[Evaluation of late radiation-induced changes in superficial microcirculation. I. Clinical benefit of the cutaneous Doppler laser]

Patient-Side Appraisal of Late Radiation-Induced Oral Microvascular Changes

PURPOSE

To determine the clinical feasibility of examining and measuring late irradiation changes in the oral microcirculation of head and neck (HN) cancer patients using the novel CytoCam video microscope system.

METHODS AND MATERIALS

In 30 HN cancer patients and 30 age-matched controls, bilateral video images were recorded noninvasively of the oral microcirculation of the buccal mucosa and mandibular gingiva. Tissue perfusion parameters, such as functional capillary density (FCD), buccal blood vessel diameter, and microcirculatory flow index, were analyzed.

RESULTS

No difference was observed for mean buccal mucosa FCD in irradiated versus healthy tissue, whereas a lower mean gingival FCD in irradiated versus healthy tissue was observed (34 ± 17 capillaries per millimeter squared [cpll/mm²] vs 68 ± 19 cpll/mm²; P < .001). A significant difference in mean buccal blood vessel diameter of 16 ± 3 μm was measured, compared with 14 ± 1 μm in control buccal mucosa (P < .001). No significant difference in microcirculatory flow index was observed between the 2 groups.

CONCLUSIONS

Quantifying oral microcirculatory injury associated with late irradiation effects using the CytoCam was feasible in HN cancer patients. Results indicate that marked differences in tissue-specific microcirculatory measurements of angioarchitecture, diminished capillary density, and extensively dilated blood vessel diameters are associated with late irradiation effects in HN cancer patients.

Noninvasive radiation burn diagnosis using speckle phenomenon with a fractal approach to processing

Radiation burns account for the vast majority of damage by accidental radiation exposure. They are characterized by successive and unpredictable inflammatory bursts that are preceded by a clinically latent postirradiation period. Diagnosis and prognosis of the clinical course of radiation burns have proven to be a difficult task. In a classical clinical setting, no technique can distinguish irradiated versus healthy skin during the clinically latent period, hence development of new tools is required. This work describes a noninvasive technique based on speckle phenomenon, designed to support radiation burn diagnosis and prognosis. Speckle produced by strongly scattering media contains information about their optical properties. The difficulty is to extract significant information from speckle patterns to discriminate between strongly scattering media and to characterize any change. Speckle patterns from irradiated and nonirradiated porcine skins are recorded in vivo several times after radiation exposure. A fractal approach is used in the treatment of speckle patterns. The results show that this technique allows discrimination between healthy and irradiated skin, in particular during the clinically latent period (p<0.01). Parameters extracted from speckle patterns discriminate and vary differently with radiation, which means they represent different information about skin changes.

The radiation-induced fibroatrophic process: therapeutic perspective via the antioxidant pathway

The radiation-induced fibroatrophic process (RIF) constitutes a late, local and unavoidable sequela to high-dose radiotherapy, traditionally considered irreversible. Today, this process is partly reversible, thanks to recent progress in understanding the physiopathology of the lesions it causes and the results of recent clinical trials using antioxidant therapy. This review includes a synthetic description of the static and dynamic features of the RIF process, as reflected by its clinical, instrumental and histopathological characteristics, and by its cellular and molecular regulation. Schematically, three successive clinical and histopathological phases can be distinguished: a pre-fibrotic aspecific inflammatory phase, a constitutive fibrotic cellular phase, and a matrix densification and remodelling phase, possibly ending in terminal tissular necrosis. The respective roles of the chief actors in the RIF process are defined, as well as their development with time. A fibroblastic stromal hypothesis is suggested revolving around a 'gravitational effect' exerted by the couple ROS (reactive oxygen species)--fibroblasts, and partly mediated by TGF-beta1. A variety of strategies have been tested for the management of RIF. In the light of the mechanisms described, a curative procedure has been proposed via the antioxidant pathway. In particular, it was showed that superoxide dismutase and combined pentoxifylline-tocopherol treatment enables the process of established radiation-induced fibroatrophy to be greatly reduced or even reversed, both in clinical practice and animal experiments. The efficacy of combined pentoxifylline-tocopherol treatment in superficial RIF was confirmed in a randomised clinical trial, and then in successful phase II trials especially in uterine fibroatrophy and osteoradionecrosis. It is of critical importance to evaluate these new management approaches in larger clinical trials and to improve the recording of results for better outcome analysis. Mechanistic studies are always necessary to improve understanding of the RIF process and the antifibrotic drug action.

PCC-FISH in Skin Fibroblasts for Local Dose Assessment: Biodosimetric Analysis of a Victim of the Georgian Radiological Accident

We propose a new method of biodosimetry that could be applied in cases of localized irradiation. The approach is based on excess chromosome segments determination by the PCC-FISH technique in fibroblasts isolated from skin biopsy. Typically, 0 to 10 Gy ex vivo gamma-irradiated human skin biopsies were dissociated and fibroblasts were isolated and grown for several days. Cells next underwent PCC-FISH painting of whole chromosome 4, and the number of excess chromosome segments per metaphase was determined. An ex vivo reference curve correlating the number of excess chromosome segments per metaphase to the radiation dose was established and used to assess the dose delivered to the skin of one of the victims of the radiological accident that occurred at Lia in Georgia in December 2001. Specifically, the victim suffering from moist desquamation underwent skin excision in Hospital Percy (France). Measurement of excess chromosome segments per metaphase was done in fibroblasts isolated and grown from removed wounded skin and subsequent conversion to radiation doses was performed. The radiation dose map obtained was shown to be in accordance with clinical data and physical dosimetry as well as with conventional biodosimetry. These results demonstrated that PCC-FISH painting applied to skin fibroblasts may be a suitable technique for dose estimation. To assess its worth, this approach needs to be extended to future accidents involving localized radiation exposure.

[Reversibility of radiation-induced fibroatrophy]

PURPOSE

The radiation-induced fibro-atrophic process described in numerous tissues and organs is a localized and irreversible late effect of high-dose radiation therapy. Our purpose is to show that this process is today reversible.

CURRENT KNOWLEDGE AND KEY POINTS

This review describes a synthesis of various clinical, paraclinical and histopathological aspects of radiation-induced fibro-atrophic process, and of cellular and molecular process regulation. Schematically, there exists a prefibrotic aspecific inflammatory phase, then a constituted and cellular phase, then a matricial densification and remodeling phase, associated in some cases with a tissular terminal necrosis. The respective parts and their evolution during time of the main protagonists as myofibroblast, extracellular matrix and growth factor TGF beta 1 are clarified. From the pathophysiological mechanisms described, curative therapeutic attitudes are proposed for the different progressive phases. Especially, superoxide dismutase (not available) and the pentoxifylline-tocopherol combination seem to allow reduction and reversibility of the fibro-atrophic radiation-induced established process, in clinics as in animal experiments.

FUTURE PROSPECTS AND PROJECTS

Some phase II trials try to assess the therapeutic interest of combined pentoxifylline-tocopherol in various radiation-induced sequelae, as in osteo-radionecrosis. A clinical randomized trial phase III has just been achieved and could support the results of these experimental and retrospective clinical trials.