CHAPTER 33  Hematopoietic Tumors  725


           study. 506  In a series of cats with various anatomic forms of lym-   • BOX 33.5      Clinical Staging System for Feline

           phoma, serum albumin concentrations were significantly lower       Lymphoma  558
           and  β-globulin concentrations (as measured by protein elec-
  VetBooks.ir  trophoresis) were significantly higher than a healthy control   Stage 1
           population.
                    507
                                                                  •   A single tumor (extranodal) or single anatomic area (nodal)
             The use of various imaging modalities in cats with lymphoma    •   Includes primary intrathoracic tumors 
           depends on the anatomic site and will be discussed in site-specific
           discussions to follow.                                Stage 2
             Cytopathologic or histopathologic evaluation of involved    •   A single tumor (extranodal) with regional lymph node involvement
           lymph node(s) or involved organ tissue, procured via FNA cytol-   •   Two or more nodal areas on the same side of the diaphragm
           ogy (see Chapter 7) or surgical, endoscopic, or needle-core biopsy    •   Two single (extranodal) tumors with or without regional lymph node
                                                                   involvement on the same side of the diaphragm
           (see Chapter 9), is required for a definitive diagnosis. Cytology    •   A resectable primary gastrointestinal tract tumor, usually in the ileocecal
           alone may not be sufficient in some cases, owing to difficulties   area, with or without involvement of associated mesenteric nodes only 
           encountered in distinguishing lymphoma from benign hyper-
           plastic or reactive lymphoid conditions. In such cases, incisional   Stage 3
           or excisional biopsy is preferred as orientation and information    •   Two single tumors (extranodal) on opposite sides of the diaphragm
           regarding invasiveness and architectural abnormalities may be    •   Two or more nodal areas above and below the diaphragm
           necessary for diagnosis. In addition, involved tissue, needle aspi-   •   All extensive primary unresectable intraabdominal disease
           rate, and fluid samples can be further interrogated by various    •   All paraspinal or epidural tumors, regardless of other tumor site or sites 
           histochemical, immunohistochemical, flow cytometric analysis   Stage 4
           (e.g., size and immunophenotypic assessment), and molecular
           techniques (e.g., PARR to assess clonality) to further character-   •   Stages 1–3 with liver and/or spleen involvement 
           ize the disease process and refine the diagnosis in equivocal cases.   Stage 5
           The reader is referred to Chapter 8 for a general discussion of flow    •   Stages 1–4 with initial involvement of CNS or bone marrow or both
           cytometric analysis and molecular diagnostic techniques, as well
           as Section A of this chapter for specific applications to lymphoma.
           PARR in cats is approximately 80% sensitive for the diagnosis
           of lymphoma 553 ; however, assessment of specificity has not been   This provides only general observations rather than specific out-
           clearly established. Clonality assessment tools (e.g., primers) for   come information (i.e., response rate and durability of response)
           both Ig and T-cell receptor variable region genes have been devel-  that can vary significantly with respect to anatomic and histologic
           oped in cats. 479,480,554–557                         subtype. Most treatment decisions should be based on assessment
             Assessment of tumor proliferation rates (e.g., Ki67, PCNA,   of whether the individual case represents a low-grade (e.g., indo-
           AgNOR), telomerase activity, and serum protein electrophore-  lent) versus an intermediate- or high-grade (e.g., large cell) lym-
           sis can also be performed on involved tissues in cats; however,   phoma and whether the disease is limited to the local extranodal
           consistent prognostic value across the anatomic, histopathologic,   site. Chemotherapy protocols for the cat have been previously
           and immunophenotypic variants of lymphoma in cats is not well   discussed under sections in GI lymphoma; low-grade tumors are
           characterized.                                        generally treated with chlorambucil/prednisolone protocols and
             Thorough staging, including a bone marrow aspiration or   intermediate- or high-grade tumors with CHOP- or COP-based
           biopsy, peripheral lymph node assessment (clinically normal or   protocols. Finally, much of the early work on chemotherapy pro-
           abnormal nodes), and thoracic and/or abdominal imaging, is indi-  tocol development for cats with lymphoma occurred during the
           cated when (1) solitary site disease is suspected (stage I) and a   FeLV era and care should be exercised when applying this infor-
           decision between locoregional therapy (i.e., surgery and/or RT)   mation in the post-FeLV era.
           versus systemic therapy (i.e., chemotherapy) is being considered;
           (2) it provides prognostic information that will help a caregiver   Nasal Lymphoma
           make treatment decisions; and (3) complete staging of the extent
           of disease is required as part of a clinical trial. Bone marrow evalu-  Nasal lymphoma is the most common extranodal lymphoma in
           ation may be of particular interest if anemia, cellular atypia, and/  cats. 559  It is usually a localized disease; however, 20% have local
           or leukopenia are present. A WHO staging system exists for the   extension or distant metastasis at necropsy. 560  The majority of non-
           cat that is similar to that used in the dog (see Box 33.2); however,   viral nasal/paranasal diseases in cats are neoplasia, and lymphoma
           because of the high incidence of visceral/extranodal involvement   represents one-third to one-half of these cases. 561–564  It occurs
           in cats, a separate staging system has been evaluated and is often   primarily in older (median age, 9–10 years; range, 3–17 years),
           used (Box 33.5). 558  Because lymphoma in cats is more varied with   FeLV/FIV antigenemic negative cats, and at least three-quarters
           respect to anatomic locations, staging systems are generally less   are B-cell in origin, although T-cell and mixed B-cell/T-cell immu-
           helpful for predicting response.                      nophenotypes are reported in 10% to 15% of cases. 428,559–561,565
             Our knowledge base for treating cats with extranodal lym-  An Italian report documented FeLV antigen (p27 or gp70) expres-
           phoma is not well established, and outcomes are less predictable   sion in nasal lymphoma tissues by immunohistochemistry (IHC);
           than that in dogs, primarily due to the greater variation in his-  however, FeLV antigenemia was not reported in this cohort. 561
           tologic type and anatomic location observed in cats. This is fur-  Siamese cats appear overrepresented and a 2:1 male-to-female
           ther complicated by the plethora of papers that include very small   ratio has also been observed. 561,565  Most are of intermediate- or
           numbers of cases representing multiple anatomic/immunopheno-  high-grade histology; however, small-cell low-grade variants have
           typic and histologic subtypes (e.g., small cell vs large cell variants)   been reported in up to 25% of some cohorts. 560,561,565  Epitheliot-
           together when reporting survival analysis after chemotherapy.     ropism is common if the epithelium is present in the biopsy.