Baumgardner James E, Otto Cynthia M
Department of Anesthesia, Hospital of the University of Pennsylvania, 3400 Spruce Street, Philadelphia, PA 19104-4283, USA.
Respir Physiol Neurobiol. 2003 Jul 16;136(2-3):131-9. doi: 10.1016/s1569-9048(03)00077-6.
Intermittent hypoxia has been implicated in morbidities associated with sleep apnea, and may be a novel cellular signal for inflammation [J. Appl. Physiol. 90 (2001) 1986]. Standard cell culture has two major limitations for studying the effects of steady-state P(O(2)) and intermittent hypoxia. First, convective mixing in the culture media can be variable, making precise control of cellular P(O(2)) difficult. Second, diffusion of oxygen through the culture media slows changes in cellular P(O(2)) after rapid changes in the gas phase P(O(2)). Our estimates of diffusional transients for standard cell culture suggest significant restrictions in the ability to cycle P(O(2)) at frequencies relevant to intermittent hypoxia. We present a novel system for forced convection cell culture with adherent cells inside capillary tubing. Steady state cellular P(O(2)) is regulated to an accuracy of approximately 1 Torr. The response time for cycling of P(O(2)) is less than 1.6 sec. This system is ideally suited for studies of intermittent hypoxia in adherent cells.
间歇性低氧已被认为与睡眠呼吸暂停相关的疾病有关,并且可能是一种新的炎症细胞信号[《应用生理学杂志》90(2001)1986]。标准细胞培养在研究稳态P(O₂)和间歇性低氧的影响方面有两个主要局限性。首先,培养基中的对流混合可能是可变的,使得精确控制细胞P(O₂)变得困难。其次,在气相P(O₂)快速变化后,氧气通过培养基的扩散会减缓细胞P(O₂)的变化。我们对标准细胞培养扩散瞬变的估计表明,在与间歇性低氧相关的频率下循环P(O₂)的能力受到显著限制。我们提出了一种新的系统,用于在毛细管内培养贴壁细胞的强制对流细胞培养。稳态细胞P(O₂)被调节到约1托的精度。P(O₂)循环的响应时间小于1.6秒。该系统非常适合用于研究贴壁细胞中的间歇性低氧。
