Microneedle Patch Pneumococcal Conjugated Vaccine sebagai Upaya Vaksinasi Tanpa Jarum Suntik

Lika Ginanti Febriana, Adira Rahmawaty, Anisa Nur Fitriani, Syifa Amanda, Najla Eksakta Permadi, Sriwidodo Sriwidodo

Abstrak

Streptococcus pneumoniae pada nasofaring anak merupakan penyebab penyakit pneumokokus invasif paling banyak di masyarakat. Upaya pencegahan yang efektif melalui imunisasi seperti Hib, pneumococcus, campak, dan pertussis. Pneumococcal Conjugate Vaccine (PCV) merupakan vaksin dengan basis polisakarida streptococcus pneumoniae yang terkonjugasi dengan protein pembawa. Penghantaran sebagian besar vaksin dengan jarum suntik melalui injeksi intramuskular ataupun subkutan dapat menimbulkan rasa sakit dan trauma pada anak. Selain itu, jarum suntik dapat menjadi media penularan HBV, HCV, dan HIV. Oleh karena itu, penghantaran injeksi tanpa jarum suntik salah satunya microneedle patch. Tujuan dari penelitian ini adalah melakukan formulasi dan evaluasi microneedle patch Pneumococcal Conjugated Vaccine dari natrium karboksimetil selulosa. Metode penelitian yang dilakukan dengan cara membuat cetakan microneedle patch dan kemudian menyusun formulasi bahan aktif dan eksipien microneedle patch. Evaluasi yang dilakukan adalah evaluasi morfologi dengan menggunakan SEM. Diperoleh microneedle patch dengan komposisi 0,5 mL vaksin PCV-13, 350 μL PVA 8%, 2 mL Na CMC 8%, 100 μL trehalosa 10%, 100 μL albumin 10%, 250 μL DMSO dalam patch kedap air ukuran 39 mm x 39mm x 5 mm. Hasil evaluasi SEM menunjukan microneedle memiliki panjang 706 μm, lebar 152 μm, dan bentuk kerucut dengan puncak tajam.

 

Kata Kunci: Microneedle Patch, PCV-13, Pneumonia

Kata Kunci

Microneedle Patch, PCV-13, Pneumonia

Teks Lengkap:

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Referensi

Mark LM, Robert GM, Hartmut L, Thomas MF, Timothy B. Epidemiology, microbiology, and treatment considerations for bacterial pneumonia complicating influenza. International Journal of Infectious DiseasesVolume. 2012. 16(5): 321-331,

UNICEF. Kenali 6 Fakta tentang Pneumonia pada Anak [diunduh 23 Juni 2021]. Tersedia dari: https://www.unicef.org/indonesia/id/stories/6-fakta-pneumonia.

Kementerian Kesehatan Republik Indonesia. Pneumonia pada Anak Bisa Dicegah dan Diobati [diunduh 23 Juni 2021]. Tersedia dari: https://www.kemkes.go.id/article/view/20111500001/pneumonia-padaanak-bisa-dicegah-dan-diobati.html.

Prayitno, A. Penelitian Efektivitas Imunisasi PCV-13 pada Imunisasi Dasar Dua Kali dan Penguat Satu Kali Guna Mengurangi Beban Penyakit IPD Akibat Pneumonia [diunduh 23 Juni 2021]. Tersedia dari: https://fk.ui.ac.id/berita/penelitian-efektivitas-imunisasi-pcv-13-pada-imunisasi-dasar-dua-kali-dan-penguat-satu-kali-guna-mengurangi-beban-penyakit-ipd-akibat-pneumonia.html.

WHO. Introduction of Pneumococcal Vaccine PCV13. Geneva: World Health Organization; 2013.

Arlyn, P., Inayah, dan Murtiningsih. Nyeri Bayi saat Dilakukan Penyuntikan Imunisasi di Puskesmas Kota Tomohon Sulawesi Utara. Pinlitamas. 2018;1(1):290-297.

Dul, et al. About Pneumococcal Vaccine [diunduh 21 Januari 2021]. Tersedia dari: https://www.cdc.gov/vaccines/vpd/pneumo/hcp/about-vaccine.html.

Ren, T., Wang, X., Zhang, S., Yang, P. H. Vaccine and Needle-Free Vaccination Delivery System. Journal of Microbial and Biochemical Technology. 2014;6(6):359-360.

Teunissen, et al. 2014.

Adhikari, B., Chu, S. Y., Goodso, J. L., Martin., Meltzer., dan Rota, P. A. Assessing the Potential Cost-Effectiveness of Microneedle Patches in Childhood Measles Vaccination Programs: The Case for Further Research and Development. Drug R D. 2016;(16):327-333.

