ライフサイエンスコーパス: lacrimal

1 del of aqueous-deficient dry eye produced by lacrimal ablation, topical administration of 0.1 nmol CF

2 basal tear protein secretion in cultured rat lacrimal acinar cells and proliferation of subconfluent

3 Lacrimal acinar cells immunoreacted with GCDFP-15 and CK

4 Our data demonstrate that lacrimal acinar cells lacking Orai1 do not exhibit SOCE

5 The expression of TRPP channels in lacrimal acinar cells suggests a functional role of the

6 (IP(3)Rs), and ryanodine receptors (RyRs) in lacrimal acinar cells, however, little is known regardin

7 Lacritin, a glycoprotein secreted from lacrimal acinar cells, may function as an autocrine fact

8 Sox9 is required for the development of the lacrimal and harderian glands and contributes to the for

9 ium as early as E11.5 and is detected in the lacrimal and harderian glands as they form.

10 Lubricin messenger RNA is also present in lacrimal and meibomian glands, as well as in a number of

11 lopment of new strategies to maintain normal lacrimal and salivary gland function in patients with SS

12 ant improvement in the objective measures of lacrimal and salivary gland function.

13 Lacrimal and salivary gland PAs and Ca-ex-PAs have simil

14 me is a chronic autoimmune disease affecting lacrimal and salivary glands that often is accompanied b

15 function due to immune cell infiltration in lacrimal and salivary glands.

16 crine glands leading to chronically impaired lacrimal and salivary secretion.

17 ts showed persistent uptake in the salivary, lacrimal, and parotid glands.

18 l injuries (eyelid lacerations and damage to lacrimal apparatus) were recorded in 1265 of 5719 patien

19 Eight patients with an intact lacrimal artery had significantly better outcomes for su

20 patients (group 2) who had an absence of the lacrimal artery or deviated from the treatment protocol

21 An intact lacrimal artery, no disruption of bone barrier or tumor

22 that optimal surgical management of chronic lacrimal canaliculitis allows for both accurate microbio

23 st documented case of A. aphrophilus chronic lacrimal canaliculitis illustrates that optimal surgical

24 ral chronic epiphora associated with chronic lacrimal canaliculitis resistant to prolonged topical an

25 The "wedge sign" frequency is assessed in lacrimal carcinoma, lacrimal lymphoma, or dacryoadenitis

26 point of a vertical line passing through the lacrimal caruncle and an oblique line joining the latera

27 point of a vertical line passing through the lacrimal caruncle and an oblique line joining the latera

28 eyelid, eyelid mass mimicking chalazion, or lacrimal caruncle mass.

29 The horizontal distance from the lacrimal caruncle to the AIOF was 0.3 mm.

30 The lateral canthus, subnasal point, and lacrimal caruncle were used as anatomic reference points

31 edema of the eyelid and an enlarged, swollen lacrimal caruncle were visible.

32 tein secretion, suggesting that a decline in lacrimal cell function contributes to dry eye.

33 Previously, in single lacrimal cells isolated from lacrimal glands, we demonst

34 ting a hereditary component in patients with lacrimal disorders is helpful in determining the underly

35 cian in understanding and categorizing those lacrimal disorders with a hereditary component.

36 mpletion of chemotherapy, patients underwent lacrimal drainage evaluation by computed tomographic dac

37 Tear film impairment (aqueous and lipid) and lacrimal drainage obstruction should be considered in su

38 t was an anomaly of the meibomian glands and lacrimal drainage system defects.

39 dies that describe the efficacy or safety of lacrimal drainage system plugs.

40 P2 was washed off after 2 min, (representing lacrimal drainage) 0.071% penetrated porcine cornea by 6

41 d granulation tissue in the larynx, urethra, lacrimal duct, and external auditory canal.

42 er blood flow changes around the ipsilateral lacrimal duct, superior salivatory nucleus stimulation e

43 unction (11% prevalence) was associated with lacrimal dysfunction (P = 0.010) and xerostomia with xer

44 ent (erythema and sclerosis, skin symptoms), lacrimal dysfunction (Schirmer's tear test, xerophthalmi

45 Encountering a patient with lacrimal dysgenesis or agenesis is not an uncommon occur

46 eaction when cocultured with purified rabbit lacrimal epithelial cells, induce a Sjogren's-like autoi

47 ed with infiltrating leukocytes and not with lacrimal epithelial cells.

