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StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2024 Jan-.

StatPearls [Internet].

Paracentesis

Elisa M. Aponte ; Shravan Katta ; Rahul Kurapati ; Maria C. O'Rourke .

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Last Update: October 27, 2023 .

Continuing Education Activity

Ascites, characterized by abnormal fluid accumulation in the peritoneal cavity, often emerges as a grim harbinger of underlying liver cirrhosis, a condition with a daunting prognosis. Paracentesis, a pivotal medical procedure, is the key to understanding and managing this complex condition. Diagnostic paracentesis provides a window into the origins of ascites, enabling healthcare professionals to pinpoint its underlying cause and rule out peritoneal fluid infection. In contrast, therapeutic paracentesis is a powerful tool for alleviating the distressing symptoms associated with ascites by safely removing substantial volumes of ascitic fluid.

The course delves into the indications, contraindications, and potential complications of paracentesis, providing invaluable insights for healthcare practitioners. Additionally, it underscores the crucial role of an interprofessional team in managing patients with ascites, as early diagnosis and intervention can significantly impact patient outcomes. In a world where liver cirrhosis remains a leading cause of ascites, understanding the nuances of paracentesis becomes an essential skill for healthcare professionals.

Identify the appropriate indications for paracentesis, recognizing when the procedure is necessary for diagnostic or therapeutic purposes in patients presenting with ascites.

Differentiate between transudative and exudative ascites using the serum-ascitic albumin gradient and apply this differentiation to guide the choice of diagnostic and treatment approaches effectively.

Implement sterile and safe paracentesis techniques, following established protocols and guidelines to minimize the risk of infection and other procedural complications.

Collaborate with an interprofessional healthcare team to coordinate the comprehensive care of patients with ascites.

Introduction

Ascites, characterized by abnormal fluid accumulation in the peritoneal cavity, often emerges as a grim harbinger of underlying liver cirrhosis, a condition with a daunting prognosis.[1] Paracentesis, a pivotal medical procedure, is the key to understanding and managing this complex condition. Diagnostic paracentesis provides a window into the origins of ascites, enabling healthcare professionals to pinpoint its underlying cause and rule out peritoneal fluid infection. In contrast, therapeutic paracentesis is a powerful tool for alleviating the distressing symptoms associated with ascites by safely removing substantial volumes of ascitic fluid.

This review addresses the indications, contraindications, and potential complications of paracentesis, providing invaluable insights for healthcare practitioners. Additionally, it underscores the crucial role of an interprofessional team in managing patients with ascites, as early diagnosis and intervention can significantly impact patient outcomes. In a world where liver cirrhosis remains a leading cause of ascites, understanding the nuances of paracentesis becomes an essential skill for healthcare professionals.

Paracentesis is a procedure performed in patients with ascites, during which a needle is inserted into the peritoneal cavity to obtain ascitic fluid.[2] The removal and testing of the ascitic fluid to diagnose the etiology of ascites or to rule out an infection of peritoneal fluid is called diagnostic paracentesis. Therapeutic paracentesis refers to removing large quantities of ascitic fluid to treat the patient's symptoms caused by ascites.

The most common cause of ascites is cirrhosis of the liver.[3] Patients who develop ascites due to liver cirrhosis have an estimated one-year mortality rate of 20% compared to a one-year mortality rate of 7% in patients with cirrhosis and without the development of ascites.[4] Therefore, the ascitic fluid should be sampled in all patients with new-onset ascites.

Ascites can be of 2 types: exudative and transudative. Regarding the differentiation between transudate and exudate, the preferred way to distinguish ascites is the serum-ascitic albumin gradient (SAAG).[5] The SAAG is directly related to portal pressure. The SAAG level greater than or equal to 1.1 g/dL indicates portal hypertension and transudative ascites. If this level is less than 1.1 g/dL, it means exudative ascites. The causes of transudative ascites include the following:[6]

The causes of exudative ascites include the following:

Anatomy and Physiology

Paracentesis can be performed in a lateral decubitus or supine position, with or without imaging guidance. When performing a paracentesis without imaging guidance, it is recommended to use the left lower quadrant of the abdominal wall as the entry point for the needle. This location is considered the safest and most favorable due to the thinner abdominal wall and deeper pocket of fluid, according to a study conducted by Sakai H et al.[7]

The following are some essential anatomical considerations that should be taken into account while performing paracentesis:

The ascitic fluid level is percussed to perform a paracentesis, and a needle is inserted in the midline or lower quadrant (lateral to rectus abdominis muscle, 2 to 4 cm superomedial to the anterior superior iliac spine).[8][2] This approach avoids puncture of the inferior epigastric arteries. When inserting the needle, the healthcare provider must avoid visible surface veins or surgical scars. The needle should be inserted at a 45-degree angle or using the z-tracking technique to minimize the chance of an ascites fluid leak.

