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1 ins causing pharyngitis (streptococcal "sore throat").
2 symptoms of a viral infection (cold and sore throat).
3 ained from the MICP method (quantifying pore throats).
4 al pungency sensed almost exclusively in the throat.
5 nd no EBV in the blood but shed EBV from the throat.
6  than the uniform warmth and moisture of the throat.
7 ded fever, cough, nasal congestion, and sore throat.
8 HO antibodies and the presence of GAS in the throat.
9  schoolchildren self-identifying with a sore throat.
10 r pathogenic bacteria, are singing back full-throated.
11 l congestion (36%), headache (30%), and sore throat (19%).
12 cute upper respiratory tract illnesses (sore throat, 34.3%; ear infection, 26.2%; and colds or flu, 1
13 s presenting to primary care with acute sore throat, a single dose of oral dexamethasone compared wit
14 to gastroenterology as well as ear, nose and throat, allergy, and asthma clinics.
15  defined as presence of fever and cough/sore throat) among the survey participants during periods of
16                        The microbiota of 327 throat and 68 nasal samples from school-age farm and non
17  to lungs, stomach-intestine, liver, trachea-throat and blood at the end of the imaging period was un
18  male patient who presented with fever, sore throat and dizziness.
19 ypeable Haemophilus influenzae isolates from throat and ear specimens of eight children with otitis m
20 lue for the diagnosis of mononucleosis; sore throat and fatigue are sensitive (range, 0.81-0.83) but
21 oms following the procedure were cough, sore throat and fatigue.
22 ; 11/20), and typical symptoms included sore throat and fever.
23  relatively minor complications such as sore throat and hoarseness, as well as aiming to reduce costs
24 unching raptorial pharyngeal jaws out of its throat and into its oral cavity, where the jaws grasp th
25 ing prey animal and transport it back to the throat and into the oesophagus.
26 occus (GAS), the agent of streptococcal sore throat and invasive soft tissue infections, evades inter
27 art of the hyoid apparatus that supports the throat and larynx) and the tympanic bone, which forms th
28 ncluding toothpastes, mouthwashes, lozenges, throat and nasal sprays, and as biocides.
29                                              Throat and nasal swab specimens were collected, combined
30 as established by blind testing of 328 nasal/throat and nasopharyngeal swab specimens from the United
31 en was monitored by surveillance cultures of throat and rectum, obtained on admission and twice weekl
32           Since the microenvironments at the throat and skin are distinct, the signal transduction pa
33 reveals that a major transition between many throat and skin specialist haplotypes correlates with th
34 on regulatory loci and the subpopulations of throat and skin specialists, against a background of hig
35  we compared culture-independent analyses of throat and sputum specimens to samples directly obtained
36 is region provides muscle precursors for the throat and tongue (hypopharyngeal/hypobranchial/hypoglos
37 taphylococcus aureus isolates recovered from throat and vaginal cultures, as well as from an axillary
38  is the superficial epithelial layers of the throat and/or skin.
39 -like illness (fever including cough or sore throat) and all patient visits by age.
40 ites of infection and colonization (nose and throat) and were interviewed via structured questionnair
41  were positive: 30.3% from stool, 13.2% from throat, and 0.9% from nares; 64.4% of patients had >1 po
42 wing and an illusory globus sensation in the throat, and 15 subjects exhibited penetration of fluid i
43 eratitis, subconjunctival hemorrhage, a sore throat, and a transient increase in neutralizing antibod
44 cosal swab samples from the tongue, tonsils, throat, and buccal mucosa; and stimulated and unstimulat
45 d hiccups, anorexia, fatigue, vomiting, sore throat, and difficulty swallowing.
46 ssessed S. aureus colonization in the nares, throat, and perianal skin on the day of enrollment and 4
47 ousand six hundred eighteen FSCs from nares, throat, and stool from 360 patients were processed.
48 BV) is transmitted orally, replicates in the throat, and then invades the B lymphocyte pool through a
49 ow in the matrix pores if the pores and pore throats are sufficiently large.
50 , patient-reported soreness of the mouth and throat (area-under-the-curve score, 29.0 [range, 0 to 98
51 ed cultures from nasal and extranasal sites (throat, axilla, inguinal, perirectal, and chronic wound
52 s affecting population dynamics of the black-throated blue warbler (Setophaga caerulescens), a double
53 ic-Neotropical migratory songbird, the black-throated blue warbler (Setophaga caerulescens).
