Theralase Technologies Inc. V.TLT

Alternate Symbol(s): V.TLT.W | TLTFF

Healthcare Medical Devices

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 Photo Dynamic Compounds (PDCs) and activates them with patent pending laser technology to destroy specifically targeted cancers, bacteria and viruses. The CLT division is responsible for the Company’s medical laser business. The Cool Laser Therapy division designs, develops, manufactures and markets super-pulsed laser technology indicated for the healing of chronic knee pain. The technology has been used off-label for healing numerous nerve, muscle and joint conditions. The Company develops products both internally and using the assistance of specialist external resources.

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Theralase Technologies Inc.

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Post by langostaon Aug 12, 2022 7:09am

266 Views

Post# 34890685

ROS

It is very confusing to this layman.

Reactive oxygen species (ROS) are highly reactive chemicals formed from O₂. Examples of ROS include peroxides, superoxide, hydroxyl radical, singlet oxygen,^[1] and alpha-oxygen.

The reduction of molecular oxygen (O₂) produces superoxide (^•O−
2), which is the precursor to most other reactive oxygen species:^[2]

O₂ + e⁻ → ^•O−
2

Dismutation of superoxide produces hydrogen peroxide (H₂O₂):^[2]

2 H⁺ + ^•O−
2 + ^•O−
2 → H₂O₂ + O₂

Hydrogen peroxide in turn may be partially reduced, thus forming hydroxide ions and hydroxyl radicals (^•OH), or fully reduced to water:^[2]

H₂O₂ + e⁻ → HO⁻ + ^•OH

2 H⁺ + 2 e⁻ + H₂O₂ → 2 H₂O

In a biological context, ROS are byproducts of the normal metabolism of oxygen. ROS have roles in cell signaling and homeostasis.^[3]^[4]^[5] ROS are intrinsic to cellular functioning, and are present at low and stationary levels in normal cells.^[6] In plants, ROS are involved in metabolic processes related to photoprotection and tolerance to various types of stress.^[7] However, ROS can cause irreversible damage to DNA as they oxidize and modify some cellular components and prevent them from performing their original functions. This suggests that ROS has a dual role; whether they will act as harmful, protective or signaling factors depends on the balance between ROS production and disposal at the right time and place.^[8]^[9] In other words, oxygen toxicity can arise both from uncontrolled production and from the inefficient elimination of ROS by the antioxidant system. During times of environmental stress (e.g., UV or heat exposure), ROS levels can increase dramatically.^[4] This may result in significant damage to cell structures. Cumulatively, this is known as oxidative stress. The production of ROS is strongly influenced by stress factor responses in plants, these factors that increase ROS production include drought, salinity, chilling, defense of pathogens, nutrient deficiency, metal toxicity and UV-B radiation. ROS are also generated by exogenous sources such as ionizing radiation^[10] generating irreversible effects in the development of tissues in both animals and plants.^[11]