ライフサイエンスコーパス: subdural hematoma

1 8-4.03]) were associated with higher risk of subdural hematoma.

2 A CT scan of his head revealed a subdural hematoma.

3 lled adult patients with symptomatic chronic subdural hematoma.

4 eal artery embolization in the management of subdural hematoma.

5 in >/=2% of patients were hematuria (2%) and subdural hematoma (2%).

6 s contusion, subarachnoid hemorrhage, and/or subdural hematoma, 3.23 [95% CI 1.59-6.58]).

7 ere 128 subarachnoid hemorrhage (33.4%), 134 subdural hematoma (35.0%), and 121 intraparenchymal hemo

8 In that series, one patient died of subdural hematoma 380 days after implant.

9 (43%, 26/60); central pontine myelinolysis, subdural hematoma, acute infarcts, and Aspergillus brain

10 Among patients with symptomatic chronic subdural hematoma, adjunctive middle meningeal artery em

11 s old, 66% were male patients, and 62.6% had subdural hematoma; admission Glasgow Coma Scale score wa

12 tient experienced worsening of a preexisting subdural hematoma after USCDT and therapeutic anticoagul

13 TS: The SECA (Surgical Evacuation of Chronic Subdural Hematoma and Aspirin) trial was an investigator

14 ceiving apixaban who developed a spontaneous subdural hematoma and declining mental status that impro

15 There were 6 cases of subdural hematoma and intracranial injury reported in fo

16 a trial that involved patients with chronic subdural hematoma and that was stopped early, dexamethas

17 drug use was associated with higher risk of subdural hematoma; and the highest odds of subdural hema

18 Subacute and chronic subdural hematomas are common and frequently recur after

19 ming surgery for most patients with an acute subdural hematoma (ASDH) and traumatic brain injury (TBI

20 cus (SE) are frequent complications of acute subdural hematoma (aSDH) associated with increased morbi

21 agonist, BAY X3702, in a rat model of acute subdural hematoma (ASDH).

22 ognostic factors following surgery for acute subdural hematomas (ASDHs) in England and Wales over a 2

23 , status epilepticus in the acute phase, and subdural hematoma at presentation.

24 in injury, primary intracerebral hemorrhage, subdural hematoma, brain tumor, central nervous system i

25 ticularly among those >80 yrs of age (36% of subdural hematoma cohort), in lower income patients, in

26 Background Chronic subdural hematoma (cSDH) is a common neurosurgical condi

27 A) embolization (MMAE) treatment for chronic subdural hematoma (CSDH) is limited.

28 perioperative phase of treatment for chronic subdural hematoma (cSDH) may reduce recurrence rates but

29 recurrence rate in the evacuation of chronic subdural hematoma (cSDH) needs further study.

30 roposed as a potential treatment for chronic subdural hematoma (CSDH).

31 anisms behind the pathophysiology of chronic subdural hematoma (CSDH).

32 Neurosurgical intervention for subdural hematoma decreased from 41% in 1998 to 31% in 2

33 Subdural hematoma evacuation was associated with decreas

34 djacent to cerebral contusions or underlying subdural hematomas, even brief periods of hyperventilati

35 Contusion, subarachnoid hemorrhage, and/or subdural hematoma features were associated with incomple

36 Traumatic acute subdural hematomas frequently warrant surgical evacuatio

37 The increased incidence of subdural hematoma from 2000 to 2015 appears to be associ

38 bably or definitely related to treatment): 1 subdural hematoma grade 4, 1 anemia grade 3, 1 thrombocy

39 Incidence of subdural hematoma has been reported to be increasing.

40 The prevalence and total cost for subdural hematoma has increased significantly in the las

41 thasone on outcomes in patients with chronic subdural hematoma has not been well studied.

42 nts receiving standard treatment for chronic subdural hematoma have a high risk of treatment failure.

43 y assigned symptomatic patients with chronic subdural hematoma in a 1:1 ratio to a 19-day tapering co

44 bdural hematoma risk and determine trends in subdural hematoma incidence and antithrombotic drug use

45 Subdural hematoma incidence and antithrombotic drug use

46 The overall subdural hematoma incidence rate increased from 10.9 per

47 dural hematoma with antithrombotic drug use, subdural hematoma incidence rate, and annual prevalence

48 may shorten detection time for epidural and subdural hematomas, increase sensitivity (especially for

49 Hospitalizations for subdural hematoma increased from 59,373 (30 per 100,000

50 The prevalence of subdural hematoma increased with age (p < .001), particu

51 : contusion, subarachnoid hemorrhage, and/or subdural hematoma; intraventricular and/or petechial hem

52 Chronic subdural hematoma is a common neurologic disorder that i

53 Subdural hematoma is a common type of intracranial hemor

54 Health resource consumption for subdural hematoma is increasing without clear evidence t

55 gical evacuation in the treatment of chronic subdural hematoma is unclear.

56 Among 10010 patients with subdural hematoma (mean age, 69.2 years; 3462 women [34.

57 lowing events: recurrent or residual chronic subdural hematoma (measuring >10 mm) at 180 days; reoper

58 Among adults with symptomatic chronic subdural hematoma, most of whom had undergone surgery to

59 Subdural hematoma occurred in 18% of HI (5% of TP), with

60 Subdural hematoma occurred in 8 patients (2 in the core

61 of various ages, particularly rib fractures, subdural hematoma of the brain, and retinal hemorrhages.

62 Major discrepancies were four subdural hematomas, one pneumocephalus, one hemorrhagic

63 ciousness or amnesia for more than 24 hours, subdural hematoma, or brain contusion).

64 rge disposition, length of stay, and cost of subdural hematoma over time.

65 y (positive LR, 3.4 [95% CI, 1.8-6.4]), or a subdural hematoma (positive LR, 3.2 [95% CI, 2.6-3.8]) i

66 tients aged 20 to 89 years with a first-ever subdural hematoma principal discharge diagnosis from 200

67 tion between use of antithrombotic drugs and subdural hematoma risk and determine trends in subdural

68 The rat subdural hematoma (SDH) model produces a zone of ischemi

69 Subdural hematomas (SDH) can induce ischemia and neurona

70 for later seizures were brain contusion with subdural hematoma, skull fracture, loss of consciousness

71 ritical care unit with an acute nontraumatic subdural hematoma that required emergent surgical evacua

72 y assigned patients with symptomatic chronic subdural hematoma to undergo middle meningeal artery emb

73 f subdural hematoma; and the highest odds of subdural hematoma was associated with combined use of a

74 The risk of subdural hematoma was highest when a VKA was used concur

75 morrhagic contusions or underlying evacuated subdural hematomas was studied.

76 ients undergoing surgery for traumatic acute subdural hematoma were randomly assigned to undergo cran

77 ors of failure of MMAE treatment for chronic subdural hematomas were identified, with small diameter

78 Among patients with traumatic acute subdural hematoma who underwent craniotomy or decompress

79 atients with symptomatic subacute or chronic subdural hematoma with an indication for surgical evacua

80 atients with symptomatic subacute or chronic subdural hematoma with an indication for surgical evacua

81 Association of subdural hematoma with antithrombotic drug use, subdural

82 rmatory cranial CT scan revealed a worsening subdural hematoma with midline shift, a single dose of f

83 echanical fall with head trauma resulting in subdural hematoma with no associated neurological defici