| 摘要: | 生物反應器在生物工程、藥物研發以及組織培養中扮演著不可或缺的角色。鑑於許多研究指出,外部物理刺激擁有促進細胞成長、分化的作用,例如:機械拉伸、電刺激、剪應力等,然而許多研究仍無法以多種外部物理刺激的方式對細胞刺激,並且在許多研究中所設計出來的物理力刺激生物反應器功能性比較單一且變化性較小,整體設備無法做到模組化以至於限制了設備的擴增性,加上無良好的控制系統支持,導致設備在使用者眼中成為一個專門用於特定細胞或組織的生物反應器,大大的限制了使用的廣泛性,而現今市面上所販售的商用化物理力刺激生物反應器,大部分也都是只擁有單一刺激的模式,只有少部分廠家的生物反應器擁有提供複數物理力刺激的生物反應器,並可以進行良好的細胞培養,且擁有良好的控制系統提供一個模擬細胞自然生長環境的場所,但市售的生物反應器很大缺點則是售價高昂,並不適合大部分的研究機構使用。
因此本論文將嘗試以聚甲基丙烯酸甲酯(PMMA)製作設備本體,並以已沉積聚吡咯(PPy)的聚二甲基矽氧烷(PDMS)薄膜作為細胞培養載體,設計一個模組化的複合式物理力刺激生物反應器,其刺激模式結合了電脈衝刺激與氣動拉伸刺激,並將其設備與刺激模式皆模組化增加設備的使用廣泛性與擴增性,可供使用者根據實驗需求自行搭配,在控制系統的部分使用Raspberry Pi來做其控制中心,並搭配所設計的控制介面來控制拉伸刺激與電刺激的參數,最終完成一台低成本的模組化複合式物理力刺激生物反應器。
;Bioreactors play an integral role in bioengineering, drug development, and tissue culture. In view of the fact that many studies have pointed out that external physical stimulation can promote cell growth and differentiation, such as mechanical stretching, electrical stimulation, shear stress, etc., however, many studies are still unable to stimulate cells in a variety of external physical stimulation ways, and in many cases The physical force stimulation bioreactor designed in the study has a relatively single functionality and low variability. The overall equipment cannot be modularized, which limits the scalability of the equipment. In addition, there is no good control system support, resulting in In the eyes of the user, the equipment becomes a bioreactor dedicated to specific cells or tissues, which greatly limits the breadth of use. Most of the commercial physical force stimulation bioreactors sold on the market today are also Only a single stimulation mode is available. Only a few manufacturers of bioreactors have bioreactors that provide multiple physical force stimulations, can perform good cell culture, and have good control systems to provide a place that simulates the natural growth environment of cells. However, the biggest disadvantage of commercially available bioreactors is that they are expensive and are not suitable for use by most research institutions.
Therefore, this paper will try to use polymethylmethacrylate (PMMA) to make the device body, and use polydimethylsiloxane (PDMS) film with polypyrrole (PPy) deposited as the cell culture carrier to design a modular A composite physical force stimulation bioreactor, its stimulation mode combines electrical pulse stimulation and pneumatic stretch stimulation, and its equipment and stimulation mode are modularized to increase the versatility and expansion of the equipment, making it available to users According to the experimental needs, the Raspberry Pi is used as the control center in the control system, and the designed control interface is used to control the parameters of stretching stimulation and electrical stimulation. Finally, a low-cost modular composite device is completed. Physical forces stimulate the bioreactor. |