54 n recruitment and population growth of black-throated blue warblers if food abundance is sustained in
55                          We found that black-throated blue warblers initiated breeding earlier in war
56 ics reduce the risk of complications of sore throat by at least 50%, but few trials for complications
57 , dissolution processes concentrated in pore throats can better explain the permeability enhancement
58 98 ICU patients were screened for rectal and throat carriage of K. pneumoniae shortly after admission
59                    Strains from asymptomatic throat carriers were significantly less virulent for mic
60 ere were no significant group differences in throat, chest, or overall discomfort during placement.
61 mucosal antibodies corresponded with reduced throat colonization after respiratory GAS challenge.
62 y, we developed a rodent model for S. aureus throat colonization and found that tea consumption reduc
63 found that tea consumption reduced S. aureus throat colonization via an isaA-dependent mechanism.
64 are many populations with reduced numbers of throat color morphs.
65 phic variation and evolutionary history of a throat color polymorphism that distinguishes the "rock-p
66                                              Throat coloration-the most striking plumage difference b
67 valent among otitis media strains than among throat commensal NTHI strains.
68 ented to our emergency room with fever, sore throat, cough and poor appetite for 2 weeks.
69 za-like illness (ILI; fever and >/=2 of sore throat, cough, muscle ache, or headache) and colds (no f
70 runny nose, nasal congestion, sneezing, sore throat, cough, swollen or tender neck glands).
71 ies: (1) empirical (treat all); (2) positive throat culture (culture all); (3) clinical decision rule
72 s, followed, in some clinical settings, by a throat culture for S. pyogenes to increase the sensitivi
73 screening 18.5% (95% CI, 7.4-33.2), and from throat cultures 17.5% (95% CI, 12.0-24).
74    Furthermore, studies of serum samples and throat cultures from Mexican children revealed an invers
75 ults were compared to the results of routine throat cultures on selective streptococcal blood agar pl
76 atients with negative RADTs and positive GAS throat cultures were assessed.
77              Of 196 sequential isolates from throat cultures, 15 (7.7%) were resistant to erythromyci
78  years, with negative RADTs and positive GAS throat cultures, was performed between 1 January 2000 an
79 in particular, those of the nose, mouth, and throat-deserves greater attention.
80  result in pore restriction and reduced pore throat diameter.
81 If patients aged 15 years or older with sore throat did not visit a clinician when the new score esti
82  sensitivity to swallowing cold items (71%), throat discomfort (63%), or muscle cramps (42%).
83  accompanied with nasal discharge, sneezing, throat discomfort, swelling of the uvula.
84         Patients with HED have ear, nose and throat disease, but this has not been investigated in mi
85  present with an exudative tonsillitis, sore throat, dysphagia, and unilateral neck pain.
86                               Ear, nose, and throat (ENT) lesions are frequently involved in Stevens-
87  is to obtain the opinions of ear, nose, and throat (ENT) specialists located within New York state i
88 s that histidine is readily available in the throat environment.
89 tem encompassing the digestive tract (mouth, throat, esophagus, stomach, small intestine, and colorec
90 at region with the number of extensions of a throat fan (dewlap) used during courtship.
91                                              Throat feather stable isotopes indicated that individual
92 ccal bacteria to colonize the human nose and throat for longer periods of time.
93 related to fatigue or soreness in the mouth, throat, hands, or feet, during the first 6 months of tre
94 mately 1 in 13 patients presenting with sore throat has mononucleosis).
95 rmore, the laser-induced graphene artificial throat has the advantage of one-step fabrication, high e
96 fections, including strep throat, other sore throat, head or chest cold, influenza/pneumonia, sinus i
97                                       In the throat, IgG was mostly bound to the bacterial surface vi
98 iae subsp. equisimilis colonization and sore throat in a study of 2,194 children of 3 to 15 years of
99 eness of oral corticosteroids for acute sore throat in the absence of antibiotics.
100  which induces the formation of cavities and throats in between of less than 29 nm, with a curvature
101  of change in total bacterial counts in pore throats in low permeability regions containing attractan
102 o ineligibility arising from a streptococcal throat infection and one in the lumacaftor and ivacaftor
103  found that individuals with a streptococcal throat infection had elevated risks of mental disorders,
104  OCD was more elevated after a streptococcal throat infection than after a nonstreptococcal infection
105                    However, nonstreptococcal throat infection was also associated with increased risk
106 e association is not streptococcal, but is a throat infection.
