ライフサイエンスコーパス: hemoperitoneum

1 d intraperitoneal solid organ injury without hemoperitoneum.

2 T to evaluate patients with blunt trauma for hemoperitoneum.

3 in the pelvis while paracentesis documented hemoperitoneum.

4 on was required in 26 (17%) patients without hemoperitoneum.

5 l mediolytic arteriopathy who presented with hemoperitoneum.

6 m and diagnostic peritoneal lavage to detect hemoperitoneum.

7 mind in cirrhotic patients with unexplained hemoperitoneum.

8 he diagnosis of rupture umbilical varix with hemoperitoneum.

9 enty-five of the 38 patients had no or trace hemoperitoneum.

10 helped identify and quantify the presence of hemoperitoneum.

11 patoma (1 and 0 patients, respectively), and hemoperitoneum (1 and 0 patients, respectively).

12 eria: morphologic grade of injury, amount of hemoperitoneum, active extravasation, and injury severit

13 % negative predictive value for detection of hemoperitoneum alone.

14 for Trauma (FAST) has modest sensitivity for hemoperitoneum and IAI in the pediatric trauma patient.

15 males presented with diaphragmatic hernias, hemoperitoneum and many secondary abnormalities at sacri

16 over 33 months to determine the presence of hemoperitoneum and to identify the grade of injury.

17 onally rupture and result in abdominal pain, hemoperitoneum, and hypotension, mimicking an ectopic pr

18 (pericardial effusion, pericardial hematoma, hemoperitoneum, and pericardial tamponade).

19 Reliance on the presence of hemoperitoneum as the sole indicator of abdominal viscer

20 negative, solid organ injury with or without hemoperitoneum, free fluid only, and suspected bowel or

21 d of surgery (n = 1) revealed no evidence of hemoperitoneum in 157 (34%) patients with abdominal visc

22 Abdominal CT demonstrated small amounts of hemoperitoneum in five animals and moderate to large amo

23 The procedure was complicated by hemoperitoneum in four patients (10%), which was fatal i

24 ight and left upper quadrants and pelvis for hemoperitoneum in patients with potential truncal injuri

25 ceral injuries diagnosed in patients without hemoperitoneum included 57 (27%) of 210 splenic injuries

26 h umbilical varix rupture is a rare cause of hemoperitoneum, it should be kept in mind in cirrhotic p

27 rcinoma is the most intuitive diagnosis when hemoperitoneum occurs in cirrhotic patients who are not

28 er-grade injuries and with larger amounts of hemoperitoneum on computed tomography scanning.

29 ultiscale deep learning method for traumatic hemoperitoneum quantitative visualization had improved d

30 However, other etiologies of hemoperitoneum, such as intra-abdominal varix rupture, s

31 hepatocellular carcinoma (HCC) rupture with hemoperitoneum, therefore he underwent trans-arterial em

32 urgery, whereas those with a positive US for hemoperitoneum underwent a computed tomography scan (if

33 Non-traumatic hemoperitoneum was a rare event with the risk of sudden

34 r CT-based grading system, and the amount of hemoperitoneum was quantified.

35 ients with abdominal visceral injury without hemoperitoneum were reviewed for the management required

36 e range, 25-50 years; 79 men) with traumatic hemoperitoneum who underwent CT of the abdomen and pelvi