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Current Opinion in Critical Care Dec 2021The aim of this study was to outline the management of the patient with the open abdomen. (Review)
Review
PURPOSE OF REVIEW
The aim of this study was to outline the management of the patient with the open abdomen.
RECENT FINDINGS
An open abdomen approach is used after damage control laparotomy, to decrease risk for postsurgery intra-abdominal hypertension, if reoperation is likely and after primary abdominal decompression.Temporary abdominal wall closure without negative pressure is associated with higher rates of intra-abdominal infection and evisceration. Negative pressure systems improve fascial closure rates but increase fistula formation. Definitive abdominal wall closure should be considered once oedema has subsided and the patient has stabilized. Delayed abdominal closure after trauma (>24-48 h) is associated with less achievement of fascial closure and more complications. Protective lung ventilation should be employed early, particularly if respiratory compromise is evident. Conservative fluid management and less sedation may decrease delirium and increase definitive abdominal closure rates. Extubation may be performed before definitive abdominal closure in selected patients. Antibiotic therapy should be brief, targeted and guideline concordant. Survival depends on the underlying disease, the closure method and the course of hospitalization.
SUMMARY
Changes in the treatment of patients with the open abdomen include negative temporary closure, conservative fluid management, early protective lung ventilation, decreased sedation and extubation before abdominal closure in selected patients.
Topics: Abdomen; Abdominal Cavity; Abdominal Injuries; Humans; Intra-Abdominal Hypertension; Laparotomy; Retrospective Studies
PubMed: 34561356
DOI: 10.1097/MCC.0000000000000879 -
Current Opinion in Pediatrics Apr 2020Point-of-care ultrasound (POCUS) is an emerging clinical tool in the neonatal intensive care unit (NICU). Recent literature describing the use of POCUS for various... (Review)
Review
PURPOSE OF REVIEW
Point-of-care ultrasound (POCUS) is an emerging clinical tool in the neonatal intensive care unit (NICU). Recent literature describing the use of POCUS for various applications in the NICU has garnered increased interest among neonatologists.
RECENT FINDINGS
Diagnostic applications for POCUS in the NICU include the evaluation and serial monitoring of common pulmonary diseases, hemodynamic instability, patent ductus arteriosus (PDA), persistent pulmonary hypertension of the newborn (PPHN), necrotizing enterocolitis (NEC), and intraventricular hemorrhage (IVH), among others. Procedural applications include vascular access, endotracheal intubation, lumbar puncture, and fluid drainage.
SUMMARY
Experience with POCUS in the NICU is growing. Current evidence supports the use of POCUS for a number of diagnostic and procedural applications. As use of this tool increases, there is an urgent need to develop formal training requirements specific to neonatology, as well as evidence-based guidelines to standardize use across centers.
Topics: Abdomen; Heart; Humans; Infant, Newborn; Intensive Care Units, Neonatal; Lung; Neonatology; Point-of-Care Systems; Ultrasonography
PubMed: 31851056
DOI: 10.1097/MOP.0000000000000863 -
Nature Communications Feb 2023Peritoneal metastasis is the leading cause of death for gastrointestinal cancers. The native and therapy-induced ascites ecosystems are not fully understood. Here, we...
Peritoneal metastasis is the leading cause of death for gastrointestinal cancers. The native and therapy-induced ascites ecosystems are not fully understood. Here, we characterize single-cell transcriptomes of 191,987 ascites cancer/immune cells from 35 patients with/without gastric cancer peritoneal metastasis (GCPM). During GCPM progression, an increase is seen of monocyte-like dendritic cells (DCs) that are pro-angiogenic with reduced antigen-presenting capacity and correlate with poor gastric cancer (GC) prognosis. We also describe the evolution of monocyte-like DCs and regulatory and proliferative T cells following therapy. Moreover, we track GC evolution, identifying high-plasticity GC clusters that exhibit a propensity to shift to a high-proliferative phenotype. Transitions occur via the recently described, autophagy-dependent plasticity program, paligenosis. Two autophagy-related genes (MARCKS and TXNIP) mark high-plasticity GC with poorer prognosis, and autophagy inhibitors induce apoptosis in patient-derived organoids. Our findings provide insights into the developmental trajectories of cancer/immune cells underlying GCPM progression and therapy resistance.