Indications

Diagnostic paracentesis can be performed in the following situations:

Rule out spontaneous bacterial peritonitis in patients with known ascites presenting with concerning symptoms such as abdominal pain, fever, gastrointestinal bleeding, worsening encephalopathy, new or worsening renal or liver failure, hypotension, or other signs of infection or sepsis

Identify the etiology of new-onset ascites. Fluid evaluation helps determine etiology, distinguish between transudate and exudate, detect cancerous cells, or address other possibilities.

Therapeutic paracentesis is helpful when alleviating abdominal discomfort or respiratory distress in hemodynamically stable patients with tense ascites or ascites refractory to diuretics.[8][2]

Large-volume paracentesis (LVP) is required in patients with refractory ascites. Bureau et al described a low-flow pump system that can move the fluid from the peritoneal cavity into the urinary bladder, which is removed through micturition.[9] This demonstrated improved quality of life and reduced need for repeated LVP in patients with ascites.

Patients with abdominal compartment syndrome generally require a laparotomy for emergency surgical decompression. However, LVP can help reduce intra-abdominal pressure in a patient with tense ascites that may lead to ACS.[10] Advanced hepatic cirrhosis may cause moderate-to-severe ascites, leading to impaired respiration. Wittmer et al reported the benefits of paracentesis in 30 patients with liver cirrhosis and ascites.[11] They reported improvement in these patients' abdominal breathing patterns and ventilatory variables. Paracentesis also led to improvement in thoracoabdominal mobility and a reduction in dyspnea and fatigue, causing increased peripheral oxygen saturation.

Contraindications

There are few absolute contraindications for paracentesis.[12] Parcentesis is absolutely contraindicated in the following:

The relative contraindications of paracentesis include the following:

Clotting derangements (ie, severe thrombocytopenia where platelets are less than 20 × 10 3 /μL and an international normalized ratio (INR) more than 2.0)

Coagulopathy and thrombocytopenia (common in cirrhotic patients) are not absolute contraindications, as the incidence of bleeding complications from the procedure is very low.[13] Those with severe thrombocytopenia should receive platelets before the procedure, and those with an increased INR should receive fresh-frozen plasma (FFP). One method often employed in the case of an elevated INR is to administer one unit of FFP before the procedure and the second unit during the procedure. In patients with no prior history and without clinical evidence of active bleeding, tests such as prothrombin time, activated partial thromboplastin time, and platelet count may not be required before the procedure.[13]

During the procedure, providers should avoid passing the needle/catheter through sites of skin infection, surgical scars, visibly engorged abdominal wall vessels, or abdominal wall hematomas.

Equipment

Prepackaged paracentesis kits with plastic sheath cannulas attached to a syringe and a stopcock are available. Alternatively, traditional large-bore intravenous (IV) catheters or 18-gauge to 20-gauge standard or spinal needles can be used. These can be attached to a syringe for aspiration and IV tubing for fluid drainage. If these prepackaged kits are not available, one will need the following:

Catheter, 8 French, over 18-gauge × 7.5-inch (19-cm) needle with 3-way stopcock and self-sealing valve

Three specimen vials or collection bottles (hematology, chemistry, and microbiology sample tubes plus blood culture bottles)[12]

Preparation

Explain the procedure, risks, benefits, complications, and alternate options to the patient or their representative, and obtain signed informed consent.

Portal of Entry

The preferred site for paracentesis is the right or left lower quadrant of the abdomen lateral to the rectus sheath and superior to the anterior superior iliac spine (ASIS). The 2 recommended areas of entry for paracentesis are the following:

Positioning

The lateral decubitus position is preferred because air-filled loops of the bowel float in a distended abdominal cavity. However, patients with severe ascites may need to be positioned supine. Placing the patient in the lateral decubitus position can aid in identifying fluid pockets in patients with lower fluid volumes. Ask the patient to empty their bladder before starting the procedure.