107 OCD and tic disorders, after a streptococcal throat infection.
108 al infections (64 [8%]), eye, ear, nose, and throat infections (55 [7%]), urinary tract infections (3
109 sis is usually associated with streptococcal throat infections and mainly occurs in HLA-Cw6(+) patien
110 for sleep-disordered breathing and recurrent throat infections is performed.
111 en with obstructive sleep apnea or recurrent throat infections were subjected to quantitative polymer
112 oriasis can be associated with streptococcal throat infections, and T cells that respond to peptide s
113  liver disease, disorders of the stomach and throat infections.
114 an be triggered or worsened by streptococcal throat infections.
115                   The most frequent AEs were throat irritation and oral pruritus.
116  reported adverse events were oral pruritus, throat irritation, and nasopharyngitis.
117  3% for the placebo group), mouth edema, and throat irritation.
118                All symptoms (nose, eyes, and throat irritations; cough; bronchitis; cold; wheezing; a
119 blood and spinal fluid, 17 nasopharyngeal or throat isolates from healthy children, and 19 isolates f
120 ns showed less diversity than populations in throat isolates of healthy children.
121 antly more prevalent (P = 0.0398) among NTHi throat isolates than NTHi middle ear isolates.
122              From five children, all ear and throat isolates were identical.
123 icantly more prevalent among middle ear than throat isolates, while hia did not segregate with a resp
124 bjects say 'ah' about 100 times with minimal throat, jaw and tongue movements (Talk condition).
125 rge increase in bacterial counts in the pore throats just outside the low permeability region was als
126 CARTE, of 12,829 adults presenting with sore throat (</= 2 weeks duration) in primary care.
127       Localized disease (ocular +/- ear-nose-throat/lung) was observed in 57%, and generalized diseas
128  March 2013, patients presenting with a sore throat meeting criteria for GAS testing and not meeting
129   Alterations in nasal microbiota but not of throat microbiota were associated with asthma.
130 0 years old and was isolated from sputum and throat more often than EMRSA-15.
131 w (n = 8), stool (n = 2), urine (n = 1), and throat (n = 1) samples; these isolates comprised serotyp
132 ngitidis is enriched for colonization in the throat, N. flavescens and N. subflava populate the tongu
133 ndividual VAS symptoms (rhinorrhea, mucus in throat, nasal blockage, and sense of smell), patient-rep
134 ychosocial disorders and rheumatic, ear-nose-throat, neurocognitive, and ophthalmologic complications
135 ains from different host environments (i.e., throat, normally sterile sites) have distinct patterns o
136 presentation to primary care with acute sore throat not requiring immediate antibiotic therapy.
137 y induces a strong stinging sensation in the throat, not unlike that caused by solutions of the non-s
138 egion (i.e., light areas) around the corolla throat of M. lewisii flowers by diverting dihydroflavono
139 ere was evidence of viral excretion from the throats of 2 of 6 animals in the prime-boost Imvamune gr
140 h NT H. influenzae strains isolated from the throats of healthy children, suggesting that they may pl
141 ren with otitis media than in those from the throats of healthy children.
142 PD)-associated bronchitis than in those from throats of healthy individuals (97% versus 78.1%, P < 0.
143 mophilus influenzae (NTHi) isolates from the throats of two healthy children were genotyped by multil
144 ented 51% of the isolates recovered from the throat on exit from training.
145 for three subcategories: skin stitches, nose/throat operations, and removal of growths/cysts/moles.
146 ted from individuals with streptococcal sore throat or invasive ("flesh-eating") infection often grow
147 ns exhibiting strong tropisms for either the throat or skin (specialists) or having no obvious tissue
148                 During the transition from a throat or skin infection to an invasive infection, GAS m
149 giving rise to superficial infections at the throat or skin of its human host.
150 notype marker for preferred infection of the throat or skin.
