ライフサイエンスコーパス: HAE

1 HAE by virtue of its infiltrative growth pattern with a

2 HAE is transcriptionally up-regulated in the floral absc

3 HAE results from variations in the SERPING1 gene that en

4 HAE should be considered in the differential diagnosis o

5 HAE was the most efficient method yielding 81 +/- 2 mg/g

6 HAE-FXII and HAE-unknown differ in various respects, inc

7 dogenous MASP-1/C1-INH complex levels in 128 HAE patients and 100 controls.

8 ike protein kinases, HAESA and HAESA-like 2 (HAE/HSL2) that regulate a MAP kinase cascade that is req

9 Forty-nine percent of 521 HAE attacks only involved abdominal symptoms.

10 Analyzing 60 HAE-induced leaf transcriptomes from closely-related Nic

11 sed by reduced plasma C1-inhibitor activity, HAE has been linked to lysine/arginine substitutions for

12 opment of ecallantide for treatment of acute HAE attacks included affected anatomic location, accompa

13 intestinal angioedema in pediatric and adult HAE patients.

14 s to consider short-term prophylaxis for all HAE patients undergoing surgery.

15 The level of functional C1-INH in all HAE types I and II plasma tested was less than 40% of ou

16 t is recommended to follow up patients in an HAE comprehensive care center.

17 However, the risk of an HAE attack in patients without prophylaxis has not been

18 Both HAE-FXII and HAE-unknown are inherited as autosomal-dominant traits w

19 HAE-FXII and HAE-unknown differ in various respects, including gender

20 e to angioedema was similar for HAE-FXII and HAE-unknown.

21 arameters between patients with HAE-FXII and HAE-unknown.

22 ith C1-inhibitor deficiency (C1-INH-HAE) and HAE with normal C1-INH activity (nl-C1-INH-HAE), due to

23 come wilted in response to limited water and HAE continues to accumulate in the leaf abscission zones

24 edema, which includes hereditary angioedema (HAE types I, II and III), acquired C1-INH deficiency, an

25 but individuals with hereditary angioedema (HAE) are deficient in C1-inhibitor and consequently exhi

26 ically, treatment for hereditary angioedema (HAE) attacks has been administered by healthcare profess

27 fficacy in preventing hereditary angioedema (HAE) attacks in the phase 3 HELP Study.

28 , in the treatment of hereditary angioedema (HAE) attacks.

29 or the prophylaxis of hereditary angioedema (HAE) attacks.

30 Hereditary angioedema (HAE) caused by a deficiency of functional C1-inhibitor (

31 Hereditary angioedema (HAE) caused by C1-inhibitor (C1-INH) deficiency (HAE-C1-

32 Hereditary angioedema (HAE) comprises HAE with C1-inhibitor deficiency (C1-INH-

33 agement of attacks of hereditary angioedema (HAE) due to C1 esterase inhibitor (C1-INH) deficiency (C

34 Hereditary angioedema (HAE) due to C1 inhibitor deficiency manifests as recurre

35 Patients with hereditary angioedema (HAE) experience episodes of soft tissue swelling as a co

36 Patients with hereditary angioedema (HAE) have gained additional access to highly efficacious

37 ) are associated with hereditary angioedema (HAE) in the presence of normal C1 esterase inhibitor act

38 Hereditary angioedema (HAE) is a disease characterized by recurrent tissue swel

39 Hereditary angioedema (HAE) is a rare genetic disease characterized by unpredic

40 Hereditary angioedema (HAE) is a rare genetic disease usually caused by mutatio

41 Hereditary angioedema (HAE) is a rare genetic disorder primarily caused by muta

42 Hereditary angioedema (HAE) is an autosomal dominant disease characterized by r

43 Hereditary angioedema (HAE) is associated with recurrent, painful, and potentia

44 Hereditary angioedema (HAE) is characterized by unpredictable attacks of debili

45 Hereditary angioedema (HAE) types I and II were then tested.

46 Hereditary angioedema (HAE) with normal C1 inhibitor (C1Inh) associated with th

47 Hereditary angioedema (HAE) with normal C1-INH (HAEnCI) may be linked to specif

48 NH is associated with hereditary angioedema (HAE), an autosomal inherited disease characterized by sw

49 Hereditary angioedema (HAE), caused by deficiency in C1-inhibitor (C1-INH), lea

50 ment for treatment of hereditary angioedema (HAE).