Topics: Humans; Ascites; Peritoneal Neoplasms; Peritoneum; Stomach Neoplasms
PubMed: 36788228
DOI: 10.1038/s41467-023-36310-9 -
Digestive Diseases and Sciences Mar 2022Mesenteric cysts are defined as a heterogeneous group of intra-abdominal cystic lesions of the mesentery or omentum that may be found in any portion of the... (Review)
Review
Mesenteric cysts are defined as a heterogeneous group of intra-abdominal cystic lesions of the mesentery or omentum that may be found in any portion of the gastrointestinal tract from the duodenum to the rectum. The clinical condition is entirely asymptomatic in many patients, particularly with small cysts. The diagnosis is typically incidental and secondary to imaging performed for other purposes. In symptomatic patients, the clinical picture is characterized by nonspecific gastrointestinal signs and symptoms. Treatment may be surgical or via interventional radiology. We report the case of a 55-year-old female patient complaining of left-sided abdominal discomfort and constipation lasting three months. An abdominal ultrasound showed the presence of a 10 × 14 × 16 cm anechoic cystic mass filling the whole anterior and left abdominal cavity, confirmed by CT and MRI. The cyst, removed laparoscopically, was histologically a simple mesothelial cyst. We reviewed the international literature over the last 10 years of all cases with mesenteric cysts > 10 cm in evaluating gastrointestinal symptoms at diagnosis, histology, performed treatment, and outcome.
Topics: Cysts; Female; Humans; Magnetic Resonance Imaging; Mesenteric Cyst; Mesentery; Middle Aged; Ultrasonography
PubMed: 35059952
DOI: 10.1007/s10620-021-07352-0 -
World Journal of Emergency Surgery :... Sep 2022Non-traumatic emergency general surgery involves a heterogeneous population that may present with several underlying diseases. Timeous emergency surgical treatment... (Review)
Review
BACKGROUND
Non-traumatic emergency general surgery involves a heterogeneous population that may present with several underlying diseases. Timeous emergency surgical treatment should be supplemented with high-quality perioperative care, ideally performed by multidisciplinary teams trained to identify and handle complex postoperative courses. Uncontrolled or poorly controlled acute postoperative pain may result in significant complications. While pain management after elective surgery has been standardized in perioperative pathways, the traditional perioperative treatment of patients undergoing emergency surgery is often a haphazard practice. The present recommended pain management guidelines are for pain management after non-traumatic emergency surgical intervention. It is meant to provide clinicians a list of indications to prescribe the optimal analgesics even in the absence of a multidisciplinary pain team.
MATERIAL AND METHODS
An international expert panel discussed the different issues in subsequent rounds. Four international recognized scientific societies: World Society of Emergency Surgery (WSES), Global Alliance for Infection in Surgery (GAIS), Italian Society of Anesthesia, Analgesia Intensive Care (SIAARTI), and American Association for the Surgery of Trauma (AAST), endorsed the project and approved the final manuscript.
CONCLUSION
Dealing with acute postoperative pain in the emergency abdominal surgery setting is complex, requires special attention, and should be multidisciplinary. Several tools are available, and their combination is mandatory whenever is possible. Analgesic approach to the various situations and conditions should be patient based and tailored according to procedure, pathology, age, response, and available expertise. A better understanding of the patho-mechanisms of postoperative pain for short- and long-term outcomes is necessary to improve prophylactic and treatment strategies.
Topics: Abdomen; Analgesics; Anesthesia; Humans; Pain, Postoperative; Perioperative Care; United States
PubMed: 36131311
DOI: 10.1186/s13017-022-00455-7 -
Immunity Nov 2021Peritoneal immune cells reside unanchored within the peritoneal fluid in homeostasis. Here, we examined the mechanisms that control bacterial infection in the peritoneum...
