1/229. Directional coronary atherectomy for the diagnosis and treatment of radiation-induced coronary artery stenosis.While radiation therapy has been known to cause myocardial and pericardial damage, its role in accentuating coronary artery disease in the absence of traditional cardiovascular risk factors has been controversial. As younger patients with treatable cancers are being treated with mediastinal radiation, coronary artery disease as a cause for severe chest pain should be entertained as a possible diagnosis. We describe a 25-year-old male who presented with an inferior wall myocardial infarction 6 years after receiving mediastinal radiation and chemotherapy for Hodgkin's disease. He was subsequently treated by directional atherectomy to a 95% lesion in the right coronary artery. Histological examination of the atherectomy specimen revealed evidence of radiation-induced endothelial damage that had resulted in plaque formation and subsequent ischemia. Possible mechanisms for radiation-induced coronary artery disease and treatment options are discussed.- - - - - - - - - - ranking = 1keywords = chest, pain (Clic here for more details about this article) |
2/229. breast cancer invasion into the chest wall with resection and reconstruction.Despite the advent of limited resections and radiation therapy in the treatment of breast cancer, a substantial number of women experience recurrence or persistent disease that invades the skin, soft tissues, and musculoskeletal layers of the chest wall. This problem, which can compromise local control of the tumor, can also involve pleura, lung tissue, and mediastinal structures. This article will cover some of the pertinent clinical decisions related to these lesions, their prognosis, and management by chest wall resection and reconstruction.- - - - - - - - - - ranking = 5.6805021766092keywords = chest (Clic here for more details about this article) |
3/229. Histopathological and cellular studies of a case of cutaneous radiation syndrome after accidental chronic exposure to a cesium source.This study was designed for the histopathological, cellular and biochemical characterization of a skin lesion removed surgically from a young male several months after accidental exposure to cesium-137, with an emphasis on expression of transforming growth factor beta1 (TGFB1) and tumor necrosis factor alpha (TNFA) and the occurrence of apoptosis. Under a hypertrophic epidermis, a highly inhomogeneous inflammatory dermis was observed, together with fibroblastic proliferation in necrotic areas. Immunostaining revealed overexpression of TGFB1 and TNFA inside the keratinocytes of the hypertrophic epidermis as well as in the cytoplasm of the fibroblasts and connective tissue of the mixed fibrotic and necrotic dermis. Inside this dermis, the TUNEL assay revealed areas containing numerous apoptotic fibroblasts next to areas of normal viable cells. Overexpression of TGFB1 was found in the conditioned medium and cellular fractions of both hypertrophic keratinocytes and fibrotic fibroblasts. This overexpression lasted for at least three passages in tissue culture. The present observations were consistent with the central role of TGFB1 in the determination of chronic radiation-induced damage to the skin and a significant involvement of TNFA. In addition, programmed cell death appeared to take place during the remodeling of the mixed fibrotic and necrotic tissue.- - - - - - - - - - ranking = 0.6649394004299keywords = area (Clic here for more details about this article) |
4/229. Subcutaneous calcification as a late effect of orthovoltage chest wall irradiation.Adjuvant radiotherapy to the breast or chest wall is given to some patients with breast cancer, to reduce the risk of local recurrence. It is known to be associated with various late sequelae, including subcutaneous fibrosis, telangiectasia and pulmonary fibrosis. Delivering radiotherapy to the chest wall and nodal drainage areas presents the technical problem of matching the glancing and anterior supraclavicular fields. Overlap between these fields will result in underlying tissues receiving a larger dose than intended; similarly, a gap results in an inadequate dose. We present the case history of a patient with subcutaneous calcification occurring as a late sequela of radiotherapy to the chest wall and anterior supraclavicular field. This has not been previously reported and is thought to have arisen from a high dose region in an area of overlap between fields.- - - - - - - - - - ranking = 7.0705454729973keywords = chest, area (Clic here for more details about this article) |