48 ear volume and tear composition (osmolarity, lacrimal factors, inflammatory mediators, growth and dif

49 al role of the proteins in the regulation of lacrimal fluid secretion under physiological and disease

50 n produce a significant deterioration of the lacrimal function unit in female SS dry eye patients.

51 Genes for control of lacrimal function, including cholinergic, adrenergic, va

52 pressed genes, 9 were of direct relevance to lacrimal function.

53 athology of DED involves inflammation of the lacrimal functional unit (LFU), comprising the cornea, c

54 Clinical evaluation showed lacrimal functional unit impairment after the desiccatin

55 The lacrimal gland (28%), conjunctiva (28%), and orbit (28%)

56 g from the orbit (19), conjunctivae (18) and lacrimal gland (6).

57 An enlarged lacrimal gland (dacryoadenosis) without obvious histopat

58 The lacrimal gland (LG) delivers defensive and metabolic fac

59 The lacrimal gland (LG) develops through branching morphogen

60 Bilateral lacrimal gland (LG) disease is a unique presentation tha

61 To describe the involvement of the lacrimal gland (LG) in blepharophimosis-ptosis-epicanthu

62 Lacrimal gland (LG) morphogenesis and repair are regulat

63 us, and evaluate its effects on the inflamed lacrimal gland (LG) of non-obese diabetic mouse (NOD), a

64 Autoimmune dacryoadenitis and altered lacrimal gland (LG) secretion are features of Sjogren's

65 ia receptor-mediated transcytosis across the lacrimal gland (LG), which produces the bulk of human te

66 progenitor cells in the uninjured, adult rat lacrimal gland (LG).

67 the eyelids (n = 53 [82%]), followed by the lacrimal gland (n = 5), conjunctiva (n = 4), and eyebrow

68 ed a rare case of pleomorphic adenoma of the lacrimal gland (PALG) causing hyperopic shift and CFs wi

69 Lacrimal gland abscess or dacryoadenitis was the present

70 Fourteen patients with primary lacrimal gland ACC were included.

71 Lacrimal gland ACCs are frequently positive for the MYB-

72 Our findings show that lacrimal gland ACCs are genetically and clinically simil

73 Dysfunction of lacrimal gland acinar cells can ultimately result in ocu

74 hexosaminidase secretion from primary rabbit lacrimal gland acinar cells.

75 Rat lacrimal gland acini were isolated by collagenase digest

76 signaling components of this pathway in rat lacrimal gland acini.

77 When compared with the normal lacrimal gland and complex choristoma, all isolated epib

78 t (LFU), comprising the cornea, conjunctiva, lacrimal gland and interconnecting innervation.

79 (typically the lateral) and, less often, the lacrimal gland and is often mild when it arises during o

80 but not Pax6(PE/PE) mice, developed stunted lacrimal gland and lens hypoplasia which was significant

81 Lacrt has prosecretory activity in the lacrimal gland and mitogenic activity at the corneal epi

82 as to investigate an enlarged dacryoadenotic lacrimal gland and normal lacrimal glands for the presen

83 Lymphocytic infiltration of the lacrimal gland and ocular surface in autoimmune diseases

84 TLR2 and 5 were upregulated in lacrimal gland and overall, there was a corresponding ch

85 an essential transcription factor for lens, lacrimal gland and pancreas development.

86 hanism, and gene fusion detection methods in lacrimal gland and primary orbital and ocular adnexal so

87 ESP22 is secreted from the lacrimal gland and released into tears of 2- to 3-week-o

88 vated by adenosine triphosphate (ATP) in rat lacrimal gland and to determine their role in protein se

89 es were reviewed and microscopic sections of lacrimal gland biopsy samples were critically re-evaluat

90 , downstream of FGF signaling, in regulating lacrimal gland branching and differentiation.

