Publications
This page lists the published literature and conference proceedings relating to Deflexifol™, in addition to independent, relevant literature supporting the rationale and premise for Deflexifol™ in colorectal cancer and ependymoma.
Deflexifol™ Publications
First-in-human phase I study of infusional and bolus schedules of Deflexifol, a novel 5-fluorouracil and leucovorin formulation, after failure of standard treatment.
Clingan PR, Ackland SP, Brungs D, de Souza P, Aghmesheh M, Garg MB, Ranson RD, Parker S, Jokela R, Ranson M. 2019. Asia-Pacific Journal of Clinical Oncology 15(3):151-157.
Description: The first-in-human clinical trial of Deflexifol™ monotherapy administered to end-stage solid tumour patients. Deflexifol™ demonstrated promising safety and efficacy, with a Maximum Tolerated Dose ≥30% higher than the doses typically administered in clinical practice.
Preclinical evaluation of novel, all-in-one formulations of 5-fluorouracil and folinic acid with reduced toxicity profiles.
Stutchbury TK, Vine KL, Locke JM, Chrisp JS, Bremner JB, Clingan PR, Ranson M. 2011. Anticancer Drugs 22(1):24-34.
Description: Pre-clinical assessment of Deflexifol™, demonstrating that Deflexifol™ is better tolerated with less toxicity than standard 5-FU/LV in rodent and rabbit models.
Development and assessment of novel all-in-one parenteral formulations with integrated anticoagulant properties for the concomitant delivery of 5-fluorouracil and calcium folinate.
Locke JM, Stutchbury TK, Vine KL, Gamble AB, Clingan PR, Bremner JB, Ranson M. 2009. Anticancer Drugs 20(9):822-831.
Description: The initial development and biochemical assessment of various novel all-in-one formulations of 5-fluorouracil and folinic acid, including the selected Deflexifol™ formulation.
Conference Proceedings
A phase I dose-escalation study of an all-in-one 5-fluorouracil and leucovorin co-formulation administered after failure of standard treatment.
2024 ASCO Gastrointestinal Cancers Symposium | VIEW POSTER
Description: The methodology and results of a second dose-escalation clinical trial of Deflexifol™ monotherapy mimicking the standard of care regimen was presented in this poster, demonstrating promising safety and efficacy.
Phase 1b dose escalation study to evaluate the safety, tolerability, pharmacokinetics, and preliminary efficacy of Deflexifol™ combined with oxaliplatin and bevacizumab for first-line treatment of unresectable mCRC.
2023 AGITG 25th Annual Scientific Meeting | VIEW POSTER
Description: This poster described the rationale and methodology for a planned phase 1b dose escalation study of Deflexifol™ in combination with oxaliplatin and bevacizumab in first-line mCRC patients.
5-fluorouracil and leucovorin predictive pharmacokinetics after administration of standard treatment or Deflexifol™.
2022 APSA-ASCEPT Joint Conference | VIEW POSTER
Description: This poster presented the comparative pharmacokinetics of 5-FU and LV after administration of standard treatment regimens, where they are sequentially administered, and after their co-infusion via Deflexifol™. The modelling work presented supports an enhanced duration and extent of LV exposure with Deflexifol™ treatment.
Deflexifol (a novel formulation of 5FU): Phase 1 dose escalation study of infusional and bolus schedules after failure of standard treatment.
2017 ASCO Annual Meeting | VIEW POSTER
Description: The clinical methodology and results of the first-in-human dose-escalation clinical trial of Deflexifol™ monotherapy administered to end-stage solid tumour patients were presented in this poster, demonstrating promising safety and efficacy.
Deflexifol (a novel formulation of 5FU): Pharmacokinetics in a phase 1 trial in comparison to 5FU.
2017 ASCO Annual Meeting | VIEW POSTER
Description: This poster presented the plasma pharmacokinetics of 5-FU following Deflexifol™ monotherapy in end-stage solid tumour patients, with demonstrated similarity to standard 5-FU formulations.
