Serous effusion fluid is one of the most commonly encountered specimens in routine cytopathology practice. It provides invaluable information about the patient and the clinical status; but to get the most of it, specimen handling and processing must be carried out properly. Cytomorphology is the basis of a successful analysis which should complemented by ancillary tests when needed. A wide spectrum of ancillary techniquesranging from immunocytochemistry and flow cytometry to different assays of molecular pathologycan be applied to serous effusions. This article describes the acquisition and management of serous effusion fluids, methods for preservation and transportation, different techniques of cytopreparation, application of immunocytochemistry, flow cytometry, and fluorescence in-situ hybridization (FISH), as well as DNA extraction for polymerase chain reaction (PCR) and next generation sequencing (NGS). Principles of bio-banking of effusion samples are also discussed which is getting more important in correlation with the developments in personalized medicine. K E Y W O R D S bio-banking, effusion cytology, fluorescence in situ hybridisation, immunocytochemistry, molecular tests, preparation techniques, serous effusion 1 | INTRODUCTION Serous effusion fluid-pleural effusion, ascites and pericardial effusion-is one of the most commonly examined specimen types in cytopathology. Serous effusions occur in the context of a wide spectrum of benign and malignant diseases. In many clinical situations, effusion fluid is the first sample obtained and analysed, and, more often than not, this sample is the key to precise and timely diagnosis. Classical cytomorphology is still the basis of the application of all ancillary techniques. Immunocytochemistry can be accepted as part of the routine procedure since it has been used as a complementary method for years to increase the diagnostic accuracy of effusion cytology. All ancillary tests, including the modern techniques of molecular pathology, can be applied to serous effusions in routine workflow. It is a rapidly evolving field; however, some basics do not change, such as the selection of the right area/sample for DNA extraction or for fluorescence in situ hybridisation (FISH) analysis. This paper intends to be a practical handout for readers who deal with effusion samples. The acquisition and management of effusion samples are considered; preparation techniques for morphological examination and application of ancillary tests are discussed. The last part of the text deals with bio-banking of effusion specimens, which deserves sincere attention for the future of effusion cytology, regarding the new therapy options and research facilities.
| ACQUISITIONEffusion fluid can be obtained in three ways:• by thoracentesis, paracentesis, pericardiocentesis with aspiration of fresh fluid into a syringe or vial,
