| P2093 | author name string | Yang Li | |
| | Fan Yang | |
| | Tao Liu | |
| | Ping Hu | |
| | Lei Peng | |
| | Jun Ouyang | |
| | Pei-Yuan Li | |
| | Ping Jin | |
| | Zhan-Fei Li | |
| | Pei-Yang Hu | |
| | Lian-Yang Zhang | |
| | Chang-Lin Yin | |
| | Yan-Feng Wang | |
| | Xiang-Jun Bai | |
| | Xi-Guang Sang | |
| | Hai-Ming Chen | |
| | Biao Shao | |
| | Chang-Ju Zhu | |
| | Ge-Fei Wang | |
| | Hong-Xu Jin | |
| | Jing-Shan Huo | |
| | Qi-Feng Shao | |
| | Qi-Yong Zhang | |
| | Rui-Wu Dai | |
| | Shi-Jing Sun | |
| | Wu-Bing He | |
| | Yan-An Zhu | |
| | Yong-Gao Wang | |
| | Yuan-Zhang Yao | |
| P2860 | cites work | Intra-abdominal adhesions: definition, origin, significance in surgical practice, and treatment options | Q24634425 |
| | Efficacy and safety of negative pressure wound therapy for Szilagyi grade III peripheral vascular graft infection | Q26853460 |
| | Systematic review and evidence based recommendations for the use of negative pressure wound therapy in the open abdomen | Q26866898 |
| | Intra-abdominal hypertension and the abdominal compartment syndrome: updated consensus definitions and clinical practice guidelines from the World Society of the Abdominal Compartment Syndrome | Q27027850 |
| | Vacuum-assisted closure: a new method for wound control and treatment: animal studies and basic foundation | Q28241219 |
| | Prospective evaluation of vacuum-assisted fascial closure after open abdomen: planned ventral hernia rate is substantially reduced | Q28768581 |
| | Complications and Mortality Associated with Temporary Abdominal Closure Techniques: A Systematic Review and Meta-Analysis | Q30235342 |
| | Quantifying bacterial bioburden during negative pressure wound therapy: does the wound VAC enhance bacterial clearance? | Q30433589 |
| | Closure under reduced atmospheric pressure of extensive wounds | Q33427774 |
| | Vacuum-assisted closure: a new method for wound control and treatment: clinical experience. | Q33486842 |
| | Wound edge microvascular blood flow during negative-pressure wound therapy: examining the effects of pressures from -10 to -175 mmHg. | Q33528426 |
| | Intra-abdominal vacuum-assisted closure (VAC) after necrosectomy for acute necrotising pancreatitis: preliminary experience | Q33667414 |
| | Applying negative pressure wound therapy in associating liver partition and portal vein ligation for staged hepatectomy: A case report | Q33846517 |
| | Phase II Randomized Trial of Negative-Pressure Wound Therapy to Decrease Surgical Site Infection in Patients Undergoing Laparotomy for Gastrointestinal, Pancreatic, and Peritoneal Surface Malignancies | Q33876821 |
| | Macroscopic changes during negative pressure wound therapy of the open abdomen using conventional negative pressure wound therapy and NPWT with a protective disc over the intestines | Q33884907 |
| | Closed-Incision Negative-Pressure Therapy in Obese Patients Undergoing Cesarean Delivery: A Randomized Controlled Trial | Q33905423 |
| | The cholinergic nervous system plays an important role in rat postoperative intestinal adhesion | Q46777314 |
| | Vacuum-assisted closure in the treatment of gynecologic oncology wound failures. | Q47216272 |
| | Temporary abdominal closure techniques: a prospective randomized trial comparing polyglactin 910 mesh and vacuum-assisted closure | Q47403689 |
| | Negative pressure wound therapy (NPWT) in duodenal breakdown fistulas: negative pressure fistula therapy (NPFT)? | Q47855956 |
| | Preventive NPWT over closed incisions in general surgery: does age matter? | Q48067059 |
| | Managing the open abdomen: negative pressure closure versus mesh-mediated fascial traction closure: a randomized trial | Q48249504 |
| | Acute necrotizing pancreatitis: intra-abdominal vacuum sealing after necrosectomy. | Q48485515 |
| | The use of v.a.C.-system in wound management for borderline indications | Q49218906 |
| | Treatment of high-output enterocutaneous fistulas with a vacuum-compaction device. A ten-year experience. | Q50903015 |
| | Absorbable mesh and topical negative pressure therapy for closure of abdominal dehiscence with exposed bowel. | Q50989680 |
| | Negative-pressure wound therapy in the treatment of complex postoperative spinal wound infections: complications and lessons learned using vacuum-assisted closure. | Q50990317 |
