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The Beatles: On The Road 1964-1966

為了解決photo express editor的問題，作者Benson, Harry (PHT) 這樣論述：

In early 1964, photographer Harry Benson received a call from the photo editor of London's Daily Express, who asked him to cover the Beatles' trip to Paris. It was the beginning of a career-defining relationship, which would both make Benson's name and produce some of the most intimate photographs e

ver taken of the Beatles.In Paris, Benson captured the Fab Four in the midst of a pillow fight at the George V Hotel, a spontaneous moment which came to epitomize the spirit of the band--Benson himself has called it the best shot of his career. Later that year, he followed the group on the road for

their debut U.S. tour, documenting their appearance on The Ed Sullivan Show, their surprising encounter with Cassius Clay, and the hysteria of New York Beatlemania. Benson also photographed George Harrison's honeymoon in Barbados, documented the Beatles on the set of their debut movie A Hard Day's N

ight, and was present on the now infamous 1966 tour when John Lennon said that the Beatles were "more popular than Jesus."Previously out-of-print, this re-edition brings back the best of Benson's luminous black-and-white Beatles portfolio. Complemented by quotes and newspaper clippings from the peri

od, an introduction by the photographer himself adds exciting personal testimony to these iconic images of the greatest band in musical history.

Henna Art初體驗：認識印度的手繪藝術(書+DVD)

為了解決photo express editor的問題，作者小美 這樣論述：

　　印度傳統手繪藝術Henna，與現代Bady Art的跨世紀對話，獨特手技的東方視覺美感，為了美麗與祝福存在的各式圖騰。 　　本書從基本步驟開始，結合詳細圖片教學，以基礎的點線面為起點，帶讀者體驗Henna手繪的異國風情。　　印度Henna藝術流傳至今，除了是一項古老的習俗，也變成一種崇尚自然的人體彩繪藝術，經典圖騰搭配各種創新圖案，提供手繪師自由揮灑的創作空間。 　　本書帶大家認識印度文化的傳統藝術──Henna，以教授畫法為主，介紹其藝術內涵為輔，美麗線條的背後，包括如此多的風情與祝福，希望讀者增進新知之餘，也能欣賞Henna藝術的美麗獨特。 　　中英文對照，隨書附贈DVD 作者簡介 小

美老師　　以前總是以為，畫畫是要拿著畫筆沾染顏料，然後畫在畫紙或畫布上，才叫繪畫，後來發現畫筆沾顏料不是只能畫在紙和布上，還能畫在皮膚上，那時是我第一次接觸到人體彩繪。　　幾年前，在一趟旅行中，無意間發現了另一項人體彩繪藝術，不需要用畫筆，也不需要沾顏料，而是直接把顏料擠在皮膚上的一種手藝── Mehndi，就這樣沉淪到現在……　　人生真的有許多意外，這「意外」當然不是會害死人的那種，所謂的「意外」是說不打算放在生涯規劃裡的，或是壓根沒去想過的，卻在某個機緣下冒出來，然後就此再也放不掉的，而且這樣的「意外」還能夠把潛能發揮到極致，這是不是該稱為「意外」？　　雖說畫 Henna 不過就是自己愛，

然後再向外發展到其他人身上，慢慢的野心漸漸大了，希望有更多人能夠認識這項純手工的藝術，於是，擺攤，是！擺攤！不是夜市的攤位，而是現今最熱門的創意市集，能夠參與的，能不放過的都去了，為了自己最愛的，也是唯一會作的，我想我是豁出去了！　　這麼熱愛 Henna 的自己，對 Henna 的最終期望是──別再把Henna 跟刺青搞混了。真的！ 　　Forward by the Author 　　In the past, I’ve always thought that drawings could only be done by brushes and paint, and completed on p

aper or canvas. Later, I discovered that when you have brushes and paint, you can draw on materials other than paper and canvas; skin, can also become a canvas to draw on. That was my first contact with body painting. 　　In my journeys a couple of years ago, I chanced upon another form of body painti

