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Cannula

A cannula is a thin, hollow tube inserted into a , duct, or vessel to facilitate the , drainage, or monitoring of fluids, medications, gases, or other substances in medical settings. Derived from the Latin word for "small ," it typically encloses a for initial insertion and serves as a conduit for various therapeutic or diagnostic purposes. Cannulas are classified by their insertion site and function, with common types including intravenous (IV), arterial, and nasal varieties. Intravenous cannulas, often referred to as peripheral lines, are indwelling plastic tubes placed in peripheral veins—typically in the arms or hands—to administer fluids, medications, blood products, or nutrients, representing one of the most frequent invasive procedures in healthcare, with over 1 billion used annually worldwide. Arterial cannulas are inserted into arteries for real-time monitoring, blood sampling, or during surgical procedures requiring arterial access. Nasal cannulas, meanwhile, consist of lightweight tubing with prongs that fit into the nostrils to deliver supplemental oxygen to patients with respiratory conditions, available in low-flow and high-flow configurations to meet varying oxygenation needs. Beyond these, cannulas play critical roles in specialized applications, such as surgical trocars for minimally invasive procedures like , where they establish entry ports for instruments, or in extracorporeal therapies like ECMO, using larger-bore designs for blood drainage and return. Their design varies by (e.g., 14G for larger veins to 24G for delicate access), material (often for flexibility and ), and safety features to minimize risks like needlestick injuries. Proper selection and sterile insertion are essential to prevent complications such as infection or , ensuring safe and effective patient care across clinical environments.

Overview

Definition and Etymology

A cannula is a thin, hollow tube designed to be inserted into a , duct, or to facilitate the , , or of fluids, gases, or medications, or for the of sampling biological materials. In medical contexts, it serves as an indwelling conduit, remaining in place after insertion to enable continuous access, unlike a simple needle which is typically used for single punctures and immediate . Cannulas are often introduced using a —a sharp, pointed stylet that pierces the tissue before the tube is advanced over it and the stylet is removed—allowing for less traumatic entry into delicate structures. The term "cannula" derives from the Latin cannula, meaning "small reed" or "pipe," a diminutive of canna ("reed" or "cane"), evoking the resemblance to natural tubular plant structures used in early tools. This etymology reflects its historical roots in rudimentary instruments fashioned from reeds, with the word entering English medical usage in the early 17th century, as documented in texts like Richard Banister's Treatise of One Hundred and Thirteen Diseases of the Eyes (1616), where it described a tubular device for draining fluids. By the 1680s, it was firmly established in surgical literature for fluid drainage procedures. Historically, the concept of the cannula traces back to around c. 1550 BCE, where hollow reeds were employed as primitive tubes for to aid breathing in obstructed airways, as noted in the . Greek physician (c. 460–370 BCE) advanced its application, using perforated cannulas for bladder catheterization and managing , emphasizing drainage to promote healing. Over centuries, materials evolved from organic reeds and metals to sterile plastics in the ; by the , plastic cannulas emerged to minimize tissue irritation and infection risks, revolutionizing indwelling access for as an exemplar of fluid delivery. Cannula sizes are standardized using the (G) system, where diameters range from 14G (larger, ~2.1 mm outer diameter for rapid infusion) to 24G (smaller, ~0.7 mm for fragile veins), with lower gauge numbers indicating thicker tubes to accommodate higher flow rates.

Design and Materials

A typical cannula consists of several key components designed for safe and effective insertion and fluid management. The hub serves as the connection point for attaching to syringes, lines, or other medical devices, often featuring a Luer lock mechanism for secure fitting. The is the primary hollow tube that transports fluids, providing a conduit through the body. The bevel or tip at the distal end is sharpened for easy tissue penetration in acute applications or blunted for less invasive uses, while an optional stylet or —a rigid inner needle—facilitates initial placement by guiding the flexible before withdrawal. Materials for cannulas prioritize , flexibility, and durability to minimize patient risk. Intravenous cannulas commonly use medical-grade plastics such as (PUR) or (PTFE, or Teflon) for the , offering flexibility to conform to vascular paths and reduce vessel trauma. These materials comply with standards for biological evaluation, ensuring low toxicity and hemocompatibility. Rigid surgical cannulas, by contrast, employ for strength during procedures like . or hydrophilic coatings are frequently applied to the surface to decrease insertion , lower risk, and enhance . Cannula sizing follows the gauge (G) system, where diameter decreases as the gauge number increases, resulting in flow rates inversely proportional to the gauge squared (approximately following Poiseuille's law for laminar flow). For instance, an 18G cannula supports higher flow rates suitable for blood transfusions, while a 24G is preferred for fragile veins in pediatrics. International standardization includes color coding of the hub per ISO 10555-5, with examples such as orange for 14G, green for 18G, pink for 20G, and blue for 22G, enabling rapid identification during clinical use. Sterilization ensures single-use cannulas are free of microbial contamination, primarily via (EtO) gas or , both recognized by FDA guidelines for heat-sensitive disposables. These methods achieve a of 10^-6 without compromising material integrity. Safety features include integrated valves or septa in the to prevent blood backflow and , flashback chambers for confirmation during insertion, and reinforced shaft designs to resist kinking while maintaining flexibility for prolonged intravenous dwelling.

