High fat and high cholesterol diet cause hyperlipidemia, leading to various health problems including reproductive health. The purpose of this study was to examine the effect of sembung (Blumea balsamifera) leaf extract on testicular histology profile of high-fat-dietinduced wistar. This research used 16 adult male rats (Rattus norvegicus), aged 3-4 month, weighing 150-200 g, and randomly divided into two groups. Eight rats were treated with distilled water and eight rats were treated with 2 mg/mL B. balsamifera extract. High-fat diet was a 30 days of porcine fat feed. The results showed that the diameter of seminiferous tubules, the number of spermatogenic cells of spermatogonium A, spermatocytes Pakiten and spermatid 16 were increased by giving sembung leaf extract for 50 days (p <0.05). These results suggested that the sembung leaf extract improves testis histology of high-fat diet-induced rats. ABSTRAKMakanan tinggi lemak dan tinggi kolestrol menyebabkan hiperlipidemia yang menimbulkan masalah pada sistem reproduksi. Penelitian ini bertujuan untuk mengetahui manfaat pemberian ekstrak daun sembung (Blumea balsamifera) terhadap profil tubulus seminiferus dan sel-sel spermatogenik pada tikus wistar yang diinduksi pakan tinggi lemak. Sebanyak 16 ekor tikus wistar jantan dewasa (Rattus norvegicus) umur 3-4 bulan, berat 150-200 g, secara random dibagi dua kelompok, yaitu 8 ekor tikus kelompok kontrol (aquades steril) dan 8 ekor tikus kelompok perlakuan (ekstrak daun sembung dosis 2 mg/mL). Tikus diinduksi pakan tinggi lemak berupa lemak babi selama 30 hari. Pada prettest dilakukan pemeriksaan diameter tubulus seminiferus dan sel-sel spermatogenik. Hasil penelitian menunjukkan bahwa rata-rata diameter tubulus seminiferus tikus meningkat signifikan setelah pemberian ekstrak daun sembung. Peningkatan secara signifikan juga diikuti oleh spermatogonium A, spermatosit Pakiten dan spermatid 16 (p<0,05). Dapat disimpulkan bahwa ekstrak daun sembung memperbaiki histologi testis tikus wistar yang diinduksi pakan tinggi lemak.
Abstract. Permatasari AAAP, Rosiana IW, Wiradana PA, Lestari MD, Widiastuti NK, Kurniawan SB, Widhiantara IG. 2022. Extraction and characterization of sodium alginate from three brown algae collected from Sanur Coastal Waters, Bali as biopolymer agent. Biodiversitas 23: 1655-1663. Sodium alginate extracted algae are gaining attention as alternative biopolymer materials. This research aimed to extract and characterize the natrium alginate from three brown algae obtained from Sanur Beach, Denpasar, Bali, Indonesia. Alginate extraction was carried out using acid hydrolysis by Na2CO3 with further purification using isopropyl alcohol. Physicochemical characterization was carried out using FT-IR. The results showed that Sargassum aquifolium and Turbinaria ornata had higher yields (%) than Padina australis (P<0.05). There was no significant difference (P>0.05) in water content, protein content, fat content and pH of the three brown algae. Overall, these three types of brown algae have values ??that are close to the sodium alginate standard set by the Food Chemical Codex (FCC), except for the results of Padina australis in the yield parameter. The functional group Na which is characteristic of sodium alginate is present in all alginate isomers, but there are some functional groups that are still not available in the extraction process in this study based on FT-IR analysis. These findings indicate that sodium alginate extracts from various types of brown algae have specific characteristics as defined by the Food Chemical Codex (FCC) and show great potential to be used as biopolymer materials, especially in the biomedical field.
