Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018681 (headache)
 56,091 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dipyridamole, an inhibitor of nucleoside transport, increases the activity of 5-fluorouracil in a dose-dependent manner. The purpose of the present study was to determine whether dipyridamole with 5-fluorouracil and leucovorin gave an improved therapeutic outcome. Sixty patients entered in the present pilot study had previously received 5-fluorouracil (450 mg/m2) and leucovorin (100 mg/m2), every week, and relapsed during this treatment, which ended at least 6 weeks prior to study entry. Dipyridamole was administered at three different dosing schedules (DS) and methods of administration in three groups of patients. DS I: dipyridamole, 30 mg/m2 in normal saline solution, in 90 min iv infusion, followed by leucovorin, 100 mg/m2 iv push, followed by 5-fluorouracil, 450 mg/m2 in normal saline solution, in 60 min iv infusion, dipyridamole tablets (75 mg) every 12 hrs, continuously during the time of chemotherapy. DS II: dipyridamole, 50 mg/m2 in normal saline solution, in 90 min iv infusion, and the rest was the same as DS I. DS III: without oral dipyridamole, patients received dipyridamole (50 mg/m2) iv in the same manner as in DS I and II. Treatment was continued until tumor progression or unacceptable toxicity. All patients (n = 60) entered in the present study were assessable for response and toxicity. No complete response was observed. No patient at DS I responded, whereas 2 patients at DS II and 3 at DS III had a partial response (P <0.1). Stable disease was found with DS I (n = 1), DS II (n = 8) and DS III (n = 9) (P <0.01). More patients progressed at DS I (n = 19) than at DS II (n = 10) and DS III (n = 8) (P <0.0007). The median duration of response was 11 weeks (range, 8-16). Time to progression was 17 weeks for DS I, 15 weeks (range, 10-19) for DS II, and 14 weeks (range, 11-21) for DS III (P = 0.43). Median survival did not differ significantly between DS I (29 weeks; range, 14-48), DS II(31.5 weeks; range, 17-63) and DS III (36 weeks; range, 16-58) (P = 0.2). Neutropenia was most severe with DS I (grade 2, P<0.01) and DS II (grade 1, P<0.05) and nausea/vomiting with DS I (grade 0, P < 0.0005, grade 1, P <0.0002, grade 2, P <0.02) and DS III (grade 3, P<0.0009). Diarrhea was most severe in DS II (grade 3, P <0.005). Mucositis was increased in DS II (grade 0, P <0.008), anorexia in DS II (grade 0, P <0.032) and fatigue in DS I (grade 0, P <0.003). More patients in DS I than with the other two DS experienced headache (P <0.044). According to the response achieved at DS III (15% partial response and 45% stable disease) and the toxicity which was well tolerated mainly in this DS (except for nausea and vomiting grade 3, P <0.009), it can be stated that DS III is the appropriate dose and the simplest schedule of administration (administration of dipyridamole during therapy only). In conclusion, it appears that dipyridamole might still have a role in enhancing the clinical activity of drugs involved in the inhibition of the thymidylate synthetase biochemical pathway and its activity in combination with these agents (5-fluorouracil + leucovorin) as frontline treatment should therefore be explored in future phase II studies.
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PMID:Leucovorin + 5-fluorouracil plus dipyridamole in leucovorin + 5-fluorouracil-pretreated patients with advanced colorectal cancer: a pilot study of three different dipyridamole regimens. 1176 78

The objective of the study was to evaluate the safety and therapeutic efficacy of intralesional administration of doxorubicin in brain gliomas. Ten patients with recurrent grade III or IV glioma were enrolled in the study, after the second operation. All patients had not responded to radiation therapy. Chemotherapy was administered directly in the tumor through an Ommaya pump placed in the site of disease at the time of craniotomy. Doxorubicin 0.5 mg was administered in the Ommaya reservoir every 24 hours on days 1 to 10. Patients were evaluated at 6- to 8-week intervals until tumor progression and death. All patients were evaluated for response. Six of 10 patients had clinical improvement lasting from 12 to 73 weeks. Objective radiologic response was observed in 5 of 10 (50%) patients. One patient achieved complete response with time to disease progression of 119 weeks, and 4 patients had a partial response (duration 14-39 weeks) with 25% or more reduction of tumor volume on computed tomography scan compared with pretreatment measurements. Time to disease progression in patients who responded after the intratumoral chemotherapy was 39.83 +/- 40.5 weeks. One additional patient had stable disease for a duration of 12 weeks. The median survival of the patients with response was 55.17 +/- 54.22 weeks (range: 21-164 weeks), whereas survival of those who did not respond was 17.0 +/- 12.36 weeks (range: 8-35) (Mann Whitney U test: z = -2.13, p = 0.033). The median survival of all 10 patients was 39.9 +/- 45.52 weeks (range: 8-73 weeks). Bifrontal headache was reported in 4 of 10 patients immediately after the administration of doxorubicin. There were no other clinically significant adverse reactions either in the brain or systematically. Intralesional administration of doxorubicin appears to be a safe and effective treatment and should be further explored in the management of brain gliomas resistant to conventional forms of treatment.
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PMID:Intratumoral doxorubicin in patients with malignant brain gliomas. 1182 99

