ライフサイエンスコーパス: decompressive

1 In those patients undergoing decompressive cervical surgery for degenerative disease,

2 p had an mRS score of 0-4 at 90 days without decompressive craniectomy (adjusted odds ratio 0.87, 95%

3 s (odds ratio, 1.7; p < 0.01), and following decompressive craniectomy (odds ratio, 1.8; p < 0.01) we

4 Decompressive craniectomy and barbiturate coma are often

5 We compared two treatment strategies: decompressive craniectomy and barbiturate coma.

6 outwards and equalizing pressure gradients, decompressive craniectomy appears to significantly reduc

7 At older age, decompressive craniectomy continued to increase survival

8 Based on available evidence, decompressive craniectomy for the treatment of refractor

9 such as hypertonic saline administration and decompressive craniectomy have solid foundations and can

10 ence highlighting the benefits and limits of decompressive craniectomy in malignant cerebral infarcti

11 At 6 months, decompressive craniectomy in patients with traumatic bra

12 Decompressive craniectomy in refractory intracranial hyp

13 Decompressive craniectomy is often required after head t

14 However, decompressive craniectomy might be less economically att

15 The effect of decompressive craniectomy on clinical outcomes in patien

16 intracranial pressure (>25 mm Hg) to undergo decompressive craniectomy or receive ongoing medical car

17 Decompressive craniectomy resulted in a greater quality-

18 tion to computed tomography in patients with decompressive craniectomy to assess the size of acute he

19 Decompressive craniectomy was associated with an average

20 Gemelli" Hospital who underwent decompressive craniectomy were studied.

21 groups, stage 3 treatments (barbiturates and decompressive craniectomy) were used if all stage 2 trea

22 amework for further studies (e.g. addressing decompressive craniectomy).

23 reduce brain swelling, decrease the need for decompressive craniectomy, and improve clinical outcomes

24 nnitol use, treatment with barbiturate coma, decompressive craniectomy, number of nonneurosurgical pr

25 ho suffered severe TBI and were subjected to decompressive craniectomy, we used NeuN, a neuronal mark

26 pertonic saline; c) mild hypothermia; and d) decompressive craniectomy.

27 ) score of 0-4 at 90 days without undergoing decompressive craniectomy.

28 n 20 mm Hg, use of edema-directed therapies, decompressive craniotomy, or 3-month Glasgow Outcome Sca

29 Early decompressive hemicraniectomy (<or=48 h) should be stron

30 middle cerebral artery (MCA) infarction with decompressive hemicraniectomy (DHC) is uncertain.

31 rials have provided compelling evidence that decompressive hemicraniectomy for large hemispheric infa

32 Early decompressive hemicraniectomy reduces mortality without

33 nstrated a substantial survival benefit from decompressive hemicraniectomy, with a number needed to t

34 cerebral artery [MMCA] stroke who underwent decompressive hemicraniectomy.

35 stenosis, 394 (62%) had surgery, most often decompressive laminectomy (320 of 394 [81%]).

36 Treatment was standard decompressive laminectomy (with or without fusion) or us

37 tic lumbar spinal stenosis to undergo either decompressive laminectomy alone (decompression-alone gro

38 Nonoperative care or surgery (primarily decompressive laminectomy for stenosis and decompressive

39 oy rods) lumbar spinal fusion in addition to decompressive laminectomy in patients with symptomatic l

40 y decompressive laminectomy for stenosis and decompressive laminectomy with fusion for stenosis assoc

41 (IAP) is associated with ICP elevation, and decompressive laparotomy in patients with concurrent ele

42 inferior vena cava (IVC) treated by a portal decompressive procedure that bypassed the obstructed IVC

43 ive intervention, and to clarify the role of decompressive surgery in older patients (>60 years old)

44 nt enhancement for months to years following decompressive surgery is common.

45 Trials indicate that for selected patients, decompressive surgery offers an advantage over nonoperat

46 Treatment was decompressive surgery or usual nonsurgical care.

47 Direct decompressive surgery plus postoperative radiotherapy is

48 elevant pathology consecutively referred for decompressive surgery to the National Hospital for Neuro

49 is and symptomatic cervical myelopathy after decompressive surgery using (18)F-FDG PET.

50 neoplastic or inflammatory myelopathies, and decompressive surgery was delayed by a median of 11 mont

51 in consideration of a potentially beneficial decompressive surgery.

52 c signs of spinal cord compression underwent decompressive surgery.

53 We assessed the efficacy of direct decompressive surgery.

54 will be of use in determining the effects of decompressive surgical treatment.