151 eference for causing infection at either the throat or the skin ("specialist" strains) is associated
152  lungs (OR = 4.73; 95% CI: 3.10, 7.22), sore throat (OR = 4.66; 95% CI: 2.89, 7.51), dizziness (OR =
153  three or more individuals affected by lung, throat, or laryngeal cancer, yielded a maximum heterogen
154  strongest associations for burning in nose, throat, or lungs (OR = 4.73; 95% CI: 3.10, 7.22), sore t
155 rongest association for burning in the nose, throat, or lungs [adjusted PR (aPR)=1.61 (95% CI: 1.42,
156 mptoms, such as those provoked by ear, nose, throat, or respiratory disorders.
157 f extracutaneous infections, including strep throat, other sore throat, head or chest cold, influenza
158 d here as self-reported fever and cough/sore throat, over several influenza seasons allows for estima
159 analysis revealed that the AUC for mouth and throat pain reduction was greater for doxepin (-9.1) tha
160  that patients experienced greater mouth and throat pain reduction with doxepin (intrapatient changes
161 ere was a significant reduction in mouth and throat pain.
162 nter flocks in a small passerine, the vinous-throated parrotbill Paradoxornis webbianus.
163       The most common infections involve the throat (pharyngitis) or skin (impetigo); however, the fa
164 Mendelian recessive inheritance of the black-throated phenotype characteristic of golden-winged warbl
165  articulate with the skull, hyper-expandable throat pleats, or ventral groove blubber, and a rigid y-
166                                   Acute sore throat poses a significant burden on primary care and is
167 re positively correlated with porosity, pore throat radius and withdrawal efficiency and negatively r
168 elve hydrophilic sedimentary rocks with pore-throat radius between 1.2 and 10 mum, which are quantita
169 and it increases with the decreasing of pore-throat radius.
170                    Specimens from the nares, throat, rectum, and groin of case subjects with a closed
171        When testing for GAS pharyngitis, the throat remains the optimum site for sampling.
172 e household had a runny nose, cough, or sore throat, respectively.
173 .8 degrees C, headache, myalgia, cough, sore throat, runny nose and sputum), paucisymptomatic (1 symp
174                           We tested nose and throat samples for influenza virus by reverse transcript
175 onal viral culture in 668 combined nasal and throat samples from a prospective, multicenter, populati
176                                     Nose and throat samples obtained during influenza-like illnesses
177 s, positive tuberculosis test results, strep throat, scarlet fever, pneumonia, bacterial meningitis,
178                          The pore size, pore throat size and coordination number obey normal distribu
179 ly related to capillary pressure and pore-to-throat size ratio; while interstitial material is negati
180 t on pore pressure in the reservoir and pore throat size, which is overestimated by low-pressure labo
181      Opioid analgesic use, average mouth and throat soreness scores, and chemoradiotherapy compliance
182 ating fatigue, hand/foot soreness, and mouth/throat soreness.
183    For two model songbird species, the white-throated sparrow (Zonotrichia albicollis) and zebra finc
184  in social behavior and plumage in the white-throated sparrow (Zonotrichia albicollis) is linked to a
185 nversion polymorphism (ZAL2(m)) in the white-throated sparrow (Zonotrichia albicollis) is linked to v
186                                 In the white-throated sparrow (Zonotrichia albicollis), a chromosomal
187 factory sensory systems in experienced white-throated sparrows (Zonotrichia albicollis) captured in s
188  responses to social signals in female white-throated sparrows listening to recordings of male song.
189               Our results suggest that white-throated sparrows may fall back to a simple constant-vec
190 re, we exposed estrogen-primed, female white-throated sparrows to conspecific male song and looked fo
191                  In female nonbreeding white-throated sparrows treated with E2, the density of fibers
192           We showed previously that in white-throated sparrows, immediate early gene responses in the
193                                     In white-throated sparrows, the selectivity of the zenk response
194 evolutionary history of a supergene in white-throated sparrows, Zonotrichia albicollis.
195 d with hearing problems to an Ear, Nose, and Throat specialist ( n = 110) or a hearing aid dispenser
196  discrete clusters, whereas strains with the throat specialist biomarker are highly diverse.
197 ontents, whereas the emm pattern A-C-defined throat specialist strains displayed a greater variety of
198 y seen by a stomatologist, an ear, nose, and throat specialist, and a urologist; women were systemati
199 --occupied a transition zone separating most throat specialists from skin specialists.
200                                              Throat specimens from four healthy adult carriers were s
201                                    Nasal and throat specimens obtained with swabs were tested for HMP
202 essment (EQA) panel comprising six simulated throat specimens were sent to 34 centers.
