UMLS:C0020505 - FACTA Search

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Query: UMLS:C0020505 (hyperphagia)
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Recent attempts to reduce weight by patients with anorexia nervosa have sometimes led to life-threatening hematologic complications. This report describes an instance in which a patient with anorexia nervosa and pancytopenia drastically improved with treatment that included administration of granulocyte colony-stimulating factor. The patient had lost 27 kg of body weight within 8 months. Even after admission, the blood cell count continued to decrease rapidly as follows: platelet, from 244 x 10(3)/microliters to 44 x 10(3)/microliters; erythrocyte, from 4.04 x 10(6)/microliters to 2.58 x 10(6)/microliters; and leukocyte, from 4.8 x 10(3)/microliters to 1.6 x 10(3)/microliters (granulocyte, 0.8 x 10(3)/microliters). Complications included pneumomediastinum, pneumothorax, purpura, petechiae, hepatomegaly, fever, gangrenous stomatitis, and somnolence. Bone marrow aspiration disclosed absence of fat cells, marrow hypoplasia, and infiltration of the mature lymphocytes. Intravenous hyperalimentation, blood transfusion, gamma-globulin, and antibiotics were administered, but leukopenia and fever remained. However, administration of recombinant human granulocyte colony-stimulating factor dramatically reversed the leukopenia and fever. With careful nutrition therapy, the patient's blood cell count and bone marrow normalized by the time of discharge. It was concluded that severe hematologic disorders may occur in patients with anorexia nervosa, and advanced treatment may be required to save the patient's life.
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PMID:Case report: reversal of severe leukopenia by granulocyte colony-stimulating factor in anorexia nervosa. 768 51

One hundred ten women with gynecologic malignancies underwent 116 subclavian vein Groshong catheter insertions at the bedside under local anesthesia and intravenous sedation. Three (2.6%) additional patients had unsuccessful insertions because of an inability to access the subclavian vein or thread the guidewire. Fluoroscopy was not used. There was one delayed pneumothorax and no insertion-related infections. The 111 single-lumen catheters used primarily for the administration of chemotherapy are the subject of this report. The mean age of patients was 60 (range 13 to 89) years and their average Gynecologic Oncology Group performance score was 1.1 (range, 0 to 3). Diagnoses include 74 ovarian, 19 cervical, 13 uterine, and 5 other gynecologic malignancies. Hyperalimentation was administered in 16 (14%) patients. Grade IV neutropenia occurred in 57 (51%) patients and 44 (40%) received granulocyte colony-stimulating factor during therapy. The average lifespan of catheters was 247 (range, 37 to 703) days, and 39 (35%) women died from disease with their catheter in situ at a mean time of 288 days. Thirty-seven (33%) catheters were removed after completion of chemotherapy at an average time of 239 (range, 78 to 448) days. As of 1/1/94, 22 patients continued to use their catheters at a mean of 313 (range, 182 to 509) days. The remaining 13 (11.7%) catheters were removed due to complications (7 episodes of bacteremia, 3 tunnel infections, 2 catheter migration/thromboses, and 1 catheter laceration). Twenty episodes of fever in 17 (15.3%) patients were evaluated with blood cultures in the absence of a tunnel infection. None of the 10 culture negative cases resulted in catheter removal, whereas 7 of 10 patients with bacteremia had catheters removed. Exit site infections occurred in 23 (21%) patients and were resolved with local measures and oral antibiotics. The risk of exit site cellulitis was 3.3% per month. When compared to placement of permanent central venous access devices at our institution in the operating room or radiology suite, bedside placement of Groshong catheters resulted in a savings of $1448 and $231 per case, respectively.
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PMID:An evaluation of Groshong central venous catheters on a gynecologic oncology service. 789 88

