Tzanck test

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Historical Perspective

  • Diagnostic cytology is the study of individual cells and their characteristics and functions.
  • George Papanicolaou is considered the father of exfoliative cytology.
  • Cytology technique was first used by Tzanck for the diagnosis dermatological disorders such as herpes and other vesicle-bullous lesions.
  • The different techniques of cytological studies include aspiration cytology, imprint smear, exudate smear, skin scraping smear, and Tzanck smear.

Tzanck Smear

Sample Collection

  • In patients with suspected viral lesions the sample must be collected from fresh vesicular lesions rather than the healing crusted lesions, to have a sample with adequate number of virus infected cells.
  • The vesicle should be unroofed and the base of the ulcer must be scraped with a scalpel or with a scapula.
  • The obtained material should be then transferred on to a clean glass slide.
  • Care should should be taken that the glass slide is clean and has no finger prints as the specimen will not adhere to the glass slide with finger prints.

Fixation of the Smear

  • A fixative fluid contains reactive chemicals and is useful for the preservation of the specimens. The fixative fluid prevents the denaturation of the proteins and autolysis and helps in maintaining the cellular morphology and its contents.
  • Fixatives usually contain chemicals like formalin, glutaraldehyde, methanol, ethanol, acetone, acetic acid, chromates, and picric acid.
  • Once the sample is transferred on to the glass slide it should be fixed immediately using a fixative fluid to prevent from drying of the tissue.

Staining of the Smear

  • Many stains can be used for the fixation of the Tzanck smear must the most commonly used stain is the Giemsa stain.
  • Other stains that can be used include the following:
    • Hematoxylin and eosin
    • Wright
    • Methylene blue
    • Papanicolaou
    • Toluidine blue.

Interpretation of the Smear Findings

Class Disease Cytological Findings
Immunobullous Lesions Pemphigus Vulgaris Multiple acantholytic cells (Tzanck cells)
Toxic epidermal necrolysis Necrotizing basal cells with scattered inflammatory cells and fibroblasts 
Staphylococcal Scalded Skin Syndrome Dyskeratotic acantholytic cells with few inflammatory cells
Bullous Pemphigiod

Steven-Johnson's Syndrome

Erosive Lichen Planus

Findings are non-specific with no acantholytic cells
Cutaneous Infections Herpes Simplex

Varicella

Herpes Zoster

Multinucleated syncytial giant cells and acantholytic cells 

Intranuclear inclusion bodies surrounded by subtle clear halo is a characteristic of herpetic infection

Molluscum contagiosum Intracytoplasmic molluscum bodies (Henderson-Patterson bodies)
Vaccinia, Milker's nodules and variola Variable number of acantholytic cells and detached keratinocytes

Eosinophilic cytoplasmic inclusion called "Guarnieri body" may be present

Leishmaniasis Leishman-Donovan (LD) bodies

Wright Cells

Genodermatosis Hailey-Hailey disease Multiple acantholytic cells.
Darier disease "Corps ronds" and "grains" appearance

"Corps ronds" are isolated keratinocytes with a round shape and an acidophilic cytoplasm, the grains are seen as small, hyaline, acidophilic ovoid bodies resembling pomegranate seeds.

Cutaneous Tumors Basal cell epithelioma Clusters of basaloid cells with peripheral palisading
Squamous cell carcinoma Isolated cells with pleomorphism

Presence of nuclear and cytoplasmic changes

Paget's disease Round to oval cells with amphophilic, vacuolated cytoplasm and a hypertrophic nucleolated nucleus
Erythroplasia of Queyrat Polyhedral, spindle-shaped and round cells with "poikilokaryosis" 
Mastocytoma Numerous mast cells
Histiocytosis X Multinucleate atypical Langerhans cells 























In dermatopathology, the Tzanck test, also Tzanck smear, is scraping of an ulcer base to look for Tzanck cells. It is sometimes also called the Chickenpox skin test and the herpes skin test.

Tzanck cells are found in:

It is named after Arnault Tzanck (1886-1954), a Russian dermatologist.

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