Phase 1 study of infusional or bolus deflexifol (a novel formulation of 5FU, folinic acid, and cyclodextrin) after failure of standard treatment.
2017 ASCO Gastrointestinal Cancers Symposium | VIEW POSTER
Description: This trials-in-progress poster presented the methodology for the first-in-human dose-escalation clinical trial of Deflexifol™ monotherapy.
The literature listed below are independent of FivepHusion.
Clinical Studies
Folinic acid in colorectal cancer: esquire or fellow knight? Real-world results from a mono institutional, retrospective study.
Romano FJ, Barbato C, Biglietto M, Di Lauro V, Arundine D, Fiorentino R, Ambrosio F, Cammarota M, Chiurazzi B, Puglia L, Scagliarini S, Ruocco R, Mocerino C, Cerillo I, Brangi MF, Riccardi F. 2021. Oncotarget 12(3):221-229.
Description: In this comparative study, continuous co-infusion of 5-FU and sodium LV significantly improved patient progression-free survival compared to sequential administration.
A phase II randomized study of combined infusional leucovorin sodium and 5-FU versus the leucovorin calcium followed by 5-FU both in combination with irinotecan or oxaliplatin in patients with metastatic colorectal cancer.
Bleiberg H, Vandebroek A, Deleu I, Vergauwe P, Rezaei Kalantari H, D’Haens G, Paesmans M, Peeters M, Efira A, Humblet Y. 2012. Acta Gastro-Enterologica Belgica 75:14-21.
Description: In this comparative study, a continuous co-infusion of 5-FU and sodium LV significantly improved patient overall survival compared to sequential administration.
A simplified regimen of weekly high dose 5-fluorouracil and leucovorin as a 24-hour infusion in patients with advanced colorectal carcinoma.
Yang TS, Hsu KC, Chiang JM, Tang R, Chen JS, Changchien CR, Wang JY. 1999. Cancer 85(9):1925-1930.
Description: A continuous co-infusion of 5-FU and low-dose LV produced a response rate of 53% in chemotherapy-naïve patients; response rates of ~20-30% were typical of 5-FU/LV monotherapy at the time.
A phase II study of weekly 24-hour infusion of high-dose 5-fluorouracil and leucovorin (HDFL) in the treatment of recurrent or metastatic colorectal cancers.
Yeh KH, Cheng AL, Lin MT, Hong RL, Hsu CH, Lin JF, Chang KJ, Lee PH, Chen YC. 1997. Anticancer Research 17(5B):3867-3871.
Description: A continuous, diluted co-infusion of 5-FU and LV produced a response rate of 52% in first-line patients; response rates of ~20-30% were typical of 5-FU/LV monotherapy at the time.
A phase II study of weekly 24-hour infusion with high-dose fluorouracil with leucovorin in colorectal carcinoma.
Ardalan B, Chua L, Tian EM, Reddy R, Sridhar K, Benedetto P, Richman S, Legaspi A, Waldman S, Morrell L. 1991. Journal of Clinical Oncology 9(4):625-630.
Description: A continuous co-infusion of 5-FU and LV delivered via separate pumps produced a response rate of 58% in chemotherapy-naïve patients; response rates of ~20-30% were typical of 5-FU/LV monotherapy at the time. The median survival of these patients had not yet been reached by 22 months; a median survival of ~10-12 months was typical at that time.
Pre/Non-clinical Studies
Intracellular metabolism of 5-formyl tetrahydrofolate in human breast and colon cell lines.
Boarman DM, Allegra CJ. 1992. Cancer Research 52(1):36-44.
Description: This in vitro study demonstrated that folate polyglutamation is dependent on the duration of exposure to LV. Polyglutamation is an important determinant of folate affinity for thymidylate synthase – the 5-FU target enzyme – and intracellular retention.
Schedule-dependent enhancement of the cytotoxicity of fluoropyrimidines to human carcinoma cells in the presence of folinic acid.
Moran RG, Scanlon KL. 1991. Cancer Research 51(17):4618-4623.
Description: This in vitro study demonstrated that the cytotoxicity of 5-FU increases exponentially with a longer co-exposure to LV, with the most extensive enhancement between 24-48 hours of co-exposure.
