Synergistic Effects of Combined Concurrent Training and Eri-Polyunsaturated Fatty Acid Supplementation on Bone Mineral Density, Muscle Strength, and Inflammation.

Obesity has been associated with lower bone mineral density (BMD) and rapid muscle weakness. Regular exercise and polyunsaturated fatty acid (PUFA) consumption have been recognized as nonpharmaceutical approaches to increase BMD and ameliorate muscle weakness. This study aimed to determine the effects of concurrent training (CCT) and Eri-PUFA supplementation on BMD, muscular strength, and inflammation in obese adults. A total of 33 obese participants were randomly assigned to one of three groups (n=11 per group): (1) a placebo group; (2) an Eri-PUFA ingestion group (ERI); or (3) a CCT and Eri-PUFA ingestion group (CCT+ERI). The ERI and CCT+ERI groups received approximately 2.5 g of linolenic acid per day from Eri silkworm pupae. The exercise program included aerobic and resistance exercises performed under supervision three times per week for 8 weeks. Before and after the 8-week intervention, BMD, muscular strength, and inflammatory markers were measured. Only the CCT+ERI group showed a significant increase in lumbar spine BMD (5.1%, P<0.01) and upper-body muscle strength (16.9%, P<0.01) after the intervention, with differences between the groups. After the intervention, both the ERI and CCT+ERI groups showed a significant decrease in the monocyte-to-lymphocyte ratio (-25%, P<0.01 and -21.4%, P<0.05, respectively) and tumor necrosis factor-alpha (-21.6%, P<0.05 and -19.4%, P<0.05, respectively). These findings demonstrate that combining CCT and Eri-PUFA supplementation increases BMD and upper-body muscular strength and decreases inflammation. Although Eri-PUFA consumption did not affect BMD or muscle strength directly, it may have an additive effect on BMD by reducing inflammation.

Concurrent training and Eri silkworm pupae ingestion improve resting and exercise fat oxidation and energy expenditure in obese adults.

A randomized control trial was conducted to investigate the effects of combined concurrent training and Eri silkworm pupae ingestion on resting and exercise fat oxidation (FAO), as well as energy expenditure, and cardiometabolic risk markers in obese adults. Thirty-six sedentary, obese participants were divided into three groups: (1) placebo control group (CON, n=12), (2) Eri silkworm pupae ingestion group (ERI, n=12), and (3) combined concurrent training and Eri silkworm pupae ingestion group (CBT-ERI, n=12). Participants in the ERI and the CBT-ERI con-sumed 5-g Eri silkworm pupae/day (approximately 2.5-g linolenic acid). The concurrent training program comprised of supervised aerobic and resistance training: three 1-hr sessions/wk for 8 weeks. Body composi-tion, energy expenditure, and FAO at rest and during exercise, heart rate variability, and blood chemistry were measured before and after the 8-week interventions. Following the interventions, resting FAO, the natural logarithm of very low-frequency power (lnVLF), and high-sensi-tive C-reactive protein concentration significantly improved in both the ERI and the CBT-ERI. Only the CBT-ERI improved resting energy expen-diture, FAO during exercise, trunk and gynoid fat mass, total cholesterol concentration, the standard deviation of normal R-R intervals (SDNN), and the percentage difference between adjacent normal R-R intervals >50 ms. Furthermore, there were significant correlations between rest-ing energy expenditure and FAO, lnVLF and SDNN in the CBT-ERI. In conclusion, this study demonstrates that concurrent training together with dietary Eri silkworm pupae leads to increased energy expenditure through a significant increase in FAO at rest and during exercise, as well as reduced fat mass.