Alexander Copelan scite author profile

Image-guided high-intensity focused ultrasound (HIFU) is an innovative therapeutic technology, permitting extracorporeal or endocavitary delivery of targeted thermal ablation while minimizing injury to the surrounding structures. While ultrasound-guided HIFU was the original image-guided system, MR-guided HIFU has many inherent advantages, including superior depiction of anatomic detail and superb real-time thermometry during thermoablation sessions, and it has recently demonstrated promising results in the treatment of both benign and malignant tumors. HIFU has been employed in the management of prostate cancer, hepatocellular carcinoma, uterine leiomyomas, and breast tumors, and has been associated with success in limited studies for palliative pain management in pancreatic cancer and bone tumors. Nonthermal HIFU bioeffects, including immune system modulation and targeted drug/gene therapy, are currently being explored in the preclinical realm, with an emphasis on leveraging these therapeutic effects in the care of the oncology patient. Although still in its early stages, the wide spectrum of therapeutic capabilities of HIFU offers great potential in the field of image-guided oncologic therapy.

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Navigational Tools for Interventional Radiology and Interventional Oncology Applications

Chehab

Brinjikji

Copelan

et al. 2015

Semin intervent Radiol

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The interventional radiologist is increasingly called upon to successfully access challenging biopsy and ablation targets, which may be difficult based on poor visualization, small size, or the proximity of vulnerable regional anatomy. Complex therapeutic procedures, including tumor ablation and transarterial oncologic therapies, can be associated with procedural risk, significant procedure time, and measurable radiation time. Navigation tools, including electromagnetic, optical, laser, and robotic guidance systems, as well as image fusion platforms, have the potential to facilitate these complex interventions with the potential to improve lesion targeting, reduce procedure time, and radiation dose, and thus potentially improve patient outcomes. This review will provide an overview of currently available navigational tools and their application to interventional radiology and oncology. A summary of the pertinent literature on the use of these tools to improve safety and efficacy of interventional procedures compared with conventional techniques will be presented.

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Defining Incidence, Risk Factors, and Impact on Survival of Central Line-Associated Blood Stream Infections Following Hematopoietic Cell Transplantation in Acute Myeloid Leukemia and Myelodysplastic Syndrome

Lukenbill

Rybicki

Sekeres

et al. 2013

Biology of Blood and Marrow Transplantation

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Central line-associated blood stream infections (CLABSI) commonly complicate the care of patients with acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS) after allogeneic stem cell transplantation (HCT). We developed a modified CLABSI (MCLABSI) definition that attempts to exclude pathogens usually acquired because of disruption of mucosal barriers during the vulnerable neutropenic period following HCT that are generally included under the original definition (OCLABSI). We conducted a retrospective study of all AML and MDS patients undergoing HCT between August 2009 and December 2011 at the Cleveland Clinic (N = 73), identifying both OCLABSI and MCLABSI incidence. The median age at transplantation was 52 years (range, 16 to 70); 34 had a high (≥3) HCT comorbidity index (HCT-CI); 34 received bone marrow (BM), 24 received peripheral stem cells (PSC), and 15 received umbilical cord blood cells (UCB). Among these 73 patients, 23 (31.5%) developed OCLABSI, of whom 16 (69.6%) died, and 8 (11%) developed MCLABSI, of whom 7 (87.5%) died. OCLABSI was diagnosed a median of 9 days from HCT: 5 days (range, 2 to 12) for UCB and 78 days (range, 7 to 211) for BM/PSC (P < .001). MCLABSI occurred a median of 12 days from HCT, with similar earlier UCB and later BM/PSC diagnosis (P = .030). Risk factors for OCLABSI in univariate analysis included CBC (P < .001), human leukocyte antigen (HLA)-mismatch (P = .005), low CD34(+) count (P = .007), low total nucleated cell dose (P = .016), and non-Caucasian race (P = .017). Risk factors for OCLABSI in multivariable analysis were UCB (P < .001) and high HCT-CI (P = .002). There was a significant increase in mortality for both OCLABSI (hazard ratio, 7.14; CI, 3.31 to 15.37; P < .001) and MCLABSI (hazard ratio, 6.44; CI, 2.28 to 18.18; P < .001). CLABSI is common and associated with high mortality in AML and MDS patients undergoing HCT, especially in UCB recipients and those with high HCT-CI. We propose the MCLABSI definition to replace the OCLABSI definition, given its greater precision for identifying preventable infection in HCT patients.

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Diagnosis and Management of Budd Chiari Syndrome: An Update

Copelan

Remer

Sands

et al. 2014

Cardiovasc Intervent Radiol

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Imaging plays a crucial role in the early detection and assessment of the extent of disease in Budd Chiari syndrome (BCS). Early diagnosis and intervention to mitigate hepatic congestion is vital to restoring hepatic function and alleviating portal hypertension. Interventional radiology serves a key role in the management of these patients. The interventionist should be knowledgeable of the clinical presentation as well as key imaging findings, which often dictate the approach to treatment. This article concisely reviews the etiology, pathophysiology, and clinical presentation of BCS and provides a detailed description of imaging and treatment options, particularly interventional management.

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