5/229. Pulsed dye laser treatment of telangiectasia after radiotherapy for breast carcinoma.Telangiectasia formed following exposure to X-ray irradiation have been reported to respond well to the pulsed dye laser system. We present the case of a 34-year-old woman with extensive post-radiotherapy skin telangiectasia of the chest wall and axilla who was treated with six sessions of pulsed dye laser treatment, with a considerable improvement in appearance. We recommend the pulsed dye laser as an option in the treatment of post-radiotherapy telangiectasia.- - - - - - - - - - ranking = 0.9467503627682keywords = chest (Clic here for more details about this article) |
6/229. Acute lower extremity paralysis following radiation therapy for cervical cancer.BACKGROUND: Acute lower extremity paralysis secondary to lumbosacral plexopathy is a rare but severe complication that may follow pelvic radiotherapy for cervical cancer. CASE: A 49-year-old female with newly diagnosed stage IIIB cervical cancer developed progressive bilateral lower extremity paralysis and pelvic pain only 10 weeks following completion of radiation therapy for cervical cancer with no evidence of metastasis or progression of disease. Her bladder and bowel function were not affected. Following extensive workup, the most likely etiology was presumed radiation-induced lumbosacral plexopathy. CONCLUSION: Although metastatic carcinoma is more commonly the reason for progressive lower extremity weakness with pelvic pain in women with advanced cervical cancer, radiation-induced lumbosacral plexopathy, a rare but devastating complication, may be the cause. diagnosis is by exclusion.- - - - - - - - - - ranking = 0.10649927446361keywords = pain (Clic here for more details about this article) |
7/229. radiation-associated ischemic coloproctitis: report of two cases.radiation-associated ischemic coloproctitis is a rare clinical entity caused by vascular insufficiency to the rectosigmoid colon. It most commonly occurs after radiotherapy for gynecological cancer. We present herein the cases of two patients who developed radiation-associated coloproctitis with transmural necrosis and eventual perforation. Perforation of the rectosigmoid colon occurred 3.5 years after radiotherapy in case 1, a 46-year-old woman, and presented as a well-defined small area of transmural necrosis. Conversely, in case 2, a 55-year-old woman, it occurred 1.5 years after radiotherapy, and presented as segmental, diffuse transmural necrosis. The lesion in case 1 had been caused by intramural vascular obliteration due to marked fibrosis of the bowel wall, while that in case 2 had been caused by occlusion of the mesenteric artery with thrombosis. Both patients underwent Hartmann's resection without rectal excision, and survived the perforative event.- - - - - - - - - - ranking = 0.22164646680997keywords = area (Clic here for more details about this article) |
8/229. Stereotactic radiosurgery. VIII. The classification of postradiation reactions.Postradiation reactions in the CNS are well described and catalogued in the conventional radiotherapy literature; acute, subacute and late CNS reactions are recognized. Tumours predispose to these normal tissue reactions by the oedema and pressure epiphenomena that occur in their environs, and probably by other mechanisms associated with tissue breakdown. That late normal tissue reactions (particularly permanent late sequelae--universally referred to as 'necrosis') occur in the normal nervous system is in the complication list of every radiosurgery centre. This article, for the first time, places postradiosurgery observations within or without the existing classification of reactions, and draws attention to the fact that previous 'radiosurgery risk factor' papers in the literature may be wrong to pool different 'reactions' in the formulation of risk formulae for normal brain damage following single shot radiotherapy. Acute reactions occur in the same manner as described for conventional radiotherapy, being a transient swelling phenomenon that occurs 12-48 h after therapy; they are fully reversible and do not usually augur late problems; routine administration of short duration steroids around the time of radiosurgery may prevent or delay the clinical signs. Subacute reactions occur 3-10 months later (a later time than the subacute reactions following conventionally fractionated radiotherapy), and may prove fully or partially reversible, or progress to permanent sequelae; the difference between these and late sequelae (which tend to be permanent themselves) then