Annisa, V. Sistem Penghantaran Obat Transdermal Dissolving Microneedle (DMN) serta Potensinya Sebagai Penghantaran Vaksin. Acta Pharm Indo. 2020;8(1):36-44.

Shafa, A. dan Sriwidodo. Microneedle: Teknologi Baru Penghantar Vaksin COVID–19. Majalah Farmasetika. 2021;6(1):85–98.

Witt, N. et al. Silicone Rubber Nanocomposites Containing A Small Amount of Hybrid Fillers with Enhanced Electrical Sensitivity. Mater Des. 2013;45:548-554.

Shikida, M., Kitamura, S., Miyake, C. dan Bessho, K. Micromachined Pyramidal Shaped Biodegradable Microneedle. Microsyst Technol. 2014;20:2239–2245.

Kuo, C. dan Wu, M. Evaluation of Service Life of Silicone Rubber Molds Using Vacum Casting. Int J Adv Manuf Technol. 2017;90:3775-3781.

Shit, S. dan Shah, P. A Review on Silicone Rubber. Natl. Acad. Sci. Lett. 2013;36(4):1-11.

Kovacs, J. et al. Thermal Simulations and Measurements for Rapid Tool Inserts in Injection Molding Applications. Appl Therm Eng. 2015;85:44-51.

Hirahara, H. et al. Adhesion between cured silicone rubber. Polym Polym Compos. 2014;41(6):21-26.

Kuo, C., Chen, G. dan Huang, S., Study and Analysis of Process Parameters for Silicone Rubber Mold. Materials Science (Medžiagotyra). 2018;24(4):399-402.

CDC. Pneumococcal Conjugate (PCV13) VIS [diunduh 23 Juni 2021]. Tersedia dari https://www.cdc.gov/vaccines/hcp/vis/vis-statements/pcv13.html

Pfizer. PREVNAR 13 (PNEUMOCOCCAL 13-VALENT CONJUGATE VACCINE [DIPHTHERIA CRM197 PROTEIN]) [diunduh 23 Juni 2021]. Tersedia dari https://www.pfizer.com/products/product-detail/prevnar_13

Hermansyah, I., Arif, F. N., dan Zulfikar, E. Vaksin Pneumokokus Berbasis Protein (Pneumococcal Protein Vaccine: PPrV) Model Trivalent Terkonjugasi Adjuvan Aluminium dengan Administrasi Intranasal sebagai Metode Vaksinasi Terbaru untuk Pencegahan Pneumonia pada Balita. Scripta Score Scientific Medical Journal. 2019;1(1):13.

Mosugala NR, Devadasu VR, dan Venissety RK. Fabrication of Microneedle Molds and Polymer Based Biodegradable Microneedle Patches: A Novel Method. American Journal of Drug Delivery and Therapeutics. 2015;2(2):60-71.

M.G. McGrath, S. Vucen, A. Vrdoljak, A. Kelly, C. O’Mahony, A.M. Crean, A. Moore, Production of Dissolvable Microneedles Using An Atomised Spray Process: Effect of Microneedle Composition on Skin Penetration. Eur. J. Pharm. Biopharm. 2014;86:200–211.

Nguyen HX, Bozorg BD, Kim Y, Wieber A, Birk G, et al. Poly (vinyl alcohol) Microneedles: Fabrication, Characterization, and Application for Transdermal Drug Delivery of Doxorubicin. European Journal of Pharmaceutics and Biopharmaceutics. 2018;129:88–103.

Lee, Jeong Woo, Seong-O Choi, Eric I. Felner, dan Mark R. Prausnitzcorresponding. Dissolving Microneedle Patch for Transdermal Delivery of Human Growth Hormone [diunduh 02 September 2021]. Tersedia dari: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4143249/.

Ali, N.H., Amin, M.C.I.M. dan Ng, S.F. Sodium Carboxymethyl Cellulose Hydrogels Containing Reduced Graphene Oxide (Rgo) As A Functional Antibiofilm Wound Dressing. Journal of Biomaterials Science. Polymer Edition. 2019;30(8):629-645.

Ameri, M., Miryam Kadkhodayan, Joe Nguyen, Joseph A. Bravo, Rebeca Su, Kenneth Chan, Ahmad Samiee, dan Peter E. Daddona. Human Growth Hormone Delivery with a Microneedle Transdermal System: Preclinical Formulation, Stability, Delivery and PK of Therapeutically Relevant Doses. Pharmaceutics. 2014;6(2):220–234.

