Ct Characteristics Allow the Identification of Patient-Specific and Regional Susceptibility for Radiation-Induced Lung Damage

: Radiation-induced lung injury is characterized by an acute pneumonia phase followed by a fibrotic phase. At the time of irradiation, a rapid, short-lived burst of reactive oxygen species (ROS) such as hydroxyl radicals (•OH) occurs, but chronic radiation-induced lung injury may occur due to excess ROS such as H2O2 , O2•− , ONOO− , and •OH. Molecular hydrogen (H2 ) is an efficient antioxidant that quickly diffuses cell membranes, reduces ROS such as •OH and ONOO− , and suppresses damage caused by oxidative stress in various organs. In 2011, through the evaluation of electron-spin resonance and fluorescent indicator signals, we had reported that H2 can eliminate •OH and can protect against oxidative stress-related apoptotic damage induced by irradiation of cultured lung epithelial cells. We had explored for the first time the radioprotective effects of H2 treatment on acute and chronic radiation-induced lung damage in mice by inhaled H2 gas (for acute) and imbibed H2 -enriched water (for chronic). Thus, we had proposed that H2 be considered a potential radioprotective agent. Recent publications have shown that H2 directly neutralizes highly reactive oxidants and indirectly reduces oxidative stress by regulating the expression of various genes. By regulating gene expression, H2 functions as an anti-inflammatory and anti-apoptotic molecule and promotes energy metabolism. The increased evidence obtained from cultured cells or animal experiments reveal a putative place for H2 treatment and its radioprotective effect clinically. This review focuses on major scientific advances of in the treatment of H2 as a new class of radioprotective agents.

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Premedications for Cancer Therapies: A Primer for the Hematology/Oncology Provider

Journal of the Advanced Practitioner in Oncology ◽

10.6004/jadpro.2021.12.8.4 ◽

2021 ◽

Vol 12 (8) ◽

Author(s):

Amber Clemmons, PharmD, BCOP ◽

Arpita Gandhi, PharmD, BCOP ◽

Andrea Clarke, PharmD ◽

Sarah Jimenez, APN-BC, AGACNP, AOCNP ◽

Thuy Le, MD ◽

...

Keyword(s):

Best Practices ◽

Adverse Events ◽

Chemotherapeutic Agents ◽

Patient Specific ◽

Cancer Therapies ◽

Quality Of Data ◽

Advanced Practitioner ◽

Patients At Risk ◽

Radiation Induced

Chemotherapeutic agents and radiation therapy are associated with numerous potential adverse events (AEs). Many of these common AEs, namely chemotherapy- or radiation-induced nausea and vomiting, hypersensitivity reactions, and edema, can lead to deleterious outcomes (such as treatment nonadherence or cessation, or poor clinical outcomes) if not prevented appropriately. The occurrence and severity of these AEs can be prevented with the correct prescribing of prophylactic medications, often called “premedications.” The advanced practitioner in hematology/oncology should have a good understanding of which chemotherapeutic agents are known to place patients at risk for these adverse events as well as be able to determine appropriate prophylactic medications to employ in the prevention of these adverse events. While several guidelines and literature exist regarding best practices for prophylaxis strategies, differences among guidelines and quality of data should be explored in order to accurately implement patient-specific recommendations. Herein, we review the existing literature for prophylaxis and summarize best practices.

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Late Reacting Tissues: Radiation-Induced Lung Damage

Radiation Oncology: Radiobiological and Physiological Perspectives ◽

10.1007/978-94-015-7865-3_13 ◽

1990 ◽

pp. 357-393

Author(s):

Hassan K. Awwad

Keyword(s):

Lung Damage ◽

Radiation Induced

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Preclinical models of radiation-induced lung damage: challenges and opportunities for small animal radiotherapy

British Journal of Radiology ◽

10.1259/bjr.20180473 ◽

2019 ◽

Vol 92 (1095) ◽

pp. 20180473 ◽

Cited By ~ 5

Author(s):

Mihaela Ghita ◽

Victoria Dunne ◽

Gerard G Hanna ◽

Kevin M Prise ◽

Jaqueline P Williams ◽

...

Keyword(s):

Small Animal ◽

Lung Damage ◽

Preclinical Models ◽

Challenges And Opportunities ◽

Radiation Induced ◽

Small Animal Radiotherapy

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Deficiency of 15-LOX-1 Induces Radioresistance through Downregulation of MacroH2A2 in Colorectal Cancer

Cancers ◽

10.3390/cancers11111776 ◽

2019 ◽

Vol 11 (11) ◽

pp. 1776 ◽

Cited By ~ 1

Author(s):

Yoo Jin Na ◽

Bo Ram Kim ◽

Jung Lim Kim ◽

Sanghee Kang ◽

Yoon A. Jeong ◽

...

Keyword(s):

Colorectal Cancer ◽

Dna Damage ◽

Specific Treatment ◽

Enrichment Analysis ◽

Gene Set Enrichment Analysis ◽

Patient Specific ◽

Histone H2a ◽

Gene Set Enrichment ◽

Damage Response ◽

Radiation Induced

Despite the importance of radiation therapy, there are few radiation-related markers available for use in clinical practice. A larger catalog of such biomarkers is required to help clinicians decide when radiotherapy should be replaced with a patient-specific treatment. Arachidonate 15-lipoxygenase (15-LOX-1) enzyme is involved in polyunsaturated fatty acid metabolism. When colorectal cancer (CRC) cells were exposed to radiation, 15-LOX-1 was upregulated. To verify whether 15-LOX-1 protects against or induces DNA damage, we irradiated sh15-LOX-1 stable cells. We found that low 15-LOX-1 is correlated with radioresistance in CRC cells. These data suggest that the presence of 15-LOX-1 can be used as a marker for radiation-induced DNA damage. Consistent with this observation, gene-set-enrichment analysis based on microarray experiments showed that UV_RESPONSE was decreased in sh15-LOX-1 cells compared to shCon cells. Moreover, we discovered that the expression of the histone H2A variant macroH2A2 was sevenfold lower in sh15-LOX-1 cells. Overall, our findings present mechanistic evidence that macroH2A2 is transcriptionally regulated by 15-LOX-1 and suppresses the DNA damage response in irradiated cells by delaying H2AX activation.

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