コーパス検索結果 (1語後でソート)
通し番号をクリックするとPubMedの該当ページを表示します
1 using the keywords "foramen of Winslow" and "hernia".
2 n to GERD (eg, central obesity, large hiatal hernia).
3 ventral hernias (eg, umbilical or epigastric hernias).
4 nal wall reconstruction (AWR) for incisional hernia.
5 comes of nonoperative treatment of a ventral hernia.
6 c pain after TEP repair for primary inguinal hernia.
7 s previous or perform self-care due to their hernia.
8 have an increased risk to develop incisional hernia.
9 CT, and MRI for detection of occult inguinal hernia.
10 nd craniocaudal dimensions of the incisional hernia.
11 is accurate for the diagnosis of incisional hernia.
12 during elective repair of a primary ventral hernia.
13 ons such as seroma, infection, and recurrent hernia.
14 ane oxygenation and congenital diaphragmatic hernia.
15 h materials for the repair of abdominal wall hernia.
16 n the surgical treatment of primary inguinal hernia.
17 ith a body mass index <35 kg/m and no hiatal hernia.
18 posed in patients at high risk of incisional hernia.
19 y rare, accounting for 0.1% of all abdominal hernias.
20 who had primary, unilateral, reducible groin hernias.
21 elective surgical treatment of large hiatal hernias.
22 id decrease the number and size of chromatin hernias.
23 omparable results for repair of large hiatal hernias.
24 orce the repair of abdominal wall incisional hernias.
25 t predispose individuals to develop inguinal hernias.
26 This is more commonly seen with inguinal hernias.
27 ired annually, of which 2% to 4% are femoral hernias.
28 and NF-groups including subgroups of medial hernias.
31 %), 31 wound seromas (5.0%), and 4 recurrent hernias (0.6%) were recorded during a 1-year follow-up.
34 but not necessarily diagnostic for inguinal hernia; (2) imaging of the groin and/or pelvis with US,
35 .9% MIS), abdominal exploration (33.1% MIS), hernia (20.3% MIS), lung resection (22.3% MIS), partial
36 .5% vs 11.4% vs 10.1%, P = 0.001) and hiatal hernia (28.3% vs 14.8% vs 20.3%, P = 0.01) for obese pat
37 as similar in both groups [mesh plug: 21/268 hernias = 7.8%; Lichtenstein: 21/260 hernias = 8.1%; adj
38 21/268 hernias = 7.8%; Lichtenstein: 21/260 hernias = 8.1%; adjusted odds ratio (OR): 0.92; 95% conf
39 36.4%) living patients developed a recurrent hernia after a mean follow-up of 62.7 months (range: 36-
42 cepted definition for a radiographic ventral hernia and differentiating pseudorecurrence from recurre
43 h developmental delay, hypospadias, inguinal hernia and dysmorphic features while, the second patient
44 ing in neonates include hydrocoele, inguinal hernia and testicular torsion; less common is epididymo-
47 ut relevant complications, namely incisional hernias and neuralgia at the trocar sites, which can pot
48 n health systems, the prevalence of inguinal hernias and the cost-effectiveness of herniorrhaphy, thi
49 cholecystectomy, 0.6% and 0.5% after 60,681 hernia, and 0.8% and 0.8% after 42,489 breast-conserving
50 Patients undergoing thyroid, lung, inguinal hernia, and face and extremity surgeries with clean or c
51 t differences were seen for recurrent hiatus hernia, and the clinical differences were unlikely to be
61 er disease, cerebral aneurysms, and inguinal hernias but less than that for urinary tract infections.
63 ared with suture repairs for primary ventral hernias, but an increased risk of seroma and SSI was obs
64 DASH can be used to objectively characterize hernias by MSA, with accuracy demonstrated in the obese
65 thetic hiatal herniorrhaphy for large hiatal hernia cannot be endorsed routinely and the decision for
66 gnosed to have an incarcerated diaphragmatic hernia causing gastric pneumatosis and resultant portal
67 esophageal perforation (EP), paraesophageal hernia causing obstruction or gangrene (PEH) and perfora
68 ith severe isolated congenital diaphragmatic hernia (CDH) and changes in tracheal and amniotic fluid
75 among patients with congenital diaphragmatic hernia (CDH); however, data to support its ongoing use i
76 nt are the cause of congenital diaphragmatic hernias (CDHs), a common and often lethal birth defect.
78 sociated with a higher rate of an incisional hernia compared with all other modalities (P < 0.001).