| | The sandwich design: a new method to close a high-output enterocutaneous fistula and an associated abdominal wall defect. | Q51019795 |
| | Management of enterocutaneous fistulas using negative-pressure dressings. | Q51101294 |
| | Use of a vacuum-assisted closure system for the management of enteroatmospheric fistulae. | Q51117619 |
| | Use of controlled fascial tension and an adhesion preventing barrier to achieve delayed primary fascial closure in patients managed with an open abdomen. | Q51157558 |
| | The "Fistula VAC," a technique for management of enterocutaneous fistulae arising within the open abdomen: report of 5 cases. | Q51257092 |
| | Management of abdominal wound dehiscence using vacuum assisted closure in patients with compromised healing. | Q51280389 |
| | Damage control surgery with abdominal vacuum and delayed bowel reconstruction in patients with perforated diverticulitis Hinchey III/IV. | Q51322022 |
| | Can topical negative pressure be used to control complex enterocutaneous fistulae? | Q51802031 |
| | Treatment of the open abdomen with the commercially available vacuum-assisted closure system in patients with abdominal sepsis: low primary closure rate. | Q51877971 |
| | The use of vacuum-assisted closure of abdominal wounds: a word of caution. | Q52854418 |
| | New advances in negative pressure wound therapy (NPWT) for surgical wounds of patients affected with Crohn's disease. | Q53582469 |
| | Primary Placement of Incisional Negative Pressure Wound Therapy at Time of Laparotomy for Gynecologic Malignancies. | Q53584701 |
| | Vacuum-assisted closure for cutaneous gastrointestinal fistula management. | Q53895368 |
| | Tissue markers as predictors of postoperative adhesions. | Q53942305 |
| | [Treatment of infection by vacuum sealing] | Q53971014 |
| | Effects of a New Pocket Device for Negative Pressure Wound Therapy on Surgical Wounds of Patients Affected With Crohn’s Disease | Q57832682 |
| | The use of a rigid disc to protect exposed structures in wounds treated with negative pressure wound therapy: Effects on wound bed pressure and microvascular blood flow | Q62129039 |
| | The influence on wound contraction and fluid evacuation of a rigid disc inserted to protect exposed organs during negative pressure wound therapy | Q62129041 |
| | Fibrinolysis in human peritoneum during operation | Q71125314 |
| | Hypoxia induces capillary network formation in cultured bovine pulmonary microvessel endothelial cells | Q71694953 |
| | Polypropylene mesh closure of the complicated abdominal wound | Q72340621 |
| | Medicolegal consequences of postoperative intra-abdominal adhesions | Q74065190 |
| | THE ROLE OF CLOSED WOUND NEGATIVE PRESSURE SUCTION IN RADICAL SURGICAL PROCEDURES OF THE HEAD AND NECK | Q76719054 |
| | Expression of connective tissue growth factor in intra-abdominal adhesions | Q78515850 |
| | Vacuum-assisted closure of enterocutaneous fistula | Q80699130 |
| | Incidence and clinical effects of intra-abdominal hypertension in critically ill patients | Q81388013 |
| | A novel approach to severe acute pancreatitis in sequential liver-kidney transplantation: the first report on the application of VAC therapy | Q82724810 |
| | Discussion. Update on negative-pressure wound therapy | Q83106047 |
| | [Temporary abdominal closure and early and late pathophysiological consequences of treating an open abdomen] | Q83509751 |
| | Multicentre prospective study of fascial closure rate after open abdomen with vacuum and mesh-mediated fascial traction | Q83775289 |
| | Use of topical negative pressure in assisted abdominal closure does not lead to high incidence of enteric fistulae | Q83821915 |
| | Open abdomen treatment with dynamic sutures and topical negative pressure resulting in a high primary fascia closure rate | Q83831786 |
| | [Negative pressure therapy in wounds with enteric fistulas] | Q83968192 |
| | Negative pressure wound therapy for at-risk surgical closures in patients with multiple comorbidities: a prospective randomized controlled study | Q84051735 |
| | Using low pressure, NPWT for wound preparation & the management of split-thickness skin grafts in 3 patients with complex wound | Q84142273 |
| | Perirectal abscess following procedure for prolapsed haemorrhoids successfully managed with a combination of VAC sponge and Redivac systems | Q84218986 |
