水浸物镜技术和高内涵成像：看得更清楚

Three-dimensional (3D) cellular assays have emerged as a valuable tool in drug discovery and biological research, as they closely mimic in vivo environments and are shown to generate more physiologically relevant data than many 2D assays. 随着越来越多地使用 3D 培养物进行表型筛选和毒性评估，对优化检测灵敏度、分辨率和通量的需求日益增加。

Here, we explore how high-performance water immersion objectives on the ImageXpress® Micro Confocal High-Content Imaging System facilitate these growing demands by enhancing the sensitivity, resolution and throughput for complex 3D structures such as spheroids, organoids, and organ-on-a-chip biology.

什么是水浸技术？

In terms of high-content imaging, water immersion technology automatically and consistently places a layer of water between the objective (magnification) and the sample.

Many cellular imaging systems are designed to have air between the objective and the sample. 在使用空气物镜进行 3D 成像时，样本发射的大部分荧光都被物镜折射了，因此这部分荧光会丢失。这就减少了能从样本中收集到的信号，从而导致样本扭曲变形。Oil objectives have been the gold standard for 3D confocal imaging, because they collect more light from the sample, which increases the signal intensity and enhances the image resolution. 但油物镜也存在很多问题，由于很难通过自动化方式处理油，因此在对较大的 3D 样本进行成像时，油物镜也会导致某种程度的扭曲变形。

水浸技术 \

Achieve greater sensitivity and resolution without sacrificing speed

Compared to air objectives, water immersion objectives have a higher numerical aperture, allowing them to collect more light from the sample. This increases image intensities by up to four times and minimizes distortion, providing a more accurate representation of the sample shape. In simple terms, cells exist in water. By placing water between the objective and the sample, you are better able to match the cellular environment and produce a higher quality image.

sensitivity and resolution without sacrificing speed

Water immersion objectives also take a much finer z-slice of a 3D image in comparison to dry objectives (higher NA). And because of the increased light collection, they produce sharper, crisper images with finer cellular detail.

finer cellular detail

20X Water Immersion Objective
Confocal 42 μm pinhole spinning disk
Maximum Projection of 21 z-planes at 5 μm steps (100 μm)

Because the water immersion objective collects a higher signal from the sample, you are able to decrease your exposure time and thus increase the speed of the acquisition. Alternately, you may choose to maintain a higher exposure time and acquire even brighter images.

Gain deeper insight into thicker 3D samples

The ImageXpress Micro Confocal system includes a Deep Tissue confocal disk module and laser illumination options that can be combined with water immersion objectives to help you image even deeper into 3D samples. The thicker the sample, the more likely you are to experience pinhole crosstalk, contamination that is produced by the surrounding light, which results in haze and reduced image quality. The Deep Tissue confocal disk module is designed to minimize the crosstalk between pinholes and remove haze so that you can image deeper into the sample.

How water immersion works on the ImageXpress Micro Confocal system

The technology consists of two bottles, a diaphragm pump, and an adapter for the objective. The pump sends pressure into the source bottle and pushes water to the objective. As the imaging occurs, water rolls off the objective and gets pulled back through via the vacuum created by the pump. MetaXpress® software automatically refills the water within milliseconds, as needed, for a seamless experience.

The water immersion objectives are field upgradeable and can be easily implemented with minimal changes to an existing workflow. When you first turn on the system, or transition from an air objective to a water objective, it takes only a few minutes for the water to move onto the objective so that imaging can begin.

Sensors are built into the water controller system to detect faults (e.g., leaks) and monitor system health. The system is designed to automatically supply and maintain water to the objective, making the setup and operation seamless for the user. The software also provides user-friendly alerts when it is time to refill the bottles, which typically need to be refilled once a week, depending on the types of samples that are being run.

Don’t overlook your 2D samples

When considering water immersion objectives for high-content imaging, your 2D samples should not be overlooked. Water immersion objectives can also be very useful for 2D imaging, especially if you need to examine fine features, such as cytoskeletal filaments. If you have an assay in which the fluorescence is very weak, water immersion can be used to help boost the signal as much as possible.

You also have the ability to decrease your exposure time with 2D samples, which will allow you to image your plate faster.