Levitt, G. D. dan Levitt, M. D. Human Serum Albumin Homeostasis: a New Look at The Roles of Synthesis, Catabolism, Renal and Gastrointestinal Excretion, and The Clinical Value of Serum Albumin Measurements. NCBI US National Library of Medicine. 2016;9(1):229-255.

Kuhlmann M., Ekanayake-Bohlig S., Klensang K., Hartkopf C., Saladin S., dan Wigger-Alberti W. Local Tolerability, Wound Healing Properties and Acceptability of two Waterproof Dressings for Post Operative Care after Minor Surgery. Cochrane Database Syst Rev. 2016;12.

Pinem, J. A. dan R. Angela. Sintesis Dan Karakterisasi Membran Hibrid PMMA/TEOT: Pengaruh Konsentrasi Polimer. Prosiding Seminar Nasional Teknik Kimia “Kejuangan”: Pengembangan Teknologi Kimia untuk Pengolahan Sumber Daya Alam Indonesia; 2011 Februari 22; Yogyakarta, Indonesia. Indonesia: Universitas Riau; 2011.

Mark LM, Robert GM, Hartmut L, Thomas MF, Timothy B. Epidemiology, microbiology, and treatment considerations for bacterial pneumonia complicating influenza. International Journal of Infectious DiseasesVolume. 2012. 16(5): 321-331,

UNICEF. Kenali 6 Fakta tentang Pneumonia pada Anak [diunduh 23 Juni 2021]. Tersedia dari: https://www.unicef.org/indonesia/id/stories/6-fakta-pneumonia.

Kementerian Kesehatan Republik Indonesia. Pneumonia pada Anak Bisa Dicegah dan Diobati [diunduh 23 Juni 2021]. Tersedia dari: https://www.kemkes.go.id/article/view/20111500001/pneumonia-padaanak-bisa-dicegah-dan-diobati.html.

Prayitno, A. Penelitian Efektivitas Imunisasi PCV-13 pada Imunisasi Dasar Dua Kali dan Penguat Satu Kali Guna Mengurangi Beban Penyakit IPD Akibat Pneumonia [diunduh 23 Juni 2021]. Tersedia dari: https://fk.ui.ac.id/berita/penelitian-efektivitas-imunisasi-pcv-13-pada-imunisasi-dasar-dua-kali-dan-penguat-satu-kali-guna-mengurangi-beban-penyakit-ipd-akibat-pneumonia.html.

WHO. Introduction of Pneumococcal Vaccine PCV13. Geneva: World Health Organization; 2013.

Arlyn, P., Inayah, dan Murtiningsih. Nyeri Bayi saat Dilakukan Penyuntikan Imunisasi di Puskesmas Kota Tomohon Sulawesi Utara. Pinlitamas. 2018;1(1):290-297.

Dul, et al. About Pneumococcal Vaccine [diunduh 21 Januari 2021]. Tersedia dari: https://www.cdc.gov/vaccines/vpd/pneumo/hcp/about-vaccine.html.

Ren, T., Wang, X., Zhang, S., Yang, P. H. Vaccine and Needle-Free Vaccination Delivery System. Journal of Microbial and Biochemical Technology. 2014;6(6):359-360.

Teunissen, et al. 2014.

Adhikari, B., Chu, S. Y., Goodso, J. L., Martin., Meltzer., dan Rota, P. A. Assessing the Potential Cost-Effectiveness of Microneedle Patches in Childhood Measles Vaccination Programs: The Case for Further Research and Development. Drug R D. 2016;(16):327-333.

Annisa, V. Sistem Penghantaran Obat Transdermal Dissolving Microneedle (DMN) serta Potensinya Sebagai Penghantaran Vaksin. Acta Pharm Indo. 2020;8(1):36-44.

Shafa, A. dan Sriwidodo. Microneedle: Teknologi Baru Penghantar Vaksin COVID–19. Majalah Farmasetika. 2021;6(1):85–98.

Witt, N. et al. Silicone Rubber Nanocomposites Containing A Small Amount of Hybrid Fillers with Enhanced Electrical Sensitivity. Mater Des. 2013;45:548-554.

Shikida, M., Kitamura, S., Miyake, C. dan Bessho, K. Micromachined Pyramidal Shaped Biodegradable Microneedle. Microsyst Technol. 2014;20:2239–2245.

Kuo, C. dan Wu, M. Evaluation of Service Life of Silicone Rubber Molds Using Vacum Casting. Int J Adv Manuf Technol. 2017;90:3775-3781.

Shit, S. dan Shah, P. A Review on Silicone Rubber. Natl. Acad. Sci. Lett. 2013;36(4):1-11.