51 te tissue swelling in hereditary angioedema (HAE).

52 QoL) in patients with hereditary angioedema (HAE).

53 lasminogen (PLG-HAE), angiopoietin 1 (ANGPT1-HAE), kininogen 1 genes (KNG1-HAE), or angioedema of unk

54 43 FXII-HAE patients, 58 U-HAE, and 4 ANGPT1-HAE.

55 The levels of these mediators in ANGPT1-HAE patients were not altered.

56 t option for pKal-mediated diseases, such as HAE.

57 Because HAE cells are isolated directly from human airways, Vero

58 Both HAE-FXII and HAE-unknown are inherited as autosomal-domi

59 ts with type I HAE, mutated C1INH encoded by HAE-causing SERPING1 acts upon wildtype (WT) C1INH in a

60 T), FXII-W268R, and FXII-T309R (which causes HAE), as well as other FXII variants in HEK293 freestyle

61 Hereditary angioedema (HAE) comprises HAE with C1-inhibitor deficiency (C1-INH-HAE) and HAE wi

62 point was the rate of investigator-confirmed HAE attacks during the 24-week treatment period.

63 ciency and at least 2 investigator-confirmed HAE attacks in the first 56 days of a prospective run-in

64 pleting a positive feedback loop controlling HAE expression.

65 caused by C1-inhibitor (C1-INH) deficiency (HAE-C1-INH) is a potentially life-threatening rare disea

66 f airway epithelial cells from human donors (HAE), MV infectious centers form rapidly and become larg

67 d airway epithelial cells from human donors (HAE).

68 Lanadelumab efficacy was durable-HAE attack rate was consistently lower vs placebo, from

69 e demonstrated that ECs are activated during HAE attacks.

70 tudied whether EC function is altered during HAE attacks in comparison with attack-free intervals.

71 helin-1) were significantly increased during HAE attacks.

72 bradykinin, have not yet been studied during HAE attacks.

73 erception of herbivore associated elicitors (HAE) that includes transient accumulations of jasmonic a

74 The genes that encode HAE/HAESA-LIKE2, IDA, NEVERSHED, and MAPK KINASE4 and 5

75 fferentiated primary human airway epithelia (HAE) in vitro In human embryonic kidney HEK293 cells, th

76 well-differentiated human airway epithelia (HAE).

77 ng primary human ciliated airway epithelial (HAE) cell cultures, the only in vitro replication model

78 well-differentiated human airway epithelial (HAE) cell cultures.

79 ted more rapidly in human airway epithelial (HAE) cells than did the first-wave virus.

80 In ciliated human airway epithelial (HAE) cells, NAbs induced by wt G, but not by wt F, compl

81 clearly observed in human airway epithelial (HAE) culture.

82 RS-CoV-2 culture in human airway epithelial (HAE) cultures replicated the in vivo antiviral host resp

83 based extensions in human airway epithelial (HAE) tissues than RSV, suggesting HMPV may promote cell-

84 on of human cartilaginous airway epithelium (HAE) and a hamster model of disease with recombinant res

85 s polarized primary human airway epithelium (HAE) cultured at an air-liquid interface (HAE-ALI).

86 ith icatibant in adult patients experiencing HAE attacks during the FAST-2 open-label extension (OLE)

87 io was 35 : 14 for HAE-FXII and 109 : 12 for HAE-unknown.

88 paternal transmission ratio was 35 : 14 for HAE-FXII and 109 : 12 for HAE-unknown.

89 To develop a potential therapeutic agent for HAE and other pKal-mediated disorders, we used phage dis

90 ntact G protein would be more infectious for HAE cell cultures.

91 in Vero cells was 5-fold more infectious for HAE cells in culture, confirming our hypothesis and indi

92 phyxiation due to angioedema was similar for HAE-FXII and HAE-unknown.

93 novel mechanism justifying gene therapy for HAE.

94 d safety of repeated icatibant treatment for HAE attacks.

95 osphorylation of AGL15 is necessary for full HAE expression, thus completing a positive feedback loop

96 ake of quinapril or enalapril had no further HAE-FXII attacks after discontinuation of those drugs.

97 We identified 43 FXII-HAE patients, 58 U-HAE, and 4 ANGPT1-HAE.

98 normal C1 esterase inhibitor activity (FXII-HAE).

99 We report two Brazilian FXII-HAE families segregating the mutation c.983 C>A (p.Thr32

100 essed a prevalence of 1:1.4 x 10(6) for FXII-HAE and 1:1.0 x 10(6) for U-HAE.