ng art, which can be done without brushes and paint. This form of body artwork can be done merely by directly applying dyes onto the human skin. It is called Mehndi. I have been deeply in love with this form of art ever since…　　There are many incidences in life. These incidences which I am referring

to, are those that were not originally in your life plan, or something you have never thought of. They just pop out right in front of you under special circumstances and take root in your lives. These incidents can even help you achieve your full potential. Aren’t these just the best incidents you

can have in life?　　I started taking a personal interest in Henna and promoted them to others. I grew ambitious, wanting even more people to fully know this raw form of art. I started to promote my work by setting up booths every where, not in night markets, but in the hottest venue nowadays – the cr

eativity markets. I grasped tightly onto each and every opportunity possible, to promote the only thing I know how to do, which is also my most valued possession. This time, I am all in!　　I, who love Henna ever so deeply, only have one ultimate aspiration, that is – for people to know the difference

between Henna and Tattoo. For real! 　　沉迷於印度傳統文化 - Henna　　迷戀印度的風格獨特　　除了畫 Henna，貪玩也是一種技能　　理性看待世物，感性面對人生 　　Introduction to the Author:　　She is addicted to the traditional Henna Art culture,　　and obsessed with the uniqueness of the Indian style.　　Other than the ability to create Henna designs,　　playful

ness is also one of her life skills.　　She views the world rationally, but views life sensually. 書名頁 001編輯序 002作者序 004推薦序 006目錄 012初體驗的第一步─認識Henna ！ 014Henna 材料介紹 020 Part1 基礎技巧握筆 022直線 022弧線 023曲線 023粗細變化粗細線條 024粗細漸層 025作品急救法斷線修補 026曲線修補 027點點系列小水滴 028火花 028三角形系列三角形 029鋸齒 029圓形系列圓圈 030同心圓 030螺旋系列左

旋 031右旋 031藤蔓系列左旋藤蔓 032右旋藤蔓 032基本構圖1 延伸型水滴 0332 變形蟲輪廓 0343 葉子 0354 花朵系列─刮線花蕊 0364 花朵系列─拉線花蕊 038 Part2 初級構圖弧形構圖1 橋形紋 0422 螺旋飾邊圖 043三角形構圖1 編織線條 0442 山形紋 046螺旋構圖1 延伸型螺旋 0482 延伸型藤蔓 0493 蝶形飾紋 0504 羽狀飾紋 052 Part3 作品設計雛菊 056孔雀 058火鳥之舞 060雙魚 062徽章 066藤蔓花飾 070葉形組圖 073珠寶飾紋 076緞帶飾紋 078太陽 081原住民飾紋 082 Part4 Bod

y Henna手臂 Henna─婚禮飾紋 086手背 Henna─印度花飾 090肩部 Henna─印度羽飾 095頸部 Henna─小蘭花 098胸部 Henna─小鳳凰 102Body Henna 小祕訣上油 105噴水 105剝落 106作品欣賞 108 Part5 附錄書籍介紹 113訂購單 117 編輯序 　　與小美老師的初接觸，是在一個平凡的星巴克下午。　　會後的午茶小敘，對文創產業工作者來說，再平常不過，就在大家喝咖啡聊是非時，鄰桌的身影吸引了眾人的目光。　　一個全身上下民族風的女生，帶著幾個人，悠閒卻專注的拿著像畫筆的東西，靜靜畫出美麗又帶有神祕感的圖騰，顏料還散發特殊的香氣

，更令人驚訝的是──畫在自己的皮膚上！　　人體彩繪藝術行之有年，但能在現場欣賞專業畫作，又是這麼特別的方式，大家再也按捺不住好奇，紛紛上前觀賞詢問，於是開始了我們的Henna初體驗。　　聽老師熱情分享Henna的故事與自己的學習歷程，可以明顯感覺到，歷史悠久、具有深刻文化意義的印度Henna，讓眼前女生的生命發出強光強熱，也因此樂於將自Henna獲得的力量分享出去，希望越來越多人認識、欣賞這門藝術。　　幾次接觸後，開始進行這本書的拍照與錄影，在Mehndi的特殊香味裡，我們進行了一場愉快的藝術洗禮，看小美老師帶著自信又幸福的微笑，畫出一幅又一幅的作品，以及詳細的步驟教學，還不厭其煩的為我們解說

