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Bullboard - Investor Discussion Forum Theralase Technologies Inc. V.TLT

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Theralase Technologies Inc. is a Canada-based clinical-stage pharmaceutical company. The Company is engaged in the research and development of light activated compounds and their associated drug formulations. The Company operates through two divisions: Anti-Cancer Therapy (ACT) and Cool Laser Therapy (CLT). The Anti-Cancer Therapy division develops patented, and patent pending drugs, called... see more

TSXV:TLT - Post Discussion

Theralase Technologies Inc. > New Australian Study Discusses TLD1433
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Post by Eoganacht on Mar 02, 2022 2:43pm

New Australian Study Discusses TLD1433

Full text:

Photoactive and Luminescent Transition Metal Complexes as Anticancer Agents: A Guiding Light in the Search for New and Improved Cancer Treatments

biomedicines 2022

Received: 31 January 2022 / Revised: 23 February 2022 / Accepted: 26 February 2022 / Published: 1 March 2022
 
(This article belongs to the Special Issue Metal-Based Complexes in Cancer Treatment)

Brondwyn S. McGhie and Janice R. Aldrich-Wright
Nanoscale Organisation and Dynamics Group, School of Science, Western Sydney University

"3. Ruthenium Complexes
 
Ruthenium complexes are a favorite when it comes to alternatives to the “traditional” platinum-based chemotherapeutics. Ruthenium complexes commonly have large Stoke shifts, high chemical, and photochemical stability; are typically highly water-soluble; and are resistant to photobleaching. In 2017, TLD1433, a ruthenium complex created by the McFarland group, became the first transition-metal-based complex to enter human clinical trials for the PDT treatment of cancer; in 2018, it succeeded in its goals in the trial and was terminated early [50].

A phase-III clinical study of TDL1433 commenced in 2019, which is expected to take 2–3 years to complete [51]. TLD1433, like many Ru(II) complexes, is inspired by the complex [Ru(bpy)3]2+, but other structures have been suggested for 
luminescent anticancer agents. Alternative structures include the addition of cyclometallated ligands, so-called piano stool geometry, and derivatives with appended peptides or long-chain hydrophilic groups.
 
3.1. Tris(bipyridine)ruthenium(II)-Inspired Complexes 
 
Tris(bipyridine)ruthenium(II) ([Ru(bpy)3]2+)-inspired complexes were reviewed in detail at the end of 2018 and included in an account of the early development of TDL1433 by McFarland and colleagues [50]. Here, we provide a brief overview of TDL1433, focus on innovations within the past 5 years, and refer readers to McFarland’s review for seminal details [50]. TDL1433 contains functionalized aromatic chromophores with a low-lying triplet intra-ligand state, which makes them ideal for PDT. It is highly photosensitive and has long lifetimes, as well as 1O2 generation in both normoxic and hypoxic cells, despite having weak absorption within the biological window. This complex was designed with non-muscle-invasive bladder cancer in mind. This was done in a multidisciplinary approach described as “lateral”, as opposed to creating novel photosensitizers to find a suitable tumor target or retro-designing tumor specific complexes based on tumor properties. TDL1433 was part of a family of complexes tested with a range of different photophysical properties (Figure 5: TDL1433). The strategy of making premeditated incremental changes to the structure of tris NˆN Ru complexes is well established; for example, the Gasser group published two complexes with the structure [Ru(phen)2(7R,8R-dppz-)]2+, where R was either OH or OMe. Both complexes displayed intense phosphorescence, good 1O2 quantum yields, but different cellular accumulation, as well as toxicity......"
Comment by ScienceFirst on Mar 02, 2022 2:53pm
Minor typo. in the paper. It's Ph. II.  Not a Ph. III.
Comment by ScienceFirst on Mar 02, 2022 3:01pm
Other typo They sometimes specify TDL1433.
Comment by Legit62 on Mar 02, 2022 6:26pm
Great article, i was wondering about phase III ? My thoughts on releasing trial data later than we all expected was probably due to covid,possibly delaying results a bit,and feeling they want to release best results at best time, even if it makes all of us go a little crazy, rather get great results when all said and done, might come before newsletter and quarterlies, or with newsletter. We all ...more  
Comment by ScienceFirst on Mar 02, 2022 7:04pm
There will not be a Ph. 3 as this Ph. 2 is a pivotal one.  Case closed.
Comment by floatinketucky on Mar 02, 2022 9:11pm
Who ever wrote that is a hatchet.
Comment by ScienceFirst on Mar 02, 2022 8:08pm
One of the 2 authors of this study is a Fellow of the Royal Society of Chemistry.  That gives an even greater credibility to this paper, and to our TLD1433 molecule.  So our technology cannot be ignored anymore when people of this caliber publish.  This is in support to the amazing trailblazing work of Prof. McFarland. So manke no mistake; this paper only adds to what we already ...more  
Comment by CancerSlayer on Mar 03, 2022 3:07am
Loooong day at work...thanks Eoganacht for your continuing enlightenment of our ACT's potential.  Dr. Mc Farland's successful research into the medicinal benefits of organometallic chemistry has truly opened the floodgates for future research & clinical trials re: this miraculous compound/technology, & it's nice to know TLT will ultimately be the beneficiary of its success ...more  
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