Role of folylpolyglutamates in biochemical modulation of fluoropyrimidines by leucovorin.
Romanini A, Lin JT, Niedzwiecki D, Bunni M, Priest DG, Bertino JR. 1991. Cancer Research 51(3):789-793.
Description: This study indicates that the extent of folate polyglutamation influences 5-FU/LV cytotoxicity in vitro.
Relationship between dose rate of [6RS]Leucovorin administration, plasma concentrations of reduced folates, and pools of 5,10-methylenetetrahydrofolates and tetrahydrofolates in human colon adenocarcinoma xenografts.
Houghton JA, Williams LG, de Graaf SS, Cheshire PJ, Rodman JH, Maneval DC, Wainer IW, Jadaud P, Houghton PJ. 1990. Cancer Research 50(12):3493-3502.
Description: This in vivo study in mice models demonstrated that once the LV infusion has ended, folate pools are rapidly eliminated from both plasma and tumour. The extent of folate polyglutamation was also dependent on the duration of LV administration.
Effect of polyglutamylation of 5,10-methylenetetrahydrofolate on the binding of 5-fluoro-2′-deoxyuridylate to thymidylate synthase purified from a human colon adenocarcinoma xenograft.
Radparvar S, Houghton PJ, Houghton JA. 1989. Biochemical Pharmacology 38(2):335-342.
Description: This study demonstrated that polyglutamated folates are considerably more efficient at stabilising the thymidylate synthase enzymatic complex with 5-FU than folates with fewer glutamate residues.
Biochemical factors affecting the tightness of 5-fluorodeoxyuridylate binding to human thymidylate synthetase.
Lockshin A, Danenberg PV. 1981. Biochemical Pharmacology 30(3):247-257.
Description: This study demonstrated that stabilisation of the thymidylate synthase enzymatic complex is only transient, with the dissociation half-life being inversely proportional to the concentration of unbound folate cofactor, indicating that a continuous, excess supply of folate is necessary to maintain enzymatic inhibition by 5-FU.
The literature listed below are independent of FivepHusion.
Metastatic colorectal cancer: Advances in the folate-fluoropyrimidine chemotherapy backbone.
Glimelius B, Stintzing S, Marshall J, Yoshino T, de Gramont A. 2021. Cancer Treatment Reviews 98:102218.
Description: This review discusses the persistence of 5-FU/LV as the backbone of treatment for metastatic colorectal cancer at present and into the future, and discusses innovations – including Deflexifol™ – that aim to optimise it.
Pharmacokinetically guided dose adjustment of 5-fluorouracil: a rational approach to improving therapeutic outcomes.
Saif MW, Choma A, Salamone SJ, Chu E. 2009. Journal of the National Cancer Institute 101(22):1543-1552.
Description: This paper reviews the pharmacokinetics evidence indicating that ~40-60% of patients are underdosed with 5-FU, and that in these patients, higher doses of 5-FU than standardly administered can improve clinical outcomes.
Modulation of fluorouracil by leucovorin in patients with advanced colorectal cancer: an updated meta-analysis.
Thirion P, Michiels S, Pignon JP, Buyse M, Braud AC, Carlson RW, O’Connell M, Sargent P, Piedbois P; Meta-Analysis Group in Cancer. 2004. Journal of Clinical Oncology 22(18):3766-3775.
Description: This seminal meta-analysis demonstrated that the addition of LV to 5-FU therapy doubled colorectal cancer tumour response rates (from 11% to 21%) and produced a small but statistically significant improvement in patient overall survival (from 10.5 to 11.7 months).
Randomized trial comparing monthly low-dose leucovorin and fluorouracil bolus with bimonthly high-dose leucovorin and fluorouracil bolus plus continuous infusion for advanced colorectal cancer: a French intergroup study.
de Gramont A, Bosset JF, Milan C, Rougier P, Bouché O, Etienne PL, Morvan F, Louvet C, Guillot T, François E, Bedenne L. 1997. Journal of Clinical Oncology 15(2):808-815.