91 ) and P2X(6)receptors were identified in the lacrimal gland by RT-PCR, Western blot, and immunofluore

92 ession in sarcoidosis involving the orbit or lacrimal gland can be distinguished from gene expression

93 Lacrimal gland carcinoma can form a triangle of tissue b

94 It is significantly more common in lacrimal gland carcinoma compared with dacryoadenitis an

95 aging for 116 patients was reviewed: 39 with lacrimal gland carcinoma, 37 with lymphoma, and 40 with

96 The "wedge sign" is most common in lacrimal gland carcinoma, but can occur in patients with

97 mposed of rabbit conjunctival epithelium and lacrimal gland cell spheroids, and recapitulates the aqu

98 In lacrimal gland cells, the activation of M3AChRs stimulat

99 ioma (n = 4; 10%), melanocytoma (n = 3; 8%), lacrimal gland choristoma (n = 2; 5%), gliosis (n = 1; 3

100 genetic rescue experiments in which the Ugdh lacrimal gland defect is ameliorated by constitutive Ras

101 tive FGF receptor only partially rescued the lacrimal gland defects in Sox9 heterozygotes, suggesting

102 To address if lacrimal gland development and FGF signaling depends on

103 Therefore, Fgf10-Fgfr2b signaling during lacrimal gland development is sensitive to the content o

104 We further show that lacrimal gland development requires the mesenchymal expr

105 ogether, our data reveal crucial features of lacrimal gland development that have broad implications

106 st;Hs6st double mutants completely abolished lacrimal gland development, suggesting that both 2-O and

107 nd epithelial lineage dynamics that underlie lacrimal gland development.

108 ellular matrix components during early stage lacrimal gland development.

109 The cause of bilateral lacrimal gland disease most commonly was inflammatory, f

110 Lacrimal gland ductal cysts (dacryops) are uncommon, occ

111 infective debris (1 case) from the affected lacrimal gland ductule--typically the most inferolateral

112 Infective lacrimal gland ductulitis, commonly from Actinomyces inf

113 disease, (2) salivary gland dysfunction and lacrimal gland dysfunction, and (3) limited mouth-openin

114 in ATD and Sjogren syndrome, conditions with lacrimal gland dysfunction.

115 the co-receptors for Fgf10 signaling in the lacrimal gland epithelium, but their function in the Fgf

116 or budding morphogenesis in the presumptive lacrimal gland epithelium.

117 Lacrimal gland excision (LGE) induced dry eye produces m

118 c scopolamine, or by performing extraorbital lacrimal gland excision.

119 otype but led to significant improvements in lacrimal gland exocrinopathy and tear secretion.

120 portance of heparan sulfate 6-O sulfation in lacrimal gland FGF signaling.

121 fibroblasts were elevated in cGVHD-affected lacrimal gland fibroblasts and (2) that they could be re

122 absence of recent upper respiratory illness, lacrimal gland focus, multiple orbital abscesses, and la

123 2283 genes) were significantly lower in the lacrimal gland for patients with sarcoidosis.

124 l types and lineage relationships that drive lacrimal gland formation are unclear.

125 other orbital inflammatory conditions in the lacrimal gland fossa.

126 We show that the lacrimal gland from its earliest developmental stages is

127 molecular signalling processes that control lacrimal gland function will give insight into correctiv

128 The presence of lacrimal gland goblet cells may have physiologic implica

129 The Hs6st mutants exhibited significant lacrimal gland hypoplasia and a strong genetic interacti

130 ly from normal lacrimal gland tissue and the lacrimal gland in a complex choristoma.

131 te complex on the cell surface and prevented lacrimal gland induction by Fgf10 in explant cultures.

132 ts demonstrate that mesenchymal GAG controls lacrimal gland induction by restricting the diffusion of

133 se occurs in the setting of conjunctival and lacrimal gland inflammation, potentially mediated by the

134 R(-/-)) had the same submandibular gland and lacrimal gland injury as did the IL14alphaTG mice, but t

135 by Jin et al that studied the regulation of lacrimal gland innervation by sympathetic and parasympat

136 It was recently reported that repair of the lacrimal gland involved the mobilization of mesenchymal

137 Lacrimal gland involvement in granulomatosis with polyan

138 inical and imaging features of patients with lacrimal gland involvement secondary to GPA and to compa

139 nd to have orbital inflammatory disease with lacrimal gland involvement, of whom 7 had a final diagno

140 The tear-producing lacrimal gland is a tubular organ that protects and lubr

141 Ongoing studies demonstrate that the murine lacrimal gland is capable of repair after experimentally

142 , and secretion from the acinar cells of the lacrimal gland is regulated by both cholinergic and adre

143 A normal cytologic feature of the lacrimal gland is the presence of acinar goblet cells th

144 sociates, the data on this unusual epibulbar lacrimal gland lesion remain sparse.

145 mmunohistochemically this isolated epibulbar lacrimal gland lesion.

