Preconditioning With Ozone Abrogates Acute Rejection and Prolongs Cardiac Allograft Survival in Rats

Ozone: a natural bioactive molecule with antioxidant property as potential new strategy in aging and in neurodegenerative disorders

Systems medicine is founded on a mechanism-based approach and identifies in this way specific therapeutic targets. This approach has been applied for the transcription factor nuclear factor (erythroid-derived 2)-like 2 (Nrf2). Nrf2 plays a central role in different pathologies including neurodegenerative disorders (NDs), which are characterized by common pathogenetic features. We here present wide scientific background indicating how a natural bioactive molecule with antioxidant/anti-apoptotic and pro-autophagy properties such as the ozone (O₃) can represent a potential new strategy to delay neurodegeneration. Our hypothesis is based on different evidence demonstrating the interaction between O₃ and Nrf2 system. Through a meta-analytic approach, we found a significant modulation of O₃ on endogenous antioxidant-Nrf2 (p < 0.00001, Odd Ratio (OR) = 1.71 95%CI:1.17-2.25) and vitagene-Nrf2 systems (p < 0.00001, OR = 1.80 95%CI:1.05-2.55). O₃ activates also immune, anti-inflammatory signalling, proteasome, releases growth factors, improves blood circulation, and has antimicrobial activity, with potential effects on gut microbiota. Thus, we provide a consistent rationale to implement future clinical studies to apply the oxygen-ozone (O₂-O₃) therapy in an early phase of aging decline, when it is still possible to intervene before to potentially develop a more severe neurodegenerative pathology. We suggest that O₃ along with other antioxidants (polyphenols, mushrooms) implicated in the same Nrf2-mechanisms, can show neurogenic potential, providing evidence as new preventive strategies in aging and in NDs.

Protective Effects of Ozone Oxidative Postconditioning on Long-term Injury After Renal Ischemia/Reperfusion in Rat

BACKGROUND

Renal ischemia/reperfusion (I/R) injury can cause serious kidney damage (eg, acute aortic injury, chronic fibrosis). Some postconditioning treatments have been reported to protect from I/R effects. However, their mechanisms remain unclear. Here, we focused on potential protective effects of ozone on tubulointerstitial fibrosis after renal I/R injury in rats.

METHODS

Adult male rats were randomly divided into 4 groups with (1) sham-without I/R; (2) I/R-by clamping renal pedicle for 45 minutes; (3) I/R with ozone oxidative postconditioning (OzoneOP) following a 10-day reperfusion; and (4) I/R with oxygen oxidative postconditioning (OxygenOP) following a 10-day reperfusion. The kidneys were collected at 2 time points post I/R 10 days (at early phase) and 12 weeks (at late phase) and then analyzed for renal function, tissue fibrosis, and serum creatinine and urea nitrogen levels by staining and colorimetric methods. Additionally, expression levels of related fibrotic factors, such as α-smooth muscle actin, transforming growth factor β1, and phospho-Smad2, were assayed by immunochemistry staining.

RESULTS

OzoneOP treatment downregulated the α-smooth muscle actin, transforming growth factor β1, and phospho-Smad 2 protein expression in rats subjected to I/R at 10 days and 12 weeks. Moreover, it improved renal dysfunction and attenuated the patchy tubulointerstitial fibrosis.

CONCLUSION

Ourdata indicate that I/R-induced renal damage might cause severe tubulointerstitial fibrosis at the late phase, and OzoneOP treatment may inhibit this fibrotic development.

Medical ozone therapy for the inner ear acoustic trauma

OBJECTIVES

The goal of the study was to look at the potential protective effect of ozone therapy by studying its antioxidant and vasodilatation effects against hearing loss caused by acoustic trauma.

METHODS

Thirty-two male Wistar Albino rats were divided into four groups of eight. The 1st group was exposed to acoustic trauma, the 2nd group was treated with ozone initially, and was exposed to acoustic trauma 24 h later, the 3rd group received ozone without trauma, while the 4th group was the control group. The 1st and 2nd groups were exposed to acoustic trauma with 105 dB SPL white band noise for 4h. DPOAE and ABR tests were conducted in all groups on the 1st, 5th, and 10th days after trauma.

RESULTS

In the 1st group, the effects of acoustic trauma continued on days 1, 5 and 10. The 2nd group's DPOAE and ABR results on days 5 and 10 showed significant improvement at all frequencies compared to deterioration on day 1, and the readings were comparable to baseline measurements.

CONCLUSION

Acoustic trauma is a pathology that is experienced frequently and leads to many problems in terms of health and cost. Ozone was demonstrated to be a reparative substance against acoustic trauma and, in addition, it can be supplied and applied easily.