各種基礎技法和祕訣，其中關聯到印度婚俗的部分，更是講得生動活潑，原來Henna美麗線條的背後，竟然還包括如此多的民俗風情；小小的圖騰，蘊含了文字無法詳述的心意。　　Henna的迷人之處還有哪些呢？使用哪些手技才能畫出美麗圖騰？快翻開書，和我們一起進入Henna的藝術世界吧！ Forward by the Editor　　The first time I met X., was on an ordinary afternoon at starbucks.　　To those working in the Cultural and Creative Industry, it is quite co

mmon to have an afternoon tea gathering after a meeting. Just when we werechatting away over coffee, a fi gure sitting at the next table caught everyone’s eyes.　　A girl was dressed ethnically from head to toe, along with a couple of people. She seemed relaxed but focused, taking a marker-like tool a

nd quietly drawing beautiful and mystical patterns. A special aroma arose from her pigment, and the most amazing thing was – she was drawing on her own skin!　　Body Art has been around for many years, but to actually witness the creation of a professional work is very astonishing. Everyone was so cur

ious and could not help but go up to her and ask questions. Thus, opened our door to thefirst experience of Henna.　　When the teacher shared with us passionately about the story of Henna and her own learning experiences, it was clear to see that the Indian art of Henna with its deep cultural meanings

, is what makes this girl shine with passion in life. Therefore, she also puts a lot of effort in the promotion of Henna,in the hope that more people will get to know and appreciate this form of art.　　After a few meetings, we started to conduct photo and video shoots. In the extraordinary scent of M

ehndi, we enjoyed a delightful experience of art. We are able to see the smile of confi dence and happiness on X.’s face while she draws one design after another, elaborating each and every step in detail, and at the same time explaining to us patiently the use of every basic technique and tips. She

was especially lively when mentioning the part related to Indian wedding traditions. Now we see Henna’s beautiful lines are rich with so much cultural aspects. These little patterns are able to express more meaning than words can ever do.　　What else makes Henna so attractive? What kind of technique

s can be used to create beautiful Henna designs? Just start turning pages, and come with us into the artistic world of Henna Body Art!

開發功能化微脂體平台於癌症熱治療

為了解決photo express editor的問題，作者Anilkumar T S 這樣論述：

Table of contentsCONTENTS PAGERecommendation letter from thesis advisor……………………..………Thesis/Dissertation oral defense committee certificate……………Acknowledgement iiiChinese abstract viEnglish abstract viiiT

able of contents xiList of figures xviiList of tables xxAbbreviations xxiChapter 1: Overview of Caner Thermal Therapies 11 Introduction 12 Background of thermal therapies 63 Objective 7Chapter 2: Applications of Magnetic Liposomes in Cancer Therapies 91 Introd

uction 91.1. MNPs and liposomes in cancer treatment 101.1.1. Significance of MNPs in cancer therapy 101.1.2. Significance of liposomes in cancer therapy 141.2. Preparation methods of MNPs, liposomes and magnetic liposomes 161.2.1. Preparation methods of MNPs 161.2.1.

1. Physical method 161.2.1.2. Biological method 171.2.1.3. Chemical method 171.2.2. Preparation methods of liposomes 181.2.2.1. Thin film hydration or Bangham method 191.2.2.2. Extrusion method 201.2.2.3. Reverse phase evaporation method 211.2.2.4. Superc

ritical reverse phase evaporation method 211.2.2.5. Detergent depletion method 221.2.2.6. Injection method 231.2.2.7. Microfluidic channel method 241.2.3. Preparation of magnetic liposomes (MLs) 252 Magnetic liposomes in cancer therapies 262.1. MLs for drug delive

ry and thermo-chemotherapy 262.2. MLs for gene delivery and combined gene therapies 312.2.1. MLs for gene delivery 322.2.2. MLs for combined gene therapies 332.3. MLs in photothermal/photodynamic therapy or magneto-phototherapy 342.3.1. Advantages of MLs for targeted ph