146 confirms that a subset of isolated epibulbar lacrimal gland lesions differs morphologically and immun

147 to overt, suggesting that isolated epibulbar lacrimal gland lesions may have originated from precurso

148 d complex choristoma, all isolated epibulbar lacrimal gland lesions were composed predominantly of va

149 Four patients with isolated epibulbar lacrimal gland lesions, 2 male and 2 female, with a medi

150 searched for all cases of isolated epibulbar lacrimal gland lesions.

151 The subtype distribution of lacrimal gland lymphoma resembles that of the ocular adn

152 A total of 260 patients with lacrimal gland lymphoma were identified.

153 orted collection of data of subtype-specific lacrimal gland lymphoma.

154 egenerative potential in a rabbit model with lacrimal gland main excretory duct ligation-induced inju

155 erwent debulking surgery of the inflammatory lacrimal gland mass for diagnostic and therapeutic reaso

156 We conclude that lacrimal gland MEC function is altered by inflammation b

157 ot attenuate lymphocytic infiltration of the lacrimal gland or eye, it significantly reduced ocular s

158 A total of 36 tumors from 32 patients with lacrimal gland PA or Ca-ex-PA were included in the study

159 tance for disease progression in a subset of lacrimal gland PAs.

160 oma and generally indicates life-threatening lacrimal gland pathology that requires urgent biopsy.

161 w of images from patients with biopsy-proven lacrimal gland pathology.

162 Carbachol increased ATP release from lacrimal gland pieces but not from acini.

163 Biophysical properties of lacrimal gland polycystin-2 channels were similar to tho

164 The lacrimal gland possesses many features that make it an e

165 Lacrimal gland progenitor cells isolated from ligated ti

166 Isolated lacrimal gland progenitor cells were tested and characte

167 An enlarged salivary gland or lacrimal gland raises a wide differential diagnosis that

168 tear protein, it promotes basal tearing and lacrimal gland secretion.

169 e a critical role for Orai1-mediated SOCE in lacrimal gland signalling and function.

170 The results provide further insights into lacrimal gland stem/progenitor cell physiology and their

171 The existence of lacrimal gland stem/progenitor cells was proposed in sev

172 iple pustules/abscesses in the region of the lacrimal gland that were expressing purulent fluid into

173 ically and immunohistochemically from normal lacrimal gland tissue and the lacrimal gland in a comple

174 ryops) are uncommon, occurring anywhere that lacrimal gland tissue is present.

175 Studies were performed in adult lacrimal gland tissue of Swiss-Webster mice.

176 nctiva (hamartia) and grew into disorganized lacrimal gland tissue.

177 fforts, the molecular and cellular events in lacrimal gland tissues initiating inflammatory responses

178 und that EMT is induced during repair of the lacrimal gland to generate MSCs to initiate repair, and

179 ied the expression of MYB-NFIB in 19 non-ACC lacrimal gland tumors.

180 The cutoff ADC value of lacrimal gland used for differentiation of thyroid eye d

181 The cutoff ADC value of the lacrimal gland used to suspect active disease was 1.76 x

182 notype, in which the exorbital branch of the lacrimal gland was absent in most cases.

183 The major lacrimal gland was involved in 13 lesions; 2 lesions aro

184 erified primary or secondary lymphoma of the lacrimal gland were included.

185 Acini from rat lacrimal gland were isolated by collagenase digestion.

186 idosis (7 in adipose tissue; 5 affecting the lacrimal gland) as well as comparable tissue from 6 heal

187 Idiopathic inflammatory tumor of the lacrimal gland, also called idiopathic dacryoadenitis, g

188 re equally noted to involve the conjunctiva, lacrimal gland, and orbit.

189 In the lacrimal gland, branching morphogenesis depends on the i

190 Human fibroblasts were isolated from the lacrimal gland, cornea, and Tenon's capsule and treated

191 eyelid, conjunctiva, choroid, ciliary body, lacrimal gland, or orbit (OA-uveal lymphoma) were includ

192 Secretory function also increased in the lacrimal gland, suggesting this local therapy could trea

193 rkers between the developing mouse and human lacrimal gland, supporting the use of mice to understand

194 voked macrophage infiltration to the eye and lacrimal gland, where they played a functional role in d

195 of unipotent KRT5(+) epithelial cells in the lacrimal gland.

196 mediated assembly to form a depot inside the lacrimal gland.

197 e formation of secretory acinar lobes in the lacrimal gland.

198 on were determined at the ocular surface and lacrimal gland.

199 nic inflammation in the underlying stroma or lacrimal gland.

