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Creators : Jiang Junzhe Updated At : 2021-06-11 20:38:01
Creators : Han Jihae Updated At : 2021-06-11 20:38:01
Creators : Nguyen Minh Thuy Updated At : 2021-06-11 20:38:01
Creators : Liu Chuanxia Updated At : 2021-06-11 20:38:01
Creators : 若杉 祥太 Updated At : 2021-06-11 20:38:02
Chromatography is considered as a key operation in the downstream process (DSP) of biopharmaceuticals, including proteins. Therapeutic proteins such as monoclonal antibodies (mAbs) with high economic values in the global market require immediate innovation in the purification step to adapt to the increased throughput from upstream. Authorities have also initiated changes toward a more modernized pharmaceutical manufacturing platform which is agile and flexible without extensive oversight. Instead of the conventional batch operation and empirical models, the design and application of in silico modeling and simulation for integrated multi-column processes to improve their performance in capture chromatography steps have been explored in the dissertation. Due to the fact that mechanistic models can reveal adsorption and mass transfer behaviors better in the chromatography compared to statistical models, mechanistic frameworks were applied in the study. Ion-exchange and protein A chromatography, the main categories of therapeutic protein chromatography were examined. With an example of oligonucleotides, the mass transfer phenomenon of biomolecules in different types of ion-exchange resins was explored by mechanistic models. The results demonstrate the effectiveness of modeling approaches to understand the chromatography process of biopharmaceuticals. By focusing on the DSP of mAbs, multi-column continuous chromatography was examined with IgG samples. The study covered the repeating batch to 4-column settings in the continuous periodic counter-current (PCC) chromatography, with development in modeling and simulation tools for process quantification and evaluation. Process performances including productivity, capacity utilization, and buffer consumption were investigated by simulations with the aim to increase productivities and lower buffer consumptions, which are the main bottleneck in the current DSP. The critical operation parameter, breakthrough percent (BT%) for column switching in PCC processes, requires the information from binding capacity, mass transfer, and non-loading operations. To obtain the optimal BT% under synchronized conditions, numerical solvers developed from mechanistic models were employed. It was found that over 20% improvement in buffer consumption and resin utilization can be observed in PCC processes while the same productivity as batch operation is maintained. Furthermore, regressive relations were developed for predictions of process performances and BT% based on the findings from PCC simulations. With high coherence in R2 over 0.95, the linear regression function can act as an accelerated method in the PCC process design. Finally, a new strategy of linear flow-velocity gradient (LFG) in the loading step was explored as a supplement to increase process efficiency. The method controls the total column capacity and the loaded amount as functions of time. Based on the relationship between the dynamic binding capacity and residence time, the gradient time of LFG was obtained. The optimal flow velocities and time gradients were examined by scanning through the range of applicable residence times. A case study of the 4-column PCC process is presented. By integrating a linear decreasing flow gradient in the PCC loading operation, the productivity has 1.4 times enhancement along with a 13% reduction in the cost of resin per amount of processed mAbs compared to constant flows. Undoubtedly, the next generation of DSP platform technology is directed toward continuous and integrated systems. Regarding the advantages in process performances and regulation perspectives, continuous manufacturing can advance development and manufacturing while assuring the product quality. The evolution in modeling and simulation enables faster development of in silico process prediction and evaluation. With the support from models, process design and optimization in chromatography can rise to the challenge.
Creators : Chen Chyi Shin Updated At : 2021-06-11 20:38:01
Creators : Md. Istiaq Obaidi Tanvir Updated At : 2021-12-07 00:34:47
The reduction of excessive discharge of phosphate into water bodies is a dominant theme to combat the critical eutrophication issue and requires the development of high-performance materials for effective phosphate treatment. In this study, rice straw was used as a raw material for the synthesis of biochar functionalized with layered double hydroxides (BC-LDHs) as efficacious phosphate adsorbents, and their successful synthesis was corroborated via characterization analysis. Experimental investigations, including pH, coexisting anion, reaction time, and initial phosphate concentration effects were systematically performed with selected BC-LDHs 6 and pure LDHs. An optimum pH of 3.0 was observed in both samples. Kinetic and isotherm studies indicated that phosphate adsorption on these samples was controlled by the pseudo-second-order model and the Freundlich model. Comparative kinetic tests also demonstrated that BC-LDHs 6 and pure LDHs reached the equilibrium within 24 h and 3 h, respectively. Nonetheless, the maximum adsorption capacity of the composite was 192 mg/g, which was higher than that of pure LDHs (166 mg/g). The coexistence of various anions negligibly affected the removal efficiency of the composite; however, fluoride was the most competitive anion for adsorption on pure LDHs. The adsorption mechanisms of the composite involved electrostatic interaction, inner-sphere complexation, pore diffusion, precipitation, and reconstruction. Furthermore, phosphate adsorbed on both materials could be easily recovered by 0.1 M NaOH solution owing to the displacement reaction between phosphate and hydroxyl ions. Additional evidence from reusability experiments exhibited that the composite could maintain its good adsorption performance even after three adsorption-desorption cycles. The transformation of BC-LDHs 6 after its usage in phosphate treatment (P-BC-LDHs 6) into a fertilizer was further explored by using seed germination and early growth assays of lettuce through a comparison with phosphate-loaded LDHs (P-LDHs). Lettuce seeds germinated in all P-BC-LDH 6 treatments showed undesirable growth characteristics compared with the controls, while total germination failure was observed under high concentrations of P-LDHs. In the latter experiments, the optimal application rates for plant growth were 2.5% for P-BC-LDHs 6 and 1.0% for P-LDHs. The considerably greater biomass development and length of lettuce were visible in samples delivered from P-BC-LDHs 6 compared to those from P-LDHs. The results obtained suggest that BC-LDHs 6 is a promising adsorbent for phosphate treatment and post-adsorption BC-LDHs 6 has the application potential to serve as a fertilizer for horticultural crop production.