Peritoneal immune cells reside unanchored within the peritoneal fluid in homeostasis. Here, we examined the mechanisms that control bacterial infection in the peritoneum using a mouse model of abdominal sepsis following intraperitoneal Escherichia coli infection. Whole-mount immunofluorescence and confocal microscopy of the peritoneal wall and omentum revealed that large peritoneal macrophages (LPMs) rapidly cleared bacteria and adhered to the mesothelium, forming multilayered cellular aggregates composed by sequentially recruited LPMs, B1 cells, neutrophils, and monocyte-derived cells (moCs). The formation of resident macrophage aggregates (resMφ-aggregates) required LPMs and thrombin-dependent fibrin polymerization. E. coli infection triggered LPM pyroptosis and release of inflammatory mediators. Resolution of these potentially inflammatory aggregates required LPM-mediated recruitment of moCs, which were essential for fibrinolysis-mediated resMφ-aggregate disaggregation and the prevention of peritoneal overt inflammation. Thus, resMφ-aggregates provide a physical scaffold that enables the efficient control of peritoneal infection, with implications for antimicrobial immunity in other body cavities, such as the pleural cavity or brain ventricles.
Topics: Animals; Bacterial Infections; Biomarkers; Cellular Microenvironment; Disease Models, Animal; Disease Susceptibility; Host-Pathogen Interactions; Inflammation Mediators; Macrophages, Peritoneal; Mice; Peritoneal Cavity; Peritonitis
PubMed: 34717795
DOI: 10.1016/j.immuni.2021.10.007 -
Journal of Veterinary Emergency and... Jan 2022Abdominocentesis is commonly used to evaluate the abdominal cavity of the horse. This technique provides valuable diagnostic information as well as the means to monitor... (Review)
Review
BACKGROUND
Abdominocentesis is commonly used to evaluate the abdominal cavity of the horse. This technique provides valuable diagnostic information as well as the means to monitor patients with abdominal diseases being managed medically and to determine their need for surgical management. Complications are uncommon and include trauma to the gastrointestinal tract or spleen, septic peritonitis, or abdominal wall infection.
PROCEDURES
This review describes the indications, utility, patient preparation, and instructions for performing abdominocentesis as well as possible complications reported in horses. Step-by-step instructions are provided for the two most commonly used abdominocentesis techniques in horses, which include the use of a needle (18 Ga, 3.8 cm [1.5 in]) and a teat cannula (9.5 cm [3.75 in]).
SUMMARY
Peritoneal fluid collection and fluid analysis can be used to confirm diagnosis of intraabdominal pathology including inflammatory, infectious, neoplastic, obstructive, and bowel strangulation, leading to additional diagnostic and therapeutic plans.
KEY POINTS
Abdominocentesis is useful as a diagnostic procedure in horses suffering from colic, diarrhea, weight loss, or other conditions involving the abdominal cavity and is an integral component of diagnostic testing for colic at referral institutions or in the field. Abdominal fluid collection using an 18-Ga, 3.8-cm (1.5-in) needle is recommended for adult horses because the needle is long enough to penetrate the peritoneal cavity. The teat cannula technique is recommended for use in adult horses, foals, and miniature horses to reduce the risk of enterocentesis, even though this procedure is more traumatic than using an 18-Ga, 3.8-cm needle. Ultrasonography of the abdomen is a valuable tool in the assessment of any horse with signs of colic, but it is not essential for performing an abdominocentesis successfully.
Topics: Abdomen; Animals; Ascitic Fluid; Colic; Horse Diseases; Horses; Peritonitis
PubMed: 35044064
DOI: 10.1111/vec.13118 -
Peritoneal Dialysis International :... Jan 2021(1) Peritoneal dialysis (PD) should be considered a suitable modality for treatment of acute kidney injury (AKI) in all settings .
SUMMARY STATEMENTS
(1) Peritoneal dialysis (PD) should be considered a suitable modality for treatment of acute kidney injury (AKI) in all settings .
