Helix BioPharma Corp. announced that it has received approval for its investigational new drug ("IND") application from the United States Food and Drug Administration ("FDA") to perform its planned U.S. Phase I clinical safety and tolerability study of its lung cancer drug candidate L-DOS47
AURORA, ON, CANADA | February 7, 2011 | Helix BioPharma Corp. (TSX:HBP – News) (AMEX:HBP – News) (Frankfurt:HBP – News), a developer of biopharmaceutical drug candidates for the prevention and treatment of cancer, today announced that it has received approval for its investigational new drug ("IND") application from the United States Food and Drug Administration ("FDA") to perform its planned U.S. Phase I clinical safety and tolerability study of its lung cancer drug candidate L-DOS47.
L-DOS47 is the Company’s first therapeutic immunoconjugate drug candidate under development based upon its novel DOS47 platform technology, which is designed to modify the microenvironmental conditions of cancer cells in a manner that leads to their destruction. L-DOS47 is intended to offer an innovative approach to the first-line treatment of inoperable, locally advanced, recurrent or metastatic non-small cell lung cancer ("NSCLC").
The FDA has completed its review of the IND and concluded that it is acceptable for Helix to proceed with the study, contingent on Helix providing an amended version of the clinical protocol beforehand, reflecting several minor changes that FDA stipulated during the course of the IND review.
"Receiving FDA approval to perform this study is a major milestone for Helix," said John Docherty, president of Helix BioPharma Corp. "We are very pleased that in granting this approval the FDA considers that L-DOS47 merits entry into the human clinical stage of its development."
The Company will now proceed with its remaining pre-study logistical preparations, including preparation and filing with the FDA of the required clinical protocol amendment, with a view to commencing clinical site initiation and patient recruitment activities late spring to early summer of this year.
About the Planned Phase I Study
The Phase I study will be an open-label, first-in-human study to primarily evaluate the safety and tolerability of L-DOS47. This study will therefore be conducted in patients with refractory solid cancerous tumors of any type, as is common practice for Phase I oncology studies, with a view to maximizing the rate of patient recruitment.
The Company is planning to conduct the study at three U.S. centers: under the direction of Dr. Thomas Stinchcombe at the University of North Carolina, Chapel Hill; Dr. Anthony Olszansky at the Fox Chase Cancer Center, Philadelphia; and Dr. David Hong and Dr. Sarina Piha-Paul at the University of Texas, MD Anderson Cancer Center, Houston.
The study will begin with a dose of 0.13 micrograms of L-DOS47 per kilogram of patient body weight. L-DOS47 will be infused in ascending dose levels in groups of 3-to-6 patients per ascending dose level once weekly for three weeks followed by one week of rest (one treatment cycle = four weeks), over four planned treatment cycles. The total number of patients to be enrolled in the study will ultimately depend on how many ascending dose levels are required to reach the maximum tolerated dose ("MTD"); however, based on the Company’s preclinical studies to-date, it currently estimates that the study will enroll approximately 30 to 50 patients in order to reach the MTD. Study patients will be male or female at least 18 years of age with histologically or cytologically confirmed stage IV solid cancerous tumors of any type, which are deemed by their physician to be unresponsive to, or untreatable by, standard therapies. Patients will have an Eastern Cooperative Oncology Group ("ECOG") performance status of 0 – 1 at the screening visit for this study, and will have at least one site of measurable disease per the Response Evaluation Criteria In Solid Tumors ("RECIST") v1.1. After four treatment cycles, at the discretion of the investigator and in consultation with the medical monitor, patients who experience clinical benefit may be eligible to continue L-DOS47 for as long as the treatment is well tolerated and the clinical benefit is sustained. End of study is defined as 30 days after the last patient’s last dose (last dose of treatment cycle four), or when all patients have discontinued, whichever occurs sooner.
