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"This book edition is an introductory text that spans all steps of biological organization, from the molecular, to the organism level, as well as influences of environmental factors. In response to the enormous progress recently made, especially in theoretical and molecular biophysics, the author has updated the text, integrating new results and developments concerning protein folding and dynamics, molecular aspects of membrane assembly and transport, noise-enhanced processes, and photo-biophysics. The advances made in theoretical biology in the last decade call for a fully new conception of the corresponding sections. Thus, the book provides the background needed for fundamental training in biophysics and, in addition, offers a great deal of advanced biophysical knowledge."

"Computational modeling is emerging as a powerful new approach to study and manipulate biological systems. Multiple methods have been developed to model, visualize, and rationally alter systems at various length scales, starting from molecular modeling and design at atomic resolution to cellular pathways modeling and analysis. Higher time and length scale processes, such as molecular evolution, have also greatly benefited from new breeds of computational approaches. This book provides an overview of the established computational methods used for modeling biologically and medically relevant systems."

"This classic text has been used in over 20 countries by advanced undergraduate and beginning graduate students in biophysics, physiology, medical physics, neuroscience, and biomedical engineering. It bridges the gap between an introductory physics course and the application of physics to the life and biomedical sciences. Extensively revised and updated, the fifth edition incorporates new developments at the interface between physics and biomedicine. New coverage includes cyclotrons, photodynamic therapy, color vision, x-ray crystallography, the electron microscope, cochlear implants, deep brain stimulation, nanomedicine, and other topics highlighted in the National Research Council report BIO2010. As with the previous edition, the first half of the text is primarily biological physics, emphasizing the use of ideas from physics to understand biology and physiology, and the second half is primarily medical physics, describing the use of physics in medicine for diagnosis (mainly imaging) and therapy. Among the many topics carried forward are thorough treatments of forces in the skeletal system, fluid flow, the logistic equation, scaling, equilibrium in statistical mechanics, the chemical potential and free energy, transport, membranes and osmosis, magnetic and electrical signals from nerves and the heart, membranes and gated channels in membranes, biological magnetic fields, linear and nonlinear feedback systems, including biological clocks and chaotic behavior, biological signal analysis, hearing and medical ultrasound, atoms and light, optical coherence tomography, radiometry and photometry, the interaction of photons and charged particles in tissue, radiological physics and the use of x-rays in diagnosis and therapy, nuclear medicine, and magnetic resonance imaging. Discussion of theory is closely linked to experiment. Prior courses in physics and in calculus are assumed."

"Ruang lingkup dan Cara penelitian:EPA adalah fenomena bertahannya efek hambatan pertumbuhan kuman oleh pemberian antibiotik tertentu dan setelah kadarnya turun hingga di bawah KHM nya. EPA memberikan implikasi terhadap rejimen dosis, di mana antibiotik yang mempunyai EPA yang panjang, frekuensi pemberian dosis dapat diturunkan tanpa mengurangi efektivitasnya.Salah satu antibiotik yang diketahui menginduksi EPA adalah Siprofloksasin. Penelitian EPA siprofloksasin pada kuman Pseudomonas aeruginosa secara in vivo khususnya di Indonesia belum pernah dilakukan. Penelitian ini bertujuan menentukan lamanya EPA siprofloksasin pada kuman Pseudomonas aeruginosa secara in vivo dengan metode infeksi paha mencit netropenik. Penelitian dilakukan pada 2 kelompok mencit. Tiap kelompok terdiri dari 20 ekor. Kelompok pertama kelompok uji, yaitu kelompok yang diinfeksi dengan suatu isolat kuman Pseudomonas aeruginosa kemudian diberi siprofloksasin. Kelompok kedua kelompok kontrol yaitu kelompok yang diinfeksi tetapi tidak diberi mg/kg BB SK, dan kelompok kontrol diberikan suntikan 0,1 ml NaCl 0,9% SK. Untuk mengukur kinetika pertumbuhan kuman selanjutnya, maka dilakukan penghitungan jumlah koloni kuman pada sampel otot paha. Sampel otot diambil sbb: Pada kelompok uji pada jam ke 1, 2, 3, 4, 6, 8, 10, 12, 14, dan 18 setelah suntikan antibiotik, dan kelompok kontrol pada jam ke 0, 2, 4, 6, 8, 10, 12, 14, 16, dan 18 setelah suntikan NaCl 0,9%. KHM siprofloksasin untuk kuman Pseudornonas aeruginosa ditentukan berdasarkan metode NCCLS dan penentuan farmakokinetik siprofloksasin dilakukan dengan pengukuran kadarnya di dalam darah pada merit ke 15, 30, 60, 120, 240, dan 300 setelah suntikan siprofloksasin.Hasil dan kesimpulan:siprofloksasin 2,53 µg/ml dicapai pada 28,67 menit (Tm) setelah suntikan SK. Lamanya kadar diatas KHM (M) adalah 190,85 menit. KHM siprofloksasin untuk kuman Pseudornonas aeruginosa adalah 0,4 µg/ml. Waktu yang dibutuhkan untuk meningkatkan jumlah unit koloni kuman sebesar 1 log 10 di atas jumlah pada saat kadar obat di bawah KHM pada kelompok uji (T) adalah 385,15 menit, sedangkan waktu yang dibutuhkan untuk meningkatkan jumlah unit koloni kuman sebesar 1 log 10 di atas jumlah pada saat suntikan NaCl 0,9% pada kelompok kontrol (C) adalah 72 menit. Dengan demikian berdasarkan persamaan EPA = T - C - M, maka EPA siprofloksasin pada isolat klinik kuman Pseudomonas aeruginosa dari RS. Cipto Mangunkusumo tersebut adalah 122,30 menit."