GUIDELINE 2: ACCESS AND FLUID DELIVERY FOR ACUTE PD IN ADULTS
(2.1) Flexible peritoneal catheters should be used where resources and expertise exist .(2.2) Rigid catheters and improvised catheters using nasogastric tubes and other cavity drainage catheters may be used in resource-poor environments where they may still be life-saving .(2.3) We recommend catheters should be tunnelled to reduce peritonitis and peri-catheter leak .(2.4) We recommend that the method of catheter implantation should be based on patient factors and locally available skills .(2.5) PD catheter implantation by appropriately trained nephrologists in patients without contraindications is safe and functional results equate to those inserted surgically .(2.6) Nephrologists should receive training and be permitted to insert PD catheters to ensure timely dialysis in the emergency setting (2.7) We recommend, when available, percutaneous catheter insertion by a nephrologist should include assessment with ultrasonography .(2.8) Insertion of PD catheter should take place under complete aseptic conditions using sterile technique .(2.9) We recommend the use of prophylactic antibiotics prior to PD catheter implantation .(2.10) A closed delivery system with a Y connection should be used . In resource poor areas, spiking of bags and makeshift connections may be necessary and can be considered .(2.11) The use of automated or manual PD exchanges are acceptable and this will be dependent on local availability and practices .
GUIDELINE 3: PERITONEAL DIALYSIS SOLUTIONS FOR ACUTE PD
(3.1) In patients who are critically ill, especially those with significant liver dysfunction and marked elevation of lactate levels, bicarbonate containing solutions should be used (. Where these solutions are not available, the use of lactate containing solutions is an alternative .(3.2) Commercially prepared solutions should be used . However, where resources do not permit this, then locally prepared fluids may be life-saving and with careful observation of sterile preparation procedure, peritonitis rates are not increased .(3.3) Once potassium levels in the serum fall below 4 mmol/L, potassium should be added to dialysate (using strict sterile technique to prevent infection) or alternatively oral or intravenous potassium should be given to maintain potassium levels at 4 mmol/L or above .(3.4) Potassium levels should be measured daily . Where these facilities do not exist, we recommend that after 24 h of successful dialysis, one consider adding potassium chloride to achieve a concentration of 4 mmol/L in the dialysate
GUIDELINE 4: PRESCRIBING AND ACHIEVING ADEQUATE CLEARANCE IN ACUTE PD
(4.1) Targeting a weekly / of 3.5 provides outcomes comparable to that of daily HD in critically ill patients; targeting higher doses does not improve outcomes . This dose may not be necessary for most patients with AKI and targeting a weekly / of 2.2 has been shown to be equivalent to higher doses . Tidal automated PD (APD) using 25 L with 70% tidal volume per 24 h shows equivalent survival to continuous venovenous haemodiafiltration with an effluent dose of 23 mL/kg/h .(4.2) Cycle times should be dictated by the clinical circumstances. Short cycle times (1-2 h) are likely to more rapidly correct uraemia, hyperkalaemia, fluid overload and/or metabolic acidosis; however, they may be increased to 4-6 hourly once the above are controlled to reduce costs and facilitate clearance of larger sized solutes .(4.3) The concentration of dextrose should be increased and cycle time reduced to 2 hourly when fluid overload is evident. Once the patient is euvolemic, the dextrose concentration and cycle time should be adjusted to ensure a neutral fluid balance .(4.4) Where resources permit, creatinine, urea, potassium and bicarbonate levels should be measured daily; 24 h / and creatinine clearance measurement is recommended to assess adequacy when clinically indicated .(4.5) Interruption of dialysis should be considered once the patient is passing >1 L of urine/24 h and there is a spontaneous reduction in creatinine .
UNLABELLED
The use of peritoneal dialysis (PD) to treat patients with acute kidney injury (AKI) has become more popular among clinicians following evidence of similar outcomes when compared with other extracorporeal therapies. Although it has been extensively used in low-resource environments for many years, there is now a renewed interest in the use of PD to manage patients with AKI (including patients in intensive care units) in higher income countries. Here we present the update of the International Society for Peritoneal Dialysis guidelines for PD in AKI. These guidelines extensively review the available literature and present updated recommendations regarding peritoneal access, dialysis solutions and prescription of dialysis with revised targets of solute clearance.
Topics: Acute Kidney Injury; Adult; Dialysis Solutions; Humans; Peritoneal Dialysis; Peritoneum; Peritonitis
PubMed: 33267747
DOI: 10.1177/0896860820970834 -
Saudi Journal of Kidney Diseases and... 2022Lymphangiomatosis is a rare and benign mesenchymal disorder where there is developmental malformation and dilatation of lymphatic channels. The most common sites for...
