Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026764 (multiple myeloma)
 36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thalidomide is successfully used in the treatment of multiple myeloma, leprosy and various autoimmune diseases due to its anti-angiogenic, immunomodulatory and anti-inflammatory effects. Thalidomide's most common side effects are constipation, neuropathy, fatigue, sedation, rash, tremor and peripheral edema. We achieved complete response with a 400 mg/day dose thalidomide therapy in a 58-year-old male patient diagnosed with relapsing refractory multiple myeloma. While continuing thalidomide for sustainable response, the therapy was terminated at the ninth month due to development of leukocytoclastic vasculitis. We describe the case and discuss the place of thalidomide in the treatment of multiple myeloma and the rare occurrence of leukocytoclastic vasculitis during thalidomide therapy in multiple myeloma, since only one such case has been reported in the literature thus far.
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PMID:Leukocytoclastic vasculitis due to thalidomide in multiple myeloma. 1770 5

The use of thalidomide is limited by adverse effects of sedation, constipation, neuropathy and thromboembolism. In order to discover more potent and less toxic immunomodulators than thalidomide, its chemical structure was modified and lenalidomide was formed. Lenalidomide is approved by the US FDA for the treatment of patients with low-risk myelodysplastic syndrome (MDS) with deletion 5q cytogenetic abnormality. Two studies and a case report have evaluated lenalidomide in these MDS patients and showed significantly higher cytogenetic responses and durable red blood cell transfusion independence. Lenalidomide should be the drug of choice for patients with low and intermediate-1 risk MDS (based on the International Prognostic Scoring System) with chromosome 5q31 deletion with or without other karyotype abnormalities. Lenalidomide, in combination with dexamethasone, has been compared with dexamethasone alone in patients with relapsed or refractory multiple myeloma (MM) in two studies (MM-009 in North America and MM-010 in Europe, Israel and Australia). In these two phase III trials, lenalidomide demonstrated impressive (58-59%) response rates with dexamethasone. Lenalidomide has also been shown to overcome thalidomide resistance in MM patients. Therefore, the lenalidomide plus dexamethasone regimen provides another treatment option, in addition to first line MM treatment regimens of bortezomib, thalidomide or high-dose dexamethasone, for the treatment of relapsed or refractory MM. Lenalidomide does not produce significant sedation, constipation or neuropathy, but does lead to significant myelosuppression, unlike thalidomide. The prescribing information has a black box warning for risk of myelosuppression, deep vein thrombosis/pulmonary embolism and teratogenicity. Administration of lenalidomide is recommended at a starting dose of 10 mg/day orally for deletion 5q in MDS patients. Significant risk of myelosuppression may lead to dose reduction in the majority of these patients. Clinical trials of relapsed and refractory MM have shown that lenalidomide is clinically efficacious at a dosage of 25 mg/day when administered in combination with dexamethasone. Lenalidomide should be continued until disease progression in both MDS and MM patients.
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PMID:Lenalidomide in myelodysplastic syndrome and multiple myeloma. 1772 55

For many years the treatment of multiple myeloma was limited to such regimens as melphalan-prednisone, high-dose dexamethasone, and vincristine-doxorubicin-dexamethasone (VAD). These combinations provided response rates of 45-55%, with complete remission rates of up to 10%. With the advent of thalidomide- and bortezomib-based combinations, response rates to induction therapy have risen to 85-95% in previously untreated patients and are associated with complete remission rates up to 25%. However, these agents are associated with such side-effects as somnolence, constipation and neuropathy. Lenalidomide, a thalidomide analog, was developed with the hope of improving both the efficacy and toxicity profile of thalidomide, and has subsequently shown significant clinical activity in patients with multiple myeloma. We describe the role of lenalidomide in patients with symptomatic multiple myeloma that is newly diagnosed, relapsed and/or refractory to other therapies, or concurrent with primary amyloidosis.
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PMID:Lenalidomide in multiple myeloma. 1807 Jul 15

