UMLS:C0018681 - FACTA Search

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Query: UMLS:C0018681 (headache)
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Double filtration plasmapheresis, one kind of fractionation plasmapheresis, was developed from membrane type plasmapheresis to remove only the pathogen and return the normal protein back to the patient. We started our automated double filtration plasmapheresis since December 1993. There were 13 patients who received one hundred treatments totally during one year period. And they are myasthenia gravis (8 patients); acute inflammatory demyelinating polyneuropathy (1 patient), multiple myeloma (1 patient); acquired factor VIII inhibitor (1 patient); autoimmune hemolytic anemia (1 patient); systemic lupus erythematous (1 patient). Technically double filtration plasmapheresis is easy to perform and time-saving. It also makes necessity of replacement fluid less frequent. Incidence of complication is rare, and this includes hypotension 2%, palpitation 1%, headache 1%, hemolysis 4%, air emboli 1%, high secondary pressure 2%, and no motality during our treatment. Clinical response is documented in cases of myasthenia gravis; acute inflammatory demyelinating polyneuropathy and acquired factor VIII inhibitor in our study. In conclusion, double filtration plasmapheresis is a time-saving, convenient, and safe therapeutic modality with rare complication. Because its effectiveness on limited kinds of diseases and costs relatively high price, thus plasmapheresis should be used in selected cases and treat aggressively if indicated.
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PMID:[Clinical experience of automated double filtration plasmapheresis]. 904 60

Multiple myeloma is a disease with slow incidence and polymorphous signs and symptoms. We need don't overlook the unspecific symptoms like headache or bone pain.
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PMID:[Multiple myeloma. Diagnostic errors]. 945 80

Many patients with solid tumours or haematological malignancies develop anaemia, and the use of chemotherapy aggravates this condition. Red blood cell transfusions are often necessary but are associated with many risks, including immunosuppressive effects that may increase the risk of tumour recurrence. Many clinical studies have shown that epoetin (recombinant human erythropoietin) therapy can ameliorate, or even prevent, the anaemia associated with chemotherapy and cancer (including solid tumours as well as multiple myeloma or lymphoma). Response, defined as a significant (>50%) reduction in the rate of transfusions and/or a significant (>2 g/dl) elevation of haemoglobin levels, is usually observed in about 60% of the patients, irrespective of the type of standard chemotherapy given. The decrease in transfusion requirements is the major objective of epoetin therapy, because they are costly, inconvenient and are associated with potential adverse effects. Epoetin therapy also brings about substantial improvements in various indices of quality of life that are proportional to changes in haemoglobin level. However, large dosages of epoetin are generally required and about 40% of patients do not respond even to very high dosages. A number of adverse effects of epoetin therapy have been observed in patients with renal failure. The most prominent include hypertension, headaches, seizures and thrombotic events. These complications can also occur in patients with renal failure who are not receiving epoetin. Their exact incidence has been assessed in placebo-controlled studies, which have demonstrated that there is no increased risk of thrombosis or seizure with epoetin. However, it is now generally accepted that 10 to 20% of haemodialysis patients will experience an elevation of blood pressure because of epoetin and there is no doubt that a rapid elevation of blood pressure may cause generalised seizures. In other settings, including anaemia associated with cancer, very few adverse effects have been attributed to epoetin. However, close monitoring of blood pressure should be implemented in patients with hypertension. There is no evidence that epoetin stimulates tumour growth. With the dosages of epoetin currently used, there is no evidence of stem cell competition, resulting in thrombocytopenia or neutropenia, or of stem cell exhaustion, producing secondary anaemia when treatment is stopped. Epoetin is a remarkably well tolerated drug that offers significant benefits in patients with cancer.
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PMID:A risk-benefit assessment of epoetin in the management of anaemia associated with cancer. 980 42