| | Vacuum and mesh-mediated fascial traction for primary closure of open abdomen in critically ill surgical patients (Br J Surg 2012; 99: 1725-1732) | Q85376433 |
| | Vacuum Assisted Closure (VAC) therapyTM as a swiss knife multi-tool for enteric fistula closure: tips and tricks: a pilot study | Q85651807 |
| | Prevention of surgical site infections in high-risk patients with laparotomy incisions using negative-pressure therapy | Q86044428 |
| | Management of the open abdomen: a national study of clinical outcome and safety of negative pressure wound therapy | Q86346547 |
| | Effect of necrosectomy and vacuum-assisted closure (VAC) on mitochondrial function and oxidative stress markers in severe acute pancreatitis | Q86415640 |
| | Negative pressure therapy for high-risk abdominal wall reconstruction incisions | Q86604046 |
| | Outcome of negative-pressure wound therapy for open abdomen treatment after nontraumatic lower gastrointestinal surgery: analysis of factors affecting delayed fascial closure in 101 patients | Q86948564 |
| | [Negative Pressure Wound Therapy (NPWT) in small animal medicine. Mechanisms of action, applications and indications] | Q87198134 |
| | The open abdomen: temporary closure with a modified negative pressure therapy technique | Q87927266 |
| | Management of enteroatmospheric fistula with negative pressure wound therapy in open abdomen treatment: a multicentre observational study | Q89032415 |
| | Techniques and cost effectiveness of enteroatmospheric fistula isolation | Q95357284 |
| | Abdominal compartment syndrome and acute pancreatitis | Q95395026 |
| | Promising results after vacuum-assisted wound closure and mesh-mediated fascial traction | Q95406626 |
| | [Vacuum sealing drainage promotes experimental pig explosive abdomen wound healing] | Q95563358 |
| | Negative Pressure Wound Therapy versus modified Barker Vacuum Pack as temporary abdominal closure technique for Open Abdomen management: a four-year experience. | Q33922781 |
| | Laparostomy management using the ABThera™ open abdomen negative pressure therapy system in a grade IV open abdomen secondary to acute pancreatitis. | Q34266855 |
| | The safe use of negative-pressure wound therapy | Q34281002 |
| | Complications after 344 damage-control open celiotomies | Q34481994 |
| | Tremendous bleeding complication after vacuum-assisted sternal closure. | Q34600674 |
| | Vacuum assisted closure system in the management of enterocutaneous fistulae | Q35514448 |
| | Active Negative Pressure Peritoneal Therapy After Abbreviated Laparotomy: The Intraperitoneal Vacuum Randomized Controlled Trial. | Q35718469 |
| | Pressure transduction and fluid evacuation during conventional negative pressure wound therapy of the open abdomen and NPWT using a protective disc over the intestines | Q35920394 |
| | Formation and prevention of postoperative abdominal adhesions. | Q36386572 |
| | Negative pressure wound therapy management of the "open abdomen" following trauma: a prospective study and systematic review | Q36630767 |
| | Efficacy and safety of active negative pressure peritoneal therapy for reducing the systemic inflammatory response after damage control laparotomy (the Intra-peritoneal Vacuum Trial): study protocol for a randomized controlled trial | Q36871151 |
| | Postoperative intraperitoneal adhesion pathophysiology | Q36933803 |
| | Small bowel fistulas and the open abdomen | Q37081373 |
| | Prospective study examining clinical outcomes associated with a negative pressure wound therapy system and Barker's vacuum packing technique | Q37093976 |
| | Negative pressure wound therapy for the treatment of the open abdomen and incidence of enteral fistulas: a retrospective bicentre analysis | Q37316404 |
| | Reconstruction of massive full-thickness abdominal wall defect: successful treatment with nonabsorbable mesh, negative pressure wound therapy, and split-skin grafting | Q37319359 |
| | Comparative prospective study of proximal femoral nail and dynamic hip screw in treatment of intertrochanteric fracture femur | Q37421959 |
| | Management of the open abdomen using negative pressure wound therapy with instillation in severe abdominal sepsis: A review of 48 cases in Hospital Mexico, Costa Rica. | Q37455201 |