Immunodeficient patients have an increased incidence of neoplasms, whether the immunodeficiency is due to genetic disorder, the acquired immunodeficiency syndrome (AIDS), or immunosuppressive therapy. Leiomyosarcoma (LMS) is a rare neoplasm, even if its incidence has increased because of AIDS. Less than fifteen cases were described after organ transplantation. An intracranial localization is exceptional (five cases in the literature) and was never described after organ transplantation, to our knowledge. Our present report focuses on a 45-year-old immunocompromised patient, who received immunosuppressive therapy for renal transplantation. He suffered from atypical peri-orbital headaches six months after transplantation and a mass involving the cavernous sinus was identified. Surgical biopsy was performed. Histologic examination revealed a LMS. Epstein-Barr virus was identified by quantitative polymerase chain reaction in the LMS. Immunosuppression was reduced, the patient received adriamycin and protontherapy was realized. He died two years after the transplantation because of tumor progression and kidney failure.
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PMID:[Primary leiomyosarcoma of the cavernous sinus associated with Epstein-Barr virus in a kidney graft]. 1471 28

Multiple metastatic brain tumors and multifocal primary brain tumors of a single histological type are well described in the literature. The concurrent presence of multiple primary brain tumors with different histological characteristics, however, is very rare. The authors describe the first known case in which an oligodendroglioma and a juvenile pilocytic astrocytoma (JPA) presented as synchronous primary brain tumors in the same patient. This 43-year-old man presented with a 2-month history of progressive headaches, nausea, and vomiting. Magnetic resonance imaging demonstrated an enhancing heterogeneous right medial cerebellar lesion and a larger calcified, nonenhancing, heterogeneous right frontal lesion with surrounding edema and a mass effect. The results of a metastatic workup were unremarkable. The patient underwent an initial right frontotemporal craniotomy and a subsequent suboccipital craniectomy 2 years later for resection of the posterior fossa lesion. Histological examination revealed the frontal and cerebellar lesions to be an oligodendroglioma and JPA, respectively. A molecular analysis detected a deletion of chromosome 1p36 in the oligodendroglioma, but not in the JPA. After the initial operation, the patient received follow-up care for his oligodendroglioma, but eventually required temozolomide for tumor progression. His condition remains stable both neurologically and according to imaging studies. The authors describe the first known case in which a low-grade oligodendroglioma and a JPA presented as synchronous primary brain tumors. They review the literature on multiple primary brain tumors with different histological characteristics and discuss potential mechanisms for the development of these lesions.
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PMID:Oligodendroglioma and juvenile pilocytic astrocytoma presenting as synchronous primary brain tumors. Case report with histological and molecular differentiation of the tumors and review of the literature. 1507 Jan 26

Adult patients with a magnetic resonance scan suggestive of a supratentorial low-grade glioma should generally undergo at least a stereotactic biopsy to confirm the diagnosis and rule out an anaplastic glioma or a non-neoplastic lesion. Early tumor treatment should be given to patients with newly diagnosed low-grade gliomas who are over age 50 years, those who have headaches or neurologic deficits other than seizures, or those whose neuroimaging studies show tumor growth or mass effect. For younger patients presenting with seizures and no other neurologic symptoms, it is reasonable to defer therapy until there is clinical or radiographic tumor progression. When it is judged that intervention is necessary, patients should undergo the maximal surgical tumor resection, which preserves or improves neurologic function. For younger (<50 years) astrocytoma patients with a good tumor resection, radiation may be deferred until tumor progression. Early radiation should be given to astrocytoma patients who are older than 50 years of age at diagnosis (regardless of the type of surgery) or to younger patients who are judged to require early intervention but who are not candidates for aggressive surgical resection. The radiation dose for low-grade glioma should be 4500 to 5000 cGy, preferably with three-dimensional conformal ports. The same guidelines for management apply to patients with low-grade oligodendroglioma or oligoastrocytoma, except that chemotherapy is a reasonable alternative to radiation when it is judged that treatment other than surgical resection is required.
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PMID:Low-Grade Gliomas in Adults. 1515 4