101 (44-76) and 49 (35-59) nmol/ml/min for FXII-HAE asymptomatic and symptomatic carriers, respectively,

102 3) nmol/ml/min and 38.5 (32.8-45.6) for FXII-HAE asymptomatic and symptomatic carriers, respectively,

103 and c.983C>G mutations of the F12 gene (FXII-HAE) is a rare condition, and presents with highly varia

104 ygous mutations in the factor XII gene (FXII-HAE).

105 dings therefore suggest that homozygous FXII-HAE mutation status leads to a severe phenotype in femal

106 In FXII-HAE patients, cHK levels, in the absence of PIC, were si

107 In FXII-HAE, only VEGF-C levels were increased.

108 it is the first such report for a male FXII-HAE mutation carrier.

109 To predict FXII-HAE disease severity, we analyzed the biological phenoty

110 We here report that FXII-HAE mutations collectively introduce new sites that are

111 The FXII-HAE is associated with modifiers, for example kinin cata

112 Meaningful variables contributed to FXII-HAE, with the kinin catabolism enzymes ACE and CPN exhib

113 lates disease activity in patients with FXII-HAE.

114 bradykinin production in patients with FXII-HAE.

115 H-HAE), due to mutations in factor XII (FXII-HAE), plasminogen (PLG-HAE), angiopoietin 1 (ANGPT1-HAE)

116 ase inhibitor and mutations in the F12 gene (HAE-FXII) is associated with skin swellings, abdominal p

117 ns in the coagulation factor 12 (FXII) gene (HAE-FXII) or functional mutations in other genes that ar

118 ns in the coagulation factor 12 (FXII) gene (HAE-FXII) or mutations in genes that are still unknown (

119 ine-rich repeat receptor-like kinases HAESA (HAE) and HAESA-LIKE2 (HSL2).

120 elated receptor-like protein kinases, HAESA (HAE) and HAESA-LIKE2 (HSL2).

121 Gene expression of HAESA (HAE) and INFLORESCENCE DEFICIENT IN ABSCISSION (IDA) is

122 A)-derived peptide and its receptors, HAESA (HAE) and HAESA-LIKE2 (HSL2).

123 H levels (20%-30% of normal) in heterozygous HAE type I patients remain obscure.

124 how that in a subset of patients with type I HAE, mutated C1INH encoded by HAE-causing SERPING1 acts

125 Here we show that this process requires IDA, HAE, and HSL2.

126 aken together, our results suggest that IDL6-HAE/HSL2 facilitates the ingress of Pst DC3000 by promot

127 hance its infection by manipulating the IDL6-HAE/HSL2-ADPG2 signaling pathway.

128 s conducted in 18 patients with type I or II HAE who received two of twice-weekly 1500, 3000, or 6000

129 ratio was 1 : 68 in HAE-FXII and 1 : 6.3 in HAE-unknown.

130 The male to female ratio was 1 : 68 in HAE-FXII and 1 : 6.3 in HAE-unknown.

131 and also provided a replicative advantage in HAE cells.

132 two segments replicated more efficiently in HAE cells.

133 d not account for increased virus fitness in HAE cells.

134 ange of gene expression (27-fold increase in HAE) observed in flowers when the abscission program is

135 2 and NS4 underwent an abortive infection in HAE-ALI.

136 duces progeny virions that are infectious in HAE.

137 mechanisms affecting C1INH plasma levels in HAE type I patients, and may pave the way for new treatm

138 and CPN, different from those recognized in HAE with C1Inh deficiency.

139 1 and MASP-1/C1-INH complexes are reduced in HAE patients compared with controls.

140 P-1 and C1-INH were significantly reduced in HAE patients compared with matched controls (p < 0.0001)

141 t does not express NS3 and NS4 replicated in HAE-ALI as effectively as the wild-type virus; however,

142 y HBoV1 and AAV2 rescued AAV2 replication in HAE cells.

143 n of the NS2 protein in HBoV1 replication in HAE-ALI.

144 ctively inhibited entry and spread of RSV in HAE tissues, with nirsevimab displaying significantly hi

145 gly, neither RSV nor HMPV formed syncytia in HAE tissues.

146 rious infections may have a role in inducing HAE attacks.

147 DNA in both transfected HEK293 and infected HAE cells.

148 to the deficiency of C1-inhibitor (C1-INH) (HAE-C1-INH).