| | Vacuum-assisted closure therapy for patients with infected sternal wounds: a meta-analysis of current evidence | Q37831631 |
| | A review of topical negative pressure therapy in wound healing: sufficient evidence? | Q37855224 |
| | Intra-abdominal adhesion formation: does surgical approach matter? Questionnaire survey of South Asian surgeons and literature review | Q37877778 |
| | Surgical strategies for management of the open abdomen | Q37918916 |
| | Intra-abdominal adhesions: cellular mechanisms and strategies for prevention | Q37941413 |
| | Incisional negative-pressure wound therapy versus conventional dressings following abdominal wall reconstruction: a comparative study | Q38032427 |
| | Abdominal negative-pressure therapy: a new method in countering abdominal compartment and peritonitis - prospective study and critical review of literature | Q38071104 |
| | Incisional negative pressure wound therapy significantly reduces surgical site infection in open colorectal surgery. | Q38160682 |
| | Novel treatment options for perforations of the upper gastrointestinal tract: endoscopic vacuum therapy and over-the-scope clips | Q38224445 |
| | Current concepts in negative pressure wound therapy | Q38368183 |
| | Intra-abdominal adhesions: Anatomy, physiology, pathophysiology, and treatment | Q38563688 |
| | Matching biological mesh and negative pressure wound therapy in reconstructing an open abdomen defect | Q38631960 |
| | Management of the Open Abdomen after Liver Transplantation. | Q38674472 |
| | The Use Of Negative Pressure Wound Therapy (NPWT) In The Management Of Enteroatmospheric Fistula--Case Report And Literature Review | Q38712240 |
| | A systematic literature review on the use of vacuum assisted closure for enterocutaneous fistula. | Q38810812 |
| | Negative pressure therapy is effective in abdominal incision closure | Q38882176 |
| | Closed-incision negative-pressure therapy in high-risk general surgery patients following laparotomy: a retrospective study | Q38896810 |
| | Open Abdomen Treated with Negative Pressure Wound Therapy: Indications, Management and Survival | Q38931787 |
| | International consensus conference on open abdomen in trauma | Q38934683 |
| | The use of endoluminal vacuum (E-Vac) therapy in the management of upper gastrointestinal leaks and perforations | Q38958141 |
| | Open abdomen in gastrointestinal surgery: Which technique is the best for temporary closure during damage control? | Q38959409 |
| | New WHO recommendations on intraoperative and postoperative measures for surgical site infection prevention: an evidence-based global perspective. | Q38999790 |
| | Prophylactic Negative Pressure Dressing Use in Closed Laparotomy Wounds Following Abdominal Operations: A Randomized, Controlled, Open-label Trial: The P.I.C.O. Trial | Q39123935 |
| | Prognostic Factors for Enteroatmospheric Fistula in Open Abdomen Treated with Negative Pressure Wound Therapy: a Multicentre Experience. | Q39325666 |
| | Reducing Surgical Site Infection with Negative-Pressure Wound Therapy After Open Abdominal Surgery: A Prospective Randomized Controlled Study | Q39408770 |
| | Postoperative Abdominal Adhesions: Clinical Significance and Advances in Prevention and Management | Q39420015 |
| | Closed incision negative pressure therapy: international multidisciplinary consensus recommendations. | Q39773526 |
| | A low-temperature thermoplastic anti-bacterial medical orthotic material made of shape memory polyurethane ionomer: influence of ionic group | Q39893325 |
| | The use of negative pressure wound therapy to prevent post-operative surgical site infections following pancreaticoduodenectomy | Q40177403 |
| | Surgical Site Infection Rate Drops to 0% Using a Vacuum-Assisted Closure in Contaminated/Dirty Infected Laparotomy Wounds | Q40186670 |
| | Closed incision prophylactic negative pressure wound therapy in patients undergoing major complex abdominal wall repair | Q40202426 |
| | Prophylactic vacuum sealing drainage (VSD) in the prevention of postoperative surgical site infections in pediatric patients with contaminated laparotomy incisions | Q40273776 |
| | Randomized Controlled Trial of Prophylactic Negative-Pressure Wound Therapy at Ostomy Closure for the Prevention of Delayed Wound Healing and Surgical Site Infection in Patients with Ulcerative Colitis | Q40650942 |
