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Query: UMLS:C0019045 (
hemoglobinopathies
)
2,704
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In 1954 a then 31-yr-old male was found to have erythrocytosis. Over the ensuing decade he received 72 mCi32P. In 1964 his daughters were found to have erythrocytosis. Further investigation led to the discovery of hemoglobin Yakima, a variant with high oxygen affinity. He received no further therapy and was well until 1975, when he developed the preleukemic syndrome. Within 12 mo. he developed acute nonlymphocytic leukemia accompanied by fetal erythropoiesis. Because the inital discovery of this type of
hemoglobinopathy
came 27 yr after the introduction of 32P for use in the treatment of
polycythemia vera
, and because there are now known to be more than 39 different high-oxygen-affinity hemoglobins, we anticipate that more patients such as ours have been exposed to 32P. The exposed population should be cosely followed, since this will likely permit assessment of the risk of 32P-induced leukemia in a nonneoplastic condition.
...
PMID:32P and acute leukemia: development of leukemia in a patient with hemoglobin Yakima. 66 62
We report a case of erythrocytosis in a patient with end-stage renal failure on chronic hemodialysis. The patient with polycystic kidney disease had an average Hb level of 10 g/dl while on hemodialysis for 3 years. He developed erythrocytosis (Hb 17.6 g/dl) following a cadaveric renal transplantation. No signs suggesting
polycythemia vera
were found. Nonrenal causes of secondary erythrocytosis such as anoxia,
hemoglobinopathies
or tumors were excluded. Angiography showed renal artery occlusion of the native kidney. Serum erythropoietin level was 85 U/l (normal 52 +/- 31 U/l) as measured by 3H-thymidine uptake. It is suggested that ischemia caused by the renal artery thrombosis stimulated the erythropoietin production in the native polycystic kidney.
...
PMID:Erythrocytosis associated with renal artery thrombosis in a patient with polycystic kidney disease on hemodialysis. 211 27
Fetal hemoglobin (Hb F) may increase in patients receiving chemotherapeutic drugs, a result of potential use in patients with symptomatic
hemoglobinopathies
. We examined Hb F in 13 patients with myeloproliferative disease (six
polycythemia vera
, five
polycythemia vera
with myeloid metaplasia, one agnogenic myeloid metaplasia, and one chronic myelogenous leukemia) who were treated with hydroxyurea. Four patients showed an increase in Hb F from less than 1% to between 5% and greater than 8% while on hydroxyurea, and a decline to less than 1% when the drug was discontinued. This group of "responders" received a higher average daily dose of hydroxyurea, which was administered continuously rather than intermittently, when compared to the "nonresponders." Mean corpuscular volumes (MCVs) rose in most patients, and i antigen remained elevated or decreased; neither parameter correlated with Hb F levels. Both responders and nonresponders had therapeutically desirable suppression of WBCs and platelets, and almost all had no depression of reticulocytes or Hb.
...
PMID:The effect of hydroxyurea on hemoglobin F in patients with myeloproliferative syndromes. 241 68
During a survey for
hemoglobinopathies
in over 9000 residents of Hiroshima Prefecture, Japan, a fast moving hemoglobin was identified in eight members of three generations in a Japanese family. The abnormal hemoglobin, named Hb Hiroshima, constitutes about 50% of the total hemoglobin in hemolysates from the carriers who have a mild
erythremia
but are otherwise apparently clinically unaffected. All preparations of Hb Hiroshima have increased affinity for oxygen, by either tonometric or oxygen electrode determinations. At pH 7.0, the oxygen pressure, P(50) required to half saturate an unfractionated hemolysate from a carrier was one-half that of Hb A, and the P(50) of a purified sample containing no Hb A was one-fourth that of Hb A. The pH dependence of the oxygen equilibrium (Bohr effect) is below normal, as shown by the absolute value of the Bohr effect factor which is about half that of Hb A, in the pH range between 7.0 and 7.4. The Hill constant, n, for Hb Hiroshima between pH 7.0 and 7.4 is 2-2.4, compared to 2.8-3 for Hb A under the same conditions, indicating reduction of, but not complete abolition of heme-heme interaction. Urea dissociation and canine hybridization tests located the biochemical lesion in the beta chain. Fingerprints (Ingram), carboxypeptidase digestion, and amino acid analysis demonstrated that the substitution was at residue 143 in the beta chain, where histidine was replaced by aspartic acid.In contrast to other recently described high oxygen affinity mutants that show intact Bohr effects, all three of the major characteristics of the reversible combination of hemoglobin with oxygen (oxygen equilibrium, heme-heme interaction, and pH dependence) are affected in Hb Hiroshima. A tentative interpretation of these effects, relating structure to function, is offered in terms of recently developed models of normal hemoglobin.
...
