MCT increases plasma LDL-C and TG levels in healthy individuals, thereby being detrimental to health [19], other researchers have suggested that moderate intake of MCT does not elevate postprandial TG levels or other lipid parameters [5], and therefore its use in clinical emulsions is considered safe [20]. Reports suggesting adverse effects of MCT on lipid profiles may partly stem from long-term consumption of single, excessive doses of MCT. Tholstrup et al. [19] found that after 21 days of consuming 70 g/day of MCT, plasma LDL-C and TG levels increased in 17 healthy young men. However, there have also been reports that the average postprandial triglyceride levels were 15% lower than baseline after consuming 71 g of MCT [2]. Therefore, in long-term intervention studies, the dosage and form of MCT may influence its regulatory effects on blood lipids.

However, the optimal dosage of MCT alone or in combination with LCT, as well as the optimal ratio of MCT in mixed oils, remains unclear. Although MCT has a low energy density, MCT, as a fat, is considered safe when consumed at levels below the dietary fat energy ratio in an energy-balanced diet.

Asakura et al. [21] conducted a 12-week dietary study in 10 patients with primary hypertriglyceridemia, gradually increasing the proportion of MCT in fat from 0% to 100%. The results showed that moderate to high proportions of MCT increased fasting plasma TC, LDL-C, and VLDL-C concentrations, while fasting TG concentrations remained unchanged, but postprandial TG levels were significantly lower than those with corn oil. Whether high-dose MCT causes hypercholesterolemia requires further study, and the therapeutic dosage and ratio of MCT, as well as the existence of a dose-response relationship, need to be confirmed through further experiments.

3 Possible mechanisms by which MCT affects body weight and blood lipids

It is generally believed that MCT reduces body weight and fat deposition through several mechanisms: low energy density, increased satiety to suppress appetite, rapid hepatic transport and oxidation, and increased energy expenditure (EE), among others. Many studies have also validated these characteristics of MCT [2,5,6]. Among these, the hormones involved in the mechanism by which MCT induces satiety include cholecystokinin, YY peptide, gastrin, neurotensin, and pancreatic polypeptide; however, the exact mechanism remains unclear.

However, these may not provide a complete explanation. Previous studies have suggested that MCFAs may have direct metabolic effects on adipocytes, but sufficient experimental evidence is lacking. However, it has been reported that traditional high-fat diets are associated with increased 표현 of peroxisome proliferator-activated 수용체 Y (PPARY) in adipose tissue [22]. Recently, it was discovered that caprylic acid, an 8-carbon MCFA, can effectively inhibit PPARY 표현 and reduce cellular TG synthesis [23]. As a key regulator of fat differentiation and metabolism, and playing a crucial role in lipid metabolism, the nuclear transcription factor PPARY can be activated by various dietary LCFAs and acts as a nutritional sensor that converts environmental stimuli into signals for the expression of metabolic genes [24].

Han et al. [25] found that rats fed MCT had not only lower fat pad wet weight but also lower plasma TG, free cholesterol, and leptin levels compared to LCT control group rats. More importantly, PPARY mRNA expression in adipose tissue was reduced in the MCT group, Another major lipogenic transcription factor, CCAAT/enhancer-binding protein (C/EBP), was also downregulated, leading to reduced mRNA levels of key enzymes involved in lipid synthesis, such as lipoprotein lipase (LPL) and acyl-cysteine oxidase (ACs-1). Glucose 공차 tests also indicated improved glucose tolerance in the MCT group, with reduced blood glucose concentrations. In adipocyte culture, they also found that MCFAs bind to adipose tissue and mediate the downregulation of adipogenesis genes, suggesting that MCFAs may play an important role in the long-term regulation of adipocyte metabolism. Some metabolic effects of MCFAs may originate from the levels of adipogenesis transcription factors; however, significant downstream metabolic effects require a lag time. Whether MCT-induced weight loss downregulates the expression of adipogenesis transcription factors or MCTs directly influence adipogenesis transcription factors in 생체 실험 to inhibit weight gain requires further research to determine.

증가 free fatty acids promote lipid synthesis in normal adipocytes by activating PPARY through ligand binding, a phenomenon known as the “nutritional dietary promotion effect” [26]. At high concentrations, MCFAs can replace the intrinsic ligands of PPARY (LCFAs or their derivatives), thereby reducing the number of active domains. Postprandial stable MCFA concentrations in adipocytes may be significantly higher than LCFAs [25], enabling MCFAs to compete for PPARY ligands and reduce the activity of this transcription factor, thereby decreasing the expression of genes involved in fatty acid uptake and esterification, and ultimately reducing the fat storage capacity of adipocytes. This also forces more dietary MCFAs to be delivered to non-adipose tissues such as muscle, where most MCFAs are oxidatively processed, partially explaining why MCTs have a higher postprandial thermogenic effect. In fact, it has been found that caprylic acid interferes with the synthesis of the synthetic ligand that activates PPARY and weakens the differentiation-inducing ability of the PPARY agonist troglitazone (TZDs) [23]; however, MCFAs can weakly activate PPARY in the absence of synthetic or endogenous ligand proteins. In this regard, caprylic acid exhibits properties similar to those of some partial agonists of PPARY [27].

How does a diet containing MCTs alter PPARY expression, and whether such changes are associated with weight loss warrants further investigation. Studies on whether MCTs affect human PPARY expression, and whether they have activating or inhibitory effects, are currently lacking.

In summary, extensive research has confirmed that MCT is a special fat with preventive and inhibitory effects on obesity, suggesting that MCT holds promise as an adjunctive therapy for addressing medical issues associated with obesity. However, due to the uncertainty regarding its role in lipid metabolism, further studies are needed to explore the mechanisms of MCT's effects on lipid metabolism and to determine optimal usage methods for achieving ideal overall therapeutic effects.

참조

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