Medical Applications

Intravenous Access

Intravenous access using cannulas provides a critical pathway for delivering fluids, medications, and nutrients directly into the bloodstream, as well as for samples, and is essential in both acute and chronic medical settings. Peripheral intravenous () cannulas are typically employed for short-term , lasting hours to days, while central venous cannulas are used for longer durations, often weeks or months, particularly when peripheral are inadequate or for therapies requiring higher flow rates. Gauge s for peripheral cannulas range from 14 to 24, with smaller numbers indicating larger diameters that allow greater flow rates, influencing the choice based on the patient's needs and size. Peripheral IV cannulas are indicated for routine , antibiotic administration, , and blood draws in stable patients, whereas central venous cannulas are preferred for prolonged therapies such as total , vasopressors, or when multiple incompatible drugs must be infused simultaneously. Common complications include , an of the wall occurring in 7-44% of peripheral IV cases, particularly with poor insertion technique or prolonged , and infiltration, where fluid leaks into surrounding tissues, potentially causing swelling or tissue damage. Central lines carry risks of or bleeding during insertion, but with adherence to protocols, central line-associated bloodstream (CLABSI) rates can be maintained below 1 per 1000 catheter-days. The procedure for peripheral IV insertion begins with site selection, often the antecubital fossa or dorsal hand , guided by vein visualization techniques such as or for difficult access. A is applied proximally to distend the vein, followed by skin preparation with ; the cannula, which may feature wings for stabilization or a straight design for simplicity, is then inserted at a 15-30° with the up until a flashback of blood appears in the , confirming venous entry. The needle is withdrawn, the advanced fully, and the site secured with transparent dressing and tape to prevent dislodgement, after which the line is flushed with saline to ensure patency. For central venous access, the is the standard method, involving initial puncture of a large such as the subclavian or internal jugular with a needle, followed by insertion of a guidewire through the needle, removal of the needle, and advancement of a dilator and over the wire to minimize and ensure accurate placement. Best practices for both peripheral and central access emphasize aseptic technique, including hand hygiene, maximal sterile barriers for central lines, and regular site assessment to detect early signs of complications like redness or swelling. Protocols such as daily review of necessity, prompt removal when no longer needed, and use of dressings further reduce infection risks, aligning with guidelines from health authorities to optimize .

Respiratory Support

In respiratory support, cannulas are primarily used to deliver supplemental oxygen or maintain airway patency through non-invasive or minimally invasive means. The , a common device consisting of a lightweight tube with bifurcated prongs inserted into the nostrils, facilitates low-flow for patients with mild to moderate . It operates at flow rates of 1-6 L/min, delivering a (FiO2) ranging from 24% to 44%, approximated by the formula FiO2 ≈ 0.21 + (0.04 × L/min). This setup is well-tolerated due to its simplicity and minimal interference with daily activities, making it suitable for both acute and chronic settings. High-flow nasal cannulas extend this capability by providing heated, humidified oxygen at rates up to 60 L/min, improving patient comfort and efficacy in more severe cases. The humidification prevents mucosal drying, allowing higher flows without significant discomfort, and supports washout of nasopharyngeal for better oxygenation. Indications for nasal cannulas, including high-flow variants, include associated with (COPD) exacerbations and post-operative recovery, where maintaining adequate (typically SpO2 >92%) is essential without escalating to invasive . For patients unable to breathe nasally due to obstruction or anatomical issues, oral-nasal dual cannulas deliver oxygen through combined nasal prongs and an oral interface, ensuring consistent gas delivery regardless of breathing route. tubes serve as indwelling cannulas for long-term airway maintenance following surgical procedures, such as or prolonged . These tubes are available in cuffed versions, which inflate to seal the trachea for positive pressure ventilation and prevent , and uncuffed versions, which allow around the tube for and reduce tracheal pressure risks. Cuffed tubes are preferred in post-surgical scenarios requiring , while uncuffed ones are used during to promote natural airway function. Common complications of nasal cannulas include nasal irritation from dry gas flow and epistaxis due to mucosal , particularly at higher rates without humidification. Tracheotomy-related issues may involve cuff overinflation leading to tracheal ischemia, though proper mitigates this. protocols emphasize gradual reduction to prevent oxygen dependency: for low-flow systems, decrease FiO2 to 0.40 or below while maintaining target saturations, then titrate flow by 1 L/min every 1-2 hours; high-flow involves similar stepwise decrements, respiratory and . These approaches ensure safe transition to room air, guided by clinical stability.

