ライフサイエンスコーパス: flaccid paralysis

1 ation coverage from data for non-polio acute flaccid paralysis.

2 phalitis, and 3 had poliomyelitis-like acute flaccid paralysis.

3 s conducting surveillance for cases of acute flaccid paralysis.

4 ose IPV (fIPV) as a measure to prevent acute flaccid paralysis.

5 ated calcium channels and to an irreversible flaccid paralysis.

6 pulation immunity and prevent cases of acute flaccid paralysis.

7 esents as encephalitis, meningitis, or acute flaccid paralysis.

8 ausation or recovery from ZIKV-induced acute flaccid paralysis.

9 myelitis, a condition characterized by acute flaccid paralysis.

10 s investigated during surveillance for acute flaccid paralysis.

11 3 and early 2014 in the absence of any acute flaccid paralysis.

12 re neurological complications, such as acute flaccid paralysis.

13 sting stool samples from patients with acute flaccid paralysis.

14 naptic vesicle (SV) exocytosis, resulting in flaccid paralysis.

15 on causes long-lasting and potentially fatal flaccid paralysis-a major feature of botulism.

16 h a higher rate of reporting non-polio acute flaccid paralysis (AFP) (OR = 1.13, 95% CI 1.02-1.26 for

17 t noted an abnormal number of cases of acute flaccid paralysis (AFP) among adults, which were later c

18 Stool specimens of patients with acute flaccid paralysis (AFP) and sewage samples collected fro

19 In 1986, surveillance of acute flaccid paralysis (AFP) cases among children <15 years o

20 Polio cases were defined as acute flaccid paralysis (AFP) cases reported from 7 October to

21 Surveillance for acute flaccid paralysis (AFP) is a fundamental cornerstone of

22 n <36 mo old identified with non-polio acute flaccid paralysis (AFP) reported through polio surveilla

23 We used acute flaccid paralysis (AFP) surveillance data from Nigeria c

24 ES complements clinical acute flaccid paralysis (AFP) surveillance for possible polio

25 Gaps in acute flaccid paralysis (AFP) surveillance have been consisten

26 io enteroviruses (NPEVs) isolated from acute flaccid paralysis (AFP) surveillance in Shandong Provinc

27 tionnaires collected information about acute flaccid paralysis (AFP) surveillance resources, training

28 VAPP cases were identified using LAC's acute flaccid paralysis (AFP) surveillance system.

29 kistan during July 2009 to support the acute flaccid paralysis (AFP) surveillance system.

30 cle reviews the epidemiology of polio, acute flaccid paralysis (AFP) surveillance, and the implementa

31 ect process indicators associated with acute flaccid paralysis (AFP) surveillance, routine immunizati

32 lan as an activity that can complement acute flaccid paralysis (AFP) surveillance.

33 following immunisation (AEFI); ongoing acute flaccid paralysis (AFP) surveillance; active, hospital-b

34 A case of acute flaccid paralysis (AFP) was defined as a child <15 years

35 averaged only 57% and surveillance for acute flaccid paralysis (AFP) was suboptimal (AFP rate<1 per 1

36 1 isolates obtained from patients with acute flaccid paralysis (AFP) were compared by nucleotide sequ

37 Twenty-one cases of acute flaccid paralysis (AFP) were reported on the island of H

38 A case was defined as any case of acute flaccid paralysis (AFP) with virological confirmation of

39 ani and Afghani children with nonpolio acute flaccid paralysis (AFP).

40 35 South Asian children with nonpolio acute flaccid paralysis (AFP).

41 of South Asian children with nonpolio acute flaccid paralysis (AFP).

42 specimens from patients reported with acute flaccid paralysis and 3171 wastewater samples were teste

43 the release of neurotransmitters that cause flaccid paralysis and are considered potential bioweapon

44 d to assess a cluster of children with acute flaccid paralysis and cranial nerve dysfunction geograph

45 ally and temporally defined cluster of acute flaccid paralysis and cranial nerve dysfunction in child

46 ne depolarization, action potential failure, flaccid paralysis and cytopathology that are characteris

47 eins required for neurotransmission, causing flaccid paralysis and death by asphyxiation.

48 caviruses in human diseases, including acute flaccid paralysis and diarrhea, will require further epi

49 er investigators that highlighted persistent flaccid paralysis and electrophysiological evidence of a

50 self-limiting acute febrile illness to acute flaccid paralysis and lethal encephalitis.

