Limitations of CASA instruments

Despite the power of an objective evaluation by CASA, there are some constraints associated with this technology. Many factors are known to affect CASA results. The type of specimen chamber used for analysis can affect the movement of sperm, the accuracy of the cell count number, and therefore the percentage of motile spermatozoa.⁴ The temperature at which semen is analyzed is also an important factor that may affect CASA results. Independent studies showed that analyzing semen below 37°C significantly affected results.^5,6 These groups performed CASA on spermatozoa maintained at 37°C with a stage warmer and compared the results with spermatozoa analyzed at room temperature or at 30°C. The data demonstrated a decrease in the motility parameters (percentage of motile spermatozoa and track speed) when spermatozoa were not analyzed at 37°C. These experiments suggest that a simple variation introduced in the analysis of sperm motility can have a considerable effect on the results. The concentration at which semen is analyzed is an essential aspect that influences CASA results. It has been established that at low semen concentrations (<20 million/mL), an overestimation of the concentration and thus an underestimation of the percentage of motile cells can occur due to the acquisition of nonspermatic particles (debris). On the other hand, at higher concentrations (>50 million/mL), a large proportion of the fast-moving cells will be excluded from analysis because of cell collisions, spermatozoa exiting the analysis area, or excluded on the basis of nearest-neighbor effects, leading to an underestimation of the motility.^5,7

Sampling condition is a source of error when acquiring data with CASA. Computer and video camera equipment are continuously evolving and different CASA systems use various models of video camera. Most of the CASA systems allow 30 or 60 Hz as a frame rate to analyze sperm tracks and speed. Studies have shown the importance of the frame rate for reliability of the analysis.^8–10 It is generally accepted that a higher frame rate is required to render an evaluation closer to the real path for a fast nonlinear sperm cell. To study a hyperactivated sperm cell, Mortimer and Swan¹¹ suggested using the highest frame rate available on the system in order to have the most accurate evaluation.

The type of extender in which semen is diluted is another aspect that should be taken into consideration when evaluating spermatozoa with CASA. Some extenders contain debris of a size similar to a sperm head, causing CASA software to include them in the analysis. Egg yolk- and milk-based diluents are examples of extenders containing such particles. In addition, when observing semen diluted with milk extender, the globular lipids mask the spermatozoa thus rendering CASA analysis impossible. To assess motility analysis in these conditions, samples could be washed to remove extender debris from semen. However, it has been established that washing the semen affects the motility of the spermatozoa,¹² making correct evaluation more difficult. To overcome this problem, fluorescence technology allows discrimination of sperm cells from particles in the extender by staining sperm heads with a DNA-binding fluorochrome. Under fluorescent light, only DNA-containing objects will be detected by the CASA software, thus omitting the need for washes. This technique improves the accuracy of the concentration¹³ as well as the motility analysis¹⁴ when working with semen diluted in these extenders. Therefore, standardizing the type of chamber, the temperature, the concentration, and the type of extender is crucial to assure repeatable standard QC at an SPC.

Motility is one of the most important characteristics believed to be associated with the fertilizing ability of spermatozoa. Several groups have reported a significant correlation between total^15–18 and progressive¹⁹ motility of bull semen and its associated field fertility. However other groups have reported that the subjective analysis of semen motility did not correlate with fertility.^20,21 CASA instruments collect a wide range of sperm motility parameters, allowing a more detailed and accurate analysis of sperm movements and track speed. Researchers have also tried to correlate the kinetic parameters with the field fertility of semen, with some groups able to show a positive correlation between straight-line velocity of spermatozoa and field fertility.^18–22 Another study used a combination of several motility parameters to reach a very high correlation with bull fertility.²⁰ Taken together, these studies show the high potential of CASA for estimating the quality of the semen and therefore becoming a powerful tool to measure sperm characteristics and predict bull fertility compared with standard semen evaluation. However, as mentioned above, standardization of conditions and parameters of all CASA analyses are key to obtain repeatable and valid correlations with fertility.