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ABSTRACT: Treatment results of pancreatic head carcinoma are not good and long-term survival, especially in nonresectable cases is extremely difficult to obtain. The case reported here is of nonresectable pancreatic head carcinoma in which S-1+gemcitabine (GEM) proved to be effective.
A 70-year-old male. The patient initially complained of epigastralgia. Jaundice was also noted and upon further study, pancreatic head carcinoma, portal vein and common hepatic artery infiltration along with duodenal infiltration were diagnosed. Gastrojejunostomy and cholecystectomy were performed with a preoperative diagnosis of Phb, TS2 infiltrative type T4, CH (+), DU (+), S (+), RP (-), PV (+), Ach (+), PLX, OO (-), N0, M0, and Stage IVa. Perioperative findings showed no hepatic or peritoneal metastases. Following surgery, S-1+ GEM (S-1 100 mg/day, day 1-14; GEM 1,000 mg/m(2) was administered on day 8 and day 15 for 2 weeks followed by one week of no administration) was started. After completing 2 courses, there was no change in the tumor, but after finishing the sixth course, there was a notable reduction in tumor size, and after finishing the 10th course, a further reduction was noted. Currently at the end of the 14th course, the tumors are unidentifiable upon imaging. At 1 year and 5 months from the initial diagnosis, there has been no recurrence and chemotherapy is being continued. In the case reported here, there have been no adverse side-effects from the S-1+GEM therapy, it is a safe method which does not lower QOL in patients with unresectable pancreatic carcinoma, and we can look forward to the possibility of extended survival times.
In the case of unresectable pancreatic carcinoma, S-1+GEM therapy may be able to provide an improved long-term prognosis.
Gan to kagaku ryoho. Cancer & chemotherapy 12/2008; 35(12):2120-2.
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ABSTRACT: A 32-year-old male was admitted with dyspnea Severe dyspnea and hypoxemia developed the next day and blood examination indicated acute myocardial infarction. Echocardiogram revealed massive mitral regurgitation with prolapse of the anterior mitral leaflet due to rupture in the papillary muscle. Percutaneous coronary intervention for total occlusion in the right coronary artery was successfully performed, but progressive heart failure continued to develop. Surgery for the papillary muscle rupture was performed on the 3rd day. Complete head rupture of the anterior papillary muscle was found and the mitral valve was replaced with a prosthetic valve (St. Jude Medical valve: #31). Pathological findings showed necrosis in the papillary muscle with inflammatory changes. The postoperative course was uneventful and the patient was discharged on the 43rd day after surgery.
Kyobu geka. The Japanese journal of thoracic surgery 07/2008; 61(6):495-9.
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Shoichi Fumoto, Tatsushi Shimokuni,
Keiji Tanimoto,
Keiko Hiyama,
Keiko Otani,
Megu Ohtaki,
Jun Hihara,
Kazuhiro Yoshida,
Eiso Hiyama,
Tsuyoshi Noguchi,
Masahiko Nishiyama
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ABSTRACT: Prior laboratory prediction of individual drug response is of key importance in esophageal squamous cell carcinoma (ESCC), because of the extremely narrow therapeutic index of chemotherapy. However, very few critical markers have been validated to date for ESCC. We previously demonstrated that simultaneous performance of two different types of comprehensive gene expression analysis might provide a way to identify potent marker genes for drug sensitivity from the expression-sensitivity correlation analysis alone, but the screening method appeared not to be always effective. Therefore, we attempted to identify novel potent marker genes using a new statistical analysis of oligonucleotide microarray expression data, based on a two-dimensional mixed normal model, and selected 3 and 7 novel candidates for 5-fluorouracil (5-FU) and cis-platinum (CDDP), respectively. Interferon induced transmembrane protein 1 (IFITM1) gene alone, being suggested as a key gene of Wnt pathway, was commonly selected in both screening methods. The transfection analyses and siRNA-mediated knock-down experiments revealed that expression of IFITM1 closely related to cellular sensitivity to CDDP. Considering the fact that drug sensitivity is determined by multiple genes, we established the best linear model using quantified expression data of a set of all the selected marker genes including IFITM1, which converted the quantified expression data of ESCC cell lines into an IC50 value of each drug. In the same way, using the representative genes selected in vitro, we developed highly predictive formulae for disease-free survival (DFS) of the CDDP/5-FU combination after curative operation in esophageal cancer patients (R=0.917). A two-dimensional mixed normal model can be a powerful tool to identify novel drug-response determinants, and the IFITM1 gene selected by the statistical method a novel critical biomarker of CDDP response in ESCC.
