ライフサイエンスコーパス: neurological complication

1 No patient suffered a postoperative neurological complication.

2 acrolimus without recurrence of the original neurological complication.

3 This emerging infection is associated with neurological complication.

4 ing (n=1) without recurrence of the original neurological complication.

5 sociated with severe respiratory illness and neurological complication.

6 aneurysms following atrial myxoma is a rare neurological complication.

7 hanges in brain activity caused by secondary neurological complications.

8 from a subset of breast cancer patients with neurological complications.

9 ferentially in the subset experiencing acute neurological complications.

10 scular syndrome with predominantly renal and neurological complications.

11 ecause defects can lead to hematological and neurological complications.

12 ive individuals who had died of AIDS and had neurological complications.

13 r macrophages in the brains of patients with neurological complications.

14 to bloody diarrhea, acute renal failure, and neurological complications.

15 with encephalitis, and 4 with postinfectious neurological complications.

16 eased risk of acute renal failure and severe neurological complications.

17 nctive pharmacology have an inherent risk of neurological complications.

18 ions are important for relieving VZV related neurological complications.

19 ferentiated between patients with or without neurological complications.

20 feet, and throats to infections with severe neurological complications.

21 en that causes hand, foot, mouth disease and neurological complications.

22 umab), 10 (2.9%) developed subacute onset of neurological complications.

23 ul blisters around their mouths and hands to neurological complications.

24 disease (HFMD) and are often associated with neurological complications.

25 llain-Barre syndrome(2,3) as ZIKV-associated neurological complications.

26 cell transplantations with a development of neurological complications.

27 fic therapeutic approach may avoid long-term neurological complications.

28 reatment reduced (by 33% to 75%) the risk of neurological complications.

29 MO implantation may reduce the perioperative neurological complications.

30 preeclampsia that involves life-threatening neurological complications.

31 es in patients with AS could prevent serious neurological complications.

32 t human brain and is associated with serious neurological complications.

33 ng-term follow up is required to detect late neurological complications.

34 ngitis and to delineate the full spectrum of neurological complications.

35 -based data to guide the management of these neurological complications.

36 .53%), respiratory complications (1.3%), and neurological complications (1.02%).

37 1.3%), ophthalmic complications (340, 8.3%), neurological complications (665, 16.2%), peripheral circ

38 Whereas 11.6% of patients had neurological complications, 88.4% displayed mild disease

39 12 deficiency, such as macrocytic anemia and neurological complications affecting sensory and motor f

40 o assess the role of serum bile acids in the neurological complications after acute liver failure.

41 Neurological complications after OLTX disorders that occ

42 Neurological complications after orthotopic liver transp

43 Neurological complications after transcatheter aortic va

44 developed to analyze variables predictive of neurological complications and associated mortality.

45 foot, and mouth disease (HFMD), with severe neurological complications and cardio-respiratory compro

46 tively antiretroviral therapy on HIV-related neurological complications and changes in treatment stra

47 In addition, neurological complications and coinfection with bacteria

48 , ranging from mild rash and fever to severe neurological complications and congenital malformations.

49 sed only on parasite killing fail to prevent neurological complications and deaths associated with se

50 Severe infection with EV71 can lead to neurological complications and even death.

51 , especially in very young children, causing neurological complications and even death.

52 Zika virus has been associated with serious neurological complications and fetal abnormalities.

53 has been associated with a rise in cases of neurological complications and fetal central nervous sys

54 damental to achieve proper management, avoid neurological complications and lead to a good prognosis.

55 ch was associated with considerable rates of neurological complications and procedure-related complic

56 general infections, pulmonary complications, neurological complications, and admission to the intensi

57 Neurological complications are an increasingly recognize

58 in the literature, we show that extra-ocular neurological complications are common in adults with gen

59 ding 60 new cases, we show that extra-ocular neurological complications are common in OPA1 disease, a

60 Neurological complications are common in sickle cell dis

61 env) in the brain tissue of individuals with neurological complications are frequently highly macroph

62 Diagnosis and treatment of neurological complications are important in maintaining

63 ansfusion, venous thromboembolic, renal, and neurological complications, as the best solution for par

64 epticemia, toxemia, and meningitis, the main neurological complication associated with high mortality