Anemia is a common complication in patients with hematologic malignancies, and is caused by a variety of mechanisms, including neoplastic cell infiltration into the bone marrow, hemolysis, nutritional deficiencies, and defects in erythropoiesis as a result of the disease itself or cytotoxic therapy. The anemia associated with multiple myeloma is caused by inadequate erythropoietin levels consequent to renal impairment and the effect of inflammatory cytokines. The degree of anemia can have prognostic importance, as is the case with multiple myeloma, or be a significant indicator of disease stage, as noted with chronic lymphocytic leukemia. Anemia results in fatigue, exhaustion, dizziness, headache, dyspnea, and decreased motivation, seriously affecting a patient's quality of life. Since anemia is so prevalent in hematologic malignancy patients, its treatment must be an integral part of disease management, to improve quality of life and to possibly increase potential survival. Clinical studies have shown that effectively treating anemia and increasing hemoglobin levels using recombinant human erythropoietin (rHuEPO, epoetin alfa) has a significant effect on transfusion requirements and quality of life.
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PMID:The effects of anemia in hematologic malignancies: more than a symptom. 1208 53

Recent reports showed that thalidomide has anti-angiogenic activity and is effective for the treatment of refractory multiple myeloma (MM). We examined the relationship between the clinical efficacy and adverse effects of thalidomide and the plasma concentrations of this drug as well as angiogenic growth factors in refractory MM. Ten out of twenty-four evaluable patients (42%) showed more than 25% reduction of M-protein, and eight (33%) achieved more than 50% reduction. These changes were associated with restoration of anemia and recovery of normal immunoglobulin level. Somnolence and headache, constipation, peripheral neuropathy and skin rash were frequently observed, but were well tolerated. However, grade 2 - 4 severe neutropenia was also observed in nine cases. These adverse effects other than neutropenia occurred more frequently in the patients with higher plasma concentrations of thalidomide (2.0 microg/ml at 12 h after the last administration) and were readily alleviated by dose reduction. In contrast, neutropenia developed regardless of the plasma concentration. Plasma concentrations of angiogenic growth factors were frequently elevated before treatment. After thalidomide treatment, these growth factor levels tend to decrease to near-normal ranges in responders but were still high in most non-responders. After thalidomide treatment, plasma vascular endothelial growth factor (VEGF) level was significantly reduced in responders (P = 0.025), but not in non-responders (P = 0.37). Reduction of plasma VEGF level might be an important indicator for anti-myeloma effect of thalidomide.
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PMID:Thalidomide for the treatment of refractory multiple myeloma: association of plasma concentrations of thalidomide and angiogenic growth factors with clinical outcome. 1235 57

Percutaneous vertebroplasty is a minimally invasive procedure that is effective in the treatment of pain resulting from pathologic compression fractures, osteolytic bone metastases from solid tumors, myeloma, vertebral hemangioma, and osteoporotic compression fractures. A discussion of a patient with severe, aggressive metastatic breast cancer to the spine with compression and osteolysis of multiple lumbar vertebral bodies is presented. Despite treatment with opiates, chemotherapy, radiation therapy, and the implantation of a morphine pump, her pain was not adequately treated until she underwent multilevel vertebroplasty. The clinical and technical application of vertebroplasty in the context of the management of vertebral pain of malignant origin is presented as an integral part of multidisciplinary pain management.
Curr Pain Headache Rep 2002 Dec
PMID:Percutaneous vertebroplasty in the management of a patient with malignant pain and associated osteolytic compression fractures. 1241 2

