Phrenic nerve palsy: a rare complication of indwelling subclavian vein catheter

2000 ◽  
Vol 14 (3) ◽  
pp. 203-204 ◽  
Author(s):  
S. Aggarwal ◽  
P. Hari ◽  
A. Bagga ◽  
S.N. Mehta
1998 ◽  
Vol 13 (4) ◽  
pp. 1023-1025 ◽  
Author(s):  
I. Islek ◽  
T. Akpolat ◽  
M. Danaci

1989 ◽  
Vol 17 (12) ◽  
pp. 1366 ◽  
Author(s):  
Christian P. Floriot ◽  
Alain G. Noirot ◽  
Jean Luc Delacour ◽  
Pierr F. Daoudal ◽  
Gérard A. Wagschal

2021 ◽  
pp. 1-3
Author(s):  
Yasuhiro Ichikawa ◽  
Sadamitsu Yanagi ◽  
Hideaki Ueda

Abstract We report on a 7-month-old male with transient phrenic nerve palsy induced by diagnostic cardiac catheterisation. The phrenic nerve palsy, which is a rare complication, was due to extravascular bleeding from a branch of the internal mammary artery.


2020 ◽  
pp. 153857442098365
Author(s):  
Michael H. Parker ◽  
Dayle K. Colpitts ◽  
Genevieve F. Gilson ◽  
Liam Ryan ◽  
Dipankar Mukherjee

Introduction: Thoracic Endovascular Aortic Repair (TEVAR) has become the procedure of choice for pathology involving the descending thoracic aorta since its approval by the FDA in 2005. Left subclavian artery (LSA) coverage is commonly required to facilitate an adequate proximal landing zone for the endograft. The traditional revascularization procedure of choice is carotid-subclavian bypass, however recent studies report complication rates as high as 29%—specifically phrenic nerve palsy in 25% of patients undergoing this procedure. Our aim is to present our experience using carotid-axillary bypass as a safe alternative to carotid-subclavian bypass. Methods: All patients undergoing carotid-axillary bypass for TEVAR with LSA coverage between June 2016 and September 2019 at a tertiary medical center were retrospectively identified. Short-term and long-term complications were identified and analyzed including: phrenic nerve, recurrent laryngeal nerve, and axillary nerve injuries, as well as local vascular complications requiring re-intervention. All perioperative chest radiographs were reviewed for new hemidiaphragm elevation to assess for phrenic nerve injuries. Results: 35 patients underwent carotid-axillary bypass in conjunction with TEVAR during this time period. The majority of bypasses were performed concurrently with TEVAR (80.0%, 28/35) utilizing GORE PROPATEN 8 mm externally supported vascular graft (91.4%, 32/35). The complication rate specific to carotid-axillary bypass was 14.3% (5/35). We observed a significantly lower (0%, 0/35, P < 0.01) rate of phrenic nerve palsy for carotid-axillary bypass compared to the previously reported 25% (27/107) for carotid-subclavian bypass. For patients with available follow-up imaging (85.7%, 30/35), there was a 100% patency rate at time intervals ranging from 0-1066 days (IQR = 3-37.8). Conclusion: Carotid-axillary bypass can be performed as a safe alternative to carotid-subclavian bypass for LSA coverage during TEVAR involving a more superficial anatomic course of dissection. Phrenic nerve palsy, a well-described complication of the traditional carotid-subclavian bypass, was not observed in this retrospective series.


PEDIATRICS ◽  
1972 ◽  
Vol 49 (3) ◽  
pp. 449-451
Author(s):  
Barry T. Smith

A case of isolated phrenic nerve palsy in a newborn infant following a difficult forceps delivery is described. Treatment was supportive and complete clinical and radiological recovery occurred between the tenth and eighteenth days of life. Phrenic nerve palsy should be considered in the differential diagnosis of respiratory distress in the newborn period, especially if there is a history of traumatic delivery or if a brachial palsy is present.


Author(s):  
Dr. Sandeep Madaan ◽  
Dr. Lavlesh Mittal

INTRODUCTION: Deep knowledge of anatomy is an essential part of surgical practice. Students of medical sciences gain knowledge and theoretical data through actual visualization of anatomic structures of the cadavers also anatomic relations can be studied more efficiently by practicing on cadavers. As phrenic nerve may be damaged during subclavian vein catheterization the relationship between the phrenic nerve and the subclavian vein is of clinical interest. During the subclavian vein catheterization analogous variable relationships are helpful to explain and prevent damage to the phrenic nerve. MATERIAL AND METHODS: Dissection was started from the root of the neck. No surgical scars, gross anatomical and morphological abnormalities was noted on the cadaver. Measurements were taken during the anatomical dissections.  RESULTS: Of the 36 cadavers dissected in 34 (94.44%) cases phrenic nerve was found posterior to the subclavian vein and in 2(5.56%) cases found anterior to the subclavian vein of which one case was male and the other was female. In the male case in which phrenic nerve was passing anterior to the subclavian vein, it was adherent to the anterior wall of the subclavian vein and was nor piercing the vein wall. CONCLUSION: The cannulating needle may damage the phrenic nerve which is adherent to the subclavian vein. So, the puncture site should be more laterally at the outermost portion of the subclavian vein. Anatomical variants during invasive practical procedures should be always kept in mind. KEYWORDS: phrenic nerve, subclavian vein, phrenic nerve palsy, catheterization.


EP Europace ◽  
2021 ◽  
Vol 23 (Supplement_3) ◽  
Author(s):  
J Michaelsen ◽  
U Parade ◽  
H Bauerle ◽  
K-D Winter ◽  
U Rauschenbach ◽  
...  

Abstract Funding Acknowledgements Type of funding sources: None. OnBehalf REGIONAL Background Pulmonary vein isolation (PVI) using cryoballoon ablation (CBA) has become an established procedure for the treatment of symptomatic paroxysmal and persistent atrial fibrillation (AF). The safety and efficacy of PVI at community hospitals with low to moderate case numbers is unknown. Aim To determine safety and efficacy of PVI using CBA performed at community hospitals with limited annual case numbers. Methods 1004 PVI performed consecutively between 01/2019 and 09/2020 at 20 community hospitals (each &lt;100 PVI using CBA/year) for symptomatic paroxysmal AF (n = 563) or persistentAF (n= 441) were included in this registry. CBA was performed considering local standards. Procedural data, efficacy and complications were determined. Results Mean number of PVI using CBA/year was 59 ± 26. Mean procedure time was 90.1 ± 31.6 min and mean fluoroscopy time was 19.2 ± 11.4 min. Isolation of all pulmonary veins could be achieved in 97.9% of patients, early termination of CBA due to phrenic nerve palsy was the most frequent reason for incomplete isolation. There was no in-hospital death. 2 patients (0.2%) suffered a clinical stroke. Pericardial effusion occurred in 6 patients (0.6%), 2 of them (0.2%) required pericardial drainage. Vascular complications occurred in 24 patients (2.4%), in 2 of these patients (0.2%) vascular surgery was required. In 48 patients (4.8 %) phrenic nerve palsy was noticed which persisted up to hospital discharge in 6 patients (0.6%). Conclusions PVI for paroxysmal or persistent AF using CBA can be performed at community hospitals with high efficacy and low complication rates despite low to moderate annual procedure numbers.


Sign in / Sign up

Export Citation Format

Share Document