149 The Italian network for C1-INH-HAE (ITACA) created a registry including different forms

150 ecruited from the Italian Network for C1-INH-HAE (ITACA), we selected a large multiplex family with U

151 mens contributed by 139 patients with C1-INH-HAE at the annual control visits were studied retrospect

152 mer levels were associated with acute C1-INH-HAE attacks, particularly with submucosal involvement.

153 Patients with C1-INH-HAE experiencing more than 12 angioedema attacks per yea

154 All neonates/infants with an affected C1-INH-HAE family member should be screened for C1-INH deficien

155 a cohort of Italian subjects with nl-C1-INH-HAE followed by ITACA to identify specific biomarkers.

156 and Ang2 were higher in patients with C1-INH-HAE in remission than in healthy controls.

157 iatric patients should always carry a C1-INH-HAE information card and medicine for emergency use.

158 ls of VEGFs and Angs in patients with C1-INH-HAE may prompt the investigation of VEGFs and Angs as bi

159 The symptoms of C1-INH-HAE often present in childhood.

160 We studied 258 C1-INH-HAE patients from 113 European families, and we explored

161 s for the diagnosis and management of C1-INH-HAE patients was created.

162 A total of 105 nl-C1-INH-HAE patients were studied.

163 on of VEGFs and Angs as biomarkers of C1-INH-HAE severity.

164 ge acts as an independent modifier of C1-INH-HAE severity.

165 ealthy controls and 128 patients with C1-INH-HAE were studied.

166 ses HAE with C1-inhibitor deficiency (C1-INH-HAE) and HAE with normal C1-INH activity (nl-C1-INH-HAE)

167 ioedema with C1 inhibitor deficiency (C1-INH-HAE) have focused on adult patients.

168 terase inhibitor (C1-INH) deficiency (C1-INH-HAE) includes therapy with exogenous C1INH.

169 ioedema with C1 inhibitor deficiency (C1-INH-HAE) is a rare inherited genetic disease characterized b

170 angioedema due to C1-INH deficiency (C1-INH-HAE) represent one of the oldest unsolved problems of th

171 d HAE with normal C1-INH activity (nl-C1-INH-HAE), due to mutations in factor XII (FXII-HAE), plasmin

172 abdominal pain is common in pediatric C1-INH-HAE, but also commonly occurs in the general pediatric p

173 management of pediatric patients with C1-INH-HAE.

174 ns of VEGFs and Angs in patients with C1-INH-HAE.

175 ia in the urinalysis of patients with C1-INH-HAE.

176 of acute attacks in 74 patients with C1-INH-HAE.

177 uman airway epithelium air-liquid interface (HAE-ALI) cultures, HBoV1 infection initiates a DNA damag

178 thelium cultured at an air-liquid interface (HAE-ALI).

179 m (HAE) cultured at an air-liquid interface (HAE-ALI).

180 (SERK) family of coreceptor protein kinases, HAE and HSL2 are activated when bound by INFLORESCENCE D

181 etin 1 (ANGPT1-HAE), kininogen 1 genes (KNG1-HAE), or angioedema of unknown origin (U-HAE).

182 nt of cutaneous, abdominal, and/or laryngeal HAE attack(s) severe enough to warrant treatment.

183 angioedema with normal C1 inhibitor levels (HAE-N) is associated with a Factor XII mutation in 30% o

184 Least-squares mean monthly HAE attack rate for lanadelumab was compared with placeb

185 Although most HAE cases are caused by reduced plasma C1-inhibitor acti

186 on in both well-differentiated (nondividing) HAE and dividing HEK293 cells.

187 Hereditary angio-oedema (HAE) with normal C1 inhibitor is associated with heteroz

188 Knowledge of varied imaging appearances of HAE is essential to suspect the condition and to make an

189 ema, and ANGPT1 variants can be the basis of HAE.

190 gs in 23 histopathologically proven cases of HAE with emphasis on the appearance and extent of diseas

191 Diagnosis of HAE types I and II can be ascertained by inhibition of e

192 f patients with and without the diagnosis of HAE-C1-INH and analyzed fatal laryngeal attacks.

193 me-wide duplications shaped the evolution of HAE-induced EDS in Nicotiana.

194 Three women with exacerbation of HAE-FXII during intake of quinapril or enalapril had no

195 of AGL15 results in decreased expression of HAE as well as a delayed abscission phenotype.

