https://orcid.org/0000-0002-5231-9609
References
- Hol PK , KvarsteinG , VikenO , SmedbyO , TonnessenTI. MRI-guided celiac plexus block. J. Magn. Reson. Imaging12(4), 562–564 (2000).
- Wang PJ , ShangMY , QianZ , ShaoCW , WangJH , ZhaoXH. CT-guided percutaneous neurolytic celiac plexus block technique. Abdom. Imaging31(6), 710–718 (2006).
- Facciorusso A , DiMaso M , ServiddioG , LarghiA , CostamagnaG , MuscatielloN. Echoendoscopic ethanol ablation of tumor combined with celiac plexus neurolysis in patients with pancreatic adenocarcinoma. J. Gastroenterol. Hepatol.32(2), 439–445 (2017).
- Heerink WJ , RuiterSJS , PenningsJPet al. Robotic versus freehand needle positioning in ct-guided ablation of liver tumors: a randomized controlled trial. Radiology290(3), 826–832 (2019).
- Komaki T , HirakiT , KamegawaTet al. Robotic CT-guided out-of-plane needle insertion: comparison of angle accuracy with manual insertion in phantom and measurement of distance accuracy in animals. Eur. Radiol.30, 1342–1349 (2020).
- Titton RL , LuceyBC , GervaisDA , BolandGW , MuellerPR. Celiac plexus block: a palliative tool underused by radiologists. AJR Am. J. Roentgenol.179(3), 633–636 (2002).
- Haaga JR , KoriSH , EastwoodDW , BorkowskiGP. Improved technique for CT-guided celiac ganglia block. AJR Am. J. Roentgenol.142(6), 1201–1204 (1984).
- Agarwal A , RastogiS , GautamAet al. Celiac plexus neurolysis for intractable upper abdominal malignant pain: a review article. Indian J. Pain35, 16–23 (2021).
- Cohen SP , ChristoPJ , WangSet al. The effect of opioid dose and treatment duration on the perception of a painful standardized clinical stimulus. Reg. Anesth. Pain Med.33, 199–206 (2008).
- Hjermstad MJ , FayersPM , HaugenDFet al. European Palliative Care Research Collaborative (EPCRC). Studies comparing numerical rating scales, verbal rating scales, and visual analogue scales for assessment of pain intensity in adults: a systematic literature review. J. Pain Symptom Manage.41(6), 1073–1093 (2011).
- Penman ID . Coeliac plexus neurolysis. Best Pract. Res. Clin. Gastroenterol.23(5), 761–766 (2009).
- Fujita Y , SariA. Max Kappis and the celiac plexus block. Anesthesiology86(2), 508 (1997).
- Cornelis F , TakakiH , LaskhmananMet al. Comparison of CT fluoroscopy-guided manual and CT-guided robotic positioning system for in vivo needle placements in swine liver. Cardiovasc. Intervent. Radiol.38(5), 1252–1260 (2015).
- Solomon SB , PatriciuA , BohlmanME , KavoussiLR , StoianoviciD. Robotically driven interventions: a method of using CT fluoroscopy without radiation exposure to the physician. Radiology225(1), 277–282 (2002).
- Pollock R , MozerP , GuzzoTJet al. Prospects in percutaneous ablative targeting: comparison of a computer-assisted navigation system and the AcuBot robotic system. J. Endourol.24(8), 1269–1272 (2010).
- Koethe Y , XuS , VelusamyG , WoodBJ , VenkatesanAM. Accuracy and efficacy of percutaneous biopsy and ablation using robotic assistance under computed tomography guidance: a phantom study. Eur. Radiol.24(3), 723–730 (2014).
- Mohamed A , RaniaE , HazemM. Computed tomography-guided celiac plexus neurolysis for intractable pain of unresectable pancreatic cancer. Egypt J. Radiol. Nucl. Med.48, 627–637 (2017).
- Bhatnagar S , GuptaD , SeemaM , ThulkarS , ChauhanH. Bedside ultrasound-guided celiac plexus neurolysis with bilateral paramedian needle entry technique can be an effective pain control technique in advanced upper abdominal cancer pain. J. Palliat. Med.11, 1195–1199 (2008).
- McGreevy K , HurleyRW , ErdekMA , AnerMM , LiS , CohenSP. The effectiveness of repeat celiac plexus neurolysis for pancreatic cancer: a pilot study. Pain Pract.13(2), 89–95 (2013).