Laser-induced interstitial thermotherapy via a single-needle delivery system: Optimal conditions of ablation, pathological and ultrasonic changes

Yan-rong Zhang; Ling-yun Fang; Cheng Yu; Zhen-xing Sun; Yan Huang; Juan Chen; Tao Guo; Fei-xiang Xiang; Jing Wang; Cheng-fa Lu; Tian-wei Yan; Qing Lv; Ming-xing Xie

doi:10.1007/s11596-015-1474-6

Current Medical Science ›› 2015, Vol. 35 ›› Issue (4) : 579 -584. DOI: 10.1007/s11596-015-1474-6

Article

Laser-induced interstitial thermotherapy via a single-needle delivery system: Optimal conditions of ablation, pathological and ultrasonic changes

Author information +

History +

PDF

Abstract

This study aimed to examine the optimal conditions of laser-induced interstitial thermotherapy (LITT) via a single-needle delivery system, and the ablation-related pathological and ultrasonic changes. Ultrasound (US)-guided LITT (EchoLaser system) was performed at the output power of 2–4 Wattage (W) for 1–10 min in ex vivo bovine liver. Based on the results of the ex vivo study, the output power of 3 and 4 W with different durations was applied to in vivo rabbit livers (n=24), and VX2 tumors implanted in the hind limbs of rabbits (n=24). The ablation area was histologically determined by hematoxylin-eosin (HE) staining. Traditional US and contrast enhanced ultrasound (CEUS) were used to evaluate the treatment outcomes. The results showed: (1) In the bovine liver, ablation disruption was grossly seen, including a strip-like ablation crater, a carbonization zone anteriorly along the fiber tip, and a surrounding gray-white coagulation zone. The coagulation area, 1.2 cm in length and 1.0 cm in width, was formed in the bovine liver subjected to the ablation at 3 W for 5 min and 4 W for 4 min, and it extended slightly with the ablation time. (2) In the rabbit liver, after LITT at 3 W for 3 min and more, the coagulation area with length greater than or equal to 1.2 cm, and width greater than or equal to 1.0 cm, was found. Similar coagulation area was seen in the implanted VX2 carcinoma at 3 W for 5 min. (3) Gross examination of the liver and carcinoma showed three distinct regions: ablation crater/carbonization, coagulation and congestion distributed from the center outwards. (4) Microscopy revealed four zones after LITT, including ablation crater/carbonization, coagulation, edema and congestion from the center outwards. A large area with coagulative necrosis was observed around a vessel in the peripheral area with edema and hyperemia. (5) The size of coagulation was consistent well to the CEUS findings. It was concluded that EchoLaser system at low power can produce a coagulation area larger than 1.0 cm×1.0 cm during a short time period. The real-time US imaging can be used to effectively guide and assess the treatment.

Keywords

laser-induced interstitial thermotherapy / ultrasound-guided ablation / contrast-enhanced ultrasound / single-needle delivery

Cite this article

Download citation ▾

Yan-rong Zhang, Ling-yun Fang, Cheng Yu, Zhen-xing Sun, Yan Huang, Juan Chen, Tao Guo, Fei-xiang Xiang, Jing Wang, Cheng-fa Lu, Tian-wei Yan, Qing Lv, Ming-xing Xie. Laser-induced interstitial thermotherapy via a single-needle delivery system: Optimal conditions of ablation, pathological and ultrasonic changes. Current Medical Science, 2015, 35(4): 579-584 DOI:10.1007/s11596-015-1474-6

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	IwasakiM, SasakoM, KonishiT, et al. . Nd-YAG laser for general surgery. Lasers Surg Med, 1985, 5(4): 429-438 PMID: 2993771

[2]	HashimotoD T, IdezukiY. In-depth radiation therapy by YAG laser for malignant tumors in the liver under ultrasonic imaging. Gastroenterology, 1985, 88: 1663

[3]	PapiniE, GuglielmiR, HosseimG, et al. . Ultrasound-guided laser ablation of incidental papillary thyroid microcarcinoma: A potential therapeutic approach in patients at surgical risk. Thyroid, 2011, 21(8): 917-920 PMCID: 3148119 PMID: 21595556

[4]	CostanzoD G, FrancicaG, PacellaCM. Laser ablation for small hepatocellular carcinoma: State of the art and future perspectives. World J Hepatol, 2014, 6(10): 704-715 PMCID: 4209416 PMID: 25349642