79 not statistically significant, preoperative hernias containing most of the stomach were more likely
84 trated that dynamic abdominal sonography for hernia (DASH) is accurate for the diagnosis of incisiona
85 oral hernia repairs registered in the Danish Hernia Database from January 1998 until February 2012 we
87 or clean-contaminated operative field and a hernia defect at least 9 cm had a biosynthetic mesh (ope
89 ndings provide insight into the aetiology of hernia development and highlight genetic pathways for st
91 ively prevents the development of incisional hernia during 2 years, with an additional mean operative
93 he risk of the need for repair for recurrent hernia following these initial hernia operations was low
96 (IQR 0-17), and 4.7 per 1000 operations for hernia groin (IQR 0-13); all recorded deaths occurred du
100 ipants were assessed for injuries or wounds, hernias, hydroceles, breast mass, neck mass, obstetric f
102 index surgical conditions (injuries/wounds, hernias/hydroceles, breast masses, neck masses, obstetri
103 ed tomography (CT) for diagnosis of internal hernia (IH) in patients who have undergone laparoscopic
106 report on the presence/absence of a ventral hernia in 73 cases (kappa = 0.44; 95% CI, 0.35-0.54; P <
107 (both lightweight) for the repair of a groin hernia in adult men in eastern Uganda who had primary, u
108 adequate knowledge of the incidence of groin hernia in the general population makes this information
111 on analysis of surgically confirmed inguinal hernias in 72,805 subjects (5,295 cases and 67,510 contr
117 renatally diagnosed congenital diaphragmatic hernia infants (n = 171) born between November 2008 and
119 ischemia, small bowel obstruction, internal hernias, intussusception, and recurrent weight gain.
120 most effective method for repair of a groin hernia involves the use of a synthetic mesh, but this ty
127 megaly, pancreatic pseudocyst and epigastric hernia, less common causes being carcinoma of the stomac
129 United States centers, patients with hiatal hernia </= 2 cm and abnormal esophageal acid exposure (E
130 l pH study (body mass index <35 kg/m, hiatal hernia <3 cm, and absence of endoscopic Barrett disease)
132 e lower than expected prevalence of inguinal hernias, more than 300 000 people in Nepal are currently
134 n, bowel resection, congenital diaphragmatic hernia, oesophageal atresia, and ruptured omphalocele or
135 ions undergoing repair of large or recurrent hernia of the abdominal wall are at risk for early posto
136 e presence or absence of a recurrent ventral hernia on CT scans was compared among 9 blinded reviewer
137 for recurrent hernia following these initial hernia operations was lower for patients with open mesh
138 s (breast mass, cleft lip/palate, club foot, hernia or hydrocele [adult and paediatric]), hydrocephal
140 h groups which included recurrence of hiatal hernia or wrap migration (OR 2.01, 95% CI 0.92, 4.39, P
142 unds accounted for 55% of the prevalence and hernias or hydroceles accounted for 40%, followed by nec
146 tients presenting with acute para-esophageal hernia (PEH); and (ii) to determine if a hospital volume
147 the reduction in the incidence of parastomal hernia (PH) after placement of prophylactic synthetic me
148 previous clinical diagnosis of left inguinal hernia presented to the nephrologist with recent onset o
149 describe a case of tibialis anterior muscle hernia presenting with persistent dull pain and swelling
150 s to investigate the incidence of parastomal hernias (PSHs) after end-colostomy formation using a pol
163 included overall Kaplan-Meier estimates for hernia recurrence and postoperative wound infection rate
166 he benefits of mesh for reducing the risk of hernia recurrence or the long-term risks of mesh-related
176 io 3.08, length of stay odds ratio 1.11; and hernia recurrence: porcine cadaveric mesh odds ratio 5.1
177 s searched included surgical mesh, abdominal hernia, recurrence, infection, fistula, bioprosthesis, b
181 nonabsorbable mesh in repair of large hiatus hernias reduces the risk of recurrence, compared with su
182 old, consecutively registered in the Swedish Hernia Register for a TEP primary repair in 2005 to 2009
184 ion-related bleeding (18% vs 0%; P = .01) or hernia-related complications (18% vs 0%; P = .01) than i
187 tectomy (48.5%), appendectomy (16.2%), groin hernia repair (10.0%), abdominal exploration (nontrauma)
189 er colectomy or proctectomy (25.8%), ventral hernia repair (26.5%), hysterectomy (28.8%), arthroplast
191 cholecystectomy (LC), laparoscopic inguinal hernia repair (LIH), and open inguinal hernia repair (IH
193 34.3), mastectomy (PFS, 16.5-35.0), inguinal hernia repair (PFS, 15.5-22.1), and abdominal wall herni
198 %-6.9%) for patients who underwent open mesh hernia repair and 3.7% (95% CI, 2.8%-4.6%) for patients
200 in this study who underwent complex ventral hernia repair and may serve as a suitable target for scr
201 hese increasing rates of emergent incisional hernia repair are troublesome owing to the significantly
202 excluded were those who underwent umbilical hernia repair as a part of another major planned procedu
203 SSIs increased for both cholecystectomy and hernia repair as the quantile of total costs increased (
204 me (PHS) places patients undergoing elective hernia repair at increased risk for adverse postoperativ
206 .0 [33.0] procedures per year), and inguinal hernia repair for children younger than 6 months of age
207 One hundred patients who underwent ventral hernia repair from 2010-2011 at an academic health care
208 terior cruciate ligament reconstruction, and hernia repair from December 31, 2004 to December 31, 201
210 plications following elective abdominal wall hernia repair in a population with complete follow-up.
