's Bulletin Board Post A Reply
my profile login | register | search | faq | forum home

»'s Bulletin Board » .11 and Up! » Agreement Secured by ProtoKinetix to Start Heart Research Product Validation Studies » Post A Reply

Post A Reply
Login Name:
Message Icon: Icon 1     Icon 2     Icon 3     Icon 4     Icon 5     Icon 6     Icon 7    
Icon 8     Icon 9     Icon 10     Icon 11     Icon 12     Icon 13     Icon 14    

HTML is enabled.
UBB Code™ is enabled.


Instant Graemlins Instant UBB Code™
Smile   Frown   Embarrassed   Big Grin   Wink   Razz  
Cool   Roll Eyes   Mad   Eek!   Confused   BadOne  
Good Luck   More Crap   Wall Bang   Were Up   Were Down    
Insert URL Hyperlink - UBB Code™   Insert Email Address - UBB Code™
Bold - UBB Code™   Italics - UBB Code™
Quote - UBB Code™   Code Tag - UBB Code™
List Start - UBB Code™   List Item - UBB Code™
List End - UBB Code™   Image - UBB Code™

What is UBB Code™?

Disable Graemlins in this post.


T O P I C     R E V I E W
jackbequick  - posted
Agreement Secured by ProtoKinetix to
Start Heart Research Product Validation Studies
Marietta, Ohio, May 9, 2019

ProtoKinetix, Incorporated ( (the "Company" or "ProtoKinetix") (OTCQB:PKTX) is announcing that the Company has secured a partnership agreement with IMPART investigator team Canada at Dalhousie University and has now commenced studies to reveal the benefits of PKX-001 (AAGP®) in cardiac metabolism. These studies will determine the efficacy of PKX-001 as a cardioprotectant and will be led by Diabetes Canada Scholar, Dr. Thomas Pulinilkunnil. As the director of the IMPART cardiometabolic research program, Dr. Pulinilkunnil leverages extensive training in molecular and metabolic sciences from his training at the University of British Columbia, the University of Alberta Heart Institute and Harvard Medical School. Dr. Pulinikunnil is currently a tenured Associate Professor at Dalhousie University, Faculty of Medicine in the Department of Biochemistry and Molecular Biology. Dr. Pulinilkunnil will utilize sophisticated techniques and experimental models of type-2 diabetes, cardiac ischemia, and cardioncology to evaluate the therapeutic utility of PKX-001 as a cardioprotectant.

Cardioprotectants are used extensively in hospital settings when the circulation is bypassed. They are components of cardioplegia solutions that protect the heart of patients from ischemia (low blood flow), such as during open-heart surgery or in preparation for heart transplantation. The metabolic protection identified in work-to-date by research laboratories using the ProtoKinetix product, AAGP®, as part of the Company’s product development strategy, has also opened up the potential for therapeutic protection of the heart during chemotherapy. Cardioncology is an emerging field of interest globally, as the cure rates of chemotherapy continue to improve and extend life. Ensuring that the heart is safe during chemotherapy is of paramount importance to several treatments regimens.

“I am very optimistic that our program will determine the therapeutic utility of PKX-001 as a cardioprotective molecule and I am confident that our team will identify, at least in part, some of the molecular mechanisms involved in the functionality of PKX-001. Glycopeptides, such as these, are inherently fascinating to me because they were inspired by the natural world. As such, the fundamentals have already been established biologically in nature in demonstrating their ability to self-protect tissues from harmful conditions like cold temperatures, low oxygen, and exposure to toxic agents. Developing innovative therapies inspired by fundamental science is exciting to me and our research team.” – Dr. Thomas Pulinilkunnil

About IMPART investigator team Canada

IMPART is a growing consortium of scientists and clinicians that are collaborating to better understand the common threads of chronic disease related molecular pathophysiology. The team seeks to deliver innovative medical solutions through research, development, and clinical trials. The focus of this consortium is to address the unmet medical needs of special populations and medical conditions involving inflammation, metabolism, and physical abilities through research translation. The team is particularly concerned with vulnerable patients, as they have the most to gain from new medical innovations. The team uses an interdisciplinary approach to develop research questions, as well as uncover and deploy novel solutions for unmet medical needs.

Contact Us | Message Board Home

© 1997 - 2021 All rights reserved.

Powered by Infopop Corporation
UBB.classic™ 6.7.2