BACKGROUND: The discovery of herbal ingredients for antihypercholesterolemic and to improve male reproductive function is very necessary due to high-cholesterol diet factors. Blumea balsamifera leaf extract (BBLE) is known to be able to increase the number and diameter of Leydig cells in rats given high-fat feed. This study was to conducted to determine the levels of total cholesterol, body weight, plasma malondialdehyde (MDA), Superoxide Dismutase (SOD), Luteinizing Hormone (LH) in high-cholesterol-fed male rats provided with BBLE.METHODS: This research utilized a randomized post-test only control group. Ethanol was used to extract the BBLE, which was then evaporated. For 21 days, 16 Wistar rats were given a high-cholesterol diet. To determine the effect of BBLE on the high-cholesterol diet, the samples were divided into two groups (control and BBLE group) on day 22. The treatments lasted 30 days. SOD, plasma MDA, LH, and total cholesterol were measured.RESULTS: The results showed that the SOD and LH parameters were significantly higher in the treatment of BBLE compared to the control group (p<0.05). The parameters of total cholesterol levels, bodyweight, and MDA of rats given BBLE were significantly lower than those of the control group (p<0.05).CONCLUSION: Our findings highlight that BBLE has antihypercholesterolemic and antioxidant effects. The BBLE also has potential to be used as a therapy to maintain male reproductive function because it has a positive effect on the hypothalamic-pituitary axis through increasing LH secretion.KEYWORDS: Malondialdehyde, Superoxide dismutase, Luteinizing hormone, Blumea balsamifera extract, High-cholesterol diet
BACKGROUND: Hypoxia has been shown to be able to induce adiposity. However, the mechanism and factors involved in this effect still remains unclear. Hence, we sought to investigate the role of oxygensensitive factors regarding hypoxia-induced adiposity in nematode Caenorhabditis elegans.METHODS: The C. elegans were grown on nematode growth medium (NGM) agar plates seeded with Escherichia coli OP50 at 20°C. The ratio of width/body length was measured using the morphometry analysis. Fat accumulation was examined using Sudan Black methods. Protein levels of sterol binding protein (SBP)-1 were assessed by immunoblotting. Lifespan assay was performed at 20°C and was monitored every two days.RESULTS: The results showed that of all mutant used, only hif-1 mutant which did not experience an increase in the ratio of width/body length (p>0.05) and fat accumulation (p>0.05), indicating that hypoxia-inducible factors (HIF)-1 plays an important role in the pathogenesis of hypoxia-induced adiposity. Both siah-1 and skn-1 mutants experienced SBP-1 protein elevation (p<0.05), and increased fat-6 mRNA expression (p<0.05) which were not experienced by a hif-1 mutant (p>0.05) further supporting that HIF-1 acts as an upstream regulator fromSBP-1.CONCLUSION: In general, the results of this study provide evidences of the involvement of the transcription factor HIF-1 in inducing adiposity under the hypoxic conditions. However, we did not find the involvement of seven in absentia homolog-1 (Siah-1) and skinhead-1 (SKN-1).KEYWORDS: hypoxia, adiposity, fat, HIF-1, Siah-1, SKN-1, C. elegans
Highlight Research Brown seaweed heavy metals content varies between species Risk assessment showed low health risk for heavy metal from intake of the three brown seaweed The three types of brown seaweed did not show carcinogenic properties to metal Arsenic (As) Abstract Marine brown seaweed are known as one of the potential biological agents to be developed as functional food and medicinal sectors. This study aims to examine the concentration of heavy metals (Pb, Cd, Hg, and As) in brown algae (Sargassum aquifolium, Padina australis, and Turbinaria ornata.) and the possible exposure to health risks caused by consumption. Heavy metal concentrations were determined using Atomic Absorption Spectroscopy (AAS) on brown seaweed samples obtained from three different sites. The average concentration of heavy metals in the dry weight of brown seaweed remains within the guidelines established by The Food and Drug Supervisory Agency (BPOM) Number 32 of 2019 concerning the Safety and Quality of Traditional Medicines, which is then used to calculate the estimated daily intake (EDI), target hazard quotient (THQ and TTHQ), and target cancer risk (TCR) for arsenic associated with food exposure to potentially toxic metallic elements. Each species of brown seaweed has a THQ and TTHQ level of <1, indicating that one or more toxic metal elements in the same meal provide no significant non-carcinogenic risk. The TCR for arsenic in these seaweeds are all less than 1 x 10-4, indicating no cancer risk. There are no chronic health hazards related with the ingestion of brown seaweed harvested from the coast of Sanur Beach at Denpasar, Bali.
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