平時照顧好健康 病了就要好好看醫生吃藥論文書籍站
博士牙醫永和的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列問答集和懶人包總整理
博士牙醫永和的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦吳秀玲寫的 醫護健保與長照法規(修訂二版) 和黃建勳的 關鍵飲食都 可以從中找到所需的評價。
另外網站晶亮牙醫診所| 台北士林牙醫推薦也說明:【晶亮牙醫診所】擁有寬敞舒適又明亮的環境,讓看診變成享受;受過專業訓練的醫師團隊,採用先進的儀器設備,為患者擬定適合的診療計畫,體驗數位化高品質療程!
這兩本書分別來自三民 和書泉所出版 。
臺北醫學大學 牙醫學系博士班 林永和、楊良友所指導 VICHUDA CHAROENSAENSUK的 牙齦卟啉單胞菌造成腦部內皮細胞死亡之機制探討 (2021),提出博士牙醫永和關鍵因素是什麼,來自於P. gingivalis、apoptosis、inflammatory cytokine、ROS、NF-κB、THSG。
而第二篇論文臺北醫學大學 牙醫學系博士班 林永和、彭珮雯所指導 許恒瑞的 奈米針狀硫酸鈣骨填補材料之生物相容性與植體 植入物之骨整合研究 (2020),提出因為有 硫酸鈣、表面處理、人工植體的重點而找出了 博士牙醫永和的解答。
最後網站博世牙醫診所 | 蘋果健康咬一口則補充:在台中祐德牙醫診所徐宛君醫師台中市西屯區西屯路二段路10-5號04- ..., 博士牙醫診所許明倫醫師永和市永利路150號1樓.... 製定治療計劃──治療工作最好由家庭牙醫師群 ...
醫護健保與長照法規(修訂二版)
為了解決博士牙醫永和 的問題,作者吳秀玲 這樣論述:
本書以根植法治觀念為先,回顧法律ABC基本概念,針對醫事人員的專業法規、醫療與護理機構的法規範、健保體制與困境、長照法律問題、傳染病和愛滋防治、器官移植、安寧緩和醫療議題等,加以介紹分析。第2版新增禍害全球的新型冠狀病毒(COVID-19)疫情防治、紓困振興特別條例、2022年醫療爭議新法、健保資料庫供學術研究憲法法庭判決等,增修幅度逾二分之一。 全書分十章:總論、醫療法與行政管制、醫師法與醫學倫理、護理人員法與專科護理師、醫療事故預防及爭議處理法與醫療訴訟、全民健康保險法與健保財務平衡策略、長期照顧服務法與日本介護保險制度之借鏡、傳染病防治法與人類免疫缺乏病毒傳
染防治、人體器官移植條例與安寧緩和醫療條例,最後探討病人自主權利法和安樂死合法化。本書側重於前開醫護健保長照管制法規、實務運作之論述,並檢討現行法規之缺失、法執行偏差,提出修法建議,以維民眾醫療權益。
牙齦卟啉單胞菌造成腦部內皮細胞死亡之機制探討
為了解決博士牙醫永和 的問題,作者VICHUDA CHAROENSAENSUK 這樣論述:
Emerging studies have shown the interconnection between the brain-oral axis, especially for the pathophysiology of brain disorders and oral pathogens. Porphyromonas gingivalis (P. gingivalis), a prominent microorganism responsible for periodontal disease, has been reported to increase the risk of d
eveloping cerebrovascular damage. A previous study from the master’s thesis has shown that P. gingivalis adhered and invaded bEnd.3 cells, thus triggering cell death by upregulating pro-inflammatory cytokines proteins tumor necrosis factor alpha (TNF-α) and interleukin 1 beta (IL-1β). However, the u
nderlying mechanisms of the effect of this periodontal bacterium on brain vascular endothelial cell death remain unknown. The purpose of this work was to explore the regulatory mechanisms of P. gingivalis on the inflammation and death of bEnd.3 and primary mouse brain endothelial cells (MBECs). More
over, the therapeutic effects of THSG (2,3,5,4ʹ-Tetrahydroxystilbene-2-O-β-glucoside), a Chinese herbal medicine extract, in P. gingivalis-stimulated brain endothelial cells were examined in this study. Results revealed that the viable form of P. gingivalis but not heat-inactivated caused apoptosis
in bEnd.3 cells. Moreover, P. gingivalis elevated intracellular reactive oxygen species (ROS) and promoted the activation of the nuclear factor kappa B (NF-κB) p65 transcription factor. The toxicity effect of P. gingivalis was reversed by treatment with antioxidant agents N-Acetyl-L-cysteine (NAC),
thereby confirming that P. gingivalis provoked cytokine expression and induced cell death via the oxidative stress pathway in brain endothelial cells. MBECs were further exploited to examine the impact of P. gingivalis on brain endothelial cell death. Moreover, THSG offered anti-inflammatory and ant
i-apoptosis in bEnd.3 and MBECs stimulated with P. gingivalis with a comparable efficacy as the well-established nicotinamide adenine dinucleotide phosphate (NADPH) inhibitor apocynin. To conclude, this study has proven that P. gingivalis stimulates the expression of TNF-α and IL-1β proteins, thereb
y inducing apoptotic cell death in brain endothelial cells via the ROS/NF-κB pathway. This study strongly supports the hypothesis that a periodontal infection increases the risk of developing a cerebrovascular disease. We further reported the therapeutic effects of THSG in preventing brain endotheli
al cell death from periodontal pathogen infection.