Description: This clinical trial demonstrated that 5-FU (+ LV) administered as a bolus followed by a prolonged infusion improved clinical outcomes and reduced Grade 3-4 toxicities compared to bolus administration alone. This administration schedule became the standard of care, and remains so today as “modified de Gramont”.
The literature listed below are independent of FivepHusion.
Clinical Studies
Phase I study of 5-fluorouracil in children and young adults with recurrent ependymoma.
Wright KD, Daryani VM, Turner DC, Onar-Thomas A, Boulos N, Orr BA, Gilbertson RJ, Stewart CF, Gajjar A. 2015. Neuro-Oncology 17(12):1620-1627.
Description: This phase I study demonstrated anti-tumour activity of standard, bolus 5-FU monotherapy in children and young adults with recurrent ependymoma.
Pre-Clinical Studies
Identification of FDA-approved oncology drugs with selective potency in high-risk childhood ependymoma.
Donson AM, Amani V, Warner EA, Griesinger AM, Witt DA, Levy JMM, Hoffman LM, Hankinson TC, Handler MH, Vibhakar R, Dorris K, Foreman NK. 2018. Molecular Cancer Therapeutics 17(9):1984-1994.
Description: In this large scale drug screen, 5-FU was found to have selective anti-tumour toxicity against paediatric ependymoma cell lines.
An integrated in vitro and in vivo high-throughput screen identifies treatment leads for ependymoma.
Atkinson JM, Shelat AA, Carcaboso AM, Kranenburg TA, Arnold LA, Boulos N, Wright K, Johnson RA, Poppleton H, Mohankumar KM, Féau C, Phoenix T, Gibson P, Zhu L, Tong Y, Eden C, Ellison DW, Priebe W, Koul D, Yung WK, Gajjar A, Stewart CF, Guy RK, Gilbertson RJ. 2011. Cancer Cell 20(3):384-399.
Description: In this high-throughput drug screen, 5-FU was found to have a strong and selective anti-tumour toxicity against ependymoma models.
Publications
This page lists the published literature and conference proceedings relating to Deflexifol™, in addition to independent, relevant literature supporting the rationale and premise for Deflexifol™ in colorectal cancer and ependymoma.
Deflexifol™ Publications
First-in-human phase I study of infusional and bolus schedules of Deflexifol, a novel 5-fluorouracil and leucovorin formulation, after failure of standard treatment.
Clingan PR, Ackland SP, Brungs D, de Souza P, Aghmesheh M, Garg MB, Ranson RD, Parker S, Jokela R, Ranson M. 2019. Asia-Pacific Journal of Clinical Oncology 15(3):151-157.
Description: The first-in-human clinical trial of Deflexifol™ monotherapy administered to end-stage solid tumour patients. Deflexifol™ demonstrated promising safety and efficacy, with a Maximum Tolerated Dose ≥30% higher than the doses typically administered in clinical practice.
Preclinical evaluation of novel, all-in-one formulations of 5-fluorouracil and folinic acid with reduced toxicity profiles.
Stutchbury TK, Vine KL, Locke JM, Chrisp JS, Bremner JB, Clingan PR, Ranson M. 2011. Anticancer Drugs 22(1):24-34.
Description: Pre-clinical assessment of Deflexifol™, demonstrating that Deflexifol™ is better tolerated with less toxicity than standard 5-FU/LV in rodent and rabbit models.
Development and assessment of novel all-in-one parenteral formulations with integrated anticoagulant properties for the concomitant delivery of 5-fluorouracil and calcium folinate.
Locke JM, Stutchbury TK, Vine KL, Gamble AB, Clingan PR, Bremner JB, Ranson M. 2009. Anticancer Drugs 20(9):822-831.
Description: The initial development and biochemical assessment of various novel all-in-one formulations of 5-fluorouracil and folinic acid, including the selected Deflexifol™ formulation.
Conference Proceedings
A phase I dose-escalation study of an all-in-one 5-fluorouracil and leucovorin co-formulation administered after failure of standard treatment.