Kovacs, J. et al. Thermal Simulations and Measurements for Rapid Tool Inserts in Injection Molding Applications. Appl Therm Eng. 2015;85:44-51.

Hirahara, H. et al. Adhesion between cured silicone rubber. Polym Polym Compos. 2014;41(6):21-26.

Kuo, C., Chen, G. dan Huang, S., Study and Analysis of Process Parameters for Silicone Rubber Mold. Materials Science (Medžiagotyra). 2018;24(4):399-402.

CDC. Pneumococcal Conjugate (PCV13) VIS [diunduh 23 Juni 2021]. Tersedia dari https://www.cdc.gov/vaccines/hcp/vis/vis-statements/pcv13.html

Pfizer. PREVNAR 13 (PNEUMOCOCCAL 13-VALENT CONJUGATE VACCINE [DIPHTHERIA CRM197 PROTEIN]) [diunduh 23 Juni 2021]. Tersedia dari https://www.pfizer.com/products/product-detail/prevnar_13

Hermansyah, I., Arif, F. N., dan Zulfikar, E. Vaksin Pneumokokus Berbasis Protein (Pneumococcal Protein Vaccine: PPrV) Model Trivalent Terkonjugasi Adjuvan Aluminium dengan Administrasi Intranasal sebagai Metode Vaksinasi Terbaru untuk Pencegahan Pneumonia pada Balita. Scripta Score Scientific Medical Journal. 2019;1(1):13.

Mosugala NR, Devadasu VR, dan Venissety RK. Fabrication of Microneedle Molds and Polymer Based Biodegradable Microneedle Patches: A Novel Method. American Journal of Drug Delivery and Therapeutics. 2015;2(2):60-71.

M.G. McGrath, S. Vucen, A. Vrdoljak, A. Kelly, C. O’Mahony, A.M. Crean, A. Moore, Production of Dissolvable Microneedles Using An Atomised Spray Process: Effect of Microneedle Composition on Skin Penetration. Eur. J. Pharm. Biopharm. 2014;86:200–211.

Nguyen HX, Bozorg BD, Kim Y, Wieber A, Birk G, et al. Poly (vinyl alcohol) Microneedles: Fabrication, Characterization, and Application for Transdermal Drug Delivery of Doxorubicin. European Journal of Pharmaceutics and Biopharmaceutics. 2018;129:88–103.

Lee, Jeong Woo, Seong-O Choi, Eric I. Felner, dan Mark R. Prausnitzcorresponding. Dissolving Microneedle Patch for Transdermal Delivery of Human Growth Hormone [diunduh 02 September 2021]. Tersedia dari: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4143249/.

Ali, N.H., Amin, M.C.I.M. dan Ng, S.F. Sodium Carboxymethyl Cellulose Hydrogels Containing Reduced Graphene Oxide (Rgo) As A Functional Antibiofilm Wound Dressing. Journal of Biomaterials Science. Polymer Edition. 2019;30(8):629-645.

Ameri, M., Miryam Kadkhodayan, Joe Nguyen, Joseph A. Bravo, Rebeca Su, Kenneth Chan, Ahmad Samiee, dan Peter E. Daddona. Human Growth Hormone Delivery with a Microneedle Transdermal System: Preclinical Formulation, Stability, Delivery and PK of Therapeutically Relevant Doses. Pharmaceutics. 2014;6(2):220–234.

Levitt, G. D. dan Levitt, M. D. Human Serum Albumin Homeostasis: a New Look at The Roles of Synthesis, Catabolism, Renal and Gastrointestinal Excretion, and The Clinical Value of Serum Albumin Measurements. NCBI US National Library of Medicine. 2016;9(1):229-255.

Kuhlmann M., Ekanayake-Bohlig S., Klensang K., Hartkopf C., Saladin S., dan Wigger-Alberti W. Local Tolerability, Wound Healing Properties and Acceptability of two Waterproof Dressings for Post Operative Care after Minor Surgery. Cochrane Database Syst Rev. 2016;12.

Pinem, J. A. dan R. Angela. Sintesis Dan Karakterisasi Membran Hibrid PMMA/TEOT: Pengaruh Konsentrasi Polimer. Prosiding Seminar Nasional Teknik Kimia “Kejuangan”: Pengembangan Teknologi Kimia untuk Pengolahan Sumber Daya Alam Indonesia; 2011 Februari 22; Yogyakarta, Indonesia. Indonesia: Universitas Riau; 2011.