51 irulent variants exhibiting polio-like acute flaccid paralysis and other central nervous system manif

52 of a surveillance system for cases of acute flaccid paralysis and poliovirus infection.

53 Using acute flaccid paralysis and routine, monthly countrywide envir

54 ncluding neonatal sepsis-like disease, acute flaccid paralysis, and acute hemorrhagic conjunctivitis.

55 hagic disease, encephalitis, biphasic fever, flaccid paralysis, and jaundice are typical manifestatio

56 polio vaccine (OPV), surveillance for acute flaccid paralysis, and OPV "mop-up" campaigns.

57 , including myocarditis, pancreatitis, acute flaccid paralysis, and poliomyelitis.

58 al features of the increasing cases of acute flaccid paralysis associated with anterior myelitis note

59 e of human motor neurons are responsible for flaccid paralysis associated with botulism.

60 children aged 0-14 years with onset of acute flaccid paralysis between Jan 1, 2001, and Dec 31, 2011.

61 aseptic meningitis, poliomyelitis-like acute flaccid paralysis, brainstem encephalitis, and other sev

62 ) is a highly potent neurotoxin that elicits flaccid paralysis by enzymatic cleavage of the exocytic

63 oteases that cleave SNARE proteins to elicit flaccid paralysis by inhibiting neurotransmitter-carryin

64 oteases that cleave SNARE proteins to elicit flaccid paralysis by inhibiting the fusion of neurotrans

65 linum toxin (BT) is a neurotoxin that causes flaccid paralysis by inhibiting the release of acetylcho

66 An analysis was conducted of 10,486 acute flaccid paralysis cases diagnosed as Guillain-Barre synd

67 ean numbers of infected and uninfected acute flaccid paralysis cases investigated in a season are der

68 like poliovirus isolates from Nigerian acute flaccid paralysis cases obtained from routine surveillan

69 lic Health received several reports of acute flaccid paralysis cases of unknown etiology.

70 nvestigated the mechanism of temporary acute flaccid paralysis caused by Zika virus infection in aged

71 nergic nerve terminals, causing a descending flaccid paralysis characteristic of the disease botulism

72 vascular shock syndrome, encephalitis, acute flaccid paralysis, congenital abnormalities and fetal de

73 tates between 2009 and 2014, using the acute flaccid paralysis database at the World Health Organizat

74 ive disease (meningitis, encephalitis, acute flaccid paralysis) develops in less than 1% but carries

75 rable outcomes, although patients with acute flaccid paralysis did not recover limb strength.

76 as compared with that of children with acute flaccid paralysis due to other causes to estimate the cl

77 West Nile encephalitis; a poliomyelitis-like flaccid paralysis due to West Nile virus was recognised,

78 23 August 1991, a 2-year-old boy with acute flaccid paralysis due to wild poliovirus was detected in

79 d population groups, and surveillance (acute flaccid paralysis, enterovirus, and environmental) needs

80 meeting diagnostic criteria for other acute flaccid paralysis etiologies were excluded.

81 Since then, >9000 cases of acute flaccid paralysis have been reported and thoroughly inve

82 documented in 27 percent of the patients and flaccid paralysis in 10 percent; in all of the latter, n

83 in 20 (35%), encephalitis in 6 (11%), acute flaccid paralysis in 4 (7%), and autonomic dysregulation

84 in stool collected from children with acute flaccid paralysis in Africa.

85 cribed as a bilateral, symmetric, descending flaccid paralysis in an afebrile and alert patient witho

86 ism manifests with cranial nerve palsies and flaccid paralysis in children and adults.

87 dium botulinum (Clb), the causative agent of flaccid paralysis in humans that can be fatal in 5 to 10

88 emics of meningitis, encephalitis, and acute flaccid paralysis in humans.

89 wild poliovirus and cases of non-polio acute flaccid paralysis in India.

90 MP2 and VAMP4 in cultured neurons and causes flaccid paralysis in mice.

91 here has been limited surveillance for acute flaccid paralysis in North America since the regional er

92 Case series of acute flaccid paralysis in patients with radiological or neuro

93 erosurvey was conducted among cases of acute flaccid paralysis in the 25 high-polio-incidence distric

94 us system, is the most common cause of acute flaccid paralysis in the post-polio era.

95 d in 12 of 192 patients with non-polio acute flaccid paralysis in Tunisia and Nigeria and 0 of 96 hea

96 ingitis, and concomitant muscle weakness and flaccid paralysis may provide a clinical clue to the pre

97 After an initial contralateral flaccid paralysis, motor function rapidly recovered, aft

98 in humans ranges from sub-clinical to acute flaccid paralysis, myocarditis and meningitis.

