Laparoscopic flip-flap hernioplasty: an innovative technique for pediatric hernia surgery

2004 ◽  
Vol 18 (7) ◽  
Author(s):  
K.F. Yip ◽  
P.K.H. Tam ◽  
M.K.W. Li
2018 ◽  
Vol 69 (6) ◽  
pp. 1519-1523
Author(s):  
Vlad Dumitru Baleanu ◽  
Danut Vasile ◽  
Alexandru Marian Goganau ◽  
Paul Ioan Tomescu ◽  
Dragos Davitoiu ◽  
...  

Hernia can be defined as an organ disorder which protrudes the wall that contains it. Synthetic material for the repair of the abdominal wall are used frequently with good results and less complications. Our research included a number of 135 patients diagnosed with inguinal hernia hospitalized and operated in Clinical County Hospital of Craiova, between 1st January 2017-31 October 2017. The purpose of our work was to identify and analyze comorbidities and complications for inguinal hernia repaired with synthetic prosthetic material. hernia repair was performed in 135 patients, 16 were women and 119 were men. Tension free meshplasty was accomplished in 131 patients with uncomplicated inguinal hernia and herniorrhaphy was successfully performed at 4 patients with complicated inguinal hernia. From our study 107 patients had a remarkable recovery without any complication. Patients who underwent tension-free hernia surgery using prosthetic mesh,short-term complications were represented by 19 patients with urinary retention, 6 surgical local infection (superficial infections) and 2 scrotal edema. Nowadays surgeons try to find the best elective repair of inguinal hernia,to be safety for the patients despite of their age and with few complications and low mortality rate. Risks assessment include general conditions and associated comorbidities of the patients. In our study we reveal the type of comorbidities which we meet. We considered that it is significant to optimize cardiopulmonary status and the other comorbidities of the patient before to repair abdominal wall hernia in order to avoid both short and long term complication.


2021 ◽  
Vol 178 (3) ◽  
pp. 229-266
Author(s):  
Ivan Lanese ◽  
Adrián Palacios ◽  
Germán Vidal

Causal-consistent reversible debugging is an innovative technique for debugging concurrent systems. It allows one to go back in the execution focusing on the actions that most likely caused a visible misbehavior. When such an action is selected, the debugger undoes it, including all and only its consequences. This operation is called a causal-consistent rollback. In this way, the user can avoid being distracted by the actions of other, unrelated processes. In this work, we introduce its dual notion: causal-consistent replay. We allow the user to record an execution of a running program and, in contrast to traditional replay debuggers, to reproduce a visible misbehavior inside the debugger including all and only its causes. Furthermore, we present a unified framework that combines both causal-consistent replay and causal-consistent rollback. Although most of the ideas that we present are rather general, we focus on a popular functional and concurrent programming language based on message passing: Erlang.


Noise Mapping ◽  
2021 ◽  
Vol 8 (1) ◽  
pp. 129-137
Author(s):  
Giorgio Baldinelli ◽  
Francesco Bianchi ◽  
Danilo Costarelli ◽  
Francesco D’Alessandro ◽  
Flavio Scrucca ◽  
...  

Abstract An innovative technique based on beamforming is implemented, at the aim of detecting the distances from the observer and the relative positions among the noise sources themselves in multisource noise scenarios. By means of preliminary activities to assess the optical camera focal length and stereoscopic measurements followed by image processing, the geometric information in the source-microphone direction is retrieved, a parameter generally missed in classic beamforming applications. A corollary of the method consists of the possibility of obtaining also the distance among different noise sources which could be present in a multisource environment. A loss of precision is found when the effect of the high acoustic reflectivity ground interferes with the noise source.


Author(s):  
Arun Kumar Gupta ◽  
Aman Raj ◽  
Devadatta Poddar ◽  
Lalit Kumar Bansal ◽  
Peeyush Kumar ◽  
...  

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