In 1994, Zhang et al. of Rockefeller University in New York reported the first successful complementary DNA (cDNA) cloning of leptin by the positional cloning method. Leptin was identified as the gene of ob/ob mouse in genetic obesity syndromes. It has very strong food intake control, and body weight and energy expenditure. The name "leptin" derived from the Greek word leptos, meaning "thin." We hereby review major advances leading to our current finding of leptin, leptin receptor and its structure, the outline of homozygote, and also influence of leptin in the pituitary. (The structure of leptin) The mouse obese gene has been localized to chromosome 6. With human leptin gene on chromosome 7q31.3, its DNA has more than 15000 base pairs and consists of three exons and two introns. For bioactivation of leptin the importance of disulfide-binding site is suggested. Human leptin which replaced the 128-th arginine with glutamine has the function of an aldosteron antagonist, which is reported to have the function of athrocytosis inhibition. The resemblance of leptin precursor of human, mouse and rat is very high, i.e., mouse and rat homology is 96% and mouse and human homology is 83%. (The structure of leptin receptor) The mutant gene, which is the cause of obesity, was shown on map on diabetic mouse (db/db) chromosome 4, and it was proven to be the same as the leptin receptor gene cloned by Tartaglia et all. Further studies have found the Zucker fatty rat (fa/fa) to be incorporated into a linkage map of rat chromosome 5, whose region of rat is the equivalent to the region of conserved synteny of the db/db mouse gene. The leptin receptor is glycoprotein consisting of a single transmembrane-spanning component. The primary structure of leptin receptor belongs to the cytokine-class1 family, the single membrane-spanning receptor, and is highly related to the gp130 signal-transducing component of the interleukin-6 (IL-6) receptor, the granulocyte colony-stimulating factor (G-CSF) receptor, and the leukemia inhibitory factor (LIF) receptor. The leptin receptor is known to have at least six existing isoforms (Ob-Ra, b, c, d, e, f) from the difference in splicing. (Homozygote Mutation of Leptin and Leptin Receptor :Hormone Secretion Disorders) The point mutation of ob/ob mouse and the splicing mutation of db/db mouse show remarkable obesity and hyperphagia. These obesity models show a reproduction disorder with both the male and the female, and they develop with homozygote. The cause is thought to be the gonadotropin secretory abnormality in pituitary. Three family lines report the cases of this deficiency, and it is considered that the secretory abnormality in pituitary develops into hypogonadotropic. These patients show low value in plasma FSHbeta (follicle stimulating hormone-beta and LHbeta (luteinizing hormone-beta which are produced from pituitary, and the plasma GnRH (gonadotropin releasing hormone) level is also low. Furthermore, the leptin receptor deficient family line was reported in 1998, in which case only the homozygote developed. The plasma leptin concentration of normal human is about 8.0 ng/ml, and this case with leptin receptor deficiency has high value of 500-700 ng/ml, which is the equivalent to the db/db mouse. (Role of Leptin in Hypothalamus-Pituitary-Periphery Function) The role of leptin which regulates pituitary hormones suggests the promotion the GHRH (growth hormone releasing hormone) secretion in hypothalamus-pituitary axis, with the possibility of the rise in secretion of GH (growth hormone) in pituitary, i.e. effects of icv (intracerebroventricular) infusion of leptin has spontaneously stimulated GHRH, which promotes GH secretion in the normal rats. On the other hand, topical treatment of GH3 (derived from a rat pituitary GH-secreting cell line) with leptin directly inhibits cell proliferation. The obesity model animals (ob/ob, db/db, fa/fa) have equally plump body compared to the normal models, which shows signs of sufficient growth. (Localization and Functional Relevance of Leptin and Leptin Receptor in Rodents Pituitary) Aside from being the food intake inhibitor and the energy control factor, leptin takes part in controlling the pituitary hormones. Promoting the secretion of GH, PRL (prolactin), TSHbeta (thyroid stimulating hormone-beta, FSHbeta/LHbeta, and inhibiting the secretion of ACTH (adrenocorticotropic hormone) are the major changes of pituitary hormones which are brought on by leptin. The expressive localization is specific, and immunohistochemistry (IHC) method recognized leptin in granular state in FSHbeta, LHbeta and TSHbeta positive cells. In our biochemical examination, the bulk of the expression of leptin is recognized in fraction of the secretory granule. In particular, FSHbeta cells had the highest percentage rate of colocalized leptin in rat pituitary. On the other hand, leptin receptor has been reported to be found only in normal rat pituitary, human pituitary adenoma, and respective cell lines in pituitaries by the RT-PCR method until now, but we disclosed for the first time the localization of leptin receptor on the plasma membrane of GH-secreting cells with the IHC method that has not been cleared so far. These findings show that leptin and leptin receptor have been expressed in different cells, and that the rat pituitary glands entertain paracrine mechanism between leptin (FSHbeta/LHbeta cells) and leptin receptor (GH cells). The function of paracrine in this pituitary suggests a new point of view in hypothalamus-pituitary axis, and it shall be concerned with many aspects such as hormone secretions and proliferation/inhibition. (Human Pituitary Adenoma) Preliminary report of leptin and leptin-receptor relationship with pituitary adenoma that has secretion abnormality has been filed, and its manifestation is being observed by the RT-PCR. Leptin and leptin receptor are expressed in most adenoma, and it is thought to function by autocrine and paracrine pathway in the adenomas. Leptin has been located in ACTH-secreting adenoma most frequently, especially in ACTH carcinoma. The leptin receptor is detected in all adenomas with high percentage rate, with both long and short forms, and then many cases of nonfunctioning pituitary adenomas, compared with other adenomas, have been reported to be positive with both long and short forms of leptin receptor as detected by RT-PCR. The HP75 cell line is derived from the nonfunctioning pituitary adenoma, which produces FSHbeta and LHbeta. The expression of leptin receptor in nonfunctioning pituitary adenoma, and the suppression of HP75 multiplication may lead to the possible hypothesis of leptin becoming one factor for the treatment of pituitary adenoma, especially in gonadotropin adenomas.
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PMID:Leptin and the pituitary. 1182 4

We have established safe and efficient methods for autologous hematopoietic stem cell (HSC) transplantation in cynomolgus monkeys (Macaca fascicularis) that include regimens of supportive care to ensure survival during hematopoietic reconstitution following otherwise lethal total body irradiation. Eleven young adult cynomolgus monkeys were studied. Bone marrow was aspirated from the ilium and/or tuber ischiae after administration of recombinant human stem cell factor (SCF) and granulocyte colony-stimulating factor (G-CSF). Using the immunomagnetic selection method, CD34+ cells were then isolated (90 to 95% pure) as a fraction containing HSCs. Just prior to transplantation, the animals received myeloablative total body irradiation-500 to 550 cGy daily for two days. The monkeys re-infused with CD34+ cells developed moderate to severe myelosuppression, with some animals requiring intravenous hyperalimentation, antibiotic administration, and blood transfusion. Hematopoiesis was restored in all animals after transplantation. It took 12 days, on average, until the peripheral white blood cell count reached more than 1,000 cells/microl. Up to two years after transplantation, signs of radiation-induced pneumonitis or other radiation-related disorders were not evident at the aforementioned dose of irradiation. This transplantation model will be useful for testing new approaches using HSCs for therapy of many diseases and will offer unique insights into the biology of these cells.
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PMID:Safe and efficient methods of autologous hematopoietic stem cell transplantation for biomedical research in cynomolgus monkeys. 1240 38