Secondary reactive oxygen species production after PDT during pulmonary tumor growth in sera of nude mice.

Photodynamic therapy (PDT), mediated by a sensitizer exposed to light to produce singlet oxygen ((1)O2), induces tumor responses varying from one person to another. Cancer growth induces oxidative stress at any step of its development from induction to treatment, which could also modify response to PDT. After the initial amount of (1)O2 delivered, secondary oxidative species (SOS) are also generated inducing additional damages.

Influence of animal species on secondary oxidant activation in serum exposed to singlet oxygen.

Singlet oxygen ((1)O(2)) produced during inflammatory reactions and during photodynamic therapy deactivates by producing in tissues secondary reactive oxygen species and peroxides (SOS) as well as other degradation products. We investigated the influence of animal species on SOS production secondary to standardized (1)O(2) production by performing in vitro experiments with rose bengal as the (1)O(2) producer, human serum (HS) as a control, sera derived from various animal species, and dichloro-dihydro-fluorescein as a nonspecific marker that becomes fluorescent when oxidized. The overall SOS production in HS from a presumed healthy cohort of 53 donors (31 males and 22 females) gave a mean "normal" value of 0.

Biophysical parameters influencing secondary oxidants activation in human serum exposed to singlet oxygen.

Singlet oxygen (¹O₂), produced during photodynamic therapy, deactivates during its interaction with tissues by producing reactive oxygen species (ROS) and peroxides as well as other degradation products. Here we investigated the role of parameters of light delivery, O(2), and temperature on the ROS and peroxides production, secondary to ¹O₂. A series of simple in vitro experiments has been performed with Rose Bengal (RB) as a ¹O₂ producer, human serum (HS) as a target and dichlorofluorescein (DCFH) as a nonspecific marker, becoming fluorescent when oxidized.