PMID:Hemoglobin Hiroshima (beta-143 histidine--aspartic acid): a newly identified fast moving beta chain variant associated with increased oxygen affinity and compensatory erythremia. 577 89
A patient with sickle cell beta+-thalassemia had thrombocytosis and erythrocytosis due to a myeloproliferative disorder best classified as
polycythemia vera
. RBC counts were 6 to 8 million/cu mm and the red cell mass was 33 ml/kg. A higher red cell mass and an increased hematocrit value were prevented probably by factors related to the
hemoglobinopathy
, such as microcytosis and hemolysis. The diagnosis of
polycythemia vera
in patients with sickle cell disease may be difficult to document and the association of these disorders has not been previously reported. This patient's high red blood cell and platelet counts did not result in recurrent vasoocclusive crises.
...
PMID:Sickle cell thalassemia, thrombocytosis, and erythrocytosis. 722 49
Therapeutic erythrocytapheresis (TEA) has been used in different diseases such as
polycythemia vera
(PV), secondary erythrocytosis or hemochromatosis as a process of the less cumbersome but more expensive phlebotomy. TEA is preferred in emergency conditions such as thrombocytosis or in conditions such as porphyria cutanea tarda (PCT) or erythropoietic porphyria when plasma exchange (PEX) is often combined with TEA to reduce extracellular levels of uroporphyrin which contribute to plasma hyperviscosity. TEA is often combined with drug therapy that varies from etoposide in PV to EPO and desferoxamine which are used to mobilize and reduce iron stores in hemochromatosis. Benefits from this combination may be more long lasting than expected. Nonetheless for TEA, there is no standard protocol and, clinical experience with this therapy remains highly anecdotal. Therapeutic red cell-exchange (TREX) has been used with much interest over the years, starting with the management of hemolytic disease of the newborn and later used to correct severe anemia in thalassemia patients thereby preventing iron overload. It has also been used for the management of complications of sickle cell disease such as priapism, chest syndrome, stroke, retinal, bone, splenic and hepatic infarction or in preparation for surgery by reducing HbS to less than 30%. Automated apheresis has also favored the use of TREX in conditions such as paroxysmal nocturnal hemoglobinuria and aniline poisoning, arsenic poisoning, Na chlorate intoxications and CO intoxications,
hemoglobinopathies
, autoimmune hemolytic anemia, reactions due to ABO incompatibility, in preparation for ABO incompatible bone marrow transplantation or for preventing anti-D immunization after the transfusion of D(+) cells to D(-) recipients. Another field of application has been in the emergency management of intraerythrocytic parasite infections such as malaria and babesiosis. Application of TREX may be wide but its real use remains limited. In our personal experience, in 16 years, only 167 TREX procedures have been carried out in a total of 13,747 therapeutic procedures. This represents only 1.21% of the total.
...
PMID:Clinical application of therapeutic erythrocytapheresis (TEA). 1083 21
Polycythemia vera
- the most frequent form of a primary erythrocytosis in adult patients - represents an extremely rare disease in pediatric and juvenile patients as do congenital primary and secondary erythrocytoses. Frequently, in patients with these diseases clinical problems do not occur before adulthood. Systematic data on clinical and laboratory evaluations as well as on treatment regimens are sparse. In addition, in the majority of cases with congenital erythrocytosis, the etiology is unknown. For those reasons, a protocol (PV-ERY-KA 03) for the systematic collection of clinical, hematological, biochemical, biological as well as treatment data of children and adolescents with
polycythemia vera
or congenital erythrocytosis including the
hemoglobinopathies
with high affinity hemoglobin, familial 2,3-BPG deficiencies, and those of unknown origin, has been developed. These data are combined with molecular analyses which focus initially on EPO-receptor and vHL-gene examination, but will later be extended into presently unexplored pathophysiologic regulatory circuits. In addition, pathophysiologic changes due to the erythrocytosis will be studied. The co-ordinated medical care for patients with those rare diseases within a collaborative trial accompanied by scientific projects is aimed at the improvement of the treatment of these patients as well as to a better understanding of the underlying biological processes.
...
PMID:Congenital erythrocytosis and polycythemia vera in childhood and adolescence. 1517 60
The approach to a patient with erythrocytosis is greatly simplified by assessing the clonality of the process upfront. In this regard, there has been a dramatic shift toward genetic testing and away from traditional tests, such as measurement of red cell mass. Clonal erythrocytosis is the diagnostic feature of
polycythemia vera
(PV) and is almost always associated with a JAK2 mutation (JAK2V617F or exon 12). All other scenarios represent non-clonal erythrocytosis, often referred to as secondary erythrocytosis. Serum erythropoietin (Epo) level is usually normal or elevated in secondary erythrocytosis and subnormal in PV. Therefore, in a patient with acquired erythrocytosis, it is reasonable to begin the diagnostic work-up with peripheral blood JAK2 mutation analysis and serum Epo measurement to distinguish PV from secondary erythrocytosis. Conversely, the patient with life-long erythrocytosis is more likely to suffer from congenital polycythemia and should therefore be evaluated for germline mutations that result in enhanced Epo effect (for example, Epo receptor mutations), altered intracellular oxygen sensing (for example, mutations involving the von Hippel-Lindau tumor suppressor gene) or decreased P50 (for example, high-oxygen-affinity
hemoglobinopathy
). The order of tests in this instance depends on the clinical scenario and serum Epo level.
...
PMID:The complete evaluation of erythrocytosis: congenital and acquired. 1929 44
