Immunohistochemistry Evaluated for Tissue-Invasive Cytomegalovirus in Gastrointestinal Mucosal Biopsies
By LabMedica International staff writers Posted on 04 Mar 2022 |
Cytomegalovirus (CMV) immunohistochemistry (IHC) is the most widely used method to diagnose CMV infection/reactivation in tissues in a pathology laboratory.
Cytomegalovirus (CMV), an encapsulated double-stranded DNA β-herpesvirus, often causes asymptomatic or mild mononucleosis-like primary infection followed by latent infection or chronic infection. About 40% to 100% of the world's adult population is seropositive for CMV.
Gastrointestinal (GI) CMV disease can manifest during primary infection or reactivation of latent virus. Reactivation of CMV is frequently seen in adults, especially in patients with immunocompromised conditions such as human immunodeficiency virus (HIV) infection, recipients of solid organ and stem cell transplant, and those with disease treated by immunosuppressive medications.
A team of pathologists at the New York University Langone Health (New York, NY, USA) included in a study total of 1,479 mucosal biopsies from the GI system. Their aim was to improve the efficiency of CMV immunohistochemistry (IHC) testing by evaluating immunopositive staining trends of tissue-invasive CMV in the gastrointestinal system. Immunohistochemistry was performed with specific antibodies against CMV (DAKO, Santa Clara, CA, USA).
The investigators reported that the overall positivity rate of CMV IHC was 4.73% (70/1,479). The positivity rate from physician-requested and pathologist-initiated tests was significantly different (7.54% versus 3.83%). Cases with severe inflammation showed a higher positive CMV rate than those with mild inflammation (5.37% versus 2.6%). Cytomegalovirus positivity in biopsies from post-transplant patients, inflammatory bowel disease, human immunodeficiency virus (HIV)/common variable immunodeficiency (CVID), cancer, and others was 19.69%, 3.84%, 23.33%, 9.0%, and 2.84%, respectively.
The positivity rate among post-transplant, HIV/CVID, or cancer patients was significantly higher than in other populations. Cases tested with multiple tissue blocks generated a higher positivity rate than those with a single block (7.77% versus 3.23%). Testing three to four blocks per case almost tripled the positive CMV detection rate (9.04%). Interestingly, using five or more blocks did not further ameliorate the positive CMV detection rate.
The authors concluded that physician request, immunosuppression, multiple blocks, and severe inflammation were strongly related to positive CMV IHC detection rate. These findings might provide value in helping pathologists manage CMV IHC testing more efficiently. The study published in the March 2022 issue of the journal Archives of Pathology and Laboratory Medicine.
Related Links:
New York University Langone Health
DAKO
Latest Pathology News
- New Blood Test Device Modeled on Leeches to Help Diagnose Malaria
- Robotic Blood Drawing Device to Revolutionize Sample Collection for Diagnostic Testing
- Use of DICOM Images for Pathology Diagnostics Marks Significant Step towards Standardization
- First of Its Kind Universal Tool to Revolutionize Sample Collection for Diagnostic Tests
- AI-Powered Digital Imaging System to Revolutionize Cancer Diagnosis
- New Mycobacterium Tuberculosis Panel to Support Real-Time Surveillance and Combat Antimicrobial Resistance
- New Method Offers Sustainable Approach to Universal Metabolic Cancer Diagnosis
- Spatial Tissue Analysis Identifies Patterns Associated With Ovarian Cancer Relapse
- Unique Hand-Warming Technology Supports High-Quality Fingertip Blood Sample Collection
- Image-Based AI Shows Promise for Parasite Detection in Digitized Stool Samples
- Deep Learning Powered AI Algorithms Improve Skin Cancer Diagnostic Accuracy
- Microfluidic Device for Cancer Detection Precisely Separates Tumor Entities
- Virtual Skin Biopsy Determines Presence of Cancerous Cells
- AI Detects Viable Tumor Cells for Accurate Bone Cancer Prognoses Post Chemotherapy
- First Ever Technique Identifies Single Cancer Cells in Blood for Targeted Treatments
- Innovative Blood Collection Device Overcomes Common Obstacles Related to Phlebotomy