196 Ultrasonography features of HAE included heterogeneous, hyperechoic hepatic mass wit

197 rhC1INH appeared to reduce the frequency of HAE attacks and were generally safe and well tolerated.

198 Patients with a history of HAE attacks occurring >/=every 2 weeks received a once w

199 ons that activate signaling independently of HAE/HSL2.

200 e syncytia do not form after MV infection of HAE, the cytoplasm of an infected cell suddenly flows in

201 ferent paraclinical and clinical outcomes of HAE.

202 evising the knowledge on the pathogenesis of HAE-C1-INH and for reconsidering the role of ECs as a po

203 ctin-lectin pathway in the pathomechanism of HAE-C1-INH.

204 unrecognized role in the pathophysiology of HAE.

205 infection, we confirmed that pretreatment of HAE cells with HE but not the enzymatically inactive mut

206 scription factor) as a putative regulator of HAE expression.

207 we showed that C1INH encoded by a subset of HAE-causing SERPING1 alleles affected secretion of norma

208 nd DCs applied to the basolateral surface of HAE grown on large-pore (3.0-mum) membranes successfully

209 or DCs applied to the basolateral surface of HAE grown on small-pore (0.4-mum) support membranes did

210 ly deliver MeV to the basolateral surface of HAE.

211 nin have been developed for the treatment of HAE types I and II and are also being evaluated in other

212 , and may pave the way for new treatments of HAE.

213 Family studies revealed that this type of HAE was transmitted as an autosomal dominant trait.

214 and characterize a hitherto unknown type of HAE with normal C1-INH and without mutation in the F12 g

215 mutation in the PLG gene is a novel type of HAE.

216 The unpredictability of HAE episodes supports current international treatment re

217 Recurrence or worsening of HAE symptoms (22 of 97) was the most commonly reported A

218 nancies had a significantly higher impact on HAE-FXII than on HAE-unknown.

219 nificantly higher impact on HAE-FXII than on HAE-unknown.

220 As an example, we used the IDA peptide HAE/HSL2 receptor signaling system known to regulate flo

221 Following a 2-week run-in period, HAE patients received 8 weekly rhC1INH administrations a

222 s in factor XII (FXII-HAE), plasminogen (PLG-HAE), angiopoietin 1 (ANGPT1-HAE), kininogen 1 genes (KN

223 patients were successfully able to recognize HAE attacks and decide when to self-administer icatibant

224 -mg and 150-mg doses of berotralstat reduced HAE attack rates compared with placebo and were safe and

225 observed in more patients with HAE-FXII than HAE-unknown.

226 The HAE and HSL2 receptors are redundant in function during

227 on experiments indicate that AGL15 binds the HAE promoter in floral receptacles.

228 Efficacy was evaluated by comparing the HAE attack incidence during the treatment period to the

229 k (M4 module) which is co-activated with the HAE-induced JA accumulations but is elicited independent

230 vates the ADPG2 expression partially through HAE and HSL2.

231 formally that transfer from immune cells to HAE occurs in a nectin-4-dependent manner.

232 function of HBoV1 for AAV2 is not limited to HAE cells but also includes HEK293 and HeLa cells.

233 or DCs were incapable of transferring MeV to HAE when applied to the apical surface.

234 We report our experience treating HAE-FXII with discontinuation of potential trigger facto

235 We identified 43 FXII-HAE patients, 58 U-HAE, and 4 ANGPT1-HAE.

236 t that pathogenesis of FXII-, ANGPT1-, and U-HAE moves through an unbalanced control of kallikrein ac

237 ngioedema with yet unknown genetic defect [U-HAE]).

238 or an additional 20 patients with familial U-HAE, 22 patients with sporadic U-HAE, and 200 control su

239 x 10(6) for FXII-HAE and 1:1.0 x 10(6) for U-HAE.

240 ease of VEGF-A, VEGF-C, and Ang1 levels in U-HAE patients compared to controls.

241 cHK levels in U-HAE patients were similar to controls in plasma collecte

242 Ang1 participate in the pathophysiology of U-HAE increasing the basal vascular permeability.

243 NG1-HAE), or angioedema of unknown origin (U-HAE).

244 familial U-HAE, 22 patients with sporadic U-HAE, and 200 control subjects.

245 in all patients with familial or sporadic U-HAE.

246 we selected a large multiplex family with U-HAE and performed whole-exome sequencing.

