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Query: UMLS:C0027947 (
neutropenia
)
17,527
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Clinicopathological findings of six cases of Hairy cell leukaemia are presented. All the patients were males, the age ranged between 32-57 years. Complications of anaemia and
neutropenia
were common modes of presentation. Hepatomegaly and splenomegaly were present in all the cases whereas only 2 patients had lymphadenopathy. Severe pancytopenia was detected in 3 cases and circulating hairy cells were present in all the cases. Trephine biopsy done in all six patients was found to be diagnostic.
Tartrate
resistant acid phosphatase was detected in the hairy cells of 2 cases.
...
PMID:A clinico-pathological study of six cases of hairy cell leukaemia. 179 14
Infants with platelet counts below 100,000/mm3 should be evaluated for the cause of the thrombocytopenia. A maternal history to determine previous illnesses and particularly thrombocytopenia, drugs taken, and perinatal complications is important, and a maternal platelet count must be obtained. Physical examination of the infant is revealing in the
TAR
and giant cavernous hemangioma syndromes and may suggest intrauterine infection. A complete blood cell count (CBC) should be done to look for associated anemia and
neutropenia
or for polycythemia. Red cell morphology may be helpful. A bone marrow examination may be necessary if the etiology is unclear after the initial studies are done. Investigation of the well child will usually find an etiology for the thrombocytopenia. It is important to consider and test for isoimmune thrombocytopenia and intrauterine infection. In the ill infant multiple factors may contribute to a low platelet count, and a single, precise etiology often cannot be established. Thrombocytopenia with or without DIC may be an important indicator of sepsis. Platelet transfusions are helpful if the thrombocytopenia is due to decreased production or intrinsic platelet defects. In disorders with increased platelet destruction, donor platelets may survive long enough to be of some benefit. In ill infants treatment of the underlying problem often results in resolution of the thrombocytopenia. Transfusions should be used for the bleeding child and for the infant with severe thrombocytopenia who is the product of a vaginal delivery. In addition to being therapeutic, platelet transfusions may also assist in diagnosis.
...
PMID:Thrombocytopenia in the newborn. 635 31
Laboratory diagnosis of inherited bone marrow failure syndromes includes general evaluations, such as blood counts, examination of the peripheral blood smear for morphology, and bone marrow aspirates and biopsies, which may help the clinician classify the patient, particularly if there are no characteristic physical anomalies. Specific diagnoses require unique tests that are only available for a few of the diagnoses. The most useful is chromosome breakage in the diagnosis of FA, with gene mutation analysis or mapping about to become the gold standard when all of the FA genes have been cloned. The diagnosis of DC remains clinical at this time, although linkage to Xq28 and skewed maternal X inactivation may be helpful in some families. Laboratory proof of SD may be provided by decreased serum trypsinogen or other evidence of exocrine pancreatic insufficiency. CHH is substantiated when absent central pigment in hair is found and when it is mapped to 9p21-p13. The only mitochondrial syndrome, PS, is proved with demonstration of deleted mitochondrial DNA. RD is diagnosed from blood and marrow studies that demonstrate lack of lymphoid as well as myeloid activity. Amega requires absent or abnormal marrow megakaryocytes; if radii are also absent, the diagnosis is
TAR
. DBA usually has elevated red-cell ADA, and the DBA locus may map to 19q13. KS is diagnosed in patients who have congenital nonimmune severe
neutropenia
. Clinical suspicion of particular diagnoses can often be substantiated by laboratory tests of varying specificity.
...