otothermal/photodynamic therapy …………………………………………………………………………362.3.2. Use of MLs in photothermal-AMF combined method (magneto-phototherapy) 372.4. Application of MNPs and MLs for cancer imaging and therapy 413 Conclusion 44Chapter 3: Optimization of the Preparation of Magnetic Li

posomes for the Combination Use of Magnetic Hyperthermia and Photothermia in Dual Magneto-Photothermal Cancer Therapy 471 Introduction 472 Materials and Methods 512.1. Materials 512.2. Synthesis of Citric Acid-Coated Iron Oxide Magnetic Nanoparticles (CMNPs) 522.3.

Preparation of Magnetic Liposomes (MLs) 522.4. Experimental Design 532.5. Charactrization of Physico-Chemical Properties 552.6. Heating Efficiency Induced by AMF and/or NIR Laser 562.7. Intracellular Uptake of MLs by Cancer Cells 572.8. In-vitro Biocompatibility of ML

s 592.9. In-vitro Cancer Cell Killing by AMF and/or NIR Laser 592.10. Flow Cytometry Analysis for Apoptosis/Necrosis 602.11. Statistical Analysis 613 Results and Discussion 613.1. Model Development and Optimization 613.2. Characterization of Physico-Chemical Prope

rties 683.3. Heating Efficiency Induced by AMF and/or NIR Laser 783.4. Intracellular Uptake of MLs 803.5. Thermally Induced Cancer Cell Killing In-vitro 824 Conclusion 86Chapter 4: Dual Targeted Magnetic Photosensitive Liposomes for Photothermal/Photodynamic Tumor Therapy

871 Introduction 872 Materials and Methods 902.1. Materials 902.2. Synthesis of citric-acid coated iron-oxide magnetic nanoparticles 912.3. Synthesis of HA-PEG 922.4. Preparation of liposomes 922.5. Determination of encapsulation efficiency of CMNPs and ICG

932.6. Characterization of HA-PEG-MPLs 942.7. Temperature elevation induced by NIR laser irradiation 952.8. In-vitro cell culture experiments 952.9. In-vivo antitumor efficacy 962.10. In-vivo IVIS imaging 982.11. Statistical Analyses 993 Results and Discuss

ion 993.1. Characterization of HA-PEG-MPLs 993.2. In-vitro photothermal effects of HA-PEG-MPLs 1053.3. In-vitro cytotoxicity of HA-PEG-MPLs 1063.4. In-vivo effects of HA-PEG-MPLs 1083.5. In-vivo antitumor and tumor targeting effects from IVIS imaging 1114 Conclusi

on 115Chapter 5: Concurrent Photothermal and Photodynamic Therapy of Intracranial Brain Tumor Xenografts with Convection Enhanced Delivery of Liposomal IR-780 1161 Introduction 1162 Materials and methods 1202.1. Materials 1202.2. Preparation of IR-780 loaded liposomes 1

202.3. Characteristic of IR-780 loaded liposomes (ILs) 1212.4. Photothermal and Photodynamic effects study 1222.5. In vitro cell culture experiments 1232.6. Tumor cell implantation in xenograft mice brain 1252.7. Convection enhanced delivery 1272.8. In vivo temperatu

re measurements during NIR irradiation 1282.9. In vivo anti-tumor efficacy 1292.10. MRI and PET/CT study 1292.11. Bio-distribution 1302.12. Histology studies of tumor tissue 1312.13. Statistical analysis 1323 Results and discussion 1323.1. Characterization o

f ILs 1323.2. In vitro photothermal and photodynamic study 1383.3. In vitro cells experiments 1453.4. In vivo biodistribution 1483.5. In vivo photothermal effects 1503.6. Anti-tumor efficiency 1523.7. MRI and PET-CT studies 1553.8. Immunohistochemical analys

is 1594 Conclusion 163Chapter 6: Conclusions and Outlooks 1641 Summary 1642 Future perspective 165REFERENCES 166List of figuresFigure 2.1 Schematic diagram of MNPs or MLs induced with AMF. 12Figure 2.2 Schematic representations of different kinds of surface modified lip