Cardiovascular and Surgical Uses

In cardiovascular procedures, aortic cannulation serves as a critical technique for establishing (CPB) during , where the cannula is typically inserted into the to facilitate arterial return of oxygenated from the CPB . This placement allows for temporary diversion of systemic circulation, enabling surgeons to operate on a still heart, and is preferred when the distal ascending aorta is deemed suitable based on preoperative to avoid pathological areas. Standard cannulae for this purpose range in size from 20 to 24 (Fr), selected according to patient and required flow rates to minimize hemodynamic instability. Arterial cannulation, commonly via the radial or femoral artery, provides continuous invasive monitoring of blood pressure and hemodynamics in intensive care units (ICUs) and perioperative settings, allowing for real-time assessment of cardiovascular status and frequent arterial blood sampling. The radial site is favored for its accessibility and lower complication risk in non-emergent cases, while femoral access is used when radial insertion is infeasible or for higher-flow needs. Waveform accuracy in these systems depends on optimal damping, where an underdamped trace (characterized by excessive oscillations) overestimates systolic pressure, and an overdamped one underestimates it; a coefficient of damping around 0.7 ensures reliable measurement by filtering artifacts without distorting the true pressure profile. In surgical contexts, cannulas like the Jackson-Pratt (JP) drain are employed post-operatively to facilitate vacuum-assisted removal of wound fluids, including serosanguinous exudate, blood, and lymph, thereby reducing the risk of seroma formation and infection at the surgical site. This closed-suction device consists of a fenestrated silicone tube connected to a compressible bulb reservoir that generates gentle negative pressure, promoting fluid evacuation without external machinery. JP drains are particularly useful in procedures involving significant tissue dissection, such as abdominal or thoracic surgeries, and are typically removed once output falls below 30 mL per day. Despite their utility, cardiovascular and surgical cannulations carry risks including from dislodged or air during aortic insertion, and due to endothelial disruption and , with female gender, younger age, and preexisting peripheral as key predisposing factors. Iatrogenic aortic dissection, though rare (incidence approximately 0.1-0.2% in cardiac surgeries), can be catastrophic, often linked to high cannulation pressures or vessel fragility. To mitigate these, anticoagulation protocols typically involve unfractionated administered at 100 units per kg body weight prior to CPB initiation, monitored via activated to achieve levels above 400-480 seconds, ensuring circuit patency while balancing bleeding risks.

Other Procedures

Cannulas play a vital role in urological procedures, particularly as components of Foley-type urinary catheters designed for . These indwelling catheters feature a flexible with a distal that is inflated with 5-30 mL of sterile water to anchor the device within the , preventing accidental expulsion while allowing continuous through a larger . The balloon inflation mechanism ensures secure placement, typically using 5-10 mL for adult patients to minimize trauma to the neck. However, prolonged use increases the risk of catheter-associated urinary tract infections (CAUTIs), with rates of approximately 2-5 per 1000 catheter-days in hospitals, emphasizing the need for strict aseptic insertion and timely removal. In diagnostic , core cannulas equipped with specialized cutting edges facilitate precise sampling from organs such as and liver. These devices, often automated spring-loaded needles, feature a hollow cannula with a notched or beveled cutting tip that captures cylindrical cores upon activation, enabling histopathological for conditions like malignancies. Gauges typically from to 18, balancing sample adequacy with minimal invasiveness; for instance, -gauge needles yield larger cores suitable for biopsies, while 18-gauge options are preferred for liver sampling to reduce bleeding risk. Image guidance, such as , enhances accuracy, allowing multiple passes through a single entry site to obtain representative samples without excessive discomfort. Arthrocentesis employs cannulas or large-bore needles to aspirate synovial fluid from joints, aiding in the diagnosis of inflammatory arthritides like rheumatoid arthritis or septic arthritis. The procedure involves inserting an 18- to 22-gauge cannula into the joint space under sterile conditions, often with ultrasound guidance, to withdraw fluid for cytological, microbiological, and biochemical evaluation, which can reveal elevated white cell counts or crystals indicative of infection or gout. This diagnostic yield is crucial, as synovial fluid analysis directly informs treatment decisions, such as antibiotic therapy for bacterial arthritis, and helps differentiate inflammatory from degenerative joint diseases. Cannulas with side ports may be used to improve fluid flow during aspiration, minimizing procedural time and joint trauma. In minimally invasive , cannulas serve as access ports in laparoscopic procedures, accommodating instruments through incisions. These trocars, typically 5-12 mm in diameter, maintain by sealing around inserted tools, with smaller 5 mm variants used for secondary instruments and larger 10-12 mm ports for the camera or specimen retrieval. Materials like medical-grade plastics ensure and gas-tight seals, reducing the risk of port-site complications such as herniation. This port system enables procedures like with fewer incisions compared to open , promoting faster recovery.