Multiple myeloma (MM) is a plasma cell malignancy characterized by infiltration of bone marrow, bone destruction, infiltration of soft tissues with plasma cells, and suppression of normal hematopoiesis. The production of monoclonal immunoglobulins with or without light chains is a major feature of the disease. Full spectrum of plasma cell dyscrasias include monoclonal gammapathy of undetermined significance, smouldering myeloma, indolent multiple myeloma, and fully developed, symptomatic multiple myeloma. The usual presenting features of MM include bone pain, weakness, fatigue, fever and infection. Neurologic symptoms are less common but one must not forget that MM may present with a neurologic disease. Careful neurologic history and examination are mandatory in patients with MM. Neurologic symptoms may be a direct manifestation of MM or may be due to the immune effect of monoclonal proteins directed against different neural structures. Finally, metabolic consequences (uremia, hypercalcemia, hyperviscosity) of MM may produce a broad spectrum of different neurologic symptoms including headache, blurring of vision, drowsiness, precoma, coma, vertigo, ataxia, hemiparesis and epileptiform seizures. The most common location of bone changes in MM is the thoracic spine, where it causes osteolytic changes with consequent compressive fractures. The most disastrous sequel is paraplegia. Multiple vertebral involvement with the evidence of osteolytic changes in other bones is usual, but solitary vertebral myeloma may occur. Myeloma usually involves the bone of the vertebral body and then spreads into the extradural space. However, patients with solitary extradural myeloma have been reported. Skull myeloma is frequently asymptomatic. It may grow externally or, rarely, there is intracranial expansion. Involvement of the cranial nerves is not rare, with II, V, VI, VII and VIII cranial nerves being most often affected. Isolated intracerebral plasmacytomas are extremely rare. Diagnostic approach includes plain X-rays of the skeleton, which was found to be the method of choice for demonstration of osteolytic changes, whereas magnetic resonance with gadolinium enhancement most reliably displays the degree of vertebral involvement and demonstrates any associated soft tissue mass. Current treatment of osteolytic changes in multiple myeloma include chemotherapy, radiotherapy in combination with dexamethasone, monthly infusions of bisphosphonates, surgical decompression, and kyphoplasty. Therapeutic approach is dictated by the presenting symptoms. In case of pain as the predominant symptom, treatment with chemotherapy and radiotherapy may be appropriate. Compressive symptoms are relieved with dexamethasone followed by radiotherapy and chemotherapy. Surgical decompression is used in patients with vertebral collapse and vertebral instability. Kyphoplasty is a new method used in the treatment of osteolytic changes of vertebral bodies. A viscous cement is injected into the cavity by a balloon-like inflatable bone tampon. It has been successfully employed to improve the quality of life, to reduce pain, and to increase overall functioning in patients with vertebral compression fractures by restoring most of the original height of the vertebral body. Bisphosphonates reduce pain associated with osteolytic changes in multiple myeloma, but also significantly reduce skeletal events (pathologic fracture, spinal cord compression, surgery or irradiation of bone) via unknown mechanism. It seems that bisphosphonates, by inhibiting bone resorption, alter the microenvironment in which the MM cells grow.
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PMID:[Neurologic sequelae of bone changes in multiple myeloma and its therapy]. 1263 Mar 41

A 63-year-old man was admitted because of general malaise, fever, headache, generalized lymphadenopathy and hepatomegaly in July 2002. He was diagnosed as having multiple myeloma (MM) (IgG-kappa type) with atypical plasma cells in the bone marrow, lymph nodes and cerebrospinal fluid. Systemic and intrathecal chemotherapy were effective. Because of an increase of polyclonal IgE, electrophoretic patterns revealed an M-peak which was not as sharp as that in IgG myeloma. IgE production is not impaired by the pathologic process in MM patients.
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PMID:[Multiple myeloma (IgG-kappa) infiltrating central nervous system, lymph nodes, liver, and kidneys, and with elevation of IgE]. 1519 53