Mark LM, Robert GM, Hartmut L, Thomas MF, Timothy B. Epidemiology, microbiology, and treatment considerations for bacterial pneumonia complicating influenza. International Journal of Infectious DiseasesVolume. 2012. 16(5): 321-331,

UNICEF. Kenali 6 Fakta tentang Pneumonia pada Anak [diunduh 23 Juni 2021]. Tersedia dari: https://www.unicef.org/indonesia/id/stories/6-fakta-pneumonia.

Kementerian Kesehatan Republik Indonesia. Pneumonia pada Anak Bisa Dicegah dan Diobati [diunduh 23 Juni 2021]. Tersedia dari: https://www.kemkes.go.id/article/view/20111500001/pneumonia-padaanak-bisa-dicegah-dan-diobati.html.

Prayitno, A. Penelitian Efektivitas Imunisasi PCV-13 pada Imunisasi Dasar Dua Kali dan Penguat Satu Kali Guna Mengurangi Beban Penyakit IPD Akibat Pneumonia [diunduh 23 Juni 2021]. Tersedia dari: https://fk.ui.ac.id/berita/penelitian-efektivitas-imunisasi-pcv-13-pada-imunisasi-dasar-dua-kali-dan-penguat-satu-kali-guna-mengurangi-beban-penyakit-ipd-akibat-pneumonia.html.

WHO. Introduction of Pneumococcal Vaccine PCV13. Geneva: World Health Organization; 2013.

Arlyn, P., Inayah, dan Murtiningsih. Nyeri Bayi saat Dilakukan Penyuntikan Imunisasi di Puskesmas Kota Tomohon Sulawesi Utara. Pinlitamas. 2018;1(1):290-297.

Dul, et al. About Pneumococcal Vaccine [diunduh 21 Januari 2021]. Tersedia dari: https://www.cdc.gov/vaccines/vpd/pneumo/hcp/about-vaccine.html.

Ren, T., Wang, X., Zhang, S., Yang, P. H. Vaccine and Needle-Free Vaccination Delivery System. Journal of Microbial and Biochemical Technology. 2014;6(6):359-360.

Teunissen, et al. 2014.

Adhikari, B., Chu, S. Y., Goodso, J. L., Martin., Meltzer., dan Rota, P. A. Assessing the Potential Cost-Effectiveness of Microneedle Patches in Childhood Measles Vaccination Programs: The Case for Further Research and Development. Drug R D. 2016;(16):327-333.

Annisa, V. Sistem Penghantaran Obat Transdermal Dissolving Microneedle (DMN) serta Potensinya Sebagai Penghantaran Vaksin. Acta Pharm Indo. 2020;8(1):36-44.

Shafa, A. dan Sriwidodo. Microneedle: Teknologi Baru Penghantar Vaksin COVID–19. Majalah Farmasetika. 2021;6(1):85–98.

Witt, N. et al. Silicone Rubber Nanocomposites Containing A Small Amount of Hybrid Fillers with Enhanced Electrical Sensitivity. Mater Des. 2013;45:548-554.

Shikida, M., Kitamura, S., Miyake, C. dan Bessho, K. Micromachined Pyramidal Shaped Biodegradable Microneedle. Microsyst Technol. 2014;20:2239–2245.

Kuo, C. dan Wu, M. Evaluation of Service Life of Silicone Rubber Molds Using Vacum Casting. Int J Adv Manuf Technol. 2017;90:3775-3781.

Shit, S. dan Shah, P. A Review on Silicone Rubber. Natl. Acad. Sci. Lett. 2013;36(4):1-11.

Kovacs, J. et al. Thermal Simulations and Measurements for Rapid Tool Inserts in Injection Molding Applications. Appl Therm Eng. 2015;85:44-51.

Hirahara, H. et al. Adhesion between cured silicone rubber. Polym Polym Compos. 2014;41(6):21-26.

Kuo, C., Chen, G. dan Huang, S., Study and Analysis of Process Parameters for Silicone Rubber Mold. Materials Science (Medžiagotyra). 2018;24(4):399-402.

CDC. Pneumococcal Conjugate (PCV13) VIS [diunduh 23 Juni 2021]. Tersedia dari https://www.cdc.gov/vaccines/hcp/vis/vis-statements/pcv13.html

Pfizer. PREVNAR 13 (PNEUMOCOCCAL 13-VALENT CONJUGATE VACCINE [DIPHTHERIA CRM197 PROTEIN]) [diunduh 23 Juni 2021]. Tersedia dari https://www.pfizer.com/products/product-detail/prevnar_13

Hermansyah, I., Arif, F. N., dan Zulfikar, E. Vaksin Pneumokokus Berbasis Protein (Pneumococcal Protein Vaccine: PPrV) Model Trivalent Terkonjugasi Adjuvan Aluminium dengan Administrasi Intranasal sebagai Metode Vaksinasi Terbaru untuk Pencegahan Pneumonia pada Balita. Scripta Score Scientific Medical Journal. 2019;1(1):13.