99 ted HFMD (n = 47), meningitis (n = 8), acute flaccid paralysis (n = 1), encephalitis (n = 21), and en

100 pisodes), oculogyric crisis (four episodes), flaccid paralysis of all extremities (four episodes), tr

101 m is characterized by symmetric, descending, flaccid paralysis of motor and autonomic nerves, usually

102 lysis (hypoKPP) is characterized by episodic flaccid paralysis of muscle and acute hypokalemia during

103 sure for botulism, a fatal illness caused by flaccid paralysis of muscles due to botulinum neurotoxin

104 BoNT/A application causes long-lasting flaccid paralysis of muscles through inhibiting the rele

105 Clusters of acute flaccid paralysis or cranial nerve dysfunction in childr

106 Patients initially seen with acute flaccid paralysis or pulmonary edema had significantly g

107 romes of meningitis, encephalitis, and acute flaccid paralysis/poliomyelitis.

108 Surveillance for cases of acute flaccid paralysis provides a means for detecting circula

109 dose of OPV among 47 574 children with acute flaccid paralysis reported during 2005-2009.

110 s of stool samples taken from cases of acute flaccid paralysis revealed the presence of mixtures of r

111 posed national surveillance system for acute flaccid paralysis should capture at a minimum the 796 GB

112 e release at neuromuscular junctions causing flaccid paralysis, specifically synaptosomal-associated

113 , the importance of maintaining strong acute flaccid paralysis surveillance even in adults, and the n

114 We conducted a retrospective review of acute flaccid paralysis surveillance in the security-compromis

115 lected from children identified by the acute flaccid paralysis surveillance program in India during 2

116 from among cases reported through the acute flaccid paralysis surveillance system between November 2

117 r understanding the sensitivity of the acute flaccid paralysis surveillance system is presented by fi

118 Health Organization requested that the acute flaccid paralysis surveillance system of Latin American

119 The acute flaccid paralysis surveillance system represents a usefu

120 A robust acute flaccid paralysis surveillance system, including a multi

121 supplementary immunization activities, acute flaccid paralysis surveillance, and routine immunization

122 ages of human resources and strengthen acute flaccid paralysis surveillance.

123 f field teams, (3) field work, and (4) acute flaccid paralysis surveillance.

124 cted in Bangladesh in 2007 to 2008 for acute flaccid paralysis surveillance.

125 While BoNTs cause flaccid paralysis, TeNT causes spastic paralysis.

126 levamisole: an initial spastic paralysis; a flaccid paralysis that follows; and finally, a recovery

127 rus developed motor deficits including acute flaccid paralysis that peaked 8-10 days after viral chal

128 sm (WB) is a potentially lethal, descending, flaccid, paralysis that results when spores of Clostridi

129 Botulinum neurotoxins (BoNTs) elicit flaccid paralysis through cleavage of SNARE proteins wit

130 e zinc proteases (serotypes A-G) which cause flaccid paralysis through the cleavage of SNARE proteins

131 Botulinum neurotoxin causes rapid flaccid paralysis through the inhibition of acetylcholin

132 A peripheral flaccid paralysis was found to occur, before or concurre

133 nce database, in which 27,379 cases of acute flaccid paralysis were recorded between 2001 and 2007.

134 Botulism is characterized by flaccid paralysis, which can be caused by intoxication w

135 s act locally within motor neurons to elicit flaccid paralysis, while retrograde TeNT traffics to inh

136 icated a rare but distinct syndrome of acute flaccid paralysis with evidence of spinal motor neuron i

137 AE in rodents typically results in ascending flaccid paralysis with inflammation primarily targeting

138 rodents is manifested typically as ascending flaccid paralysis with inflammation targeting the spinal

139 ibe a group of patients with acute segmental flaccid paralysis with minimal or no encephalitic or sen

140 apon would cause acute symmetric, descending flaccid paralysis with prominent bulbar palsies such as

141 spital Colorado (Aurora, CO, USA) with acute flaccid paralysis with spinal-cord lesions involving mai

142 Timely investigation of children with acute flaccid paralysis, with collection of stool specimens fo

143 rome (GBS) is the most common cause of acute flaccid paralysis worldwide, and is thought to be immune

144 utants move poorly, exhibiting an incomplete flaccid paralysis, yet have normal muscle ultrastructure