247 ed in all members of the index family with U-HAE but not in asymptomatic family members or an additio

248 cation of causative genes in patients with U-HAE is valuable for understanding the cause of the disea

249 families and unrelated index patients with U-HAE recruited from the Italian Network for C1-INH-HAE (I

250 d genetic studies in Italian patients with U-HAE to identify novel causative genes.

251 NGPT1, c.807G>T, p.A119S) in a family with U-HAE.

252 high mortality in patients with undiagnosed HAE-C1-INH underscores the need to identify these patien

253 r mutations in genes that are still unknown (HAE-unknown).

254 rd in patients with drug allergy, urticaria, HAE, and anaphylaxis.

255 r at multiple sites during an attack and why HAE attacks respond well to modest increases of circulat

256 a W268R substitution, is not associated with HAE.

257 In families with HAE-FXII, the number of female offspring with F12 mutati

258 Patients aged 12 years or older with HAE due to C1 inhibitor deficiency and at least 2 invest

259 tudy was conducted in Japanese patients with HAE (NCT02865720).

260 ds functional C1-INH levels in patients with HAE (types I and II) that are clearly abnormal with less

261 wever, several observations in patients with HAE are difficult to explain from a pathogenic model cla

262 ates of perioperative edema in patients with HAE not receiving prophylaxis.

263 olerability of berotralstat in patients with HAE over a 24-week treatment period (the phase 3 APeX-2

264 f records of randomly selected patients with HAE type I or II treated at the Frankfurt Comprehensive

265 of perioperative angioedema in patients with HAE type I or II without prophylaxis undergoing surgical

266 self-administered icatibant in patients with HAE type I or II.

267 Eligible patients with HAE type I/II received lanadelumab 150 mg every 4 weeks

268 INH or attenuated androgens in patients with HAE undergoing surgery.

269 outcome study of SC CSL830 in patients with HAE warrants further investigation.

270 ay for bradykinin formation in patients with HAE, in which FXII is cleaved and activated by plasmin.

271 However, in a series of patients with HAE, no causative variants have been described, and the

272 odel for angioedema attacks in patients with HAE, which assumes a systemic, fluid-phase activation of

273 Patients with HAE-1/2 experienced significant and clinically meaningfu

274 Patients with HAE-1/2 received either lanadelumab 150 mg every 4 weeks

275 s for the management of female patients with HAE-C1-INH is presented.

276 btained during attacks from 18 patients with HAE-C1-INH were compared with inter-attack samples of th

277 Thirty-five patients with HAE-C1-INH, who have experienced severe attacks on 106 o

278 gic/obstetric events in female patients with HAE-C1-INH.

279 cal symptoms was 20.3 years in patients with HAE-FXII and 29.6 years in patients with HAE-unknown.

280 laboratory parameters between patients with HAE-FXII and HAE-unknown.

281 Sixty-nine patients with HAE-FXII from 23 unrelated families and 196 patients wit

282 ntration were observed in more patients with HAE-FXII than HAE-unknown.

283 For patients with HAE-FXII, various treatment options are available which

284 The study included 72 patients with HAE-FXII.

285 was abnormally high in 8 of 17 patients with HAE-N (4 in each subcategory) and could be corrected by

286 s markedly abnormal in 1 of 23 patients with HAE-N and normal in the remaining 22 patients.

287 n degradation in the plasma of patients with HAE-N both with and without the mutation.

288 was normal in all but 1 of 23 patients with HAE-N studied.

289 abnormality in PAI-2 levels in patients with HAE-N that is not seen in patients with C1 inhibitor def

290 2 ng/mL (mean, 0.54 ng/mL) in patients with HAE-N with a Factor XII mutation (12 samples), and from

291 25 ng/mL (mean, 4.3 ng/mL) in patients with HAE-N with or without the Factor XII mutation.

292 .7 ng/mL (mean, 1.03 ng/mL) in patients with HAE-N without a Factor XII mutation (11 samples).

293 23 unrelated families and 196 patients with HAE-unknown from 65 unrelated families were studied.

294 ith HAE-FXII and 29.6 years in patients with HAE-unknown.

295 ing their therapeutic value in patients with HAE.

296 cted for further evaluation in patients with HAE.

297 in this population of Japanese patients with HAE.

298 C1-INH has not been studied in patients with HAE.

299 ble safety profile in Japanese patients with HAE.

300 roviders optimize therapies in patients with HAE.