Divya Rani M N1, Aparna Narasimha2, Harendra Kumar Ml3, Sheela Sr4. 1. Resident, Department of Pathology, Bangalore Medical College and Research Institute , Bangalore, Karnataka, India . 2. Professor, Department of Pathology, Sapthagiri Institute of Medical Sciences and Research Centre , Bangalore, Karnataka, India . 3. Professor and HOD, Department of Pathology, Sri Devraj Urs Academy of Higher Education and Research , Kolar, Karnataka, India . 4. Professor, Department of Obstretics and Gynaecology, Sri Devarj Urs Academy of Higher Education and Researcg , Kolar, Karnataka, India .
Abstract
BACKGROUND: Cervical cancer is the second most common cancer occurring among women worldwide, with almost half a million new cases each year. Normal cells gradually transform to form cancer cells through several stages. So, the changes occurring during the transformational stages need to be assessed. AIM: Our aim was to study various nuclear parameters useful in evaluating pre-malignant and malignant cervico-vaginal pap smears. MATERIALS AND METHODS: Bethesda System was used to categorize cervical pap smears into premalignant and malignant lesions. Nuclear parameters were calculated using J 1.44C morphometric software. Several nuclear size parameters were analysed. RESULTS: The nuclear area, perimeter, diameter were found to be statistically significant (p<0.05) parameters in differentiating premalignant from malignant cervical smears. CONCLUSION: Nuclear morphometry was thus a useful objective tool in differentiating premalignant from malignant cervical smears.
BACKGROUND: Cervical cancer is the second most common cancer occurring among women worldwide, with almost half a million new cases each year. Normal cells gradually transform to form cancer cells through several stages. So, the changes occurring during the transformational stages need to be assessed. AIM: Our aim was to study various nuclear parameters useful in evaluating pre-malignant and malignant cervico-vaginal pap smears. MATERIALS AND METHODS: Bethesda System was used to categorize cervical pap smears into premalignant and malignant lesions. Nuclear parameters were calculated using J 1.44C morphometric software. Several nuclear size parameters were analysed. RESULTS: The nuclear area, perimeter, diameter were found to be statistically significant (p<0.05) parameters in differentiating premalignant from malignant cervical smears. CONCLUSION: Nuclear morphometry was thus a useful objective tool in differentiating premalignant from malignant cervical smears.