203 group A streptococcal antigen test to screen throat specimens, followed, in some clinical settings, b
204 was subtracted from that of NT H. influenzae throat strain 23221, and the resultant gene regions uniq
205  media NTHI strains (106/121; 87.7%) than in throat strains (74/137; 54%) (prevalence ratio, 1.62; P<
206 , 100%, 100%, and 97%, respectively) than in throat strains (80%, 92%, 93%, and 85%, respectively) of
207 e ear strains from children with AOM and 235 throat strains from healthy children.
208 ions among a large panel of otitis media and throat strains was determined by dot blot hybridization.
209 ns were more prevalent among middle ear than throat strains.
210 ngiva, hard palate; saliva, tongue, tonsils, throat; sub- and supra-gingival plaques; and stool.
211  sequencing of nucleic acids from a nose and throat swab sample enabled rapid recovery of the full-ge
212 monstrate the detection of influenza H1N1 in throat swab samples at loads as low as 10 TCID(50), 4 or
213 es were detected in 5/310 (1.6%) of nose and throat swab samples collected from children in a pediatr
214 ed through retrospective PCR analysis of 240 throat swab samples from X-ray-confirmed pneumonia cases
215                                    Nasal and throat swab samples were tested for HRV and other viruse
216 a RADT and standard culture in 361 pediatric throat swab samples.
217 vice to detect RNA-based virus directly from throat swab samples.
218 es, we evaluated whether nasopharyngeal (NP)/throat swab specimens can be pooled and tested for the p
219 nsport media for collection and transport of throat swab specimens for testing with the Gen-Probe Gro
220                                              Throat swab specimens proved to be adequate, noninvasive
221                    Seven hundred fifty-seven throat swab specimens were tested by both methods.
222                         Compared to standard throat swab specimens, the sensitivities of these tests
223 00 RNA copies of influenza A virus per ml in throat swab specimens.
224 ndent amplification (HDA) method using 1,082 throat swab specimens.
225 V, or Mycoplasma pneumoniae infections using throat swab virus cultures, real-time PCR, DNA sequencin
226                                       A nose/throat swab was tested for influenza virus by reverse tr
227      In our unique setting of a school-based throat swabbing program, the illumigene assay did not pe
228 4 [95%]), rectal swabs (35 of 37 [95%]), and throat swabs (33 of 39 [85%]) rather than in cerebrospin
229                              For this study, throat swabs (Copan ESwabs) were collected from schoolch
230 n of nine virus types by the use of nose and throat swabs (NTS) and sputum samples from patients admi
231 verse transcriptase PCR (RT-PCR) of nose and throat swabs (NTS) is useful for patient care by informi
232 t 128 nasopharyngeal aspirates (NPA) and 162 throat swabs (TS) tested with the Diagenode multiplex as
233 ted for approximately 1 year, with nasal and throat swabs analyzed by polymerase chain reaction.
234                                              Throat swabs and oral fluid samples were tested by quant
235  culture lysates, clinical nasal washes, and throat swabs and purified DNA from clinical samples.
236             At enrollment, combined nose and throat swabs and sputum samples were collected for RT-PC
237 y diagnostic tests are available, but PCR of throat swabs and vesicle fluid, if available, is among t
238 viewed medical records, and tested nasal and throat swabs for EV-D68 using real-time reverse- transcr
239 collected included questionnaires, nasal and throat swabs for viral culture and polymerase chain reac
240 reaction identified viral pathogens in nasal/throat swabs from 556 episodes of moderate-to-severe ILI
241  participating healthcare practitioners sent throat swabs from patients with influenza-like illness (
242 l-time RT-PCR of serum samples and nasal and throat swabs from the patient, confirmed dengue virus 1
243               These samples were obtained by throat swabs of adults without a psychiatric disorder or
244                                              Throat swabs of pediatric patients performed for GAS pha
245  assays with independent RNA extraction from throat swabs or reactivity on enzyme-linked immunosorben
246 le or no virus shedding was detected in nose-throat swabs or tracheal lavages following immunization
247 nalysis and real-time PCR analysis of GAS in throat swabs taken from humans with pharyngitis confirme
248       Polymerase chain reaction testing from throat swabs to detect 4 species of bacteria and signs a
249                                        Nasal/throat swabs were collected and tested for rhinovirus an
250                                Combined nose/throat swabs were collected from febrile children with I
251                                    Nasal and throat swabs were collected to determine colonization at
252                                Isolates from throat swabs were obtained and were emm typed.
253                                              Throat swabs were obtained from contacts in whom symptom
254 2006 through May 2012), only 13 (0.3%) nasal/throat swabs were positive for influenza C.
