ライフサイエンスコーパス: cerebral angiography

1 ify cerebral perfusion during interventional cerebral angiography.

2 icity of transcranial Doppler ultrasound and cerebral angiography.

3 atients underwent screening with four-vessel cerebral angiography.

4 (CBCT) images obtained as part of diagnostic cerebral angiography.

5 out of 71 patients who underwent diagnostic cerebral angiography.

6 was complemented by CT angiography, MRI and cerebral angiography.

7 carotid stenosis before and after diagnostic cerebral angiography and 20 patients treated with corona

8 on-invasive cerebral imaging always precedes cerebral angiography and thrombectomy, whereas coronary

9 CT cerebral angiography and/or lumbar puncture during the E

10 All patients had highly abnormal cerebral angiography, and magnetic resonance imaging abn

11 before and after the procedure and follow-up cerebral angiography at 6 months.

12 anial Doppler ultrasound was as sensitive as cerebral angiography at detecting symptomatic vasospasm.

13 6 consecutive patients undergoing diagnostic cerebral angiography at one institution from 1981 throug

14 who had undergone computed tomography and/or cerebral angiography (CT/angio) studies had a higher ris

15 25 women; mean age, 55 years) had undergone cerebral angiography followed by cortical and leptomenin

16 Sensitivity and specificity of cerebral angiography for the diagnosis of primary angiit

17 ted tomography is nondiagnostic, although CT cerebral angiography has been promoted as an alternative

18 Relevant abnormalities were shown on cerebral angiography in 136 of 203 patients, on cardiac

19 Comparison of CTA and MRA with cerebral angiography in 143 patients demonstrated sensit

20 Four-vessel cerebral angiography in the three patients with symptoma

21 In 6 of those 8, cerebral angiography or magnetic resonance angiography r

22 on findings of brain or spinal cord biopsy, cerebral angiography, or both.

23 f intravenous NAC 1 hr before and 2 hr after cerebral angiography performed to confirm brain death.

24 In clinical practice catheter cerebral angiography, perfusion scintigraphy, transcrani

25 arterial embolization was planned but repeat cerebral angiography prior to the procedure demonstrated

26 Cerebral angiography revealed a high-grade stenosis of t

27 gs, female predominance, and highly abnormal cerebral angiography (reversible after treatment), requi

28 All followup cerebral angiography showed marked improvement.

29 y opted for surgical intervention but repeat cerebral angiography showed significant thrombosis of th

30 Per year, CT cerebral angiography use increased (18.8%; 95% CI, 17.7%

31 Overall, computed tomography cerebral angiography use increased 6-fold relative to lu

32 f ED patients with headache, increases in CT cerebral angiography use were associated with fewer lumb

33 The sensitivity of cerebral angiography was 80%.

34 In this review, diagnostic catheter cerebral angiography was found to have relatively low co

35 associated risk factors following diagnostic cerebral angiography with diffusion-weighted imaging (DW