2024 ASCO Gastrointestinal Cancers Symposium | VIEW POSTER
Description: The methodology and results of a second dose-escalation clinical trial of Deflexifol™ monotherapy mimicking the standard of care regimen was presented in this poster, demonstrating promising safety and efficacy.
Phase 1b dose escalation study to evaluate the safety, tolerability, pharmacokinetics, and preliminary efficacy of Deflexifol™ combined with oxaliplatin and bevacizumab for first-line treatment of unresectable mCRC.
2023 AGITG 25th Annual Scientific Meeting | VIEW POSTER
Description: This poster described the rationale and methodology for a planned phase 1b dose escalation study of Deflexifol™ in combination with oxaliplatin and bevacizumab in first-line mCRC patients.
5-fluorouracil and leucovorin predictive pharmacokinetics after administration of standard treatment or Deflexifol™.
2022 APSA-ASCEPT Joint Conference | VIEW POSTER
Description: This poster presented the comparative pharmacokinetics of 5-FU and LV after administration of standard treatment regimens, where they are sequentially administered, and after their co-infusion via Deflexifol™. The modelling work presented supports an enhanced duration and extent of LV exposure with Deflexifol™ treatment.
Deflexifol (a novel formulation of 5FU): Phase 1 dose escalation study of infusional and bolus schedules after failure of standard treatment.
2017 ASCO Annual Meeting | VIEW POSTER
Description: The clinical methodology and results of the first-in-human dose-escalation clinical trial of Deflexifol™ monotherapy administered to end-stage solid tumour patients were presented in this poster, demonstrating promising safety and efficacy.
Deflexifol (a novel formulation of 5FU): Pharmacokinetics in a phase 1 trial in comparison to 5FU.
2017 ASCO Annual Meeting | VIEW POSTER
Description: This poster presented the plasma pharmacokinetics of 5-FU following Deflexifol™ monotherapy in end-stage solid tumour patients, with demonstrated similarity to standard 5-FU formulations.
Phase 1 study of infusional or bolus deflexifol (a novel formulation of 5FU, folinic acid, and cyclodextrin) after failure of standard treatment.
2017 ASCO Gastrointestinal Cancers Symposium | VIEW POSTER
Description: This trials-in-progress poster presented the methodology for the first-in-human dose-escalation clinical trial of Deflexifol™ monotherapy.
The literature listed below are independent of FivepHusion.
Clinical Studies
Folinic acid in colorectal cancer: esquire or fellow knight? Real-world results from a mono institutional, retrospective study.
Romano FJ, Barbato C, Biglietto M, Di Lauro V, Arundine D, Fiorentino R, Ambrosio F, Cammarota M, Chiurazzi B, Puglia L, Scagliarini S, Ruocco R, Mocerino C, Cerillo I, Brangi MF, Riccardi F. 2021. Oncotarget 12(3):221-229.
Description: In this comparative study, continuous co-infusion of 5-FU and sodium LV significantly improved patient progression-free survival compared to sequential administration.
A phase II randomized study of combined infusional leucovorin sodium and 5-FU versus the leucovorin calcium followed by 5-FU both in combination with irinotecan or oxaliplatin in patients with metastatic colorectal cancer.
Bleiberg H, Vandebroek A, Deleu I, Vergauwe P, Rezaei Kalantari H, D’Haens G, Paesmans M, Peeters M, Efira A, Humblet Y. 2012. Acta Gastro-Enterologica Belgica 75:14-21.
Description: In this comparative study, a continuous co-infusion of 5-FU and sodium LV significantly improved patient overall survival compared to sequential administration.
A simplified regimen of weekly high dose 5-fluorouracil and leucovorin as a 24-hour infusion in patients with advanced colorectal carcinoma.
Yang TS, Hsu KC, Chiang JM, Tang R, Chen JS, Changchien CR, Wang JY. 1999. Cancer 85(9):1925-1930.
Description: A continuous co-infusion of 5-FU and low-dose LV produced a response rate of 53% in chemotherapy-naïve patients; response rates of ~20-30% were typical of 5-FU/LV monotherapy at the time.