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

We report a patient with breast cancer who developed meningeal carcinomatosis that was preceded by a rapid increase in the serum level of carbohydrate antigen (CA) 19-9. A 60-year-old woman was admitted for primary breast cancer with multiple metastases to the vertebrae. She received cyclophosphamide 400 mg/m(2), epirubicin 40 mg/m(2), and 5-fluorouracil (5-FU) 400 mg/m(2) (CEF) chemotherapy every 3 weeks. Upon admission, her serum concentrations of carcinoembryonic antigen (CEA) and CA19-9 were 28.6 ng/ml and 99.2 U/ml, respectively. After three cycles of CEF therapy, her serum CEA decreased, and metastases to the vertebrae were attenuated. Her serum CA19-9 rapidly increased, however. A modified radical mastectomy was performed, but her serum CA19-9 levels still remained high (>500 U/ml). After four cycles of CEF therapy, she experienced headaches and vomiting due to an increase in cerebrospinal pressure, and she was diagnosed with meningeal carcinomatosis. At the time of this diagnosis, the concentration of CA19-9 in her cerebrospinal fluid was greater than 500 U/ml, and immunohistochemical examination revealed that carcinoma cells in the cerebrospinal fluid overexpressed CA19-9. To our knowledge, this is the first report of the development of meningeal carcinomatosis from CA19-9-producing breast cancer cells, showing thatCA19-9 expression was associated with breast tumor progression.
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PMID:Meningeal carcinomatosis preceded by a rapid increase in serum CA19-9 levels in a patient with breast cancer. 1613 75

Headache in glioblastoma patients often indicates raised intracranial pressure by either tumor edema or tumor progression. We report local glioblastoma growth causing cranial nerve lesions as well as trigeminal neuralgia, and highlight pain management in these patients.
Headache 2005 Oct
PMID:Trigeminal neuralgia in two patients with glioblastoma. 1617 62

This study evaluates the diagnosis, therapy and survival of 14 patients with primary intracranial germ cell tumors during the period from 1991 to 2001. There were 11 males and 3 females. Mean age was 12.2 years old (20 days-18 years). On admission, the most common symptoms were headache (10/14), vomiting (6/14) and visual (6/14). The tumor was in pineal and hypothalamic region in 10 cases, suprasellar in 3 cases, and in the cerebral parenchyma in 1 case. Histologically there were 1 embryonal carcinoma, 5 germinomas, 2 mature teratomas, 1 immature teratoma and 5 mixed germ cell tumors. Treatment differed among the patients according to the type of tumor. Three patients died after tumor progression or relapse and one patient died from another condition. The remaining patients are alive and without disease.
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PMID:[Primary intracranial germ cell tumors in children: evaluation of fourteen cases]. 1625 65

Pituitary adenomas, almost invariably adenomas, account for 10% to 15% of all intracranial neoplasms and are incidentally detected in up to 27% of non selected autopsies. They are morphologically classified as microadenomas (diameter < 1 cm) or macroadenomas, which can be enclosed, invasive and/or expansive. Functionally, they are classified as secreting adenomas (PRL, GH, ACTH, TSH, LH, and FSH, and those co-secreting two or more hormones), and clinically non secreting or "non functioning" tumors. Diagnosis is based on the hypersecretion phenotype (acromegaly, Cushing, etc), and on mass effect of macroadenomas leading to neurological disturbances, mainly visual complaints and headache. Pituitary tumorigenesis mechanisms include those of primary hypothalamic versus pituitary origin, the latter is supported by evidence of pituitary adenoma monoclonality, as well as the absence of hyperplastic tissue surrounding the surgically removed tumor, and the relative independence of tumor hypothalamic control. Nevertheless, a permissive role of the hypothalamus on tumor progression is also postulated. Several molecular mechanisms involved in pituitary tumorigenesis have been unraveled including oncogenes, tumor suppressor genes and growth factors involved in neoplastic development, and will be described in this review.
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PMID:[Pituitary tumorigenesis]. 1644 45


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