Amyloidosis is characterized by extracellular deposition of abnormal protein. There are six types: primary, secondary, hemodialysis-related, hereditary, senile, and localized. Primary (AL) amyloidosis is associated with monoclonal light chains in serum and/or urine with 15% of patients having multiple myeloma. Secondary (AA) amyloidosis is associated with inflammatory, infectious, and neoplastic diseases. The presentation is protean, including macroglossia, a dilated and atonic esophagus, gastric polyps or enlarged folds, and luminal narrowing or ulceration of the colon. Amyloid deposition in the gastrointestinal (GI) tract is greatest in the small intestine. The symptoms include diarrhea, steatorrhea, or constipation. Pseudo-obstruction carries a particularly grave prognosis, often not responding to pro-motility agents. Hepatic involvement is common, but the clinical manifestations are usually mild with hepatomegaly and an elevated alkaline phosphatase level. Biopsies to diagnose amyloidosis can be taken from the fat, kidney, intestine, or bone marrow. The safety of liver biopsies is controversial. With Congo Red stain, amyloid appears red in normal light and apple-green in polarized light. Treatment for AL amyloidosis is chemotherapy and stem cell transplantation; treatment for AA amyloidosis is control of the underlying disease. Amyloidosis should be considered in patients with proteinuria, cardiomyopathy, hepatomegaly (with mildly abnormal liver tests), peripheral and autonomic neuropathy, weight loss, and GI symptoms.
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PMID:Gastrointestinal manifestations of amyloidosis. 1972 11

The number of newly diagnosed cases of multiple myeloma in the Czech Republic is about 3-4 per 100 000 persons per year. In the higher age groups, the incidence increases. Multiple myeloma is an illness that reacts well to treatment which can result in periods of remission lasting for years. Some of the patients are even able to return to work. A pre-requisite for successful treatment is early diagnosis and this is usually in the hands of first line physicians. This is the reason why the Czech Myeloma Group, in conjunction with neurologists, orthopedicians and radio diagnosticians has issued the following recommendations for first line physicians containing a more detailed description of the symptoms and the diagnostic pitfalls of the disease. This disease reminds a chameleon for the variety of its symptoms. For the sake of clarification, we shall divide multiple myeloma symptoms into five points, each of which is reason enough to warrant an examination to confirm or rule out a malignant cause of health problems (a negative result does not automatically mean exclusion). If any of the recommended examinations results positive, the diagnostic process must be continued, in which case a general practitioner refers the patient to a specialist health centre. Observing these recommendations should minimize the number of cases of late diagnosis. 1. Bone destruction symptoms. - Unexplained backache for more than one month in any part of spine even without nerve root irritability or without pain in other part of skeleton (ribs, hips, or long bones). - Pain at the beginning of myeloma disease is very similar to benigne common discopathy, however the intensity of backache is decreasing within one months in benigne disease. In the case of malignant process the intensity of bone pain is steadily increasing. - Immediate imaging and laboratory investigation are indicated by resting and night pain in spinal column or in any part of skeleton. - Backache with the sign of spinal cord or nerve compression should be sent for immediate X Ray, and focussed CT/MRI followed by acute surgery if needed. - Osteoporosis especially in men and premenopausal women. 2. Features of changed immunity or bone marrow function. Persistent and recurrent infection, typical is normochromic anaemia, with leucopenia and trombocytopenia. 3. Raised erythrocyte sedimentation rate even increase concentration of total plasma protein. 4. Impaired renal function. Increased level of creatinin or proteinuria, nephrotic syndrome with bilateral legs oedema. 5. Hypercalcemia with typical clinical symptoms (polyuria with dehydratation, constipation, nausea, low level conscience, coma). Every one from these points has to be reason for general medical doctor to start battery of tests: -X-ray of bones focused to painful area (mandatory before physiotherapy, local anaesthesia or other empiric therapy). If plain X-ray does not elucidate pain and symptoms are lasting more than one month, please consider all circumstances and results from laboratory investigation. This patient needs referral to the centre with MRI/CT facilities (CT or MRI is necessary investigation in case of nerve root or spine compression). -Investigation of erythrocyte sedimantion rate (high level of sedimentation of erythrocyte can indicate multiple myeloma). -Full blood count. -Basic biochemical investigation serum and urine: serum urea, creatinin, ionts including calcium, total protein, and albumin CRP (high concentration of total protein indicates myeloma, low level of albumin indicates general pathological process, similary increased concentration of fibrinogen, impaired renal function indicates myeloma kidney, however hypercalcemia is typical for highly aggressive myeloma). -Quantitative screening for IgG, IgM and IgA in serum (isolated raised level one of immunoglobulin with decreased level of the others indicates myeloma). -Common electrophoresis of serum is able to detect monoclonal immunoglobulin level at few gramm concentration. If all the laboratory investigation are in normal level the possibility that the current problems are multiple myeloma origine is smaller, but it does not exclude one of rare variant--non secretory myeloma (undifferentiated plasmocyt lost characteristic feature to produce monoclonal immunoglobulin). If any of tests indicate the possibility of myeloma, patient require urgent specialist referral to department with possibility to make diagnosis of malignant myeloma.
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PMID:[Recommendations for early identification of damage to the skeleton by malignant processes, and for early diagnosis of multiple myeloma]. 1817 27