osomes. 15Figure 2.3 The drug release mechanism from TSMLs 28Figure 2.4 The hyperthermia modality in magneto-phototherapy with MLs induced by MHT with AMF treatment, laser treatment or dual MHT/laser treatments. 38Figure 3.1 The Pareto charts of EE and Size. 65Figure 3.2 Predicted v/s Ob

served value Plots. 66Figure 3.3 Response surface Contour 3D plots. 67Figure 3.4 Particle size and surface charge distribution from DLS and TEM images. 70Figure 3.5 Magnetic liposomes stability measurements with NTA. 72Figure 3.6 XRD, FTIR, SQUID and TGA analysis of CMNP and MLs. 75F

igure 3.7 In vitro heating efficiency of CMNPs and MLs as induced by magnetic hyperthermia (MH) and/or photothermia (PT). 76Figure 3.8 Particle uptake studies with U87 cancer cells. 82Figure 3.9 In-vitro cells biocompatibility and cytotoxicity measurements. 83Figure 3.10 Flowcytometry analy

sis of MLs with different treatments 85Figure 4.1 Schematic illustration of HA-PEG-MPLs for dual targeted photothermal or photodynamic cancer therapy. 90Figure 4.2 Liposomes size from DLS and Cryo-TEM 100Figure 4.3 Characterization of different samples by XRD and FTIR. 102Figure 4.5 The

ex vivo photothermal effects of different samples 105Figure 4.6. The in vitro cell cytotoxicity and live/dead cell assays. 107Figure 4.7 In vivo photothermal effects. 110Figure 4.8 Representative photographs of the tumor-bearing mice 110Figure 4.9 The tumor volume, body weight and surviv

al curve of different groups. 112Figure 4.10 H&E and immunohistochemical analysis in tumor site 112Figure 4.11 The in vivo bioluminescence and fluorescence imaging by IVIS 114Figure 5.1 CED infusion cannulas and their parts 126Figure 5.2 Demonstration mice receiving samples via CED metho

d 127Figure 5.3 schematic diagram of ILs and their characterization 133Figure 5.4 UV-visible and FTIR spectroscopy 134Figure 5.5 Photothermal stability of free IR-780 and ILs 135Figure 5.6 Stability of ILs in FBS measured from nanoparticle tracking analysis. 136Figure 5.7 In-vitro pho

tothermal changes with NIR laser irradiations 139Figure 5.8 Photothermal stability of ILs and Free IR-780 140Figure 5.9 ROS generation detected by UV-visible. 143Figure 5.10 Cell cytotoxicity measurements with MTT and from flow cytometry. 144Figure 5.11 Particle uptake studies with confo

cal laser scanning microscopy. 146Figure 5.12 The bio-distribution analysis of ILs via CED. 149Figure 5.13 in-vivo photothermal effects. 151Figure 5.14 The antitumor efficiency by IVIS, the body weight and survival. 153Figure 5.15 Magnetic resonance images and tumor volume 156Figure 5

.16 PET-CT molecular imaging analysis 158Figure 5.17 H&E and immunohistochemical staining 160Figure 5.18 H&E staining of different organs of mice of all three groups. 161List of tablesTable 2.1 Examples of preparation of magnetic liposomes 25Table 3.1 The central composite design showing

the independent variables and levels used in the experiments 54Table 3.2 Central composite design arrangement and observed responses. 62Table 3.3 Validation of the model with predicated experimental values 65Table 3.4 Size and zeta potentials values. 68Table 3.5 Specific absorption rate

s (SARs) of CMNPs and MLs at 0.6 mg/mL CMNP equivalent1. 73Table 3.6 Apoptotic and necrotic analysis form flow cytometry analysis. 79Table 4.1 Particle size and zeta potential of CMNPs, MPLs and HA-PEG-MPLs. 99Table 5.1 Size and zeta potential values of ILs 129Table 5.2 Survival times of

mice treated in different groups 155Table 5.3 The standardized uptake values (SUVmax) of Ga68-RGD and Ga68-FAPI 159Table 5.4 Hematological parameters and biochemistry analysis in different treatment groups. 162