[5]	van EsserS, StapperG, van DiestPJ, et al. . Ultrasound-guided laser-induced thermal therapy for small palpable invasive breast carcinomas: a feasibility study. Ann Surg Oncol, 2009, 16(8): 2259-2263 PMCID: 2711908 PMID: 19506958

[6]	ValcaviR, RigantiF, BertaniA, et al. . Percutaneous laser ablation of cold benign thyroid nodules: a 3-year follow-up study in 122 patients. Thyroid, 2010, 20(11): 1253-1261 PMID: 20929405

[7]	WiggermannP, PulsR, VasiljA, et al. . Thermal ablation of unresectable liver tumors: Factors associated with partial ablation and the impact on long-term survival. Med Sci Monit, 2012, 18(2): 88-92

[8]	GodlewskiG, RouyS, PignodelC, et al. . Deep localized neodymium (Nd)-YAG laser photocoagulation in liver using a new water cooled and echoguided handpiece. Lasers Surg Med, 1988, 8(5): 501-509 PMID: 3068450

[9]	BosmanS, PhoaSS, BosmaA, et al. . Effect of percutaneous interstitial thermal laser on normal liver of pigs: sonographic and histopathological correlations. Br J Surg, 1991, 78(5): 572-575 PMID: 2059809

[10]	VoglTJ, MullerP, HirschH, et al. . Laser-induced thermotherapy of liver metastases with MRI control. Prospective results of an optimized therapy procedure. Radiologe, 1995, 35(3): 188-199 PMID: 7761595

[11]	ParvinianA, CasadabanLC, HauckZZ, et al. . Pharmacokinetic study of conventional sorafenib chemoembolization in a rabbit VX2 liver tumor model. Diagn Interv Radiol, 2015, 21(3): 235-240 PMCID: 4463267 PMID: 25835078

[12]	YuXL, DongBW, LiangP, et al. . The Experimental Study on the Performance of Microwave Antenna 1UMC-I-C/D for Percutaneous Interstitial Laser Ablation of Hepatic Cancer. Chin J Med Imaging (Chinese), 1999, 7(3): 218-220

[13]	MauriG, CovaL D B S, et al. . Real-time US-CT/MRI image fusion for guidance of thermal ablation of liver tumors undetectable with US: results in 295 cases. Cardiovasc Intervent Radiol, 2015, 38(1): 143-151 PMID: 24806953

[14]	LiangP, WangY, YuX, et al. . Malignant liver tumors: treatment with percutaneous microwave ablation-complications among cohort of 1136 patients. Radiology, 2009, 251(3): 933-940 PMID: 19304921

[15]	EiseleRM, Veltzke-SchliekerW, GebauerB, et al. . Feasibility of hepatic radiofrequency ablation in patients with bilioenteric anastomoses. Hepatogastroenterology, 2010, 57(104): 1499-1504 PMID: 21443110

[16]	VoglTJ, KreutzträgerM, Gruber-RouhT, et al. . Neoadjuvant TACE before laser induced thermotherapy (LITT) in the treatment of non-colorectal non-breast cancer liver metastases: feasibility and survival rates. Eur J Radiol, 2014, 83(10): 1804-1810 PMID: 25082479

[17]	AscheroA, GorincourG, GlardY, et al. . Percutaneous treatment of osteoid osteoma by laser thermocoagulation under computed tomography guidance in pediatric patients. Eur Radiol, 2009, 19(3): 679-686 PMID: 18839180

[18]	NolsoeCP, Torp-PedersenS, HolmHH, et al. . Ultrasonically guided interstitial Nd-YAG laser diffuser tip hyperthermia: an in vitro study. Scand J Urol Nephrol, 1991, 137: 119-124

[19]	van HillegersbergR, de WitteMT, KortWJ, et al. . Water-jet-cooled Nd:YAG laser coagulation of experimental liver metastases: correlation between ultrasonography and histology. Lasers Surg Med, 1993, 13(3): 332-343 PMID: 8515672

[20]	MastersA, StegerAC, LeesWR, et al. . Interstitial laser hyperthermia: a new approach for treating liver metastases. Br J Cancer, 1992, 66(3): 518-522 PMCID: 1977951 PMID: 1520588