Lenalidomide is an immunomodulatory drug derived from thalidomide. It was developed to maximize the anti-inflammatory and anti-neoplasic properties of thalidomide and to reduce its toxicity. The molecular mechanism of action of lenalidomide is unclear, but its therapeutic activity is mainly due to its well defined anti-inflammatory, immunomodulatory, anti-proliferative and anti-angiogenic properties. In relapsed or refractory multiple myeloma (MM), lenalidomide, combined with standard dose dexamethasone, is superior to dexamethasone alone in terms of time to progression, response rate and overall survival. The most commonly reported adverse events include haematological toxicity with manageable neutropenia and thrombopenia. Lenalidomide does not trigger the limiting toxicities of thalidomide: somnolence, neuropathy and constipation. Lenalidomide, in combination with dexamethasone, is indicated for the treatment of MM patients who have received at least one prior therapy and is administered orally at the dose of 25 mg q.d. for 21 days of 28-day cycles. The drug is being investigated for the treatment of newly diagnosed MM. In this review, we summarize the pharmacokinetic, pharmacodynamic and clinical trial data on lenalidomide.
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PMID:Lenalidomide in the treatment of multiple myeloma: a review. 1845 8

The novel immunomodulatory drugs lenalidomide and thalidomide and the novel proteasome inhibitor bortezomib can cause gastrointestinal side effects, including constipation, diarrhea, nausea, and vomiting, which can have a deleterious effect on quality of life and interfere with optimal therapy. The International Myeloma Foundation's Nurse Leadership Board developed this consensus statement for the management of gastrointestinal side effects associated with novel therapies to be used by healthcare providers in any medical setting. It includes grading criteria and general recommendations for assessing and managing the side effects. Although constipation, diarrhea, nausea, and vomiting are expected side effects associated with novel therapies for multiple myeloma, they are manageable with appropriate medical interventions.
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PMID:Gastrointestinal side effects associated with novel therapies in patients with multiple myeloma: consensus statement of the IMF Nurse Leadership Board. 1849 Feb 56