A phase II study of weekly 24-hour infusion of high-dose 5-fluorouracil and leucovorin (HDFL) in the treatment of recurrent or metastatic colorectal cancers.
Yeh KH, Cheng AL, Lin MT, Hong RL, Hsu CH, Lin JF, Chang KJ, Lee PH, Chen YC. 1997. Anticancer Research 17(5B):3867-3871.
Description: A continuous, diluted co-infusion of 5-FU and LV produced a response rate of 52% in first-line patients; response rates of ~20-30% were typical of 5-FU/LV monotherapy at the time.
A phase II study of weekly 24-hour infusion with high-dose fluorouracil with leucovorin in colorectal carcinoma.
Ardalan B, Chua L, Tian EM, Reddy R, Sridhar K, Benedetto P, Richman S, Legaspi A, Waldman S, Morrell L. 1991. Journal of Clinical Oncology 9(4):625-630.
Description: A continuous co-infusion of 5-FU and LV delivered via separate pumps produced a response rate of 58% in chemotherapy-naïve patients; response rates of ~20-30% were typical of 5-FU/LV monotherapy at the time. The median survival of these patients had not yet been reached by 22 months; a median survival of ~10-12 months was typical at that time.
Pre/Non-clinical Studies
Intracellular metabolism of 5-formyl tetrahydrofolate in human breast and colon cell lines.
Boarman DM, Allegra CJ. 1992. Cancer Research 52(1):36-44.
Description: This in vitro study demonstrated that folate polyglutamation is dependent on the duration of exposure to LV. Polyglutamation is an important determinant of folate affinity for thymidylate synthase – the 5-FU target enzyme – and intracellular retention.
Schedule-dependent enhancement of the cytotoxicity of fluoropyrimidines to human carcinoma cells in the presence of folinic acid.
Moran RG, Scanlon KL. 1991. Cancer Research 51(17):4618-4623.
Description: This in vitro study demonstrated that the cytotoxicity of 5-FU increases exponentially with a longer co-exposure to LV, with the most extensive enhancement between 24-48 hours of co-exposure.
Role of folylpolyglutamates in biochemical modulation of fluoropyrimidines by leucovorin.
Romanini A, Lin JT, Niedzwiecki D, Bunni M, Priest DG, Bertino JR. 1991. Cancer Research 51(3):789-793.
Description: This study indicates that the extent of folate polyglutamation influences 5-FU/LV cytotoxicity in vitro.
Relationship between dose rate of [6RS]Leucovorin administration, plasma concentrations of reduced folates, and pools of 5,10-methylenetetrahydrofolates and tetrahydrofolates in human colon adenocarcinoma xenografts.
Houghton JA, Williams LG, de Graaf SS, Cheshire PJ, Rodman JH, Maneval DC, Wainer IW, Jadaud P, Houghton PJ. 1990. Cancer Research 50(12):3493-3502.
Description: This in vivo study in mice models demonstrated that once the LV infusion has ended, folate pools are rapidly eliminated from both plasma and tumour. The extent of folate polyglutamation was also dependent on the duration of LV administration.
Effect of polyglutamylation of 5,10-methylenetetrahydrofolate on the binding of 5-fluoro-2′-deoxyuridylate to thymidylate synthase purified from a human colon adenocarcinoma xenograft.
Radparvar S, Houghton PJ, Houghton JA. 1989. Biochemical Pharmacology 38(2):335-342.
Description: This study demonstrated that polyglutamated folates are considerably more efficient at stabilising the thymidylate synthase enzymatic complex with 5-FU than folates with fewer glutamate residues.
Biochemical factors affecting the tightness of 5-fluorodeoxyuridylate binding to human thymidylate synthetase.
Lockshin A, Danenberg PV. 1981. Biochemical Pharmacology 30(3):247-257.
Description: This study demonstrated that stabilisation of the thymidylate synthase enzymatic complex is only transient, with the dissociation half-life being inversely proportional to the concentration of unbound folate cofactor, indicating that a continuous, excess supply of folate is necessary to maintain enzymatic inhibition by 5-FU.