65 1 infection of the CNS may contribute to the neurological complications associated with AIDS dementia

66 spectrum, and optimum treatment approach to neurological complications associated with anti-PD-1 the

67 id concentrations may reduce the severity of neurological complications associated with liver failure

68 of ADE in the development of congenital and neurological complications associated with ZIKV infectio

69 ribed elsewhere who have MYO5A mutations and neurological complications but no immunologic defects ma

70 Neurological complications can be categorised into dengu

71 Awareness of the expanding spectrum of neurological complications caused by VZV reactivation wi

72 New acute and chronic neurological complications continue to be reported.

73 Patients with neurological complications directly attributable to meta

74 Neurological complications due to the HIV itself became

75 n, early diagnosis, and proper management of neurological complications during the acute phase of str

76 oportion of patients with IE and preexisting neurological complications either undergo delayed surger

77 tment can lead to cerebral edema and serious neurological complications, especially if the decrease i

78 e conditions may be followed by a variety of neurological complications, especially in immunocompromi

79 Neurological complications, especially stroke, have long

80 er recipients receiving CyA and experiencing neurological complications, fever of unknown origin, sei

81 addition, we noted a trend toward heightened neurological complications following second wave influen

82 ied 18 children with 2009 H1N1 influenza and neurological complications from first and second wave ac

83 equently called upon to assess patients with neurological complications from the procedure.

84 Overall mortality was 30%, and neurological complications had a negative impact on outc

85 alaria induces severe but usually reversible neurological complications has not been elucidated.

86 , diverse cardiological, systemic as well as neurological complications have been reported.

87 However, neurological complications, hospitalization, and even de

88 In two patients with secondary neurological complications, ICE demonstrated prominent a

89 Hepatic encephalopathy (HE) is a major neurological complication in patients with severe liver

90 event after primary infection, resulting in neurological complications in a significant number of in

91 , especially the first description of severe neurological complications in adults and the retrospecti

92 Neurological complications in AIDS occur when this contr

93 mplicated in the development of vascular and neurological complications in diabetes.

94 ates for treating ZIKV infection and related neurological complications in fetal and adult patients.

95 a virus was established as a cause of severe neurological complications in fetuses, neonates, and adu

96 ral neuropathies have become the most common neurological complications in HIV infection.

97 s potential underpinnings of ZIKV-associated neurological complications in humans.

98 ality may contribute to the understanding of neurological complications in malaria.

99 rvous system (CNS) gives rise to many of the neurological complications in patients with AIDS.

100 of this study was to assess the incidence of neurological complications in patients with infective en

101 s were related primarily to a higher risk of neurological complications in PVD patients who had CABG

102 Acute medical and neurological complications in stroke patients are analys

103 izes the current evidence on ZIKV-associated neurological complications in the adults.

104 The higher incidence of perioperative neurological complications in women cannot be explained

105 luenza A (H1N1) has been recognized to cause neurological complications including seizures and enceph

106 incontinence, (2) other previously reported neurological complications (including anosmia, ataxia, e

107 Down syndrome (DS) is associated with neurological complications, including cognitive deficits

108 usion requirement, postoperative hemoglobin, neurological complications, intensive care unit and hosp

109 postoperative hemoglobin, chest infections, neurological complications, intensive care unit and hosp

110 Recent investigations have emphasized neurological complications, introducing the possibility

111 e that, while usually mild, can cause severe neurological complications, leading to hundreds of death

112 Neurological complications, mainly seizures and altered

113 rointestinal complications (n = 58 [40.8%]), neurological complications (n = 22 [15.5%]), and traumat

114 with SAE (n = 18), with vaccination without neurological complications (n = 43), and without vaccina

115 Neurological complications (NC) after hematopoietic stem

116 t, liver, thymus, and lung are GVHD targets, neurological complications (NC) have also been reported

117 There were no acute neurological complications, no thromboembolic events, an

118 Neurological complications occur frequently in solid org

119 Neurological complications occurred after a median of 5.

120 dent risk factors for measles mortality were neurological complications (odds ratio [OR], 12.8; 95% c

121 opathy (HIV-SN) is currently the most common neurological complication of chronic HIV infection and c

122 ON: Myelopathy is considered the most common neurological complication of copper deficiency.

123 d sensory neuropathy remains the most common neurological complication of HIV infection and is charac

124 d sensory neuropathy (SN) is the most common neurological complication of HIV infection in the curren

125 Peripheral neuropathy is the most frequent neurological complication of HIV infection, affecting mo

126 nsory neuropathy (HIV-SN) is the most common neurological complication of HIV infection.