Thalidomide monotherapy in relapsed/refractory multiple myeloma (MM) has a response rate of 30%. The combination of thalidomide with dexamethasone (Thal/Dex) is expected to improve responses, but it is unknown if the combination increases the rate of adverse events. Here, we conducted a systematic review of studies evaluating Thal/Dex in relapsed/refractory MM. Twelve studies were included, comprising 451 patients. The response rate (CR and PR) was 46% (95% CI 42-51%). Therapy-related toxicity was comparable to thalidomide monotherapy and included somnolence (26%, 95% CI 22-31%), constipation (37%, 95% CI 32-42%) and peripheral neuropathy (27%, 95% CI 23-32%). Only venous thromboembolism appeared to occur more often with Thal/Dex (5%, 95% CI 3-8%). Thus, using Thal/Dex results in an improved response rate in relapsed/refractory MM, with a toxicity rate comparable to thalidomide monotherapy.
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PMID:A systematic review of phase II trials of thalidomide/dexamethasone combination therapy in patients with relapsed or refractory multiple myeloma. 1863 31

Thalidomide is an important advance in the treatment of multiple myeloma. In Japan thalidomide is now on the approval step for the treatment of multiple myeloma. The drug has some bothersome side effects such as defect of organogenesis, neuropathy, constipation and fatigue, but is likely more effective than standard chemotherapy and is changing multiple myeloma treatment. At this moment, Japanese patients must import the thalidomide preparations from Mexico, Britain and elsewhere, but after approval, they patients will be able to get the new Japanese thalidomide capsules. In order to determine appropriate amounts of Japanese thalidomide capsules in the treatment of multiple myeloma, we compared the dissolution profile and plasma thalidomide concentrations of Japanese and British capsules and Mexican tablets. The dissolution test was performed according to the Japanese and the United States Pharmacopoeia. The pharmacokinetic data for Japanese capsules were obtained from the clinical trial in Japanese subjects and compared with those data published for other formulations. The dissolution rate of the Japanese capsule was the fastest, followed by British and Mexican formulations. The pharmacokinetic profiles of Japanese and British capsules were similar, while the 100 mg Japanese thalidomide capsule demonstrated a 1.6-fold higher maximum plasma concentration than the 200 mg Mexican thalidomide tablet (1.7 vs. 1.1 microg/ml), greatly shortened t(max) (4.5 vs. 6.2 h), and the apparent half life was only one-third of the Mexican tablet (4.8 vs. 13.5 h). A comparison of the dissolution and the pharmacokinetic absorption profiles demonstrated a rank-order correlation. Physicians and pharmacists should be aware of the probable alteration in plasma thalidomide concentration when switching to the Japanese capsule, especially from the Mexican tablet, and should monitor clinical response carefully.
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PMID:[Comparison of dissolution profile and plasma concentration-time profile of the thalidomide formulations made by Japanese, Mexican and British companies]. 1882 65

Maintenance therapy was explored in multiple myeloma (MM) patients after conventional thalidomide, dexamethasone and pegylated liposomal doxorubicin (ThaDD). Patients with newly or relapsed MM obtaining at least minor response after 6 ThaDD courses, were randomised to receive alpha-interferon (IFN) 3 MU 3 times a week or thalidomide 100 mg daily until relapse. Both groups also received pulsed dexamethasone 20 mg 4 d a month. Fifty-one patients were randomized in the IFN-dexamethasone (ID) arm and 52 in the thalidomide-dexamethasone (TD) arm. The characteristics of two groups were similar. A significantly better 2-years progression-free survival (PFS; 63% vs. 32%; P = 0.024) and overall survival (84% vs. 68%; P = 0.030) was observed in the thalidomide arm. In high-risk patients and in those achieving less than very good partial response after induction, TD fared better in term of PFS. Main side effects were peripheral neuropathy and constipation in TD group, fatigue, anorexia and haematological toxicity in ID arm. There was a 21% probability of discontinuation at 3 years in the thalidomide arm and 44% in the IFN arm (P = 0.014). Low-dose thalidomide plus pulsed low-dose dexamethasone after conventional thalidomide combination-based therapy was also feasible in the long term, enabling significantly better residual disease control if compared with a standard maintenance therapy.
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PMID:Thalidomide-dexamethasone versus interferon-alpha-dexamethasone as maintenance treatment after ThaDD induction for multiple myeloma: a prospective, multicentre, randomised study. 1903 82


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