| | High risk of fistula formation in vacuum-assisted closure therapy in patients with open abdomen due to secondary peritonitis-a retrospective analysis | Q40685713 |
| | Vacuum-Assisted Closure Therapy in Patients Undergoing Liver Transplantation With Necessity to Maintain Open Abdomen. | Q40700991 |
| | The Economic Impact of Closed-Incision Negative-Pressure Therapy in High-Risk Abdominal Incisions: A Cost-Utility Analysis | Q40739314 |
| | Molecular basis for tissue expansion: clinical implications for the surgeon | Q40852205 |
| | Negative Pressure Wound Treatment of Infections Caused By Extensively Drug-Resistant Gram-Negative Bacteria After Liver Transplantation: Two Case Reports | Q41004904 |
| | Open abdomen and VAC® in severe diffuse peritonitis | Q41355110 |
| | The clinical significance of adhesions: focus on intestinal obstruction | Q41390420 |
| | Prevena™, negative pressure wound therapy applied to closed Pfannenstiel incisions at time of caesarean section in patients deemed at high risk for wound infection | Q41669498 |
| | A case of continuous negative pressure wound therapy for abdominal infected lymphocele after kidney transplantation | Q41674869 |
| | Positive outcomes with negative pressure therapy over primarily closed large abdominal wall reconstruction reduces surgical site infection rates | Q41691934 |
| | Novel wound management system reduction of surgical site morbidity after ventral hernia repairs: a critical analysis | Q41751505 |
| | Application of a Silicone Sheet in Negative-Pressure Wound Therapy to Treat an Abdominal Wall Defect after Necrotizing Fasciitis | Q41874103 |
| | The abdominal compartment syndrome is a morbid complication of postinjury damage control surgery | Q42042561 |
| | Vacuum-assisted closure therapy in patients with large postoperative wounds complicated by multiple fistulas | Q42102195 |
| | Vacuum-assisted wound closure achieves early fascial closure of open abdomens after severe trauma | Q42615578 |
| | Vacuum pack technique of temporary abdominal closure: a 7-year experience with 112 patients | Q42620210 |
| | Management of the open abdomen during the global war on terror | Q42668566 |
| | Long-Term Vacuum-Assisted Closure in Open Abdomen due to Secondary Peritonitis: A Retrospective Evaluation of a Selected Group of Patients | Q42669803 |
| | Pathophysiology and prevention of postoperative peritoneal adhesions | Q42926925 |
| | Successful bridging treatment and healing of enteric fistulae by vacuum-assisted closure (VAC) therapy and targeted drainage in patients with open abdomen | Q43461644 |
| | Prospective evaluation of vacuum-assisted closure in abdominal compartment syndrome and severe abdominal sepsis | Q43577554 |
| | Vacuum sealing as treatment of soft tissue damage in open fractures | Q44167430 |
| | Abdominal vacuum therapy for the open abdomen - a retrospective analysis of 82 consecutive patients | Q44531257 |
| | Vacuum-assisted laparostomy in complex treatment of patient with peritonitis and internal biliary fistula | Q44587233 |
| | Is the evolving management of intra-abdominal hypertension and abdominal compartment syndrome improving survival? | Q44741327 |
| | Surgical management of intra-abdominal hypertension and abdominal compartment syndrome. | Q44969463 |
| | Nonoperative management of fingertip pulp amputation by occlusive dressings | Q45102536 |
| | Application of manuka honey and GENADYNE A4 negative pressure wound therapy system in a 55-year-old woman with extensive phlegmonous and necrotic lesions in the abdominal integuments and lumbar region after traumatic rupture of the colon | Q45123195 |
| | Incisional negative pressure wound therapy decreases the frequency of postoperative perineal surgical site infections: a cohort study | Q46151043 |
| | The effect of vacuum-assisted closure in bacterial clearance of the infected abdomen | Q46433902 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | guideline | Q1630279 |
| P304 | page(s) | 1-11 | |
| P577 | publication date | 2019-02-01 | |
| P1433 | published in | Chinese Journal of Traumatology | Q27020358 |
| P1476 | title | Chinese Trauma Surgeon Association for management guidelines of vacuum sealing drainage application in abdominal surgeries-Update and systematic review | |
| P478 | volume | 22 | |