Creators : Jittrera Buates Updated At : 2021-12-07 00:34:47
ダイアモンド・ブラックファン貧血 (Diamond–Blackfan anemia : DBA) は, リボゾーム蛋白異常によって生じる赤芽球癆で, 新生児期の貧血および一部で身体奇形を合併する. 臨床的特徴が多様で, 原因となるリボゾーム蛋白遺伝子も多数存在するため, 新生児期にDBAと確定診断し, 適切な治療を行うことが困難である. 本研究では, 全エクソーム解析 (whole-exome sequencing; WES) を用いて最終診断した3組の母子例について報告する. 貧血の重症度や治療反応性は各母子間で異なり, 低身長, 翼状頸, 母指球形成不全などの特徴的な身体奇形を認めた症例は, 母1名のみだった. この母はRPL11 (exon 2, c.58_59del) のフレームシフト変異があり, 子は一過性の新生児貧血を認めたがリボゾーム蛋白遺伝子の変異はなかった. 他の2組の母子では, それぞれRPS19 (exon 4, c.185G>A) のミスセンス変異とRPS7のスプライシング変異 (exon 3, c.76-1G>T) を同定した. それぞれの変異と別に, 貧血を来し得る遺伝子変異はなかった. 本研究は, WESがヒトリボゾーム病の迅速かつ正確な診断を得るために有用であることを示唆した.
Creators : 市村 卓也 Updated At : 2022-04-15 14:08:01
With the deterioration of bridges as social infrastructure, appropriate maintenance and life extension are required. However, aging degradation of individual bridges is not the same. Since traffic volume and bridge environment are different for each bridge, the degree of deterioration of the bridge is also different. Therefore, it is necessary to identify and eliminate the cause of individual deterioration and to take appropriate measures. This paper focuses on weathering steel bridge that the formation of dense rust is greatly influenced by the environment. The purpose of this study is to clarify the effect of anticorrosion by the environmental improvement which covers the whole steel girder with the metal sandwich panel for weathering steel bridge. Since the space in the girder covered with the metal sandwich panel cannot be expected to have the effect of washing by rainwater or drying and wetting by the flow of wind, the adoption of the metal sandwich panel for weatherproof steel bridge has not been judged until now. In this thesis, the corrosion behavior of weathering steel and the effectiveness of corrosion protection are shown by exposure test, and the corrosion protection effect of environmental improvement by metal sandwich panel is clarified. In addition, this study examines the economical advantages by the metal sandwich panel installation by calculating the life cycle cost. This paper consists of six chapters. Chapter 1 describes the background and purpose of this research. Chapter 2 summarizes previous studies on corrosion protection methods used in steel bridges. In Chapter 3, exposure tests were conducted inside and outside the metal sandwich panel and the following finding were obtained. 1) In the girder covered with the metal sandwich panel, fluctuation range of temperature and humidity is small throughout the year, and it does not follow the sudden weather change of outside of the panel. Since the difference between the temperature and dew point in the panel is large, the wet time in the panel is suppressed to 1/5 or less of the wet time of outside the panel. 2) At the structure which has thin floor slab and low height girder, the temperature rise in the panel may be unavoidable depending on season. However, since the humidity in the panel is low and the wet time is also greatly reduced, the anticorrosive effect can be expected in the steel bridge including the weathering steel bridge. 3) Amount of air born salt into the panel after the metal sandwich panel installation was not detected. In Chapter 4, a small test specimen was placed in the inside space of the steel girder, and the transition of corrosion, anticorrosion effect by environmental improvement and inner surface painting were examined. 1) The untreated steel and the uncoated steel in the ingrown rust region evaluated by the ion permeation resistance method are kept almost same condition after five years. 2) It is also conceivable that the initial salinity of the steel material subjected to the substrate adjustment by blasting exists even after the substrate adjustment, and that the adhering salinity penetrates into the inside of the steel plate at the time of rust formation. However, the increase rate of rust thickness due to aging is slow, and a method of installing a metal sandwich panel after blasting is also effective. 3) Although the effect of environmental isolation from outside the girder was confirmed, it became clear that it was difficult to completely suppress the progress of rust. Chapter 5 examined the economic effects of installing metal sandwich panels on new girders from the beginning and installing them on overbridges 50 years after the star of service. 1) If repainting is required even 1 time during the during the design service period of 100 years, the anticorrosion method by environmental improvement of the metal sandwich panel is economically superior. 2) Accumulating the cost of close visual inspection (for 50 years) of the overbridge that has been in service for 50 years increases the maintenance cost. Chapter 6 summarizes this research and describes future issues.
