<p>Preface </p><p>Organization of ISPS2010 </p><p>Sponsorship </p><p>Acknowledgements </p><p> </p><p> </p><p>Part I: Past, Present and Future of Primo Vascular System Research</p><p>1. A Brief History of the Bong-Han Theory and the Primo Vascular System<br>Kwang-Sup Soh<br><br></p><p>2. Summary of Bong-Han Kim’s Publications<br>Jungdae Kim, Jonghyun Jung, Michael Potroz<br><br></p><p>3. Follow-up Study on the Morphological Characteristics in Bong-Han Theory: an Interim Report<br>Satoru Fujiwara, Sun-Bong Yu<br><br></p><p>4. Recollection of Early Research on Primo Vascular System: Ultimate Implication of Bong-Han Theory<br>Jong-Su Lee<br><br></p><p>5. Current State of Research on the Primo Vascular System<br>Kwang-Sup Soh<br><br></p><p>6. Primo Vascular System Basic and Applied Research Outline<br>Michael Potroz, Kwang-Sup Soh<br><br></p><p>7. The Primo Vascular System: Facts, Open Questions and Future Perspectives<br>David Harrison, Peter Vaupel</p><p> </p><p> </p><p>Part II: Primo Vascular System in Various Organs</p><p>8. Structure of the Sinus in the Primo Vessel inside the Bovine Cardiac Chambers<br>Byung-Cheon Lee, Hong Bae Kim, Baeckkyoung Sung, Ki Woo Kim, Jamin Sohn, Boram Sohn, Byung-Joon Chang, Kwang-Sup Soh<br><br></p><p>9. Finding a Novel Threadlike Structure on the Intra-abdominal Organ Surface of Small Pigs by Using In-vivo Trypan Blue Staining<br>M. Hossein Ayati, Tian Yu-ying, Huang Tao, Zhang Yu-Qing,Che Yong-Zhe, Zhang Wei-Bo<br><br></p><p>10. Observation of Primo Vascular System on Intestinal Fascia of Dogs<br>Zhaofeng Jia, Kwang-Sup Soh, Qiang Zhou, Bo Dong, Wenhui Yu<br><br></p><p>11. Development of the Putative Primo Vascular System before the Formation of Vitelline Vessels in Chick Embryos<br>Byung-Cheon Lee, Seung-Yoon Lee, Kwang-Sup Soh, Gil-Ja Ghon<br><br></p><p>12. Characterization of Primo Nodes and Vessels by High Resolution Light Microscopy<br>Vitaly Vodyanoy<br><br></p><p>13. Distribution of Primo Vessels in the Mesentery of a Mouse<br>Zhendong Su, Ping An, Jeong-No Lee, Kwang-Sup Soh<br><br></p>14. Primo Vessels in the Mesentery of Nude Mice <br>Ping An, Zhendong Su, Hesheng Luo, Kwang-Sup Soh<br><br><p><p>15. Comparison of the Primo Vascular System with a Similar-looking Structure<br>Cheon-Joo Choi, Chae-Hun Leem<br><br></p><p>16. Effect of the Primo Vascular System on Liver Tissue Recovery after Irreversible Electroporation: a Preliminary Study<br>Hong-Bae Kim, Chang-Kyu Sung, Saeyoung Ahn<br><br></p><p>17. Detection of the Primo Vessels in the Rodent Thoracic Lymphatic Ducts<br>Inho Choi, Hee-Kyoung Jeong, Young-Kwon Hong<br><br></p><p>18. Histological Comparison of Primo Nodes in Abdominal Membrane and Lymph Nodes of Rat<br>Kyoung-Hee Bae, Zhendong Su, Kwang-Sup Soh, Hee Min Kwon<br><br></p><p>19. Visualization of the Primo Vascular System by Using Trypan Blue in the Subarachnoid Space of Rats<br>Inhyung Lee, Zhen-dong Su, Ki Woo Kim, Byung-Cheon Lee, Kwang-Sup Soh<br><br></p><p>20. Network of the Primo Vascular System in the Rat Hypodermis<br>Byung-Cheon Lee, Zhendong Su, Baeckkyoung Sung, Ki Woo Kim, Jin-Myung Cha, Jin-Kyu Lee, Byung-Joon Chang, Kwang-Sup Soh</p><p> </p><p> </p><p>Part III: Primo Microcell (SanAl) and Stem Cells</p><p>21. Identification and Characterization of Small Stem-like Cells in the Primo Vascular System of Adult Animals<br>Vyacheslav Ogay, Kwang-Sup Soh<br><br></p><p>22. Membrane Mechanical Property of Primo Microcells<br>Ku Youn Baik, Chang Ho Kim, Suk Yi Woo, Sae Chae Jeoung, Kwang-Sup Soh<br><br></p><p>23. Primo microcell in a Primo Node as a Possible Origin of Adult Stem