Effects of ozone therapy on haemostatic and oxidative stress index in coronary artery disease

Coronary artery disease (CAD) is the most common cause of sudden death, and death of people over 20 years of age. Because ozone therapy can activate the antioxidant system and improve blood circulation and oxygen delivery to tissue, the aim of this study was to investigate the therapeutic efficacy of ozone in patients with CAD, treated with antithrombotic therapy, Aspirin and policosanol. A randomized controlled clinical trial was performed with 53 patients divided into two groups: one (n=27) treated with antithrombotic therapy and other (n=26) treated with antithrombotic therapy plus rectal insufflation of O(3). A parallel group (n=50) age and gender matched was used as reference for the experimental variables. The efficacy of the treatments was evaluated by comparing hemostatic indexes and biochemical markers of oxidative stress in both groups after 20 day of treatment. Ozone treatment significantly (P<0.001) improved prothrombin time when compared to the antithrombotic therapy only group, without modifying bleeding time. Combination antithrombotic therapy+O(3) improved the antioxidant status of patients reducing biomarkers of protein and lipid oxidation, enhancing total antioxidant status and modulating the level of superoxide dismutase and catalase with a 57% and 32% reduction in superoxide dismutase and catalase activities respectively, moving the redox environment to a status of low production of O(2)(•-) with an increase in H(2)O(2) detoxification. No side effects were observed. These results show that medical ozone treatment could be a complementary therapy in the treatment of CAD and its complications.

The influence of antigen-dependent and antigen-independent factors on the development of graft vasculopathy in a fully allogeneic cardiac allograft model in the rat

Graft vasculopathy (GVP) is one of the major obstacles to long-term graft and patient survival after cardiac transplantation and a major reason for morbidity and mortality. Antigen-dependent and antigen-independent factors play causal roles in the development of GVP. The aim of this study was to evaluate antigen-dependent and -independent factors in the development of GVR in a clinically relevant fully allogeneic rat cardiac model under immunosuppression with cyclosporine (CyA). Lewis rats were challenged with Wistar-Furth cardiac allografts. Acute rejection occurred within 10 days after engraftment (n = 6). Daily SC administration of CyA (2.5 mg/kg body weight, n = 12) led to long-term graft survival (>100 days) but did not prevent GVP (Adams Score: 1.7 +/- 1.9, n = 4). Isografts did not develop GVP. In allografts, the dose modification of CyA to 5 mg or 1.25 mg/kg body weight as well as the prolongation of ischemia from 45 minutes to 4 hours did not increase the development of GVP. In isografts, the prolongation of ischemic time from 45 minutes to 4 hours significantly increased the development of GVP (Adams score, 0.3 +/- 0.8 [n = 7] vs 1.2 +/- 1.9 [n = 6]; P < .05). In this fully allogeneic cardiac allograft model with clinically relevant immunosuppressive therapy, GVP was induced independent of the applied CyA dose. In addition, the prolongation of ischemic time did not increase the development of GVP. Isografts only developed significant GVP with long ischemia times. Therefore, an initial injury, either prolonged ischemia time or an allogeneic immune response, predispressed to the development of GVP.

How Is Ozone Administered?

Except for the inhalation route (prohibited by tracheo-bronchial-pulmonary toxicity), many parenteral and topical routes are used to administer ozone without toxic effects and minimal discomfort (Table 5.1).

Is Ozone Really a “Wonder Drug”?

Even if the reader has only browsed through the previous chapters, he ought to have received my feeling that ozone has an enormous therapeutic potential that, so far, has been either disregarded, if not obstructed by world medical authorities. Reasons for delaying the use of ozone are multiple: while quacks and inexpert ozonetherapists are at fault for poor work, other aspects such as commercial and pharmaceutical interests, prejudice, lack of knowledge and a myopic medical vision have done their best to block a substantial and rapid progress.

Apoptotic cell death during accelerated rejection in sensitized rat recipients of cardiac allografts

Accelerated rejection due to host sensitization to major histocompatibility complex antigens is a critical problem in clinical organ transplantation in patients who have previously received an organ transplant, experienced acute rejection episodes, received blood transfusions, or been pregnant. The precise pathologic mechanisms underlying accelerated rejection have not been characterized. Herein, we describe apoptosis during T- and B-cell-driven accelerated rejection of cardiac allografts in presensitized recipients. In an established accelerated rejection model, Lewis rats were sensitized to skin grafts from Wistar-Furth rats; after 7 days, they received Wistar-Furth hearts. These grafts were rejected within 24 hours posttransplantation compared with 10 days in nonsensitized recipients (acute rejection, n = 5). Apoptosis was observed during accelerated rejection of cardiac allografts but not in naïve recipients of hearts, as demonstrated at DNA laddering and TUNEL (terminal deoxynucleotide transferase-mediated deoxyuridine triphosphate nick-end labeling) assay. Apoptosis was discovered as a thus far unknown effector mechanism in accelerated cardiac transplant rejection that accompanies combined cellular and humoral immune alloreactivity. Apoptotic cell death in accelerated rejection and the cascade of upstream and downstream events leading to or resulting from this process should be considered critical steps in the pathogenesis of accelerated rejection.