ライフサイエンスコーパス: pneumoperitoneum

1 ere found (3 in the liver) and just 5 showed pneumoperitoneum.

2 ry because of inability to maintain adequate pneumoperitoneum.

3 nderstanding of physiology of carbon dioxide pneumoperitoneum.

4 r nephrectomy (LDN) and several hours of CO2 pneumoperitoneum.

5 ive complications relating to the use of CO2 pneumoperitoneum.

6 n the altered physiologic environment of CO2 pneumoperitoneum.

7 opic) or with laparoscopic instruments under pneumoperitoneum.

8 agm on supine plain radiographs is a sign of pneumoperitoneum.

9 tum teres was recognized in 12 patients with pneumoperitoneum.

10 ic hematoma, bowel dilation, pneumatosis, or pneumoperitoneum.

11 ween nonoperative and operative treatment of pneumoperitoneum.

12 and renal artery ultrasonic flow probe, CO2 pneumoperitoneum (15 mmHg) was maintained for 4 hours.

13 e more likely to have a colorectal source of pneumoperitoneum (37% vs 31%; P = 0.03).

14 technique, with morbidities associated with pneumoperitoneum and anesthetic complications.

15 Organ blood flow is reduced during pneumoperitoneum and can contribute to laparoscopy-assoc

16 The impact of pneumoperitoneum and insufflation gases on the immune re

17 ranscriptome induced by several hours of CO2 pneumoperitoneum and laparoscopic surgery characterized

18 Notably, there was no pneumoperitoneum and peritonitis had not yet set in.

19 ated with reduced mortality in patients with pneumoperitoneum and peritonitis.

20 index of suspicion for nonsurgical causes of pneumoperitoneum and should recognize that conservative

21 bid obesity, laparoscopy, bariatric surgery, pneumoperitoneum, and gastric bypass.

22 attention paid to the physiologic changes of pneumoperitoneum, and pain and nausea treated pre-emptiv

23 traction were used to identify patients with pneumoperitoneum at 5 hospitals from 2010 to 2015.

24 n may maximize renal blood flow in prolonged pneumoperitoneum, but it does not completely prevent ren

25 tal sheep hypoxia beyond the duration of CO2 pneumoperitoneum calls for further investigation to dete

26 Delays or misdiagnoses in detecting pneumoperitoneum can significantly increase mortality an

27 In the euvolemic group, prolonged CO2 pneumoperitoneum caused decreased renal blood flow, olig

28 ration; 1 point was assigned if 1 or more of pneumoperitoneum, fixed loop, and portal venous gas were

29 a common finding in sheep studies during CO2 pneumoperitoneum has not been observed in pregnant women

30 ith the tamponade effect associated with the pneumoperitoneum have translated into reproducible impro

31 ave demonstrated the adverse consequences of pneumoperitoneum; however, few studies have examined the

32 After establishing carbon dioxide pneumoperitoneum in 6 male piglets and maintaining PPP a

33 Even though there were other signs of pneumoperitoneum in all cases, the ligamentum teres sign

34 d a deep learning model designed to identify pneumoperitoneum in computed tomography images.

35 iver accurate and consistent predictions for pneumoperitoneum in computed tomography scans with segme

36 The adverse consequences of pneumoperitoneum in morbidly obese patients are similar

37 papers evaluating the physiologic effects of pneumoperitoneum in morbidly obese subjects undergoing l

38 ld understand the physiologic effects of CO2 pneumoperitoneum in the morbidly obese and make appropri

39 ies have examined the physiologic effects of pneumoperitoneum in the morbidly obese.

40 indicate that ENO can effectively attenuate pneumoperitoneum-induced blood flow decreases within the

41 Pneumoperitoneum is a potentially life-threatening condi

42 urgeon inserts a hand into the abdomen while pneumoperitoneum is maintained.

43 facts and oncologic rules: laparoscopy with pneumoperitoneum, low central venous pressure, intermitt

44 enal histology were studied in a porcine CO2 pneumoperitoneum model.

45 lume expansion alleviates the effects of CO2 pneumoperitoneum on renal hemodynamics in a porcine mode

46 udies have documented adverse effects of CO2 pneumoperitoneum on renal hemodynamics.

47 Delineation of the effects of CO2 pneumoperitoneum on the inflammatory response induced by

48 speculate that this may be secondary to the pneumoperitoneum or the prolonged anesthesia on glomerul

49 By increasing pneumoperitoneum pressure, bleeding from the hepatic vei

50 m the hepatic vein and safer than increasing pneumoperitoneum pressure.

51 re performed among airway pressure, CVP, and pneumoperitoneum pressure.

52 y pressure, CVP was persistently higher than pneumoperitoneum pressure.

53 case reports and reviews of NSP, defined as pneumoperitoneum that was successfully managed by observ

54 In a fourth patient, pneumoperitoneum to 15 torr was obtained via a transvagi

55 Pneumoperitoneum was associated in 70% of the patients (

56 Pneumoperitoneum was established successfully in all but

57 Pneumoperitoneum was generally maintained at 14 mmHg, an

58 Each unique cause of nonsurgical pneumoperitoneum was recorded.

59 ed of having bowel or mesenteric injury were pneumoperitoneum with other secondary findings (n = 4),