Mako Kobayashi scite author profile

Mako Kobayashi

5Publications

69Citation Statements Received

73Citation Statements Given

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128

Affiliations

Tohoku University, Tokyo Medical and Dental University, Japanese Red Cross Medical Center

Publications

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Effect of luminal surface structure of decellularized aorta on thrombus formation and cell behavior

et al. 2021

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Due to an increasing number of cardiovascular diseases, artificial heart valves and blood vessels have been developed. Although cardiovascular applications using decellularized tissue have been studied, the mechanisms of their functionality remain unknown. To determine the important factors for preparing decellularized cardiovascular prostheses that show good in vivo performance, the effects of the luminal surface structure of the decellularized aorta on thrombus formation and cell behavior were investigated. Various luminal surface structures of a decellularized aorta were prepared by heating, drying, and peeling. The luminal surface structure and collagen denaturation were evaluated by immunohistological staining, collagen hybridizing peptide (CHP) staining, and scanning electron microscopy (SEM) analysis. To evaluate the effects of luminal surface structure of decellularized aorta on thrombus formation and cell behavior, blood clotting tests and recellularization of endothelial cells and smooth muscle cells were performed. The results of the blood clotting test showed that the closer the luminal surface structure is to the native aorta, the higher the anti-coagulant property. The results of the cell seeding test suggest that vascular cells recognize the luminal surface structure and regulate adhesion, proliferation, and functional expression accordingly. These results provide important factors for preparing decellularized cardiovascular prostheses and will lead to future developments in decellularized cardiovascular applications.

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Factors Relating to Self‐Efficacy Among Psychiatric Nurses

Yada

Kobayashi

Odachi

et al. 2017

J UOEH

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This study aimed to clarify the factors related to self-efficacy experienced by psychiatric nurses. Analysis of qualitative descriptive data from a free self-description questionnaire administered to 16 psychiatric nurses working in psychiatric hospitals revealed 24 codes across the following 8 categories as factors that increase self-efficacy: A1. possibility of practical use in nursing, A2. nursing judgment, A3. improvement of psychiatric symptoms, A4. the patients presenting a positive attitude, A5. building a relationship of trust with the patients, A6. building a relationship of trust with other nurses, A7. work progressing according to plan and A8. team medical practice. Twenty-five codes across the following 10 categories were identified as factors that decrease self-efficacy: B1. lack of communication, B2. uncertainty in caregiving, B3. recurrence of psychiatric symptoms, B4. feeling overpowered by a patient, B5. sense of being too busy to work adequately, B6. difficulty in bringing about self-improvement, B7. sense of loss regarding one's role as a nurse, B8. lack of physical strength, B9. mechanical performance of nursing and B10. fluctuating view of nursing due to mistakes. These factors require intervention for psychiatric nurses' self-efficacy.

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Elastic Modulus of ECM Hydrogels Derived from Decellularized Tissue Affects Capillary Network Formation in Endothelial Cells

Kobayashi

Kadota

Hashimoto

et al. 2020

IJMS

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Recent applications of decellularized tissue have included the use of hydrogels for injectable materials and three-dimensional (3D) bioprinting bioink for tissue regeneration. Microvascular formation is required for the delivery of oxygen and nutrients to support cell growth and regeneration in tissues and organs. The aim of the present study was to evaluate the formation of capillary networks in decellularized extracellular matrix (d-ECM) hydrogels. The d-ECM hydrogels were obtained from the small intestine submucosa (SIS) and the urinary bladder matrix (UBM) after decellularizing with sodium deoxycholate (SDC) and high hydrostatic pressure (HHP). The SDC d-ECM hydrogel gradually gelated, while the HHP d-ECM hydrogel immediately gelated. All d-ECM hydrogels had low matrix stiffness compared to that of the collagen hydrogel, according to a compression test. D-ECM hydrogels with various elastic moduli were obtained, irrespective of the decellularization method or tissue source. Microvascular-derived endothelial cells were seeded on d-ECM hydrogels. Few cells attached to the SDC d-ECM hydrogel with no network formation, while on the HHP d-ECM hydrogel, a capillary network structure formed between elongated cells. Long, branched networks formed on d-ECM hydrogels with lower matrix stiffness. This suggests that the capillary network structure that forms on d-ECM hydrogels is closely related to the matrix stiffness of the hydrogel.

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In vitroevaluation of surface biological properties of decellularized aorta for cardiovascular use

et al. 2020

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High‐energy collision‐induced dissociation of small polycyclic aromatic hydrocarbons

Arakawa¹,

Kobayashi²,

Nishimura³

2000

J. Mass Spectrom.

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High-energy collision-induced dissociation (CID) experiments on polycyclic aromatic hydrocarbons (PAHs)having 2-6 rings, naphthalene, anthracene, phenanthrene, fluoranthene, pyrene and coronene, were performed, and the relative abundances of their fragment ions were investigated as a function of collision energy. The results revealed that the PAHs except naphthalene showed a bimodal-type distribution of positive fragmentation ions, which is closely similar to the fragment-ion distribution reported for the CID of three-dimensional fullerene, C 60 Y and C 70 Y . The three-ring isomers of anthracene and phenanthrene and the four-ring isomers of fluoranthene and pyrene can be distingushable in their spectra under an electron ionization energy of 70 eV, but the high-energy CID spectra of the three-and four-ring isomers were almost identical. The fragmentation corresponding to fragment ions in the low-mass region of the bimodal CID spectra could be interpreted by the simple statistical model that fragment ions are formed by random evaporation from the molecular ions after a considerable structural rearrangement, 'phase transition', occuring at some high-energy state.

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Mako Kobayashi

Effect of luminal surface structure of decellularized aorta on thrombus formation and cell behavior

Factors Relating to Self‐Efficacy Among Psychiatric Nurses

Elastic Modulus of ECM Hydrogels Derived from Decellularized Tissue Affects Capillary Network Formation in Endothelial Cells

In vitroevaluation of surface biological properties of decellularized aorta for cardiovascular use

High‐energy collision‐induced dissociation of small polycyclic aromatic hydrocarbons

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