215 ient admission within 90 days of an elective hernia repair performed in an ambulatory surgery center.
218 portant for the increased incidence of groin hernia repair seen after radical prostatectomy or radiat
219 cohort of 92,444 subjects with self-reported hernia repair surgeries (9,701 cases and 82,743 controls
220 ad a significantly higher incidence of groin hernia repair than the control cohort: HR: 3.95 (95% con
222 trospective analysis of adults with emergent hernia repair using National Center for Health Statistic
224 ary veteran patients who underwent umbilical hernia repair was studied between January 1, 1998, and D
228 differ significantly between men undergoing hernia repair with low-cost mesh and those undergoing he
230 hether an inguinal neurectomy at the time of hernia repair would reduce the risk of postoperative pai
231 access and 577,680 for non-critical access; hernia repair, 4291 for critical access and 300,410 for
232 ection, laparoscopic gastric bypass, ventral hernia repair, abdominal aortic aneurysm repair, and low
233 omy, total hip or knee arthroplasty, ventral hernia repair, and lower extremity vascular bypass.
234 femoral hernia repair, appendectomy, ventral hernia repair, and partial colectomy), the proportion of
235 training (cholecystectomy, inguinal/femoral hernia repair, appendectomy, ventral hernia repair, and
236 pertension, cataract surgeries, and inguinal hernia repair, but the patient is otherwise healthy.
237 surgical procedures (ie, ventral incisional hernia repair, colectomy, reflux surgery, bariatric surg
238 my, pancreatectomy, cholecystectomy, ventral hernia repair, craniotomy, hip replacement, or knee repl
239 y), or hiatal hernia surgery (paraesophageal hernia repair, Nissen fundoplication), were included.
240 geons completed initial training programs in hernia repair, underwent interval proficiency assessment
242 pendectomy, and groin (inguinal and femoral) hernia repair--to quantify the potential risks of expand
252 mmonly in the analyzed hospitalizations were hernia repairs (15.7%), bariatric (10.5%), mastectomy (9
254 hort study including all elective incisional hernia repairs in Denmark from January 1, 2007, to Decem
255 years and older, with 71.3 and 42.0 emergent hernia repairs per 100,000 person-years for men and wome
256 nias was observed from 16.0 to 19.2 emergent hernia repairs per 100,000 person-years in 2001 and 2010
259 An estimated 2.3 million inpatient abdominal hernia repairs were performed from 2001 to 2010; of whic
265 bdominal wall, increased vigilance for groin hernia seems to be important for the increased incidence
266 ference was found in infections, concomitant hernias, SF-36 questionnaire, Von Korff pain score, and
267 Patients with clinical suspicion of inguinal hernia should undergo MRI as the definitive radiologic e
269 tion, which were measured using a validated, hernia-specific survey (modified Activities Assessment S
271 patient data in the Congenital Diaphragmatic Hernia Study Group registry between January 1, 2007, and
274 surgery (colectomy, proctectomy), or hiatal hernia surgery (paraesophageal hernia repair, Nissen fun
275 posure to general anesthesia during inguinal hernia surgery in the exposed sibling and no anesthesia
277 long-term postoperative pain after inguinal hernia surgery using 2 techniques that have shown favora
288 neral increase in the rate of total emergent hernias was observed from 16.0 to 19.2 emergent hernia r
290 rnioplasty for a primary unilateral inguinal hernia were randomized to a self-gripping polyester mesh
291 thetic hiatal herniorrhaphy for large hiatal hernia were selected by searching PubMed, Medline, Embas
292 patients with primary or recurrent inguinal hernias were randomized to undergo either Lichtenstein's
296 ith a primary, reducible unilateral inguinal hernia who underwent day-case TEP repair were eligible.
297 , $91195-$139936]), congenital diaphragmatic hernia (WIQR, $43948; median, $154730 [IQR, $129764-$173
298 oxygenation and/or congenital diaphragmatic hernia with an intelligence quotient greater than or equ
299 umatosis secondary to an incarcerated hiatal hernia with resultant portal venous gas involving only t
300 after a repair of a congenital diaphragmatic hernia, with ultrasound signs of acute bowel wall necros
WebLSDに未収録の専門用語(用法)は "新規対訳" から投稿できます。