The literature listed below are independent of FivepHusion.
Metastatic colorectal cancer: Advances in the folate-fluoropyrimidine chemotherapy backbone.
Glimelius B, Stintzing S, Marshall J, Yoshino T, de Gramont A. 2021. Cancer Treatment Reviews 98:102218.
Description: This review discusses the persistence of 5-FU/LV as the backbone of treatment for metastatic colorectal cancer at present and into the future, and discusses innovations – including Deflexifol™ – that aim to optimise it.
Pharmacokinetically guided dose adjustment of 5-fluorouracil: a rational approach to improving therapeutic outcomes.
Saif MW, Choma A, Salamone SJ, Chu E. 2009. Journal of the National Cancer Institute 101(22):1543-1552.
Description: This paper reviews the pharmacokinetics evidence indicating that ~40-60% of patients are underdosed with 5-FU, and that in these patients, higher doses of 5-FU than standardly administered can improve clinical outcomes.
Modulation of fluorouracil by leucovorin in patients with advanced colorectal cancer: an updated meta-analysis.
Thirion P, Michiels S, Pignon JP, Buyse M, Braud AC, Carlson RW, O’Connell M, Sargent P, Piedbois P; Meta-Analysis Group in Cancer. 2004. Journal of Clinical Oncology 22(18):3766-3775.
Description: This seminal meta-analysis demonstrated that the addition of LV to 5-FU therapy doubled colorectal cancer tumour response rates (from 11% to 21%) and produced a small but statistically significant improvement in patient overall survival (from 10.5 to 11.7 months).
Randomized trial comparing monthly low-dose leucovorin and fluorouracil bolus with bimonthly high-dose leucovorin and fluorouracil bolus plus continuous infusion for advanced colorectal cancer: a French intergroup study.
de Gramont A, Bosset JF, Milan C, Rougier P, Bouché O, Etienne PL, Morvan F, Louvet C, Guillot T, François E, Bedenne L. 1997. Journal of Clinical Oncology 15(2):808-815.
Description: This clinical trial demonstrated that 5-FU (+ LV) administered as a bolus followed by a prolonged infusion improved clinical outcomes and reduced Grade 3-4 toxicities compared to bolus administration alone. This administration schedule became the standard of care, and remains so today as “modified de Gramont”.
The literature listed below are independent of FivepHusion.
Clinical Studies
Phase I study of 5-fluorouracil in children and young adults with recurrent ependymoma.
Wright KD, Daryani VM, Turner DC, Onar-Thomas A, Boulos N, Orr BA, Gilbertson RJ, Stewart CF, Gajjar A. 2015. Neuro-Oncology 17(12):1620-1627.
Description: This phase I study demonstrated anti-tumour activity of standard, bolus 5-FU monotherapy in children and young adults with recurrent ependymoma.
Pre-Clinical Studies
Identification of FDA-approved oncology drugs with selective potency in high-risk childhood ependymoma.
Donson AM, Amani V, Warner EA, Griesinger AM, Witt DA, Levy JMM, Hoffman LM, Hankinson TC, Handler MH, Vibhakar R, Dorris K, Foreman NK. 2018. Molecular Cancer Therapeutics 17(9):1984-1994.
Description: In this large scale drug screen, 5-FU was found to have selective anti-tumour toxicity against paediatric ependymoma cell lines.
An integrated in vitro and in vivo high-throughput screen identifies treatment leads for ependymoma.
Atkinson JM, Shelat AA, Carcaboso AM, Kranenburg TA, Arnold LA, Boulos N, Wright K, Johnson RA, Poppleton H, Mohankumar KM, Féau C, Phoenix T, Gibson P, Zhu L, Tong Y, Eden C, Ellison DW, Priebe W, Koul D, Yung WK, Gajjar A, Stewart CF, Guy RK, Gilbertson RJ. 2011. Cancer Cell 20(3):384-399.
Description: In this high-throughput drug screen, 5-FU was found to have a strong and selective anti-tumour toxicity against ependymoma models.