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Abstrak :
Berbagai aplikasi pengecilan ukuran partikel liposom telah dilakukan untuk memperoleh liposom SUV dengan pertimbangan distribusi sistemik yang lebih baik dan pemenuhan kriteria filtrasi steril. Ekstrusi dan sonikasi merupakan metode reduksi ukuran partikel yang umum digunakan. Penelitian ini bertujuan melihat pengaruh metode ekstrusi dan sonikasi terhadap karakteristik liposom bila ditinjau dari morfologi, ukuran partikel, efisiensi penjerapan, dan sterilitas. Pembuatan liposom dilakukan dengan metode hidrasi lapis tipis. Liposom hasil hidrasi diberikan dua perlakuan berbeda: ekstrusi 5 siklus dengan membran polikarbonat 0,45 μm dan sonikasi 2 kali selama masing-masing 5 menit. Liposom terekstrusi dan tersonikasi disterilisasi filtrasi dengan teknik ekstrusi 1 siklus menggunakan membran polikarbonat 0,22 μm secara aseptik. Citra TEM menunjukkan bentuk sferis unilamelar dari globul liposom tersonikasi dan variasi bentuk globul pada liposom terekstrusi. Ekstrusi 5 siklus dan sonikasi menghasilkan liposom dengan rata-rata ukuran partikel berturut-turut 445,3 (PDI=0,49) dan 75,5 nm (PDI=0,323). Sterilisasi filtrasi 1 siklus cenderung meningkatkan rata-rata ukuran partikel dan keseragaman liposom terekstrusi, tetapi tidak berpengaruh terhadap liposom tersonikasi. Jumlah meropenem terjerap dalam liposom terhidrasi, terekstrusi, dan tersonikasi berturut-turut sebesar 67,99%, 32,93%, dan 72,76%. Proses ekstrusi steril menurunkan efisiensi penjerapan liposom terekstrusi (25,94%) dan tersonikasi (35,02%). Pengujian sterilitas dengan medium tioglikolat dan agar darah mengindikasikan adanya pertumbuhan bakteri. ......Various applications of liposome particle size reduction have been made to obtain SUV liposome with consideration of better systemic distribution and sterile filtration criteria fulfillment. Extrusion and sonication are two common methods of particle size reduction. This study aims to observe the effect of extrusion and sonication methods on the characterizatic of liposomes in terms of morphology, particle size, entrapment efficiency, and sterility. Liposome was produced by thin film hydration method. Hydrated liposome was given two different treatments: 5 cycles extrusion with 0.45 μm polycarbonate membrane and 2 sonication cycles for 5 minutes each. Furthermore, extruded and sonicated liposome were sterilized by filtration using 1 cycle extrusion techniques with 0.22 μm polycarbonate membrane aseptically. TEM image shows the unilamellar spherical globule of sonicated liposome and various globule forms of extruded liposome. 5 cycles extrusion and sonication produce liposome’s globule with mean particle size of 445.3 nm (PDI = 0.49) and 75.5 nm (PDI = 0.323) respectively. Sterile filtration increased mean particle size and uniformity of the extruded liposomes, but it didn’t influence the sonicated liposome. Meropenem entrapped in hydrated, extruded, and sonicated liposomes were respectively 67.99%, 32.93%, and 72.76%. Sterile extrusion process decreased the entrapment efficiency of extruded (25.94%) and sonicated (35.02%) liposome. Sterility testing with thioglikolat medium and blood agar indicate the presence of bacterial growth.

Abstrak :
Delivering fundamental insights into the most popular methods of molecular analysis, this text is an invaluable resource for students and researchers. It encompasses an extensive range of spectroscopic and spectrometric techniques used for molecular analysis in the life sciences, especially in the elucidation of the structure and function of biological molecules. Covering the range of up-to-date methodologies from everyday mass spectrometry and centrifugation to the more probing X-ray crystallography and surface-sensitive techniques, the book is intended for undergraduates starting out in the laboratory and for more advanced postgraduates pursuing complex research goals. The comprehensive text provides strong emphasis on the background principles of each method, including equations where they are of integral importance to the individual techniques. With sections on all the major procedures for analysing biological molecules, this book will serve as a useful guide across a range of fields, from new drug discovery to forensics and environmental studies"--Provided by publisher

Abstrak :
Evidence based herbal drugs are on hi-acceptance day by day due to health friendly nature compared to synthetic drugs. The active ingredients in herbal drugs are different chemical classes, e.g. alkaloids, coumarins, flavonoids, glycosides, phenols, steroids, terpenes etc., are identified at molecular level using current analytical practices, which are unique characteristic, as finger, so known as fingerprints. The fingerprints are used for assessment of quality consistency and stability by visible observation and comparison of the standardized fingerprint pattern, have scientific potential to decipher the claims made on these drugs for authenticity and reliability of chemical constituents, with total traceability, which starts from the proper identification, season and area of collection, storage, their processing, stability during processing, and rationalizing the combinational in case of polyherbal drugs. These quality oriented documents have ample scientific logics so well accepted globally by regulatory authorities and industries, to determine intentional/ unintentional contamination, adulteration, pollutants, stability, quality, etc. parameters. Based on geo-climatic factors, a same plant species has different pharmacological properties due to different ingredients; such regional and morphological variations are identified by fingerprints, at the time of collection of the medicinal herb. The chromatographic (TLC, HPTLC, HPLC, GC,) and spectral (UV-Vis., FTIR, MNR, MS, LC-MS, GC-MS etc.) techniques have world-wide strong scientific approval as validated methods to generate the fingerprints of different chemical classes of active ingredients of herbal drugs. Presently there is a need for a book having all the fingerprinting techniques for herbal drugs at a place with theory, case studies and art to discover patentable forms.