Mosugala NR, Devadasu VR, dan Venissety RK. Fabrication of Microneedle Molds and Polymer Based Biodegradable Microneedle Patches: A Novel Method. American Journal of Drug Delivery and Therapeutics. 2015;2(2):60-71.

M.G. McGrath, S. Vucen, A. Vrdoljak, A. Kelly, C. O’Mahony, A.M. Crean, A. Moore, Production of Dissolvable Microneedles Using An Atomised Spray Process: Effect of Microneedle Composition on Skin Penetration. Eur. J. Pharm. Biopharm. 2014;86:200–211.

Nguyen HX, Bozorg BD, Kim Y, Wieber A, Birk G, et al. Poly (vinyl alcohol) Microneedles: Fabrication, Characterization, and Application for Transdermal Drug Delivery of Doxorubicin. European Journal of Pharmaceutics and Biopharmaceutics. 2018;129:88–103.

Lee, Jeong Woo, Seong-O Choi, Eric I. Felner, dan Mark R. Prausnitzcorresponding. Dissolving Microneedle Patch for Transdermal Delivery of Human Growth Hormone [diunduh 02 September 2021]. Tersedia dari: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4143249/.

Ali, N.H., Amin, M.C.I.M. dan Ng, S.F. Sodium Carboxymethyl Cellulose Hydrogels Containing Reduced Graphene Oxide (Rgo) As A Functional Antibiofilm Wound Dressing. Journal of Biomaterials Science. Polymer Edition. 2019;30(8):629-645.

Ameri, M., Miryam Kadkhodayan, Joe Nguyen, Joseph A. Bravo, Rebeca Su, Kenneth Chan, Ahmad Samiee, dan Peter E. Daddona. Human Growth Hormone Delivery with a Microneedle Transdermal System: Preclinical Formulation, Stability, Delivery and PK of Therapeutically Relevant Doses. Pharmaceutics. 2014;6(2):220–234.

Levitt, G. D. dan Levitt, M. D. Human Serum Albumin Homeostasis: a New Look at The Roles of Synthesis, Catabolism, Renal and Gastrointestinal Excretion, and The Clinical Value of Serum Albumin Measurements. NCBI US National Library of Medicine. 2016;9(1):229-255.

Kuhlmann M., Ekanayake-Bohlig S., Klensang K., Hartkopf C., Saladin S., dan Wigger-Alberti W. Local Tolerability, Wound Healing Properties and Acceptability of two Waterproof Dressings for Post Operative Care after Minor Surgery. Cochrane Database Syst Rev. 2016;12.

Pinem, J. A. dan R. Angela. Sintesis Dan Karakterisasi Membran Hibrid PMMA/TEOT: Pengaruh Konsentrasi Polimer. Prosiding Seminar Nasional Teknik Kimia “Kejuangan”: Pengembangan Teknologi Kimia untuk Pengolahan Sumber Daya Alam Indonesia; 2011 Februari 22; Yogyakarta, Indonesia. Indonesia: Universitas Riau; 2011.

Mark LM, Robert GM, Hartmut L, Thomas MF, Timothy B. Epidemiology, microbiology, and treatment considerations for bacterial pneumonia complicating influenza. International Journal of Infectious DiseasesVolume. 2012. 16(5): 321-331,

UNICEF. Kenali 6 Fakta tentang Pneumonia pada Anak [diunduh 23 Juni 2021]. Tersedia dari: https://www.unicef.org/indonesia/id/stories/6-fakta-pneumonia.

Kementerian Kesehatan Republik Indonesia. Pneumonia pada Anak Bisa Dicegah dan Diobati [diunduh 23 Juni 2021]. Tersedia dari: https://www.kemkes.go.id/article/view/20111500001/pneumonia-padaanak-bisa-dicegah-dan-diobati.html.

Prayitno, A. Penelitian Efektivitas Imunisasi PCV-13 pada Imunisasi Dasar Dua Kali dan Penguat Satu Kali Guna Mengurangi Beban Penyakit IPD Akibat Pneumonia [diunduh 23 Juni 2021]. Tersedia dari: https://fk.ui.ac.id/berita/penelitian-efektivitas-imunisasi-pcv-13-pada-imunisasi-dasar-dua-kali-dan-penguat-satu-kali-guna-mengurangi-beban-penyakit-ipd-akibat-pneumonia.html.