becomes blurred. That tumour swelling occurs in the subacute phase and is associated with oedema in the surrounding normal brain is an interesting observation (occurring in extra- and intra axial slow-growing tumours); it denotes tumour damage and has not been encountered in the conventionally-fractionated radiotherapy literature. Tumour shrinkage occurs later, with subsidence of the surrounding oedema, and this phenomenon may therefore be regarded (paradoxically) as a good prognostic sign, a point about which the referring clinician should be made aware. Similarly, contrast enhancement in the tumour perimeter at this time reflects a host reactive response and not tumour activity. Persistent clinical neurological signs and MRI changes (best seen on the T2 weighted sequences) beyond 2 years, indicate late damage or reaction. Usually, this represents scarring or coagulative necrosis without mass effect, but if there is a low signal area with mass effect and considerable surrounding oedema, liquefactive necrosis has occurred and (as in the brachytherapy literature) surgical decompression is very occasionally needed.- - - - - - - - - - ranking = 0.22164646680997keywords = area (Clic here for more details about this article) |
9/229. Enhanced accuracy in differential diagnosis of radiation necrosis by positron emission tomography-magnetic resonance imaging coregistration: technical case report.OBJECTIVE AND IMPORTANCE: To demonstrate the usefulness of positron emission tomography-magnetic resonance imaging (MRI) coregistration for differentiation of radiation necrosis and recurrent tumor in stereotactic planning. CLINICAL PRESENTATION: T1-weighted MRI scans of a 43-year-old woman revealed a contrast-enhancing lesion 4 years after open removal of a recurrent, right parieto-occipital Grade II oligodendroglioma and subsequent external radiation therapy. The suspected contrast-enhancing lesion revealed only moderate tracer uptake (1.3 times the uptake in the contralateral normal cortex) in a coregistered [11C]methionine positron emission tomographic scan. Approximately 15 mm posterior and mesial to the center of the contrast-enhancing lesion, however, an area of higher tracer uptake was found (1.8 times that of the contralateral normal cortex), which exhibited only very minor contrast enhancement on MRI. TECHNIQUE: The coregistered images were used for planning stereotactic serial biopsies, from the contrast-enhancing lesion as well as from the area with higher methionine uptake. Histological examination demonstrated that the contrast-enhancing lesion with low methionine uptake was necrotic tissue, and the nonenhancing area with high methionine uptake was recurrent tumor. CONCLUSION: High-resolution positron emission tomography and modern coregistration techniques allow differentiation of contrast enhancement and methionine uptake in irradiated brain tissue within small areas. High methionine uptake is typical for recurrent tumor tissue and can be differentiated from minor tracer accumulation resulting from disruption of the blood-brain barrier or macrophage activity within the necrotic area.- - - - - - - - - - ranking = 1.1082323340498keywords = area (Clic here for more details about this article) |
10/229. Complications of total abdominal and spleen irradiation in patients with lymphomas.Fifty patients with non-Hodgkin's lymphoma were treated with total abdominal irradiation to a dose of 3000 rad by anterior and posterior fields treated the same day. Fourteen patients developed complications, four with intestinal obstruction due to stenosis and three with total or partial intestinal irradiation damage. These bowel complications were only seen in patients who had previously had a laparotomy. The ways of preventing these complications are discussed. We have studied renal function by means of clinical examination, biologic and radiologic investigations, and scanning in 75 patients who have received splenic irradiation to a dose of 4000 rad. With a mean follow-up time of 36 months, this study has shown that there was no significant change in blood pressure or in biochemical measurements. However, at the 17th month, nephrotomograms demonstrated cortical atrophy of the upper role of the kidney; at the 8th month, low uptake in the irradiated area was seen on 197Hg neohydrine scanning and a decrease in renal plasma flow in the left kidney during dynamic studies with Hippuran.- - - - - - - - - - ranking = 0.22164646680997keywords = area (Clic here for more details about this article) |
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