255                                        Nasal/throat swabs were tested for influenza, RSV, and HMPV wi
256                                    Nasal and throat swabs were tested for the influenza virus by vira
257                             Pooled nasal and throat swabs were tested using multiplex real-time PCR f
258 ervations, radiographs, viral load in blood, throat swabs, and selected tissues, vaccinia virus-speci
259                                              Throat swabs, lymphocytes, and serum and urine samples w
260 omparing it to culture using 437 consecutive throat swabs.
261 in the community had a median Ct of 21.5 for throat swabs.
262 mergency department with a 5-hour history of throat swelling and pain and difficulty breathing that w
263 s (TEAEs), local allergic swelling (mouth or throat), systemic allergic reactions, and asthma-related
264  are over 8 times more likely to be from the throat than either otitis media or COPD isolates.
265 e oral cavity to a second set of jaws in the throat, the pharyngeal jaws, which manipulate the prey a
266 cent and adult patients presenting with sore throat, the presence of posterior cervical, inguinal or
267 lated to study drug (shortness of breath and throat tightness after severe coughing bouts).
268 de of life, and subjective symptoms (nausea, throat tightness, and dizziness) were prevalent later in
269 DNA tumor virus infecting cervix, mouth, and throat tissues.
270 ften self-limiting infections of the skin or throat to invasive and life-threatening illnesses.
271 rs on infected individuals' hands, feet, and throats to infections with severe neurological complicat
272 umps when the meniscus passes from a narrow "throat" to a wide "body", with jump velocities as high a
273 f infections from simple pharyngitis ("strep throat") to invasive conditions, including necrotizing f
274 ity from uncomplicated pharyngitis (or strep throat) to life-threatening infections such as necrotizi
275 g infections ranging from pharyngitis (strep throat) to necrotizing fasciitis (flesh-eating disease).
276 lf-limiting pharyngitis (also known as strep throat) to severely invasive necrotizing fasciitis (also
277 xpressed in the skin, eyes, salivary glands, throat, tongue, esophagus, stomach, and intestine.
278           By day 4, vDNA was detected in the throat, tonsil, and spleen, and monkeypox antigen was de
279  characteristic of habitat groupings such as throat, tonsils, tongue dorsum, hard palate, and saliva.
280                             All offered sore throat treatment (average price, $78) and more than 95%
281                               A total of 270 throat, urine, and genital (TUG) specimens were streaked
282  strains having the genotypic biomarkers for throat versus skin infection specialists.
283 ntrol of gene expression may also differ for throat versus skin strains of S. pyogenes.
284  assist for the disabled, because the simple throat vibrations such as hum, cough and scream with dif
285 pheral blood, which correlated with both the throat viral load and the duration of viral shedding.
286  ASC responses significantly correlated with throat viral load, fever duration, and serological genog
287 n also be for self-powered anti-interference throat voice recording and recognition, as well as high-
288 Mycoplasma canis strain PG14(T) from a dog's throat was compared to those of isolates from the genita
289 ted to anthrax (including buccal ulcers-sore throat) was 7.46%.
290 dy aimed to characterize BKPyV isolated from throat wash (TW) samples from HIVSGD patients.
291 sequences were detected in ex vivo blood and throat wash samples from 13 of 14 patients with IM; most
292 infected in vitro with WT KSHV isolated from throat wash samples.
293 own to differ in abundance between blood and throat washes, nasopharyngeal carcinomas (NPCs) from are
294 iasis and history of exacerbation after sore throat were randomly assigned to tonsillectomy (n = 15)
295 stigation showed that fever, cough, and sore throat were the three most common respiratory symptoms o
296 raffics from the B cells in the blood to the throat, where it is subsequently shed, our findings indi
297 ntelligent laser-induced graphene artificial throat, which can not only generate sound but also detec
298 thway were still able to survive well in the throat, which suggests that histidine is readily availab
299 More importantly, the intelligent artificial throat will significantly assist for the disabled, becau
300 tra-aortic mycotic aneurysm following a sore throat without demonstrable bacteremia where identificat

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