關鍵飲食
為了解決博士牙醫永和 的問題,作者黃建勳 這樣論述:
長久以來,你都是靠吃肉和蛋補充蛋白質,吃豬肝補血嗎?你仍在為痛風症忌食豆類嗎?你認為吃魚才有DHA,既可以保護心臟,又會變聰明嗎?你以為補充牛奶可以預防骨質疏鬆症?你擔心蔬食會缺乏蛋白質、鐵質、鈣質、B12或Omega-3等營養素嗎?醫學已經證實,以上皆為錯誤的營養觀念。 有一種飲食方式,可以防癌、抗老、增加免疫力、遠離心臟病、腦中風、失智症,還可以改善過敏體質、增加骨密度、預防膽結石、腎結石和痛風發作,更能使惱人的便秘,以及血糖、血壓、血脂肪都大幅改善,尤其可以健康瘦身與延長壽命,同時也是肝腎功能不佳患者的優先選擇。這種飲食就是美國營養學會最新報告,可以滿足生命各階段的營養需求,
而且有益健康的植物性飲食。 本書蒐集了近千篇科學文獻,由31位醫學專家與營養師共同執筆,針對各類疾病的數據研究,歸納出肉食者、素食者與疾病的關聯,提供讀者明確性的統計量與概念,並針對疾病的預防提供妥善的飲食計畫,對國人而言,堪稱為「醫學史上最震撼的飲食報告」、「全國第一本醫學實證養生全書」,破除你對素食的種種疑慮,顛覆你長久以來的飲食迷思,讓你重新了解營養和健康。 本書特色 *媲美有營養學界愛因斯坦之稱的坎貝爾博士(Dr. T. Colin Campbell)的《救命飲食》,具無可取代的指標性與重要性! *取材國內外近千篇最新研究報告,並提供美國飲食協會的飲食新觀念。 *榮獲百
位醫界領袖聯合推薦,與各界菁英一致肯定。 *特邀小兒科、婦產科、復健科、老年健康等醫界菁英,與營養學專家共同撰文,針對癌症、心血管疾病、憂鬱症、更年期、特定族群等提供營養素考量與攝取建議,值得所有醫療及營養專業人員,以及關心健康的你參考與實踐。 *關注時勢,透過飲食型態探討人類、動物與環境的永續發展。 作者簡介 呂斯宇 龍潭敏盛醫院核子醫學科主治醫師 李小菁 中山醫學大學附設醫院護理師 林依婷 竹北黃耳鼻喉科診所小兒科醫師 林佳儀 行政院衛生署台北醫院小兒科醫師 林銘昭 永安中醫診所醫師 邵蘊萍 三軍總醫院附設民眾診療服務處營養師 邱逸榛 長庚醫院護理師 胡懷玉 三軍總
醫院附設民眾診療服務處營養師 凌雲琪 東元綜合醫院家庭醫學科主治醫師 張岑竹 悠然山莊安養中心護理長 張坤漳 彰化合濟診所副院長 許尚文 安馨大溪診所內科醫師 許愷芸 三軍總醫院附設民眾診療服務處醫事放射師 陳建中 世新大學觀光學系專任助理教授 陳俊傑 中山醫院職業醫學科醫師 陳惟華 拉菲爾人本診所副院長 陳雅惠 林口長庚醫院治療科營養師 陳翠斐 復國復健科診所主治醫師 程華興 大學眼科診所台南分所主治醫師 黃俊凱 上安中醫診所醫師 黃建勳 臺大醫院雲林分院家醫科主治醫師 黃致誠 竹北黃耳鼻喉科診所院長 黃智旺 永和耕莘醫院放射診斷科主治醫師 詹勝傑 台北長庚醫
院核子醫學科醫師 劉玉來 臺大醫院雲林分院營養組組長 劉享朗 新店耕莘醫院消化系主治醫師 劉登傑 行政院國軍退除役官兵輔導委員會埔里榮民醫院眼科醫師 蔡志忠 美國普渡大學計算機科學博士 謝孟學 萬芳牙醫診所醫師 顏復竹 中壢顏復竹診所院長 羅時鴻 英國牛津大學生理學博士
奈米針狀硫酸鈣骨填補材料之生物相容性與植體 植入物之骨整合研究
為了解決博士牙醫永和 的問題,作者許恒瑞 這樣論述:
In the present study, we aimed to determine the effects of nano/micro size on the biomechanical properties and biocompatibility of novel titanium implants. The study is comprised of three parts:Part I: An innovative -calcium sulfate hemihydrate bioceramic as a potential bone graft substituteThe mi
crostructural, in vitro, and in vivo properties of the microwave-synthesized samples were investigated using an optical microscope, scanning electron microscope, X-ray diffraction, differential scanning calorimeter, contact angle goniometer, cell cytotoxicity assay, and chick chorioallantoic membran
e (CAM) model. When the calcium sulfate dihydrate (CSD) precursor underwent microwave irradiation treatment at temperatures between 100°C and 160°C, the crystal morphologies and crystalline structures were transformed from (tablet-like CSD (monoclinic)) to (tablet-like CSD (monoclinic) + long column
-calcium sulfate hemihydrate ( -CSH, hexagonal)) to (long column CSD (monoclinic) + short column -CSH (hexagonal)) to (uniform short column -CSH (hexagonal)). High-purity -CSH with uniform short column crystals around 10 m in length can be synthesized at 160°C for 10 min and exhibits hig
her hydrophilic features in blood. Moreover, cell cytotoxicity assays indicated that the microwave-synthesized samples possessed good biocompatibility. The in vivo results also demonstrated that the microwave-synthesized -CSH not only induced angiogenesis formation but also facilitated osteogenesis
. Therefore, the microwave-synthesized -CSH is a promising bone graft substitute that can be applied in dental and orthopedic fields.Part II: Osseointegration of titanium implants with SLAffinity treatment: a histological and biomechanical study in miniature pigsElectrochemical oxidation following
sandblasting and acid-etching (SLA) treatment has received interest as a surface modification procedure for titanium (Ti) implants (denoted as an SLAffinity surface). However, little information is available regarding its impact on the in vivo performance of SLAffinity-Ti implants. The present study