WHO. Introduction of Pneumococcal Vaccine PCV13. Geneva: World Health Organization; 2013.

Arlyn, P., Inayah, dan Murtiningsih. Nyeri Bayi saat Dilakukan Penyuntikan Imunisasi di Puskesmas Kota Tomohon Sulawesi Utara. Pinlitamas. 2018;1(1):290-297.

Dul, et al. About Pneumococcal Vaccine [diunduh 21 Januari 2021]. Tersedia dari: https://www.cdc.gov/vaccines/vpd/pneumo/hcp/about-vaccine.html.

Ren, T., Wang, X., Zhang, S., Yang, P. H. Vaccine and Needle-Free Vaccination Delivery System. Journal of Microbial and Biochemical Technology. 2014;6(6):359-360.

Teunissen, et al. 2014.

Adhikari, B., Chu, S. Y., Goodso, J. L., Martin., Meltzer., dan Rota, P. A. Assessing the Potential Cost-Effectiveness of Microneedle Patches in Childhood Measles Vaccination Programs: The Case for Further Research and Development. Drug R D. 2016;(16):327-333.

Annisa, V. Sistem Penghantaran Obat Transdermal Dissolving Microneedle (DMN) serta Potensinya Sebagai Penghantaran Vaksin. Acta Pharm Indo. 2020;8(1):36-44.

Shafa, A. dan Sriwidodo. Microneedle: Teknologi Baru Penghantar Vaksin COVID–19. Majalah Farmasetika. 2021;6(1):85–98.

Witt, N. et al. Silicone Rubber Nanocomposites Containing A Small Amount of Hybrid Fillers with Enhanced Electrical Sensitivity. Mater Des. 2013;45:548-554.

Shikida, M., Kitamura, S., Miyake, C. dan Bessho, K. Micromachined Pyramidal Shaped Biodegradable Microneedle. Microsyst Technol. 2014;20:2239–2245.

Kuo, C. dan Wu, M. Evaluation of Service Life of Silicone Rubber Molds Using Vacum Casting. Int J Adv Manuf Technol. 2017;90:3775-3781.

Shit, S. dan Shah, P. A Review on Silicone Rubber. Natl. Acad. Sci. Lett. 2013;36(4):1-11.

Kovacs, J. et al. Thermal Simulations and Measurements for Rapid Tool Inserts in Injection Molding Applications. Appl Therm Eng. 2015;85:44-51.

Hirahara, H. et al. Adhesion between cured silicone rubber. Polym Polym Compos. 2014;41(6):21-26.

Kuo, C., Chen, G. dan Huang, S., Study and Analysis of Process Parameters for Silicone Rubber Mold. Materials Science (Medžiagotyra). 2018;24(4):399-402.

CDC. Pneumococcal Conjugate (PCV13) VIS [diunduh 23 Juni 2021]. Tersedia dari https://www.cdc.gov/vaccines/hcp/vis/vis-statements/pcv13.html

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Nguyen HX, Bozorg BD, Kim Y, Wieber A, Birk G, et al. Poly (vinyl alcohol) Microneedles: Fabrication, Characterization, and Application for Transdermal Drug Delivery of Doxorubicin. European Journal of Pharmaceutics and Biopharmaceutics. 2018;129:88–103.

Lee, Jeong Woo, Seong-O Choi, Eric I. Felner, dan Mark R. Prausnitzcorresponding. Dissolving Microneedle Patch for Transdermal Delivery of Human Growth Hormone [diunduh 02 September 2021]. Tersedia dari: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4143249/.

Ali, N.H., Amin, M.C.I.M. dan Ng, S.F. Sodium Carboxymethyl Cellulose Hydrogels Containing Reduced Graphene Oxide (Rgo) As A Functional Antibiofilm Wound Dressing. Journal of Biomaterials Science. Polymer Edition. 2019;30(8):629-645.

Ameri, M., Miryam Kadkhodayan, Joe Nguyen, Joseph A. Bravo, Rebeca Su, Kenneth Chan, Ahmad Samiee, dan Peter E. Daddona. Human Growth Hormone Delivery with a Microneedle Transdermal System: Preclinical Formulation, Stability, Delivery and PK of Therapeutically Relevant Doses. Pharmaceutics. 2014;6(2):220–234.

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Kuhlmann M., Ekanayake-Bohlig S., Klensang K., Hartkopf C., Saladin S., dan Wigger-Alberti W. Local Tolerability, Wound Healing Properties and Acceptability of two Waterproof Dressings for Post Operative Care after Minor Surgery. Cochrane Database Syst Rev. 2016;12.

