How to count mitotic cells?
Answers from top 7 papers
More filters
| Papers (7) | Insight |
|---|---|
16 May 2015 8 Citations | According to the result obtained from the study, while number of mitotic and nonmitotic cells are equal, the accuracy is significant. |
01 Nov 2014 19 Citations | Experimental results demonstrate the efficiency of this method to detect mitotic cells in breast cancer histology images. |
30 Citations | Establishing an easy way to distinguish these mitotic cells will help in grading and understanding their biological potential. |
12 Citations | The numbers of actively dividing cells were frequently lower than anticipated, indicating that nuclei counts cannot be directly correlated with continuing mitotic activity. |
06 Nov 2014 7 Citations | Computerised mitotic cell detection promises to bring efficiency and accuracy into the grading process. |
86 Citations | When combined with each other, these features give detailed resolution of the mammalian cell cycle, including the separation of mitotic from interphase cells. |
01 Oct 2014 25 Citations | Since both mitotic and non-mitotic cells appear as small objects with a large variety of shapes in the images, characterization of mitosis is a challenging problem. |
Related Questions
What are the most common methods for counting Chlorella vulgaris cells?5 answersThe most common methods for counting Chlorella vulgaris cells include manual counting using a Neubauer-improved counting chamber and a microscope equipped with a digital camera. Another method involves using image processing technology to automatically count the cells based on their fluorescence excitation characteristics. This method uses a fluorescence excitation source and a red filter to obtain a chlorella fluorescence microscopic image, which is then processed using histogram judgment to determine the optimal image segmentation threshold. Additionally, enzymatic methods using α-amylase and amyloglucosidase have been used to estimate starch content in Chlorella vulgaris, which indirectly provides information about cell count. Automated instrumentation has also been introduced to supplement manual counting, offering efficiency and reproducibility through computer control and advanced imaging.
What are the steps involved in the mitosis process?3 answersMitosis is the process of cell division that involves several sequential stages. The first stage is prophase, where the chromosomes condense and the nuclear envelope breaks down. This is followed by prometaphase, where the chromosomes attach to the spindle fibers. The next stage is metaphase, where the chromosomes align on the metaphase plate. Anaphase is the stage where the sister chromatids separate and move towards opposite poles of the spindle. Telophase is the stage where the nuclear envelope reforms and the chromosomes decondense. The final stage is cytokinesis, where the cytoplasm divides to form two daughter cells. Overall, mitosis is a complex process involving the condensation of chromosomes, breakdown of the nuclear envelope, alignment and separation of chromosomes, and the division of the cytoplasm.
What are techniques for counting the number of mites in a bee colony?5 answersThere are several techniques for counting the number of mites in a bee colony. One method involves dislodging mites from adult bees taken from a brood box frame and extrapolating to mite density on adults and pupae combined. Another approach is to monitor the number of mites falling to the bottom of the hive by periodically counting them on a plastic sheet. Additionally, a mathematical model has been developed to study the dynamics of mite-infested honey bee colonies and evaluate mite-control strategies. However, it is noted that there is a lack of standardization and statistical evaluation of these techniques, indicating that there is still much to learn in developing accurate and precise research and monitoring tools for bee populations.
How is a hemocytometer used to count cells?5 answersA hemocytometer is a device used to count cells. It works by calculating the number of cells within a fixed volume. The traditional hemocytometer has a fixed volume chamber of 0.1 µl, while a multi-volume hemocytometer has chambers with different depths containing volumes of 0.1, 0.2, 0.4, and 0.8 µl. The multi-volume hemocytometer can measure cell concentrations ranging from 5×10^3 cells/ml to 1×10^6 cells/ml, which is twenty times lower than the traditional hemocytometer. The cell concentration is calculated using the slope value of cell number in the multi-chambers, and this model reduces the total cell counting numbers by 625% compared to a large volume hemocytometer. Automated hemocytometers are also available, which offer the automation and accuracy of cell counting at a relatively low cost. These devices use the Coulter principle of impedance-based particle detection and provide cell population statistics graphically displayed as a histogram.
How many mitotic divisions are required to produce 100 sperm?3 answers
Which scientist discovered mitosis?6 answers