evaluated the osseointegration and biomechanical bone-tissue response to SLAffinity-Ti implants with micro- and nanoporous oxide layers. The interaction between the blood and the tested implants was examined. In total, 144 implants with the following surfaces were used: a standard machined (M-Ti),
an SLA-Ti, and an SLAffinity-Ti surface. For each animal, four implants (one M-Ti, one SLA-Ti, and two SLAffinity-Ti) were inserted into the mandibular canine-premolar area for histomorphometric observations, and another four implants were inserted into the flat surface on the anteromedial aspect of
the rear tibia for removal torque (RT) tests. After 2, 4, and 8 weeks of implantation, histomorphometric and RT tests were conducted. Interactions between the blood and implants were better for implants with the SLAffinity-Ti surface. RT tests showed a significant improvement in fixation strength f
or SLAffinity-Ti implants (84.5 ± 8.7 N cm) after 8 weeks compared to M-Ti implants (62.95 ± 11.5 N-cm) and SLAffinity-Ti (76.1 ± 6.6 N-cm) implants. A histological evaluation showed that osseous integration occurred with all implants after 8 weeks. SLAffinity-Ti implants exhibited 28.5 ± 6.2% bone-
to-implant contact (BIC) at 2 weeks and 84.3 ± 8.1% at 8 weeks. M-Ti implants exhibited BIC levels of 17.0 ± 5.4% and 76.5 ± 6.3%, whereas SLA- Ti implants exhibited BIC levels of 28.5 ± 6.2% and 81.1 ± 8.4% at the corresponding time intervals. In terms of the peri-implant bone area (BA), the values
for SLAffinity-Ti implants ranged from 29.5 ± 4.1% to 88.3 ± 3.0%. For M-Ti implants, the values ranged from 20.3 ± 5.5% to 81.7 ± 4.2%. For SLA-Ti implants, the values ranged from 23.0 ± 3.5% to 84.0 ± 3.6%. Electrochemical oxidation increased the oxide layers and improved the blood interaction wi
th SLAffinity-Ti implants, resulting in significantly higher bone apposition with the SLAffinity-Ti implants after 2 and 8 weeks of healing. An increase in the resistance for the RT of the SLAffinity-Ti implants over the 8-week healing period was also observed. The use of SLAffinity-Ti implants has
the potential to improve early osseointegration.Part III: Early bone response to machined, sandblasting acid etching (SLA), and novel surface functionalization (SLAffinity) titanium implants: characterization, biomechanical analysis, and histological evaluation in pigsThe purpose of the present stud
y was to examine early tissue response and osseointegration in an animal model. The surface morphologies of SLAffinity were characterized using scanning electron microscopy and atomic force microscopy. The microstructures were examined by X-ray diffraction, and the hardness was measured by nanoinden
tation. Moreover, the safety and toxicity properties were evaluated using computer-aided programs and cell cytotoxicity assays. In the animal model, implants were installed in the mandibular canine–premolar area of 12 miniature pigs. Each pig received three implants: (1) machine, (2) sandblasted, la
rge grit, acid-etched (SLA), and (3) SLAffinity-treated implants. The results showed that surface treatment significantly affected bone-to-implant contact (BIC). At 3 weeks, the SLAffinity-treated implants were found to present significantly higher BIC values than the untreated implants. The SLAffin
ity treatments enhanced osseointegration significantly, especially at the early stages of bone tissue healing. These results demonstrate that SLAffinity treatment is a reliable surface modification method.