200 een oxidative stress and inflammation in the lacrimal gland.

201 ptors P2X(1-4) and P2X(6) are present in the lacrimal gland.

202 olycystin-2L2) were expressed in adult mouse lacrimal gland.

203 that P2X(7)receptors were functional in the lacrimal gland.

204 ion of interleukin (IL)-1 into the exorbital lacrimal gland.

205 es (Hs2st, Hs6st1, and Hs6st2) in developing lacrimal gland.

206 esenchymal transition (EMT) in repair of the lacrimal gland.

207 thelium, but not in the CN epithelium or the lacrimal gland.

208 f Tregs and CD4(+) IFN-gamma(+) cells in the lacrimal gland.

209 gher uptake in kidneys, urinary bladder, and lacrimal gland.

210 nificant decreases were also observed in the lacrimal glands (49% +/- 13%, P < 0.001), liver (15% +/-

211 yndrome (SS) patients tears and in tears and lacrimal glands (LG) of male non-obese diabetic (NOD) mi

212 Multiple organs, including the lacrimal glands (LGs), are negatively affected by cGVHD

213 Tissue from 3 normal lacrimal glands and 1 complex choristoma were included f

214 lands of Wolfring is similar to that of main lacrimal glands and are consistent with secretion electr

215 Absorbed radiation doses to the salivary and lacrimal glands and bone marrow were low.

216 ive correlation between the ADC value of the lacrimal glands and CAS (r = 0.73, p = 0.001).

217 oimmune disease starting in the salivary and lacrimal glands and continuing to involve the lungs and

218 sialin, a known nitrate transporter, in the lacrimal glands and other eye components, and also xanth

219 sing the frequency of CD45(+)CD4(+) cells in lacrimal glands and significantly increasing conjunctiva

220 The accessory lacrimal glands are assumed to contribute to the product

221 The results of our study indicate that lacrimal glands are capable of tissue repair after duct

222 ounds localize to the parotid, salivary, and lacrimal glands as well as to the kidney, leading to dos

223 expression profiles of C57BL/6.NOD-Aec1Aec2 lacrimal glands before, or concomitant with, the first a

224 st that nitrate ions are concentrated in the lacrimal glands by sialin and can be secreted into eye c

225 nstigating severe damage to the salivary and lacrimal glands causing dry eyes and dry mouth.

226 l, T-cell infiltration into the salivary and lacrimal glands could be successfully visualized.

227 Klf5CN lacrimal glands displayed increased vasculature and larg

228 Lacrimal glands exhibited much higher levels of both ion

229 Cultured MSCs isolated from injured lacrimal glands expressed Snai1 and vimentin alongside n

230 multifactorial chronic disorder in which the lacrimal glands fail to produce enough tears to maintain

231 ged dacryoadenotic lacrimal gland and normal lacrimal glands for the presence of goblet cells (mucocy

232 Exorbital lacrimal glands from male Sprague-Dawley rats were divid

233 Exorbital lacrimal glands from male Sprague-Dawley rats were divid

234 Lacrimal glands function to produce an aqueous layer, or

235 cant difference (p = 0.03) in the ADC of the lacrimal glands in patients with active (n = 24) and ina

236 The mean ADC of lacrimal glands in thyroid eye disease (1.73 x 10(-3) mm

237 The ADC of the lacrimal glands is a non-invasive imaging parameter that

238 hat occur in myoepithelial cells (MECs) from lacrimal glands of a mouse model of Sjogren syndrome.

239 gene expression profiles were generated for lacrimal glands of C57BL/6.NOD-Aec1Aec2 mice 4 to 20 wee

240 MECs were cultured from lacrimal glands of C57BL/6J [wild type (WT)] and thrombo

241 s infiltrate the corneal stroma, limbus, and lacrimal glands of diseased mice.

242 tial biomarkers of impending autoimmunity in lacrimal glands of SjS-prone mice.

243 ioration of the autonomic innervation of the lacrimal glands rather than an impaired corneal innervat

244 Lacrimal glands regulate the production and secretion of

245 Lacrimal glands secrete proteins, electrolytes and water

246 Aged C57BL/6 lacrimal glands showed significantly greater lymphocytic

247 The ligation-injured lacrimal glands temporarily decreased in weight and had

248 cterize the role of Orai1 in the function of lacrimal glands using a mouse model in which the gene fo

249 : 1) initial injury to the submandibular and lacrimal glands via an environmental insult and LTalpha;

250 nt diffusion coefficient (ADC) values of the lacrimal glands were calculated and correlated with the

251 Acinar cells from monkey lacrimal glands were cultured with or without tumor necr

252 Rat lacrimal glands were subjected to collagenase digestion,

253 tissue PMN population in the corneal limbus, lacrimal glands, and cervical lymph nodes of healthy mal

254 low, occurred mainly around the salivary and lacrimal glands, and could easily be corrected.

