ライフサイエンスコーパス: surgical wound

1 ymptomatic with good healing of the perianal surgical wound.

2 e removal of the sinus cavity with a minimal surgical wound.

3 ected into gingival tissue approximating the surgical wound.

4 keratitis developing adjacent to a previous surgical wound.

5 ation pathway, and thrombin formation in the surgical wound.

6 vered from skin, soft tissue, abscesses, and surgical wounds.

7 VEGF) to the angiogenic environment of human surgical wounds.

8 tive collagenase compared with that of acute surgical wounds.

9 adult periodontitis as well as with healing surgical wounds.

10 f infection were respiratory tract (53%) and surgical wound (25%).

11 strain has an extraordinary capacity to heal surgical wounds, a complex trait that maps to at least s

12 timated to comprise approximately 28% of all surgical wounds and are frequently complex to manage.

13 pressure-stimulated cell adhesion to murine surgical wounds and blocked pressure-induced FAK and Akt

14 t pressure-stimulated tumor cell adhesion to surgical wounds and enhance tumor-free survival.

15 Fluid from acute surgical wounds and from nonhealing pressure ulcers was

16 e a potential source of bacterial entry into surgical wounds and may contribute to surgical site infe

17 in the management of genitourinary injuries, surgical wounds, and complications.

18 ced angiogenesis in s.c. sponges, in healing surgical wounds, and in the myocardium of mice 7 days af

19 Patients in the surgical wound-associated group were more likely to use

20 Thrombin is primarily produced in the surgical wound, but mechanisms are unclear.

21 Iatrogenic tumor cell implantation within surgical wounds can compromise curative cancer surgery.

22 the control group experienced more than one surgical wound complication (P=0.014), and the relaparot

23 irolimus demonstrated a significantly higher surgical wound complication rate, but graft and patient

24 ophenolate mofetil who were pair-matched for surgical wound complication risk factors.

25 We studied postoperative surgical wound complications in 15 kidney recipients rec

26 Surgical wound complications were defined as any complic

27 alization for uterine infection, obstetrical surgical wound complications, and cardiopulmonary and th

28 tion with postpartum hemorrhage, obstetrical surgical wound complications, and pelvic injury.

29 essant, has been anecdotally associated with surgical wound complications.

30 Surgical wound contamination with pressure-activated Co2

31 und bed tissue biopsy were collected at each surgical wound debridement.

32 r as a result of pathogens gaining access to surgical wounds either hematogenously, through drains, o

33 Surgical wound fluid form all time points stimulated mar

34 Surgical wound fluid samples (n = 70) were collected dai

35 VEGF levels in surgical wound fluid were lowest on POD 0, approximating

36 of residual tumors in the proximity of acute surgical wounds has been reported; however, the mechanis

37 Most surgical wounds heal by primary intention, that is to sa

38 as methyl mercaptan may play a role in both surgical wound healing and periodontal disease by advers

39 aged 18 years or older and had at least one surgical wound healing by secondary intention, which was

40 ents' views and experiences of living with a surgical wound healing by secondary intention.

41 The risks of surgical wound healing complications in transplant recip

42 nduced thermal preconditioning would enhance surgical wound healing that was correlated with hsp70 ex

43 inical implications for hemostat use in post-surgical wound healing.

44 itro to better understand the role of EMD in surgical wound healing.

45 To study the effects of COX-2 on colonic surgical wound healing.

46 ed periodontal bone loss and diminished post-surgical wound healing; however, the pathogenesis of thi

47 tion: Do antiseptics and antibiotics benefit surgical wounds healing by secondary intention (SWHSI)?

48 Surgical wounds healing by secondary intention can have

49 significant tissue loss), and are known as 'surgical wounds healing by secondary intention'.

50 tial reactions, particularly to "unexpected" surgical wounds healing by secondary intention.

51 racrine stimulation loop induced by the post-surgical wound-healing response.

52 effects of EMD on healing of an oral mucosa surgical wound in rats.

53 fection in patients at risk of bacteremia or surgical wound infection but failed to reach their clini

54 reus strain in both the s.c. abscess and the surgical wound infection models in WT mice.

55 CD4(+) alphabeta T cells homed to the surgical wound infection site of WT animals.

56 omodulator in the treatment of MSSA and MRSA surgical wound infection through enhancement of the loca

57 extraintestinal infections (pneumonia, deep surgical wound infection, and vertebral osteomyelitis wi

58 c. abscess formation, hindpaw infection, and surgical wound infection, S. aureus multiplied in the ti

59 During S. aureus surgical wound infection, the presence of IFN-gamma at t

60 The primary endpoint was the rate of surgical wound infection.

61 using a clinically relevant murine model of surgical wound infection.

62 hypothermia both increases susceptibility to surgical-wound infection and lengthens hospitalization.

63 is common during major surgery, may promote surgical-wound infection by triggering thermoregulatory

64 Empyema was most common (42%), followed by surgical wound infections (29%), mediastinitis (16%), st

65 may be a significant component in some mixed surgical wound infections and that surgical management a

66 ide updated guidelines for the prevention of surgical wound infections based upon review and interpre

67 onchial wash, blood, sinus drainage, and two surgical wound infections from separate patients in Texa

68 The development and treatment of surgical wound infections has always been a limiting fac

69 r years, bloodstream, respiratory tract, and surgical wound infections predominated.

70 Surgical wound infections remain a significant source of

71 of mixed wound infection, from a pool of 400 surgical wound infections that we have studied, in which

72 ptible S. aureus which frequently cause deep surgical wound infections.

73 rees C in the normothermia group (P < 0.001) Surgical-wound infections were found in 18 of 96 patient

74 ), Warthin's tumor of the parotid gland (1), surgical wound inflammation (2), leiomyoma of the uterus

75 Surgical wounds of specific depths were created in pig s

76 ion and neovascularization in full-thickness surgical wounds on rat oral mucosa.

77 hibit or kill gram-positive or gram-negative surgical wound pathogens.

78 infectious keratitis adjacent to a previous surgical wound progressed into endophthalmitis.

79 The post-surgical wound rapidly healed and was characterized by f

80 CAM was placed in surgical wounds related to implant surgery.

81 red after eradication of infection and final surgical wound repair.

82 the urinary tract, indwelling catheters, and surgical wound sites.

83 Physical symptoms, including pain and the surgical wound, were recurrent items of concern.

84 ial in minimizing bacterial contamination of surgical wounds when used in guided tissue regeneration

85 We discovered that co-infection of murine surgical wounds with Pseudomonas aeruginosa results in c