Lymphangiomatosis is a rare and benign mesenchymal disorder where there is developmental malformation and dilatation of lymphatic channels. The most common sites for lymphangiomatosis are the cervical neck and axilla, but it can also occur in the mediastinum, retroperitoneum, mesentery, omentum, colon, and pelvis. Renal lymphangiomatosis is an even rarer multicystic disorder which may be hilar, pericalyceal, paracalyceal, peripelvic, or para pelvic. We report a case of 24-year-old female with bilateral perirenal lymphangiomatosis. Her complain was bilateral flank pain and bilateral perinephric fluid collection with multiple sepatations was noted on radiological examination.
Topics: Humans; Female; Young Adult; Adult; Lymphangioma; Kidney; Kidney Diseases; Mesentery; Thorax
PubMed: 36647995
DOI: 10.4103/1319-2442.367815 -
Peritoneal Dialysis International :... Jul 2021A pathophysiological classification of membrane dysfunction, which provides mechanistic links to functional characteristics, should be used when prescribing...
GUIDELINE 1
A pathophysiological classification of membrane dysfunction, which provides mechanistic links to functional characteristics, should be used when prescribing individualized dialysis or when planning modality transfer (e.g. to automated peritoneal dialysis (PD) or haemodialysis) in the context of shared and informed decision-making with the person on PD, taking individual circumstances and treatment goals into account. ().
GUIDELINE 2A
It is recommended that the PSTR is determined from a 4-h peritoneal equilibration test (PET), using either 2.5%/2.27% or 4.25%/3.86% dextrose/glucose concentration and creatinine as the index solute. () This should be done early in the course dialysis treatment (between 6 weeks and 12 weeks) () and subsequently when clinically indicated. ().
GUIDELINE 2B
A faster PSTR is associated with lower survival on PD. () This risk is in part due to the lower ultrafiltration (UF) and increased net fluid reabsorption that occurs when the PSTR is above the average value. The resulting lower net UF can be avoided by shortening glucose-based exchanges, using a polyglucose solution (icodextrin), and/or prescribing higher glucose concentrations. () Compared to glucose, use of icodextrin can translate into improved fluid status and fewer episodes of fluid overload. () Use of automated PD and icodextrin may mitigate the mortality risk associated with fast PSTR. ().
GUIDELINE 3
UF This is easy to measure and a valuable screening test. Insufficient UF should be suspected when either (a) the net UF from a 4-h PET is <400 ml (3.86% glucose/4.25% dextrose) or <100 ml (2.27% glucose /2.5% dextrose), () and/or (b) the daily UF is insufficient to maintain adequate fluid status. () Besides membrane dysfunction, low UF capacity can also result from mechanical problems, leaks or increased fluid absorption across the peritoneal membrane not explained by fast PSTR.
GUIDELINE 4A
Diagnosing intrinsic membrane dysfunction (manifesting as low osmotic conductance to glucose) as a cause of UF insufficiency: When insufficient UF is suspected, the 4-h PET should be supplemented by measurement of the sodium dip at 1 h using a 3.86% glucose/4.25% dextrose exchange for diagnostic purposes. A sodium dip ≤5 mmol/L and/or a sodium sieving ratio ≤0.03 at 1 h indicates UF insufficiency. ().
GUIDELINE 4B
in the absence of residual kidney function, this is likely to necessitate the use of hypertonic glucose exchanges and possible transfer to haemodialysis. Acquired membrane injury, especially in the context of prolonged time on treatment, should prompt discussions about the risk of encapsulating peritoneal sclerosis. ().
GUIDELINE 5
measures of peritoneal protein loss, intraperitoneal pressure and more complex tests that estimate osmotic conductance and 'lymphatic' reabsorption are not recommended for routine clinical practice but remain valuable research methods. ().
GUIDELINE 6
When resource constraints prevent the use of routine tests, consideration of membrane function should still be part of the clinical management and may be inferred from the daily UF in response to the prescription. ().
Topics: Adult; Dialysis Solutions; Glucans; Glucose; Humans; Icodextrin; Peritoneal Dialysis; Peritoneum; Sodium; Ultrafiltration
PubMed: 33563110
DOI: 10.1177/0896860820982218