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Cell Biology Impact 的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列特價商品、必買資訊和推薦清單
Cell Biology Impact 的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦Miller Jr, William B.寫的 Bioverse: How the Cellular World Contains the Secrets to Life’’s Biggest Questions 和的 Gene Regulation and Therapeutics for Cancer都 可以從中找到所需的評價。
這兩本書分別來自 和所出版 。
國立體育大學 競技與教練科學研究所 鄭世忠、錢桂玉所指導 杨永的 運動訓練與停止訓練對中老年人骨骼肌氧合能力與身體功能表現之影響 (2022),提出Cell Biology Impact 關鍵因素是什麼,來自於爆發力訓練、阻力訓練、心肺訓練、近紅外線光譜儀、停止訓練。
而第二篇論文國立陽明交通大學 材料科學與工程學系所 鄒年棣所指導 鄭厚雍的 有限元素法模擬醫療元件周圍之細胞行為:以骨釘與水膠為例 (2021),提出因為有 有限元素法、牙釘、骨癒合、骨整合、骨細胞分化、卷積神經網路、隨機森林演算法、基因演算法、拓樸最佳化、水膠、細胞遷移、光滑粒子流體動力學的重點而找出了 Cell Biology Impact 的解答。
Bioverse: How the Cellular World Contains the Secrets to Life’’s Biggest Questions
為了解決Cell Biology Impact 的問題,作者Miller Jr, William B. 這樣論述:
For as long as humans have been on Earth, we have looked up to the stars for clues to our own existence. Medical doctor and evolutionary biologist William B. Miller, Jr. suggests that we may find more meaningful solutions at the end of a microscope rather than a telescope. Using powerful analogies a
nd exacting science, Bioverse explores the wonders of the perpetual partnership between our personal cells and the microbial world, resulting in an entirely new view of our living planet. To understand life in all its varieties, we must undertake to understand our cells. While the partnership betwee
n our cells and our microbes has largely been thought of as that of "host" and "guest," Miller reveals the true partnership under which both our microbial fraction and our own personal cells conduct a life-long dialogue, redefining our traditional conceptions of intelligence and problem-solving. Thi
s radical new approach explains exactly how our human choices are centered within the same cellular rules that enable our cells to seamlessly sustain our lives. We are now entering the "Era of the Cell," a time in history during which medical and scientific innovations have spurred growth far beyond
ever imagined by our ancestors. For the first time, we are not only building machines to enhance our lives but engineering living organisms to assist our futures. From the biological origins of evolution to the invention of the compound microscope by a Dutch lens maker in the 17th century, to new r
esearch that reveals surprising links between our microbiome and our moods and behavior, and surprising stories of the cellular world from the deepest oceans, wildest jungles, and outer reaches of our solar system, Miller introduces readers to a greater understanding of our impact on the planet and
the world’s reciprocal impact on each of us. By exploring the extent of our deeply integrated cellular world, Bioverse provides profound insights about ourselves, our health and well-being, our social systems, and our permanent relationship to the planet and the cosmos. William B. Miller, Jr. M.D.
, is a consultant and science writer specializing on the microbiome. After a career in practicing medicine, Dr. Miller became fascinated by evolution upon seeing Sue, a T-Rex skeleton housed in the Chicago Field Museum. Since then, Dr. Miller has become a leading expert in the field of evolutionary
biology as the developer of Cognition-Based Evolution, publishing scores of peer-reviewed papers, hundreds of online articles, and books including The Microcosm Within. More recently, a docuseries based on his forthcoming popular science book for general readers, Bioverse, is in development.