International Journal of Oncology 03/2008; 32(2):413-23. · 2.40 Impact Factor
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ABSTRACT: There are numerous reports on the subject of effectiveness in radio-chemotherapy with regard to esophageal cancer, suggesting especially the combination therapy of 5-FU + CDDP aimed for recovery. Treatment becomes difficult when distal metastases appear during an adjuvant therapy followed by surgery. Our report here is a case in which a complete recovery was obtained after changing to S-1, a prodrug of 5-FU, in response to multiple lung metastases which appeared during the combined 5-FU + CDDP therapy followed by surgery for esophageal cancer.
The patient was a 71-year-old male. Endoscopy during a physical examination showed a Type 1 tumor 27-30 cm from the anterior teeth. Detailed tests provided a preoperative diagnosis of esophageal cancer: Ut Type 1, T2-T3, N2, MO, IMO. A right thoracolaparotomic subtotal esophagectomy and retrosternal reconstruction were performed. Pathological findings showed well-differentiated squamous cell carcinoma, pT1b (sm), pN1 (106-rec R), pStage II. Postoperative combination of 5-FU + CDDP (day 1-5, 5-FU 500 mg; CDDP 10 mg/body) was started. Because of the appearance of multiple lung metastases after the completion of 3 courses, 2 courses of S-1 + CDDP (S-1 120 mg/body day 1-14; CDDP 5 mg/body day 1-5, day 8-12) were performed. After completing the chemotherapy, CT revealed the resolution of the lung metastases and complete recovery was diagnosed. Following this, a treatment with S-1 alone was continued until the appearance of bone metastases at which time radiotherapy was performed. The treatment is currently ongoing and no recurrence of the lung metastases has been shown.
There have been numerous reports of the combination of S-1 + CDDP in esophageal cancer for NAC or in inoperable cases. However, our report suggests that this method may be effective in cases of recurrence or distal metastases.
Gan to kagaku ryoho. Cancer & chemotherapy 12/2007; 34(12):1967-9.
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ABSTRACT: The conversion of CPT-11 to its active form, SN-38, by carboxylesterases (CESs) is a critical event in CPT-11-induced cytotoxicity. Among the CESs, CES1 and CES2 probably play a major role in the metabolism, but the functional significance and molecular basis of CES1 on CPT-11 response remain unclear.
We investigated CES1A1 (AB119997) and CES1A2 (AB187225), whose coding sequences were recently registered in GenBank, for CPT-11-induced cytotoxicity, anticipating novel biomarkers of CPT-11 response. Their coding sequences showed high homology, with only four amino acid differences in the N-terminal region, but our sequencing study of the 5' regions revealed that CES1A1 and CES1A2 had distinctive consensus sequences for transcription factors in the regions, implying differences in transcriptional regulation of the genes. We also identified three isoforms of CES1A1 gene--CES1A1a, CES1A1b and CES1A1c--and developed a detection method for CES1A1 and CES1A2 types of mRNA expression. Interestingly, CES1A2 type of mRNA was found to be expressed from both CES1A1b and CES1A1c isoforms and CES1A2, the promoter activity of the former was higher than that of the original CES1A2 gene. Finally, CES1A2 type of mRNA expression correlated with CPT-11 sensitivities of cancer cells.
We demonstrated novel sequence structures and a functional role of CES1A genes in CPT-11 responses. We believe that our novel findings will be of key importance in developing a really useful prediction method for CPT-11 chemosensitivity.
Pharmacogenetics and Genomics 02/2007; 17(1):1-10. · 3.48 Impact Factor
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Tatsushi Shimokuni,
Keiji Tanimoto,
Keiko Hiyama,
Keiko Otani,
Megu Ohtaki,
Jun Hihara,
Kazuhiro Yoshida,
Tsuyoshi Noguchi,
Katsunobu Kawahara,
Shoji Natsugoe,
Takashi Aikou,
Yasushi Okazaki,
Yoshihide Hayashizaki,
Yuji Sato,
Satoru Todo,
Eiso Hiyama,
Masahiko Nishiyama
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ABSTRACT: Esophageal cancer is a highly lethal disease and the optimal therapy remains unclear. Since adjuvant chemotherapy gives a better chance of survival, we attempted to develop a chemosensitivity prediction model to improve individual responses to therapy. Comprehensive gene expression analyses (cDNA and oligonucleotide microarrays) and MTT assay of 8 drugs in 20 KYSE squamous cell carcinoma cell lines were performed to distinguish candidate marker genes whose expression levels reproducibly correlated with cellular drug sensitivities. After confirmation with real-time RT-PCR, we performed multiple regression analyses to develop drug-sensitivity prediction formulae using the quantified expression data of selected marker genes. Using the same sets of genes, we also constructed prediction models for individual clinical responses to 5-FU-based chemotherapy using 18 cases. We selected 5 better marker genes, known as drug sensitivity determinants, identified 9 novel predictive genes for 4 of 8 anticancer drugs [5-FU, CDDP, DOX, and CPT-11 (SN-38)], and developed highly predictive formulae of in vitro sensitivities to the 4 drugs and clinical responses to 5-FU-based adjuvant chemotherapies in terms of overall and disease-free survivals. Our selected genes are likely to be effective drug-sensitivity markers and formulae using the 9 novel genes would provide advantages in prediction.
