At the time of the patient's evaluation, a thorough history should reveal the initial diagnosis for which radiation therapy was used, as well as the site of the radiation exposure, and finally the total amount of radiation that the patient has received. It is important to note the radiation dose as well as the timing of the onset of the observed skin changes.  Any associated chemotherapy will also need to be documented, in particular, the types of chemotherapeutic agents used.  Again, certain therapeutic agents were present as risk factors for radiation recall, as discussed above; some of the chemotherapeutic agents that will predispose to radiation recall are doxorubicin, docetaxel, paclitaxel, tamoxifen, methotrexate, to name a few. Chemotherapeutic agents such as doxorubicin, bleomycin, disulfiram, cisplatin, and mafenide acetate are also relative contraindications to hyperbaric oxygen treatment, a treatment modality that is often used as an adjuvant treatment for late effects of radiation skin changes such as ulcerations.

Overall, a thorough history will be important in providing documentation that will aid in choosing a specific treatment algorithm, especially if it involves hyperbaric oxygen treatment.

In addition to the physical exam that is customary for every patient evaluated for any disease process, there should be a particular focus on the presentation of the skin injury itself, as this will decide the treatment modality to be used, depending on the classification of radiation injury. Clinical manifestation of chronic radiation skin injury includes xerosis, hyperkeratosis, decreased or absent sweating, skin atrophy and dyspigmentation, as well as necrosis with full-thickness wounds, and others.

There should be a particular focus in identifying any contraindication to possible hyperbaric oxygen treatment, a treatment modality that is often used with late effects of radiation on the skin. A neck and head and exam is important, with a special focus on the eye for cataracts. The tympanic membranes should be evaluated for any scarring or other abnormalities that may make it hard for the pressure to equalize within the inner year. A chest radiograph to confirm the absence of any acute disease processes and for bullous diseases should be obtained given the high incidence of pneumothorax under more than one atmospheric pressure that is typical of a hyperbaric treatment protocol.

Evaluation of the patient with skin injury due to radiation treatment should include all relevant tests necessary for initiation of a specific treatment modality such as hyperbaric oxygen treatment; these tests would include a chest x-ray, a hemoglobin A1C, a sedimentation rate, and a complete blood count (CBC) if infection might be present.

Other tests may be ordered as applicable depending on the presentation of the patient at the time of the initial visit or if any complications were to arise during treatment.

In general, the treatment of radiation injury to the skin, acute, subacute or delayed, should reflect the extent of the injury itself,  keeping  in mind that necrotic tissue should be debrided, infection and inflammation should be managed properly, moisture management should not be ignored and continuous evaluation of the progression of the wound given the therapy employed should be done regularly with a treatment modality change depending on the status of the reepithelialization progress. In other words, standard wound management concepts should still be applied, with strict modifications given the etiology of the of the injury itself, ether just acute erythema at the skin or full thickness chronic wound.[10][11][12]

Management of Injury to the irradiated skin should begin with patient education in regards to skin care during the pre-radiation phase, post radiation phase and during the radiation treatment period. Education to the patient should include promotion of personal hygiene and wound hygiene, promotion of comfort, prevention of trauma to the affected skin, and management of radiation dermatitis.

Choices of cleanser and moisturizers and topical creams in radiation-induced skin injuries should reflect the extent of the injury itself. Products such as Natural Care Gel, Eucerin cream, Lubriderm, and corticosteroid cream can be used for erythema and dry desquamation.  If an infection is present topical antibiotic ointment such as Neosporin or silver sulfadiazine 1% can be used, although the need for systemic antibiotic should be assessed as well'

Additional management manifesting irradiation injuries to the skin can be broken down by the presenting clinical pathology:

1. Radiation-induced fibrosis: Delanian showed that the use of pentoxifylline, a methylxanthine derivative, and alpha-tocopherol may cause partial reversibility of the fibrosis. In severe cases of fibrosis, surgical resection of the affected tissue may be indicated, with the reconstruction of the defect by a free flap or split thickness skin graft, with hyperbaric oxygen treatment as a possible adjuvant therapeutic agent as well.
2. Nonhealing call service/soft tissue necrosis: initial treatment includes hyperbaric oxygen treatment and Pentoxyfilline and later surgical resection of the tissue followed by surgical reconstruction of the defect (
3. Osteoradionecrosis/chondronecrosis: it usually affects irradiated facial bone (the mandible). Dental extraction and infection predispose osteoradionecrosis; management varies, from dental extraction before radiation therapy to pentoxifylline and vitamin E before dental extraction in post-irradiated tissue. Hyperbaric oxygen treatment has been used successfully for this type of chronic manifestation of radiation-induced injury

Hyperbaric oxygen treatment has one of the most frequent applications and delays radiation injuries, with up to one-third of patients treated with HBO2 for radiation injury in the United States. Even the mechanism of injury of ionizing radiation to be mainly hypoxia and increased district fibrosis, better oxygen treatment has been shown to increase angiogenesis and therefore improving oxygenation as well as reduce fibrosis, although this effect has not been fully investigated and explain.

Another mechanism of action of delayed radiation injury has been the negative impact of ionizing radiation on stem cells (Feldmeier J, Hyperbaric oxygen therapy and delayed radiation injury (soft tissue and bone necrosis. All serious investigations are now being pursued based upon luminary evidence that hyperbaric oxygen treatment increases the number of stem cells radiation injury site.

• Buruli ulcer

• Chronic herpes ulcers

• Cutaneous tuberculosis

• Deep fungal infection

• Drepanocytosis

• Ecthyma

• Leishmaniasis

• Leprosy

• Phagedenic ulcers

• Skin cancers

• Tropical ulcer

• Vascular or diabetic ulcers

• Yaws

In general, the patient's prognosis will depend on several factors, mainly the extent of the radiation injury in terms of grades 1, 2, 3, or 4, as well as associated comorbidities.

The management of radiation injury to the skin, especially grade 4 in which there are skin necrosis and full-thickness wounds, is complex with no accepted standards regarding specific modalities that are based upon irrefutable conclusions from RCT with a large number of patients. There are, however, accepted guidelines based on retrospective reviews that contain a small or large number of subjects. These reviews suggest, in general, that the treatment of radiation injuries, either acute, subacute or delayed, should follow good medical practices, with adaptations of known wound care principles to the problem at hand. For the management of full-thickness wounds due to delayed radiation injury, the accepted guidelines of management of necrotic tissue, prevention, and treatment of infections, management of wound exudate, and reevaluation of the treatment plan based upon observation of wound progress, should be coupled with patients education. This education should include everyday skin and wound care management and evaluation for methylxanthine derivatives in conjunction with hyperbaric oxygen treatment as well as the application of tissue containing stem cells, other live cells, as well as cytokines and growth factors, coupled with a healthy extracellular matrix.

Consultations for wound management in patients with radiation injury to the skin would generally require the input of specialists with expertise that may be beneficial to the patient depending on the location and the extent of the injury. Useful input by evaluation from plastic surgery, infectious disease, otorhinolaryngology, dermatology, and certified specialists in wound managements with expertise in hyperbaric oxygen treatment will maximize the patient's potential for recovery.