運動訓練與停止訓練對中老年人骨骼肌氧合能力與身體功能表現之影響
為了解決Cell Biology Impact 的問題,作者杨永 這樣論述:
運動是一種改善中老年人骨骼肌氧合能力、提高肌肉力量並最終影響整體身體功能表現的有效方式。然而,較少的研究評估不同運動類型之間訓練效益的差異。此外,由於中老年人生病、外出旅行與照顧兒童等原因,迫使運動鍛煉的中斷。如何合理安排運動訓練的週期、強度與停訓週期,以促使中老年人在未來再訓練快速恢復以往訓練效益,目前亦尚不清楚。本文以三個研究建構而成。研究I:不同運動訓練模式對中老年人的骨骼肌氧合能力、肌力與身體功能表現的影響。以此探討50歲及以上中老年人進行每週2次為期8週的爆發力、阻力訓練以及心肺訓練在改善中老年人肌肉組織氧合能力、與肌肉力量身體功能效益的差異。我們的研究結果表明:爆發力組在改善下肢
肌力、最大爆發力與肌肉品質方面表現出較佳的效果。心肺組提高了30s坐站測試成績並減少了肌肉耗氧量,從而改善了中老年人在30s坐站測試期間的運動經濟性。年紀較高的肌力組則對於改善平衡能力更加有效。此外,三組運動形式均有效改善了中老年人人敏捷性。研究 Ⅱ:停止訓練對運動訓練後中老年人肌力與身體功能表現的影響:系統性回顧與meta分析。本研究欲探討停止訓練對運動訓練後中老年人肌力與身體功能表現訓練效益維持的影響。我們的研究結果表明:訓練期大於停止運動訓練期是肌力維持的重要因素。若訓練期
Gene Regulation and Therapeutics for Cancer
為了解決Cell Biology Impact 的問題,作者 這樣論述:
Surinder K. Batra is a Professor and Chairman of the Department of Biochemistry and Molecular Biology at the University of Nebraska Medical Center. Dr. Batra studies the functions of mucins in the progression of different malignancies. His recent studies demonstrated the molecular mechanism for the
progression and metastasis of multiple cancers. His investigations led to developing several targeted therapies for different tumors. Based on his mechanistic and translational studies, different targets entered into Phase I/II trials for various cancers.Moorthy P. Ponnusamy is an Associate Professo
r of Biochemistry and Molecular Biology at the University of Nebraska Medical Centre. Dr. Ponnusamy’s research background reflects a keen interest in understanding the molecular mechanisms of cancer stem cell-mediated progression and metastatis of pancreatic cancer. His recent studies discovered the
specific mechanism for pancreatic cancer stem cell maintenance and its impact on metastatis. He is developing small molecules to target cancer stem cell populations.
有限元素法模擬醫療元件周圍之細胞行為:以骨釘與水膠為例
為了解決Cell Biology Impact 的問題,作者鄭厚雍 這樣論述:
近年來,牙釘和水膠在臨床醫療上被廣泛地研究與討論,故本論文選擇這兩種醫療元件作為研究對象。(1) 牙釘:牙釘的幾何結構經研究證實會大幅地影響骨整合與骨癒合。然而,尋找一個具最佳幾何結構的牙釘是十分費時的。因此,本論文提出一套結合深度學習網路、細胞分化理論、隨機森林演算法與基因演算法的牙釘結構最佳化設計系統。其能夠在2.5秒內預測牙釘周圍的細胞分化情形,並基於螺紋間骨釘和骨頭的接觸長度以及骨頭長入的面積比來最佳化骨釘的骨癒合能力。經過基因演算法的多次迭代後,研究成功取得具優秀骨整合效率的最佳化牙釘,其結構的特色主要為牙釘中上段部分不具有明顯的螺紋結構。(2) 水膠:由於高生物相容性
、與天然細胞相似的材料性質,使得合成水膠被大量應用於組織工程中。但是水膠基板的外觀設計與受到之力學刺激會對其內部細胞的遷移行為有極大的影響,這使得水膠基板的細胞行為研究就顯得格外重要。本論文藉由有限元素軟體Abaqus探討水膠的拉伸應力、應變,以及觀察水膠局部區域的細胞移動行為。前者的研究成功呈現與實驗水膠基板相同的形變過程,並發現細胞的移動行為與水膠的應力分布有關。而後者的研究則利用Abaqus中的光滑粒子流體動力學模型,成功展現水膠中不同區域的細胞會有不同移動與聚散行為的現象。