PMID:Bone marrow failure syndromes. 1040 77
There are several common themes that are emerging from our expanding knowledge about the inherited bone marrow failure syndromes. Patients have a spectrum of birth defects, which are relatively characteristic for each syndrome. but overlap in features such as poor growth. radial ray anomalies, and involvement of skin, eyes, renal, cardiac, skeletal, and other organs. Within each syndrome the composition and severity of the physical phenotype varies widely, and it may require the astute observer to make the correct diagnoses in the milder cases. There is also a wide spectrum to the hematologic picture. These range from single cytopenias such as DBA, SCN, and
TAR
, which do not develop pancytopenia, to SD and Amega patients who begin with deficiency of a specific single lineage, but evolve to aplastic anemia, to patients with FA or DC, who may present with a deficiency of any one of the cell lines, but almost inevitably end up with full-blown aplastic anemia. Acute myeloid leukemia has been observed in FA, DBA, DC, SD, SCN, and Amega, although not yet in
TAR
patients. MDS has also been reported in all of the same disorders as AML, although whether it is a preleukemic condition or an independent bone marrow dyspoiesis is not yet clear. Solid tumors are also now appearing in patients whose underlying disease involves hematopoiesis and physical development. These tumors occur at much younger ages than in the general population, in patients who do not appear to have the usual risk factors, and have patterns that are characteristic to the syndrome, such as head and neck and gynecologic cancers in FA and DC, and osteogenic sarcomas in DBA. The other syndromes have not yet been reported to have a propensity for solid tumors. Several genes have been identified that are mutant in some of the syndromes, although the pathophysiology is still not entirely clear. The inheritance patterns include X-linked recessive, autosomal dominant, autosomal recessive, and even mitochondrial. The FA gene products appear to cooperate, and are important in the pathways involved in response to DNA damage. However, the role of this pathway in developmental defects, hematopoietic failure, and the specific malignancies in FA is not fully elucidated. The DC gene products are important for maintenance of telomere length, which may have relevance to development of aplastic anemia and malignancies, but the relation to the physical phenotype is less apparent. The role of mutations in c-mpl in Amega is more straightforward. since the gene codes for the receptor for thrombopoietin. which is the hormone required for megakaryocyte and platelet development; patients with mutant c-mpl do not have birth defects. The role of mutations in RPS19 in erythropoiesis or developmental defects in DBA patients is not obvious, and the increased frequency of osteogenic sarcomas suggests that at least that subset of patients may have a mutant tumor suppressor gene (such as p53, the mutant gene in Li-Fraumeni syndrome) [68]. Although patients with SCN have mutations in neutrophil elastase, patients with similar mutations may have relatively benign cyclic
neutropenia
, or may even have normal neutrophil levels [69,70]. The mitochondrial gene deletions in Pearson's Syndrome result in variable degrees of acidosis, and varied organ involvement due to heteroplasmy. Thus, the disorders included under the rubric "inherited bone marrow failure syndromes" have clinical. hematologic, oncologic, and genetic diversity.
...
PMID:Bone marrow failure syndromes in children. 1243 Jun 21
A case of hairy cell leukaemia (HCL), a rare leukaemia, is reported here. The patient was presented with high grade continuous fever with left upper abdominal discomfort for 6 days. He was moderately anaemic, had no peripheral lymphadenopathy with mild hepatosplenomegaly. He was anaemic (Hb-7.8 gm/dl), total leukocyte count was 20 x 109/L. Peripheral blood film showed lymphocytosis (92%) with
neutropenia
(8%) and absolute neutophil count (ANC) was 1 x 109/L. On review, 88% of the peripheral cells had peripheral hairy projections resembling hairy cell (HC). Bone marrow examination was consistent with HCL (morrow hairy cell = 52%) including marker studies.
Tartrate
resistant acid phosphatase test (TRAP) was also positive. He had opportunistic mycobecterial infection giving a positive bronchial lavage for acid fast bacilli. After controlling the infection he was advised a single dose chemotherapy of 2-chlorodeoxyadenosine (2-CDA). After that he was in partial remission and after 25 months clinical and pathological relapses occurred and a second dose of 2-CDA was given and the patient went into complete remission.
...
PMID:Hairy cell leukaemia with advanced treatment - a case report. 1289 49