255 MECs can be isolated from rat lacrimal glands, and they express P2X(7), P2Y(1), P2Y(11

256 nitrite levels in components of the eye and lacrimal glands, primarily in porcine samples.

257 usly, in single lacrimal cells isolated from lacrimal glands, we demonstrated that muscarinic recepto

258 y excessive inflammation and fibrosis in the lacrimal glands.

259 immune disease mainly affecting salivary and lacrimal glands.

260 uclear cell infiltration in the salivary and lacrimal glands.

261 mpare the findings with those in five normal lacrimal glands.

262 utoimmune disease affecting the salivary and lacrimal glands.

263 ning cells in both dacryoadenotic and normal lacrimal glands.

264 4 h but did not reduce uptake in kidneys and lacrimal glands.

265 alpha1, collagen type IIIalpha1 and NF-kB in lacrimal glands.

266 ltration of inflammatory/immune cells in the lacrimal glands.

267 conjunctival epithelium, eyelids and ocular [lacrimal, harderian (HG), and meibomian (MG)] glands and

268 Murine lacrimal, harderian and meibomian glands develop from th

269 Exclusion criteria included evidence of lacrimal hypersecretion, eyelid malposition, and punctal

270 dacryoadenitis, when administered via intra-lacrimal injection.

271 of orbital GPA, especially in patients with lacrimal involvement as the initial presentation, can be

272 e of a patent ostium and 100% were patent on lacrimal irrigation.

273 y affects exocrine glands--mainly labial and lacrimal--leading to complaints of dry mouth and eyes.

274 frequency is assessed in lacrimal carcinoma, lacrimal lymphoma, or dacryoadenitis.

275 pendages: skin, teeth, and nails--as well as lacrimal, mammary, salivary, sebaceous and sweat glands.

276 Lacrimal meniscus height, Schirmer test I, presence of s

277 cluded that the modified preserved nasal and lacrimal mucosal flap technique in EES-DCR for treating

278 Modified preserved nasal and lacrimal mucosal flap technique in EES-DCR was applied i

279 e we describe a modified preserved nasal and lacrimal mucosal flap technique in endonasal endoscopic

280 e analyzed by placing regions of interest on lacrimal, parotid, and submandibular glands; left ventri

281 (OCT) and to identify characteristics of the lacrimal punctum in patients who benefit from punctoplas

282 Lacrimal punctum infrared and OCT imaging may be helpful

283 mine the application of imaging the stenotic lacrimal punctum with infrared photographs and optical c

284 tion of exocrine glands, mainly salivary and lacrimal, resulting in oral and ocular dryness, although

285 n to receive either percutaneous drainage of lacrimal sac abscess followed by EN-DCR after the acute

286 in the setting of acute dacryocystitis with lacrimal sac abscess have not been well studied.

287 ary treatment after percutaneous drainage of lacrimal sac abscess in acute dacryocystitis.

288 le participants had acute dacryocystitis and lacrimal sac abscess presenting within 2 weeks of onset,

289 Primary EN-DCR in acute dacryocystitis with lacrimal sac abscess results in faster resolution compar

290 obstruction to include DCR revisions, acute lacrimal sac abscesses, nasolacrimal duct obstructions i

291 Pharmacological blockade of lacrimal secretion induced a significant CD4(+) infiltra

292 Culturing lacrimal secretions and concretions yielded Aggregatibac

293 Intubation with a lacrimal stent was performed in 82% of the cases at the

294 domization code was revealed as to whether a lacrimal stent was placed or not.

295 al applications, and an increasing number of lacrimal surgeons have focused on laser-assisted approac

296 yelids, hereditary disorders that affect the lacrimal system are fewer in number.

297 Inherited disorders that affect the lacrimal system are limited in number.

298 Lid and lacrimal system disorders were more common, but keratiti

299 reports of inherited disorders affecting the lacrimal system that have not been elucidated molecularl

300 lus allowing silicone tube intubation of the lacrimal system.