Creators : Tachibana Shuusaku Updated At : 2022-05-27 17:10:02
Creators : 大山 祐介 Updated At : 2022-06-02 13:40:36
Cardiovascular diseases are the leading cause of mortality and disability worldwide. We have previously found that sphingosylphorsphorylcholine (SPC) is the key molecule leading to vasospasm. We have also identified the SPC/Src family protein tyrosine kinase Fyn/Rho-kinase (ROK) pathway as a novel signaling pathway for Ca^{2+}-sensitization of vascular smooth muscle (VSM) contraction. The present study aimed to investigate whether hesperetin can inhibit the SPC-induced contraction with little effect on 40 mM K^+-induced Ca^{2+}-dependent contraction and to elucidate the underlying mechanisms. Hesperetin significantly inhibited the SPC-induced contraction of porcine coronary artery smooth muscle strips with little effect on 40 mM K^+-induced contraction. Hesperetin blocked the SPC-induced translocation of Fyn and ROK from the cytosol to the membrane in human coronary artery smooth muscle cells (HCASMCs). SPC decreased the phosphorylation level of Fyn at Y531 in both VSMs and HCASMCs and increased the phosphorylation levels of Fyn at Y420, myosin phosphatase target subunit 1 (MYPT1) at T853 and myosin light chain (MLC) at S19 in both VSMs and HCASMCs, which were significantly suppressed by hesperetin. Our results indicate that hesperetin inhibits the SPC-induced contraction at least in part by suppressing the Fyn/ROK pathway, suggesting that hesperetin can be novel drug to prevent and treat vasospasm.
Creators : Lu Qian Updated At : 2022-06-03 11:55:05
中等度の冠動脈狭窄病変において、血行再建治療を延期(defer)し薬物療法を行った場合、薬物療法中に心血管イベント発症抑制効果を評価する代用評価法があれば有用である。冠動脈イメージングでプラーク退縮と安定化を調べることで薬物治療効果を評価するのと同様に、定量的冠血流比(QFR)の経時的変化は、deferした中等度狭窄に対する薬物治療効果を評価する代用評価法として有用な可能性がある。本研究では、経皮的冠動脈インターベンション(PCI)後に未治療血管に冠動脈中等度残存狭窄を有し二次予防として薬物治療を受けた患者で、deferした中等度残存狭窄のQFRの経時的変化を調査した。山口大学医学部附属病院と萩市民病院でPCIを施行され、PCI(ベースライン[BL])時に未治療血管に中程度狭窄を有し、6~18ヶ月後にフォローアップ(FU)の冠動脈造影が施行された患者を対象とした。52人の患者でBLとFUの両方で未治療血管の中程度狭窄のQFRの解析が可能であった。BL時にQFRの中央値は0.83(IQR, 0.69, 0.89)、FU時にQFRの中央値は0.80(IQR, 0.70, 0.86)であった。QFRの増加した患者(QFR増加群)は21人で、QFRの減少した患者(QFR減少群)は31人であった。経時的なQFR変化の中央値はQFR増加群で0.05(IQR, 0.03, 0.09)、QFR減少群で-0.05(IQR, -0.07, -0.03)であった。単変量および多変量解析でQFRの増加に影響する因子を解析したところ、FU時のLDLコレステロール値と相関を認めた(OR 0.95, 95% CI [0.91, 0.98], p=0.001)。QFRの経時的変化の評価は、deferした中程度狭窄を有する患者に対する薬物治療効果を判定する代用評価法として有用性が示唆された。
Creators : 竹中 仁 Updated At : 2022-06-07 15:10:08
心臓突然死(sudden cardiac death: SCD)は心サルコイドーシス患者における主要な死亡原因であり、SCDの大部分は心室性不整脈が原因である。これまでのところ、心サルコイドーシス患者の致死的不整脈とSCDを予測するバイオマーカーは報告されていない。本研究では心サルコイドーシス患者における持続性心室頻拍(sustained ventricular tachycardia: sVT)およびSCDを予測する因子は何であるかを調査した。連続89症例において心サルコイドーシス患者の炎症活動性を反映する酸化的DNA損傷のマーカーである尿中8-hydroxy-2'-deoxyguanosine(尿中8-OHdG)、他のバイオマーカー、心機能の指標、腎機能を測定した。追跡期間中、15人の患者はsVT(N = 12)またはSCD(N= 3)を示した。COX比例ハザードモデルを用いた多変量解析では、尿中8-OHdG濃度および心室瘤(ventricular aneurysm: VA)の存在がsVT/SCDの独立した予測因子であることが示された。尿中8-OHdGおよびVAの存在は、心サルコイドーシス患者の初回のsVT/SCDの強力な予測因子であり、心臓イベントのリスクの層別化に有用である。さらに、これらはVT基質についてのさらなる情報を与えるものであることが示唆された。
Creators : 吉冨 亮介 Updated At : 2022-06-07 15:36:11