Cells<br>Seong-hun Ahn, Sung-won Lee, Sung-Yeoun Hwang, Jae-hyo Kim, In-chul Sohn<br><br></p><p>24. Budding Primo Microcells (Sanals) in a Culture Medium with Fertilized Egg Albumen and RPMI Medium<br>Byung-Cheon Lee, Dae-In Kang, Kwang-Sup Soh</p><p> </p><p> </p><p>Part IV: Cancer </p><p>25. Identification of Primo Vascular System in Murine Tumors and Viscera<br>Walter Akers, Yang Liu, Gail Sudlow, Joon Lee, Jung Sun Yoo, Byung-Cheon Lee, Kwang-Sup Soh, Samuel Achilefu<br><br></p><p>26. Molecular Compositional Differences of Primo and Lymphatic Vascular System in Murine Melanoma Models<br>Jung Sun Yoo, Baatartsogt Oyungerel, Il Young Han, Ji Young Kim, ChoongHwan Lee, Kang Duk Choi, Kwang-Sup Soh, Tae Young Han<br><br></p><p>27. Using Human Observations to Gain Biologic Insights and New Treatments<br>Donald M. Miller, Shelia D. Thomas, Kara Sedoris, Ashraful Islam, David Muench, Cortney Clarkson, Charles A. Koller<br><br></p><p>28. Translational Development of Therapeutic Vaccines for Lymphoma<br>Larry W. Kwak<br><br></p><p>29. Oxygen Transport to Tumors: Pathophysiology and Clinical Implications<br>Peter Vaupel<br><br></p><p>30. Stress Responses of Pancreatic Cancer Cells and Their Significance in Invasion and Metastasis<br>Yoshiharu Motoo, Qi-Sheng Xia, Naoki Nakaya, Takeo Shimasaki, Hideo Nakajima, Yasuhito Ishigaki<br><br></p><p>31. Human Urine Extract (CDA-2) Eliminates Cancer Stem-Like Cells and Inhibits Metastasis-Its Potential Role on the Microenvironment of Primo Vascular System<br>Chih-Jung Yao, Ping-Hsiao Shih, Chi-Tai Yeh, Gi-Ming Lai</p><p> </p><p> </p><p>Part V: Imaging, Oxygen, Physiology and Others</p><p>32. Mapping PVS by Molecular Imaging with Contrast Agents<br>Kyung A. Kang<br><br></p><p>33. Unusual Optical Properties of Collagen and Implications for the Primo Vascular System<br>Eduard van Wijk, Margo Groeneveld, Jan van der Greef, Roeland van Wijk<br><br></p><p>34. Basic Electrophysiological Properties of Cells in the Organ Surface Primo Vascular Tissues of Rats<br>Jae-Hong Choi, Tae Hee Han, Chae Jeong Lim, So Yeong Lee, Pan Dong Ryu<br><br></p><p>35. Effects of Cholinergic Drugs on Membrane Potential of Cells in Organ Surface Primo Nodes<br>Sang-Hyun Park, Byung-Cheon Lee, Cheon-Joo Choi, Kwang-Sup Soh, Pan Dong Ryu<br><br></p>36. Apoptotic Cardiomyocyte Beating Detected with Spectrometer of Intensity Fluctuations<br>Svetlana Norina, Byung-Cheon Lee, Jungdae Kim, Ku Youn Baik<br><br><p><p>37. PKA Activation in Cardiac Myocytes Affects the Voltage Dependence of Na-K ATPase Pump and Na-Ca Exchange Currents Differently<br>Chin Ok Lee, David C. Gadsby<br><br></p><p>38. Bioimaging of Stem Cells, Live Tissue and Whole Animals using Diversity Oriented Fluorescence Library Approach<br>Young-Tae Chang<br><br></p><p>39. The Clinical Application of Optical Spectroscopy in Monitoring Tissue Oxygen Supply Following Cancer Treatment <br>David K Harrison</p><p> </p><p> </p><p>Part VI: Acupuncture</p><p>40. Oriental Medicine in Japan, Lymphology and Primo Vascular System<br>Moriya Ohkuma<br><br></p><p>41. From the Anatomical Discovery of Meridians and Collaterals to Fasciaology Theory<br>Yu Bai, Lin Yuan, Yong Huang, Chun-lei Wang, Jun Wang, Jin-peng Wu, Jing-xing Dai, Dong-fei Li, Chun Yang, Mei-chun Yu, Hui-ying Yang, Hui Tao, Ou Sha, David Tai Wai Yew<br><br></p><p>42. An Evidence-based Review of Acupuncture as an Adjunctive Therapy in Comprehensive Cancer Care <br>Christopher Zaslawski<br><br></p><p>43. Thermal Characteristics of Moxibustion and its Implication to Primo Vascular System<br>Seung-Ho Yi, Moo-Won Park, Hye-Jung Lee </p>