Bedside ultrasound guidance is recommended to identify an appropriate location for the procedure.[14] Ultrasound can confirm the presence of fluid (see Image. Ultrasound for Paracentesis Uses. Fig 1) and identify an area with sufficient fluid for aspiration, thereby decreasing the incidence of unsuccessful aspiration and complications. Ultrasound increases the success rate of paracentesis and helps prevent an unnecessary invasive procedure in some patients.[15] The procedure can be performed either after marking the insertion site or in real-time by advancing the needle under direct ultrasound guidance (see Image. Ultrasound for Paracentesis Uses. Fig 2). Performing an ultrasound also helps the provider avoid small bowel adhesions or a distended urinary bladder below the entry point. Avoiding areas of prominent veins (caput medusae), scar tissue, and infected skin is critical to minimize complications.

Technique or Treatment

Historically, paracentesis under ultrasonographic guidance has been used for hospital palliative care. However, some patients may have difficulty reaching the hospital. Home-based palliative paracentesis (HBPP) is a safe, effective, and convenient option for such patients. This was reported by Ota et al. in a case series of patients with ascites.[16] Home-based abdominal paracentesis in refractory congestive heart failure (CHF) cases is a better alternative to periodic percutaneous paracentesis. A study by Kunin et al demonstrated that it improved symptoms in patients on peritoneal dialysis without needing peritoneal exchanges for fluid.[17]

Before beginning the procedure, ensure the patient's urinary bladder is empty. Prepare and drape the patient in a sterile fashion. Cleanse the skin with an antiseptic solution. Administer local anesthesia to the skin and soft tissue (down to the peritoneum) at the planned needle or catheter insertion site. Use a 25-gauge needle and the 5 ml syringe to raise a small skin wheal with lidocaine around the skin entry site. Insert the needle or IV catheter attached to a syringe or the prepackaged catheter directly perpendicular to the skin or use the z-track method, which is thought to decrease the chance of fluid leakage after the procedure. This method entails puncturing and pulling the skin caudally before advancing the needle through the soft tissue and peritoneum. If using a catheter kit, making a small nick in the skin using an 11-blade scalpel is recommended to advance the catheter through the skin and soft tissue smoothly.

Apply negative pressure to the syringe during needle or catheter insertion until a loss of resistance is felt and a steady flow of ascitic fluid is obtained. This is paramount to detect unwanted entry into a vessel or other structure rapidly. Advance the catheter over the needle into the peritoneal cavity. After collecting sufficient fluid in the syringe for fluid analysis, either remove the needle if performing a diagnostic tap or connect the collecting tubing to it or the catheter's stopcock to drain larger volumes of fluid into a vacuum container, plastic canister, or drainage bag. After draining the desired amount of fluid, remove the catheter and hold pressure to stop bleeding from the insertion site.[8][12]

Kelil et al. reported that wall suction and plastic canisters for drainage and collection of fluid during therapeutic paracentesis were safe alternatives to evacuated glass bottles. They also reduced per-procedure costs.[18]

Peritoneal Fluid Analysis

Send ascitic fluid for laboratory testing, including cell count with differential, Gram stain, and fluid culture. Placing some fluid into bacterial culture bottles can help to increase culture sensitivity.[2] Spontaneous bacterial peritonitis is diagnosed when the absolute neutrophil count (PMN) is 250 cells/mm 3 or more.[2][12] This is calculated by multiplying the number of white cells by the percentage of neutrophils reported in the differential. Empiric antibiotics, typically a third-generation cephalosporin or a fluoroquinolone, should be started in patients with ascites and a high suspicion for spontaneous bacterial peritonitis regardless of the absolute neutrophil count or in patients with an absolute neutrophil count above the cut-off range.

Additional tests that can aid in inpatient management include albumin, total protein, lactate dehydrogenase (LDH), glucose, cytology, and tumor markers. Albumin, in particular, can be used to calculate SAAG, which can assist in determining the etiology of ascites by classifying it as either exudative or transudative. SAAG helps identify the presence of portal hypertension. It is calculated by subtracting the ascitic fluid albumin from the serum albumin obtained on the same day. SAAG greater than 1.1 indicates a high probability of portal hypertension. SAAG less than 1.1 rules out portal hypertension.[2][19]

Complications

Paracentesis is a safe procedure; however possible complications include the following:[20]

Persistent leakage of ascitic fluid at the needle insertion site. This can often be addressed with a single skin suture.