Pinem, J. A. dan R. Angela. Sintesis Dan Karakterisasi Membran Hibrid PMMA/TEOT: Pengaruh Konsentrasi Polimer. Prosiding Seminar Nasional Teknik Kimia “Kejuangan”: Pengembangan Teknologi Kimia untuk Pengolahan Sumber Daya Alam Indonesia; 2011 Februari 22; Yogyakarta, Indonesia. Indonesia: Universitas Riau; 2011.

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Kuo, C., Chen, G. dan Huang, S., Study and Analysis of Process Parameters for Silicone Rubber Mold. Materials Science (Medžiagotyra). 2018;24(4):399-402.

CDC. Pneumococcal Conjugate (PCV13) VIS [diunduh 23 Juni 2021]. Tersedia dari https://www.cdc.gov/vaccines/hcp/vis/vis-statements/pcv13.html

Pfizer. PREVNAR 13 (PNEUMOCOCCAL 13-VALENT CONJUGATE VACCINE [DIPHTHERIA CRM197 PROTEIN]) [diunduh 23 Juni 2021]. Tersedia dari https://www.pfizer.com/products/product-detail/prevnar_13

Hermansyah, I., Arif, F. N., dan Zulfikar, E. Vaksin Pneumokokus Berbasis Protein (Pneumococcal Protein Vaccine: PPrV) Model Trivalent Terkonjugasi Adjuvan Aluminium dengan Administrasi Intranasal sebagai Metode Vaksinasi Terbaru untuk Pencegahan Pneumonia pada Balita. Scripta Score Scientific Medical Journal. 2019;1(1):13.

Mosugala NR, Devadasu VR, dan Venissety RK. Fabrication of Microneedle Molds and Polymer Based Biodegradable Microneedle Patches: A Novel Method. American Journal of Drug Delivery and Therapeutics. 2015;2(2):60-71.

M.G. McGrath, S. Vucen, A. Vrdoljak, A. Kelly, C. O’Mahony, A.M. Crean, A. Moore, Production of Dissolvable Microneedles Using An Atomised Spray Process: Effect of Microneedle Composition on Skin Penetration. Eur. J. Pharm. Biopharm. 2014;86:200–211.

Nguyen HX, Bozorg BD, Kim Y, Wieber A, Birk G, et al. Poly (vinyl alcohol) Microneedles: Fabrication, Characterization, and Application for Transdermal Drug Delivery of Doxorubicin. European Journal of Pharmaceutics and Biopharmaceutics. 2018;129:88–103.

Lee, Jeong Woo, Seong-O Choi, Eric I. Felner, dan Mark R. Prausnitzcorresponding. Dissolving Microneedle Patch for Transdermal Delivery of Human Growth Hormone [diunduh 02 September 2021]. Tersedia dari: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4143249/.

Ali, N.H., Amin, M.C.I.M. dan Ng, S.F. Sodium Carboxymethyl Cellulose Hydrogels Containing Reduced Graphene Oxide (Rgo) As A Functional Antibiofilm Wound Dressing. Journal of Biomaterials Science. Polymer Edition. 2019;30(8):629-645.

Ameri, M., Miryam Kadkhodayan, Joe Nguyen, Joseph A. Bravo, Rebeca Su, Kenneth Chan, Ahmad Samiee, dan Peter E. Daddona. Human Growth Hormone Delivery with a Microneedle Transdermal System: Preclinical Formulation, Stability, Delivery and PK of Therapeutically Relevant Doses. Pharmaceutics. 2014;6(2):220–234.

Levitt, G. D. dan Levitt, M. D. Human Serum Albumin Homeostasis: a New Look at The Roles of Synthesis, Catabolism, Renal and Gastrointestinal Excretion, and The Clinical Value of Serum Albumin Measurements. NCBI US National Library of Medicine. 2016;9(1):229-255.

Kuhlmann M., Ekanayake-Bohlig S., Klensang K., Hartkopf C., Saladin S., dan Wigger-Alberti W. Local Tolerability, Wound Healing Properties and Acceptability of two Waterproof Dressings for Post Operative Care after Minor Surgery. Cochrane Database Syst Rev. 2016;12.

Pinem, J. A. dan R. Angela. Sintesis Dan Karakterisasi Membran Hibrid PMMA/TEOT: Pengaruh Konsentrasi Polimer. Prosiding Seminar Nasional Teknik Kimia “Kejuangan”: Pengembangan Teknologi Kimia untuk Pengolahan Sumber Daya Alam Indonesia; 2011 Februari 22; Yogyakarta, Indonesia. Indonesia: Universitas Riau; 2011.

DOI: https://doi.org/10.24198/mfarmasetika.v7i1.35773

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