The Company plans to prioritize its current capital resources to initiating this U.S. Phase I study as well as a planned Polish Phase I/II study assuming the required regulatory approval is also obtained for the planned Polish study in a timely fashion. The Company expects to file the regulatory dossier for the planned Polish Phase I/II study in the coming weeks. The Company is still in the process of finalizing the required third-party service provider costing proposals to execute both studies and has not yet committed any funds for this purpose. Also, the Company will require additional capital in order to see both studies through to completion. The Company estimates that its U.S. Phase I study and its planned Polish Phase I/II study will have durations of not less than 12 months and 18 months after commencement of patient enrolment, respectively, followed by analysis and reporting of the study results in each case. These estimates are based on the Company’s current planned schedules, which includes estimates of patient availability and recruitment rate in both jurisdictions, and assume that the Company will be able to obtain the requisite additional financing to complete the studies in a timely manner.
About L-DOS47
L-DOS47 is the Company’s first drug candidate under development based upon its DOS47 technology. L-DOS47 is a therapeutic immunoconjugate which combines Helix’s DOS47 technology with a highly specialized camelid-derived single domain antibody designed to identify a unique CEACAM6 antigenic site predominantly associated with NSCLC cells. It is designed to function by leveraging a natural process in the body called the urea cycle, to produce an anti-cancer effect. It is based upon a naturally occurring enzyme called urease that essentially reverses the urea cycle by breaking down urea into metabolites that include ammonia and hydroxyl ions. By breaking down urea at the site of cancerous tissues in the body, L-DOS47 is believed to modify the microenvironmental conditions of cancer cells in a manner that leads to their death. Among these theorized effects, L-DOS47 is believed to stimulate an increase in the pH of the microenvironment surrounding the cancerous cells, effectively reversing the acidic extra-cellular conditions that are known to be necessary for cancer cell survival. As well, the local production of ammonia at the site of cancerous tissues is thought to readily diffuse into the cancer cells to exert a potent cytotoxic effect by interfering with their critical metabolic functions.
About Helix BioPharma Corp.
Helix BioPharma Corp. is a biopharmaceutical company focused on cancer therapy. The Company is actively developing innovative products for the prevention and treatment of cancer based on its proprietary technologies. Helix’s product development initiatives include its Topical Interferon Alpha-2b and its novel L-DOS47 new drug candidate. Helix is listed on the TSX, NYSE Amex and FSE under the symbol "HBP". For more information, please visit www.helixbiopharma.com.
SOURCE: Helix BioPharma Corp.
Post Views: 45
Helix BioPharma Corp. announced that it has received approval for its investigational new drug ("IND") application from the United States Food and Drug Administration ("FDA") to perform its planned U.S. Phase I clinical safety and tolerability study of its lung cancer drug candidate L-DOS47
AURORA, ON, CANADA | February 7, 2011 | Helix BioPharma Corp. (TSX:HBP – News) (AMEX:HBP – News) (Frankfurt:HBP – News), a developer of biopharmaceutical drug candidates for the prevention and treatment of cancer, today announced that it has received approval for its investigational new drug ("IND") application from the United States Food and Drug Administration ("FDA") to perform its planned U.S. Phase I clinical safety and tolerability study of its lung cancer drug candidate L-DOS47.
L-DOS47 is the Company’s first therapeutic immunoconjugate drug candidate under development based upon its novel DOS47 platform technology, which is designed to modify the microenvironmental conditions of cancer cells in a manner that leads to their destruction. L-DOS47 is intended to offer an innovative approach to the first-line treatment of inoperable, locally advanced, recurrent or metastatic non-small cell lung cancer ("NSCLC").
The FDA has completed its review of the IND and concluded that it is acceptable for Helix to proceed with the study, contingent on Helix providing an amended version of the clinical protocol beforehand, reflecting several minor changes that FDA stipulated during the course of the IND review.
"Receiving FDA approval to perform this study is a major milestone for Helix," said John Docherty, president of Helix BioPharma Corp. "We are very pleased that in granting this approval the FDA considers that L-DOS47 merits entry into the human clinical stage of its development."
The Company will now proceed with its remaining pre-study logistical preparations, including preparation and filing with the FDA of the required clinical protocol amendment, with a view to commencing clinical site initiation and patient recruitment activities late spring to early summer of this year.
About the Planned Phase I Study
The Phase I study will be an open-label, first-in-human study to primarily evaluate the safety and tolerability of L-DOS47. This study will therefore be conducted in patients with refractory solid cancerous tumors of any type, as is common practice for Phase I oncology studies, with a view to maximizing the rate of patient recruitment.