127 inful HIV-associated sensory neuropathy is a neurological complication of HIV infection.

128 Peripheral neuropathy is the most common neurological complication of HIV-1 infection, affecting

129 1 (HIV-1) infection, 20-30% will develop the neurological complication of HIV-associated dementia (HA

130 nsory polyneuropathies are the most frequent neurological complication of human immunodeficiency viru

131 troviral toxic neuropathy is the most common neurological complication of human immunodeficiency viru

132 Cerebral malaria (CM) is a neurological complication of infection with Plasmodium f

133 Hepatic encephalopathy is a serious neurological complication of liver failure.

134 s infected with NotPolyA experienced reduced neurological complications of acute infection relative t

135 VD) is among the most common and most feared neurological complications of AIDS.

136 The neurological complications of Behcet's syndrome have not

137 jury is known to predispose its sufferers to neurological complications of concurrent poliovirus infe

138 l (HPA) axis function also contribute to the neurological complications of diabetes phenotypes.

139 mplicated in the development of vascular and neurological complications of diabetes.

140 diverse cardiovascular, renal, retinal, and neurological complications of diabetes.

141 ther they are involved in the development of neurological complications of falciparum malaria.

142 l-characterized rhesus macaque models of the neurological complications of HIV infection (neuroAIDS),

143 Neurological complications of HIV infection cause consid

144 This may affect the development of neurological complications of HIV infection.

145 A key protein associated with the neurological complications of HIV, gp120, forms part of

146 We approach the problem of neurological complications of systemic cancer as would a

147 Neurological complications of systemic cancer-those aris

148 association with the serious post-infection neurological complications of the Miller-Fisher and Guil

149 olved in the etiology and progression of the neurological complications of these disorders.

150 nes against EV-A71, a disease causing severe neurological complications or even death, are currently

151 vere infection with EV71 can lead to various neurological complications or fatal diseases.

152 Our patients had fewer pretreatment neurological complications (PFP, pareses) than reported

153 been associated with fetal abnormalities and neurological complications, prompting global concern.

154 he >30 million HIV-infected subjects develop neurological complications ranging from mild symptoms to

155 rrence of respiratory, cardiac, allergic, or neurological complications requiring immediate intervent

156 complications (RR=1.73, 95% CI: 1.35-2.23), neurological complications (RR=1.38, 95% CI: 1.01-1.88),

157 le cell disease, 29 asymptomatic and 47 with neurological complications (seizures, stroke, transient

158 Despite the declining incidence of severe neurological complications such as HIV encephalopathy, h

159 abuse increases the risk of life-threatening neurological complications such as strokes and seizures.

160 sonal epidemics that include cases of severe neurological complications, such as acute flaccid paraly

161 Neurological complications, such as brain oedema or haem

162 d during SIRS, and sepsis and the consequent neurological complications, such as encephalopathy, are

163 ng cardiac surgery are more likely to suffer neurological complications than men and whether these co

164 r HIV viral loads and experience more severe neurological complications than non-users, the direct im

165 d experienced greater infectious, renal, and neurological complications than those with a single epis

166 ppurative swelling of the parotid glands and neurological complications that can result in aseptic me

167 ntly developed mouse models mimic the severe neurological complications that occur in a small percent

168 e number of patients with cardiopulmonary or neurological complications was 82,486 (case-severity rat

169 al function, gastrointestinal disorders, and neurological complications were commonly reported in bot

170 ral developmental phase of carotid stenting, neurological complications were highly dependent on pati

171 Pretransplant neurological complications were prevalent, and severe po

172 Overall rates of mortality and neurological complications were relatively low but signi

173 No adverse neurological complications were reported, although one p

174 Independent risk factors associated with all neurological complications were vegetation size >/=3 cm

175 Enterovirus 71 (EV71) causes a spectrum of neurological complications with significant morbidity an

176 of the factors that predispose a patient to neurological complications would facilitate further refi