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All Journal ODONTO Dental Journal Bakti Budaya: Jurnal Pengabdian kepada Masyarakat Odonto dental journal
Verisandri, Aufa Lufhf Ambar
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Penguatan Teknologi Sektor Pertanian, Kesehatan, dan Sosial Budaya di Desa Madurejo dan Desa Sumberharjo Astuti, Wulan Tri; Wati, Anas Ardiana; Fadila, Alma Rizki; Verisandri, Aufa Lufhf Ambar
Bakti Budaya: Jurnal Pengabdian kepada masyarakat Vol 7 No 1 (2024): 2024: Edisi 1
Publisher : Faculty of Cultural Sciences, Universitas Gadjah Mada

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22146/bakti.9456

Abstract

Madurejo and Sumberharjo Village are located in Prambanan District, Sleman Regency, Special Region of Yogyakarta. These villages have potential in the agricultural sector supported by the extent of paddy fields. Viewed from the sociocultural sector, Madurejo and Sumberharjo Village have tourism appeal that can be developed to attract tourists. The community service team also realized the need to improve health facilities to support the health quality of residents. To maximize village potential and human resources, various programs have been implemented to strengthen technology in the agricultural, health, and socio-cultural sectors. These programs include food innovation, solar panel and hydroponic installation, waste management, health checks, agro-tourism festivals, campus expo, marketing training, and website creation. This program has been carried out in accordance with its objectives although it has not been free from various obstacles. === Desa Madurejo dan Desa Sumberharjo terletak di Kecamatan Prambanan, Kabupaten Sleman, Provinsi Daerah Istimewa Yogyakarta. Kedua desa memiliki potensi dalam sektor pertanian yang didukung dengan luasnya lahan persawahan. Dilihat dari sektor sosial-budaya, kawasan Desa Madurejo dan Sumberharjo memiliki daya tarik pariwisata sehingga dapat dikembangkan untuk menarik wisatawan. Tim pengabdian masyarakat juga menyadari perlunya peningkatan fasilitas kesehatan untuk menunjang kualitas kesehatan warga. Dalam upaya memaksimalkan potensi desa dan sumber daya manusia, dilaksanakan berbagai program dengan tujuan penguatan teknologi di sektor pertanian, kesehatan, dan sosial-budaya. Berbagai program tersebut antara lain adalah inovasi pangan, instalasi panel surya dan hidroponik, pengolahan limbah, cek kesehatan, festival agrowisata, campus expo, pelatihan marketing, serta pembuatan website. Program ini telah terlaksana sesuai dengan tujuannya walaupun tidak terlepas dari berbagai kendala.
Effect of carbonated hydroxyapatite synthesis from cuttlefish shells on orthodontic relapse prevention: in silico study Setyoko, Bondan; Verisandri, Aufa Lufhf Ambar; Damayanti, Adelia Tantri; Fitriana, Firda Ayu; Julieta, Berliant Salsabila; Noviasari, Paramita; Alhasyimi, Ananto Ali
Odonto : Dental Journal Vol 10, No 1 (2023): July 2023
Publisher : Faculty of Dentistry, Universitas Islam Sultan Agung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30659/odj.10.1.19-27

Abstract

Background: Relapse occurs frequently, 70–90% of the time, and typically compromises the outcome of orthodontic therapy. Calcium carbonate (CaCO3), which is found in cuttlefish shells, can be used to make a better biomaterial. One example is carbonated hydroxyapatite, which is very similar to human bone tissue and can stop osteoclast activity on the pressure side of the retention phase. This is a factor in orthodontic relapse, which is when the bone doesn't remodel properly. In this study, a test was done to see if carbonated hydroxyapatite (CHA) could be used as an alternative material to stop orthodontic relapse. The test was based on how the RANK-RANKL, OPG, and TGF-β proteins interacted with each other. Method: CHA extracted from cuttlefish shells after 6 hours of calcination at 1000°C. RANK-RANKL, OPG, and TGF-β interactions were investigated in silico using molecular docking. Result: A cuttlefish shell extract containing CHA has the potential to be used as an alternate material to prevent orthodontic recurrence. CHA chemicals can disrupt the link between RANK and RANKL and enhance OPG and TGF-β expression. This induces enhanced proliferation, which increases the number of osteoblasts and osteoblast differentiation while decreasing the rate of osteoclast activity. Conclusion: Cuttlefish shell with CHA extract has the potential to be used as an alternative material to prevent orthodontic relapse.
Effect of carbonated hydroxyapatite synthesis from cuttlefish shells on orthodontic relapse prevention: in silico study Setyoko, Bondan; Verisandri, Aufa Lufhf Ambar; Damayanti, Adelia Tantri; Fitriana, Firda Ayu; Julieta, Berliant Salsabila; Noviasari, Paramita; Alhasyimi, Ananto Ali
Odonto : Dental Journal Vol 10, No 1 (2023): July 2023
Publisher : Faculty of Dentistry, Universitas Islam Sultan Agung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30659/odj.10.1.19-27

Abstract

Background: Relapse occurs frequently, 70–90% of the time, and typically compromises the outcome of orthodontic therapy. Calcium carbonate (CaCO3), which is found in cuttlefish shells, can be used to make a better biomaterial. One example is carbonated hydroxyapatite, which is very similar to human bone tissue and can stop osteoclast activity on the pressure side of the retention phase. This is a factor in orthodontic relapse, which is when the bone doesn't remodel properly. In this study, a test was done to see if carbonated hydroxyapatite (CHA) could be used as an alternative material to stop orthodontic relapse. The test was based on how the RANK-RANKL, OPG, and TGF-β proteins interacted with each other. Method: CHA extracted from cuttlefish shells after 6 hours of calcination at 1000°C. RANK-RANKL, OPG, and TGF-β interactions were investigated in silico using molecular docking. Result: A cuttlefish shell extract containing CHA has the potential to be used as an alternate material to prevent orthodontic recurrence. CHA chemicals can disrupt the link between RANK and RANKL and enhance OPG and TGF-β expression. This induces enhanced proliferation, which increases the number of osteoblasts and osteoblast differentiation while decreasing the rate of osteoclast activity. Conclusion: Cuttlefish shell with CHA extract has the potential to be used as an alternative material to prevent orthodontic relapse.
Co-Authors Ananto Ali Alhasyimi Damayanti, Adelia Tantri Fadila, Alma Rizki Fitriana, Firda Ayu Julieta, Berliant Salsabila Noviasari, Paramita Setyoko, Bondan Wati, Anas Ardiana Wulan Tri Astuti