SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4376642941> ?p ?o ?g. }

Showing items 1 to 100 of ±169 with 100 items per page.

W4376642941 endingPage "14251" @default.
W4376642941 startingPage "14225" @default.
W4376642941 abstract "Abstract Background Percutaneous thermal ablation has become the preferred therapeutic treatment option for liver cancers that cannot be resected. Since ablative zone tissue changes over time, it becomes challenging to determine therapy effectiveness over an extended period. Thus, an immediate post‐procedural evaluation of the ablation zone is crucial, as it could influence the need for a second‐look treatment or follow‐up plan. Assessing treatment response immediately after ablation is essential to attain favorable outcomes. This study examines the efficacy of image fusion strategies immediately post‐ablation in liver neoplasms to determine therapeutic response. Methodology A comprehensive systematic search using PRISMA methodology was conducted using EMBASE, MEDLINE (via PUBMED), and Cochrane Library Central Registry electronic databases to identify articles that assessed the immediate post‐ablation response in malignant hepatic tumors with fusion imaging (FI) systems. The data were retrieved on relevant clinical characteristics, including population demographics, pre‐intervention clinical history, lesion characteristics, and intervention type. For the outcome metrics, variables such as average fusion time, intervention metrics, technical success rate, ablative safety margin, supplementary ablation rate, technical efficacy rate, LTP rates, and reported complications were extracted. Results Twenty‐two studies were included for review after fulfilling the study eligibility criteria. FI's immediate technical success rate ranged from 81.3% to 100% in 17/22 studies. In 16/22 studies, the ablative safety margin was assessed immediately after ablation. Supplementary ablation was performed in 9 studies following immediate evaluation by FI. In 15/22 studies, the technical effectiveness rates during the first follow‐up varied from 89.3% to 100%. Conclusion Based on the studies included, we found that FI can accurately determine the immediate therapeutic response in liver cancer ablation image fusion and could be a feasible intraprocedural tool for determining short‐term post‐ablation outcomes in unresectable liver neoplasms. There are some technical challenges that limit the widespread adoption of FI techniques. Large‐scale randomized trials are warranted to improve on existing protocols. Future research should emphasize improving FI's technological capabilities and clinical applicability to a broader range of tumor types and ablation procedures." @default.
W4376642941 created "2023-05-17" @default.
W4376642941 creator A5005454825 @default.
W4376642941 creator A5018877986 @default.
W4376642941 creator A5023503660 @default.
W4376642941 creator A5043683572 @default.
W4376642941 creator A5055363476 @default.
W4376642941 creator A5071691685 @default.
W4376642941 creator A5083793269 @default.
W4376642941 creator A5091955093 @default.
W4376642941 date "2023-05-16" @default.
W4376642941 modified "2023-10-01" @default.
W4376642941 title "Efficacy of fusion imaging for immediate post‐ablation assessment of malignant liver neoplasms: A systematic review" @default.
W4376642941 cites W1836194705 @default.
W4376642941 cites W1977547491 @default.
W4376642941 cites W1981198531 @default.
W4376642941 cites W2032284698 @default.
W4376642941 cites W2034529611 @default.
W4376642941 cites W2034620081 @default.
W4376642941 cites W2050610191 @default.
W4376642941 cites W2067523669 @default.
W4376642941 cites W2076829151 @default.
W4376642941 cites W2105844993 @default.
W4376642941 cites W2132746007 @default.
W4376642941 cites W2147172608 @default.
W4376642941 cites W2148383053 @default.
W4376642941 cites W2168953820 @default.
W4376642941 cites W2312586672 @default.
W4376642941 cites W2319133637 @default.
W4376642941 cites W2323699364 @default.
W4376642941 cites W2340996426 @default.
W4376642941 cites W2347080708 @default.
W4376642941 cites W2406168095 @default.
W4376642941 cites W2519584781 @default.
W4376642941 cites W2535379131 @default.
W4376642941 cites W2573211363 @default.
W4376642941 cites W2573380575 @default.
W4376642941 cites W2595391283 @default.
W4376642941 cites W2599354036 @default.
W4376642941 cites W2600410803 @default.
W4376642941 cites W2738831150 @default.
W4376642941 cites W2744511404 @default.
W4376642941 cites W2750498666 @default.
W4376642941 cites W2773601540 @default.
W4376642941 cites W2773761944 @default.
W4376642941 cites W2790857274 @default.
W4376642941 cites W2793714115 @default.
W4376642941 cites W2809003916 @default.
W4376642941 cites W2890065257 @default.
W4376642941 cites W2897439350 @default.
W4376642941 cites W2898123312 @default.
W4376642941 cites W2900132598 @default.
W4376642941 cites W2901685242 @default.
W4376642941 cites W2913087127 @default.
W4376642941 cites W2943932810 @default.
W4376642941 cites W2946656131 @default.
W4376642941 cites W2958659987 @default.
W4376642941 cites W2962100513 @default.
W4376642941 cites W2969475312 @default.
W4376642941 cites W2969907858 @default.
W4376642941 cites W2970684805 @default.
W4376642941 cites W2973357323 @default.
W4376642941 cites W2985998175 @default.
W4376642941 cites W2993418308 @default.
W4376642941 cites W3003514891 @default.
W4376642941 cites W3008988633 @default.
W4376642941 cites W3022903699 @default.
W4376642941 cites W3029460884 @default.
W4376642941 cites W3036858119 @default.
W4376642941 cites W3042718854 @default.
W4376642941 cites W3049118177 @default.
W4376642941 cites W3090608456 @default.
W4376642941 cites W3111352088 @default.
W4376642941 cites W3119676022 @default.
W4376642941 cites W3135409045 @default.
W4376642941 cites W3142047004 @default.
W4376642941 cites W3149813802 @default.
W4376642941 cites W3167553335 @default.
W4376642941 cites W3185710831 @default.
W4376642941 cites W3200920490 @default.
W4376642941 cites W4210774372 @default.
W4376642941 cites W4214736088 @default.
W4376642941 cites W4225439765 @default.
W4376642941 cites W4281710423 @default.
W4376642941 cites W4293187674 @default.
W4376642941 cites W4376642941 @default.
W4376642941 doi "https://doi.org/10.1002/cam4.6089" @default.
W4376642941 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37191030" @default.
W4376642941 hasPublicationYear "2023" @default.
W4376642941 type Work @default.
W4376642941 citedByCount "1" @default.
W4376642941 countsByYear W43766429412023 @default.
W4376642941 crossrefType "journal-article" @default.
W4376642941 hasAuthorship W4376642941A5005454825 @default.
W4376642941 hasAuthorship W4376642941A5018877986 @default.
W4376642941 hasAuthorship W4376642941A5023503660 @default.
W4376642941 hasAuthorship W4376642941A5043683572 @default.
W4376642941 hasAuthorship W4376642941A5055363476 @default.