International Journal of Oncology 06/2006; 28(5):1153-62. · 2.40 Impact Factor
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ABSTRACT: Dihydropyrimidine dehydrogenase is the most extensively investigated predictive marker for individual response to 5-fluorouracil. Clinical responses to the anticancer agent, along with various reports, have clearly shown that dihydropyrimidine dehydrogenase activity is closely correlated to its mRNA levels, but the regulatory mechanisms of its expression have remained unclear. We attempted to clarify the mechanisms and found that activator protein (AP-1) is probably one of the key factors in the transcriptional regulation of DPYD in cancer cells, and that phorbol 12-myristate 13-acetate (PMA) plus ionomycin treatment enhances transcription of DPYD via AP-1 activation. In this study, we characterized our previously subcloned 5' region of human DPYD, an approximately 3.0-kb fragment (accession no. AB162145). Luciferase reporter assay showed that the clone showed strong promoter activities in 293T and HSC42 cells, and comparative analysis using 5' deletion mutants suggested the existence of several positive and negative regulatory regions, including putative binding sites for AP-1, SP-1, and nuclear factor-kappaB. PMA/ionomycin treatment increased the mRNA level of DPYD in HSC42 cells, and electrophoretic gel mobility shift assay showed that the complex on the putative AP-1 binding site was drastically induced by PMA/ionomycin treatment. The complexes formed were competed out by preincubation with the cold-consensus AP-1 binding site, and the DNA binding complex formed on the site contained c-Jun and c-Fos, which are components of AP-1 transcription factor. We further identified the functional AP-1 binding site (nucleotide positions from -290 to -280), whose nucleotide mutations abolished PMA/ionomycin-induced DPYD promoter activation.
Cancer Research 03/2005; 65(3):1055-62. · 7.86 Impact Factor
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ABSTRACT: Dihydropyrimidine dehydrogenase (DPD), the initial rate-limiting enzyme in the degradation of 5-fluorouracil (5-FU), is known to be a principal factor in clinical responses to the anticancer agent 5-FU, and various reports have clearly demonstrated that DPD activity is closely correlated to mRNA levels. However, the regulatory mechanisms of DPD gene (DPYD) expression remain unclear. In this study, the regulatory mechanisms have been intensively studied.
A subcloned 3.0-kb fragment of the 5' region of DPYD contains a total of 60 CpG sites, suggesting that methylation status may affect the repression of DPYD. The clone showed various promoter activities that were largely correlated with mRNA levels in most cell lines, except HSC3 and HepG2. Bisulfite sequencing analysis revealed that various CpG sites around the transcription start site were abnormally methylated in cells with low DPYD expression: Reversal of hypermethylation by 5-azacytidine treatment significantly increased DPYD expression in HSC3 and HepG2 cells that showed strong promoter activity. In HepG2, in vitro methylation of the DPYD promoter directly decreased promoter activity, and 5-azacytidine treatment restored higher DPYD expression in a dose- and time-dependent manner, along with decreased sensitivity to 5-FU.
We found that DPD activity was controlled, at least in part, at the transcription level of DPYD and that aberrant methylation of the DPYD promoter region acted as one of the repressors of DPYD expression and affected sensitivity to 5-FU in cancer cells. Our new results could lead to a more precise understanding of the molecular basis of 5-FU response.
Clinical Cancer Research 11/2004; 10(20):7100-7. · 7.74 Impact Factor
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ABSTRACT: Advanced thoracic esophageal cancer has a poor prognosis despite advances in surgery, such as three-field lymph node dissection. Multimodal therapy is needed to improve local control, resectability and survival rate. Fifteen patients with advanced squamous cell carcinoma of the thoracic esophagus were treated with neoadjuvant chemoradiotherapy (NAC) combined with concurrent radiation (30 Gy/12 f) and 3 courses of 5-FU and CDDP (CDDP 5 mg/m2/day + 5-FU 250 mg/m2/day: day 1-5: div). In the absence of unresectable disease and surgical risk, 12 patients underwent esophagectomy (Group 1) and 3 patients underwent additional chemoradiotherapy because of high surgical risk (Group 2). Side effects consisted of nausea, vomiting and myelo-suppression in 8 patients, but all patients tolerated and completed a full course of NAC. The effective rate (CR + PR) of NAC was 58.3% in Group 1 and 66.7% in Group 2. No patients showed pathological CR. Two-year survival rate was 28.1% in Group 1 (PR: 33.3%, NC: 20.0%) and 33.5% in Group 2. This protocol had acceptable toxicities but did not show survival benefit. Further trials are necessary to improve survival rate.
Gan to kagaku ryoho. Cancer & chemotherapy 02/2004; 31(1):45-9.