Although thalidomide was withdrawn in the 1960s after its teratogenic property was recognized, it was subsequently found that this drug possesses immunomodulatory and anti-inflammatory effects. Recent studies have also demonstrated that thalidomide has antineoplastic activity via an antiangiogenic mechanism. Observations in the late 1990s that the microenvironment in the bone marrow plays a role in tumor progression in multiple myeloma provided an impetus to use thalidomide for the treatment of this disease. It is known that thalidomide monotherapy is effective in one-third of refractory cases, and in combination with glucocorticoids and/or antineoplastic drugs, thalidomide provides a response rate of more than 50%. Thus, thalidomide therapy is considered a standard approach for the treatment of relapsed and refractory myeloma. The exact mechanism of the antimyeloma effect of thalidomide is not yet clearly understood. Anti-angiogenic effects, direct activity in tumor cells such as the induction of apoptosis or G1 arrest of the cell cycle, the inhibition of growth factor production, the regulation of interactions between tumor and stromal cells, and the modulation of tumor immunity have been considered as possible mechanisms. In addition to its teratogenicity, the adverse effects of thalidomide have been general symptoms such as somnolence and headache, peripheral neuropathy, constipation, skin rash, and other symptoms. Although these adverse effects are generally reversible and mild, grade 3 and 4 toxicities such as peripheral neuropathy, deep venous thrombosis, neutropenia, and toxic dermal necrosis have occasionally been reported. The application of thalidomide therapy in patients with multiple myeloma is being broadened to include not only cases of refractory myeloma, but also previously untreated cases, as well as for maintenance therapy after hematopoietic stem cell transplantation and for the treatment of other hematological diseases. The safe use of this drug will depend on the establishment of diagnostic and treatment guidelines. In addition, the establishment of a nation-wide regulation system is urgently needed in Japan.
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PMID:Thalidomide for the treatment of multiple myeloma. 1532 81

(1) First-line treatment of multiple myeloma depends first and foremost on the patient's age. There is no standard treatment for relapses and the median survival time after the first relapse is only 12 to 15 months. (2) Bortezomib, a cytotoxic agent, inhibits the 26S proteasome involved in protein breakdown in mammalian cells. It is licensed for use in myeloma after multiple treatment failure. (3) Three dose-finding studies showed some effects of 1 mg/m2 and 1.3 mg/m2 bortezomib administered twice a week for two weeks, with each course followed by a 10-day treatment-free period. It is not known whether 1.3 mg/m2 is more effective than 1 mg/m2. (4) In a non comparative trial that included 202 patients with multidrug-resistant myeloma, progression-free survival time increased to a median of 6.6 months (compared to 3.3 months after previous relapses), and the median overall survival time was 7 months in the 75% of patients who did not respond and more than 15 months in the 25% of responders. However, given the heterogeneous nature of the study population the evidence from this trial is rather weak. (5) An unblinded comparative trial including 54 patients failed to show whether bortezomib 1.3 mg/m2 was more effective than bortezomib 1 mg/m2 in terms of clinical outcome. Another comparative trial including 669 patients indicated that bortezomib was more effective than dexamethasone in terms of the median time to disease progression (5.7 months versus 3.6 months). (6) Animal studies indicate that bortezomib is cardiotoxic and neurotoxic, and that the interval between the maximal tolerated dose and the fatal dose is very small. Experience with bortezomib use is too limited to know the possible clinical repercussions of these experimental findings. (7) Adverse effects were frequent and varied in clinical trials. They included fatigue, nausea and vomiting, diarrhea, anemia, thrombocytopenia and peripheral neuropathies. They affected 30% to 60% of patients overall, and were severe in about 10% to 20% of patients. Other adverse effects included hypotension, fever, headache, pain and dehydration. (8) Bortezomib is metabolised by cytochrome P 450 isoenzyme 3A4, and this implies a high risk of drug-drug interactions. (9) Each vial of bortezomib contains more of the drug than is needed for one injection. This is not only wasteful, but also carries a risk of overdosing, with potentially serious consequences, should the entire contents be injected by mistake. (10) Bortezomib may be used as a last resort in some patients with multiple myeloma, but the individual risk-benefit balance must be carefully weighed in each case.
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PMID:Bortezomib: new drug. A last resort in myeloma: modest efficacy, major risks. 1598 89

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