The Company is planning to conduct the study at three U.S. centers: under the direction of Dr. Thomas Stinchcombe at the University of North Carolina, Chapel Hill; Dr. Anthony Olszansky at the Fox Chase Cancer Center, Philadelphia; and Dr. David Hong and Dr. Sarina Piha-Paul at the University of Texas, MD Anderson Cancer Center, Houston.
The study will begin with a dose of 0.13 micrograms of L-DOS47 per kilogram of patient body weight. L-DOS47 will be infused in ascending dose levels in groups of 3-to-6 patients per ascending dose level once weekly for three weeks followed by one week of rest (one treatment cycle = four weeks), over four planned treatment cycles. The total number of patients to be enrolled in the study will ultimately depend on how many ascending dose levels are required to reach the maximum tolerated dose ("MTD"); however, based on the Company’s preclinical studies to-date, it currently estimates that the study will enroll approximately 30 to 50 patients in order to reach the MTD. Study patients will be male or female at least 18 years of age with histologically or cytologically confirmed stage IV solid cancerous tumors of any type, which are deemed by their physician to be unresponsive to, or untreatable by, standard therapies. Patients will have an Eastern Cooperative Oncology Group ("ECOG") performance status of 0 – 1 at the screening visit for this study, and will have at least one site of measurable disease per the Response Evaluation Criteria In Solid Tumors ("RECIST") v1.1. After four treatment cycles, at the discretion of the investigator and in consultation with the medical monitor, patients who experience clinical benefit may be eligible to continue L-DOS47 for as long as the treatment is well tolerated and the clinical benefit is sustained. End of study is defined as 30 days after the last patient’s last dose (last dose of treatment cycle four), or when all patients have discontinued, whichever occurs sooner.
The Company plans to prioritize its current capital resources to initiating this U.S. Phase I study as well as a planned Polish Phase I/II study assuming the required regulatory approval is also obtained for the planned Polish study in a timely fashion. The Company expects to file the regulatory dossier for the planned Polish Phase I/II study in the coming weeks. The Company is still in the process of finalizing the required third-party service provider costing proposals to execute both studies and has not yet committed any funds for this purpose. Also, the Company will require additional capital in order to see both studies through to completion. The Company estimates that its U.S. Phase I study and its planned Polish Phase I/II study will have durations of not less than 12 months and 18 months after commencement of patient enrolment, respectively, followed by analysis and reporting of the study results in each case. These estimates are based on the Company’s current planned schedules, which includes estimates of patient availability and recruitment rate in both jurisdictions, and assume that the Company will be able to obtain the requisite additional financing to complete the studies in a timely manner.
About L-DOS47
L-DOS47 is the Company’s first drug candidate under development based upon its DOS47 technology. L-DOS47 is a therapeutic immunoconjugate which combines Helix’s DOS47 technology with a highly specialized camelid-derived single domain antibody designed to identify a unique CEACAM6 antigenic site predominantly associated with NSCLC cells. It is designed to function by leveraging a natural process in the body called the urea cycle, to produce an anti-cancer effect. It is based upon a naturally occurring enzyme called urease that essentially reverses the urea cycle by breaking down urea into metabolites that include ammonia and hydroxyl ions. By breaking down urea at the site of cancerous tissues in the body, L-DOS47 is believed to modify the microenvironmental conditions of cancer cells in a manner that leads to their death. Among these theorized effects, L-DOS47 is believed to stimulate an increase in the pH of the microenvironment surrounding the cancerous cells, effectively reversing the acidic extra-cellular conditions that are known to be necessary for cancer cell survival. As well, the local production of ammonia at the site of cancerous tissues is thought to readily diffuse into the cancer cells to exert a potent cytotoxic effect by interfering with their critical metabolic functions.
About Helix BioPharma Corp.
Helix BioPharma Corp. is a biopharmaceutical company focused on cancer therapy. The Company is actively developing innovative products for the prevention and treatment of cancer based on its proprietary technologies. Helix’s product development initiatives include its Topical Interferon Alpha-2b and its novel L-DOS47 new drug candidate. Helix is listed on the TSX, NYSE Amex and FSE under the symbol "HBP". For more information, please visit www.helixbiopharma.com.
SOURCE: Helix BioPharma Corp.
Post Views: 45