Veterinary Applications

Fluid and Medication Administration

In , cannulas are essential for administering fluids and medications intravenously to animals, adapting techniques to species-specific such as varying sizes and locations to ensure safe access. Placement generally follows principles similar to intravenous cannulation but often requires or to minimize movement and . Common sites for cannulation include the in dogs and cats, which is the most frequently used peripheral due to its accessibility and size, typically accommodating 20-22 catheters. In horses, the lateral or medial saphenous serves as a preferred peripheral site for cannulation, offering reliable access in the while avoiding the more central for routine therapy. Indications for cannula use in and administration encompass , where rapid delivery of sedatives or anesthetics is critical; correction of through maintenance fluids at rates of 2-6 mL/kg/hour for and 2-3 mL/kg/hour for ; and intravenous delivery to treat systemic infections efficiently. These applications support hemodynamic stability and therapeutic , particularly in hospitalized or critically ill animals. Catheter sizes are selected based on species and vein diameter, with 20-22 gauge catheters standard for the cephalic vein in medium to large and to balance flow rates and vessel integrity. For exotic like birds, smaller gauges such as 25-gauge butterfly catheters are employed due to the delicate nature of their veins, enabling short-term infusions without excessive trauma. Complications associated with cannulation include , an of the wall, which occurs more frequently in dehydrated patients owing to reduced and endothelial damage from concentrated infusates. Proper status prior to placement helps mitigate this risk. Monitoring involves regular patency checks every 4-6 hours through flushing with heparinized saline to prevent , alongside site for signs of swelling or leakage. Cannulas are typically removed after 72 hours or sooner if or dysfunction is suspected, to minimize risks like catheter-related .

Surgical and Diagnostic Procedures

In veterinary surgery, arterial cannulation is commonly utilized for continuous blood gas monitoring in horses experiencing colic, enabling real-time assessment of oxygenation, ventilation, and acid-base status to guide therapeutic decisions and predict outcomes. This technique involves placing a catheter into a peripheral artery, such as the facial or transverse facial artery, to facilitate serial sampling without repeated punctures, which is particularly valuable in critical cases where metabolic derangements can rapidly progress. Thoracostomy tubes serve as essential cannulas for pleural in small animal , addressing conditions like or by evacuating air or fluid from the to restore expansion and respiratory function. These tubes, typically sized 14-20 French (Fr) for cats and small dogs, are inserted via a modified or method into the pleural space, often connected to a Heimlich valve or underwater seal for controlled . Selection of tube diameter balances efficacy in fluid removal with minimization of , with smaller-bore options (14-16 Fr) preferred in felines to reduce insertion complications. For diagnostic purposes, bone marrow aspiration employs specialized Jamshidi-type cannulas, which feature a trocar and cutting edge for obtaining core samples from sites like the iliac crest or humerus in dogs and cats. These needles, gauged at 15-18 for animals under 5 kg, allow precise penetration of cortical bone to extract marrow for cytological evaluation in cases of suspected hematologic disorders. Similarly, joint lavage for septic arthritis utilizes indwelling cannulas or needles (often 14-16 gauge) inserted through multiple portals to irrigate the synovial cavity with sterile saline, flushing out purulent material and debris to improve antibiotic penetration and reduce bacterial load. This procedure, performed under arthroscopic guidance or percutaneously, is standard in equine and small animal orthopedics to mitigate joint destruction. Species-specific adaptations are critical for intraosseous cannulation in neonatal patients, where peripheral veins may collapse due to or , necessitating emergency vascular access. In puppies and kittens, 18-20 needles are inserted into the tibial crest (proximal ) or other flat bones, providing a rapid conduit for fluids, medications, or blood products directly into the . This site is favored in neonates for its superficial accessibility and lower risk of neurovascular damage compared to long bones. Risks associated with cannulation vary by species; for instance, cats exhibit a higher incidence of with arterial catheters, reported in up to 24% of cases due to their smaller vessel diameter and hypercoagulable tendencies, potentially leading to or if not monitored closely. Post-operative care emphasizes securement to mitigate dislodgement, with light bandaging or tape applied over the insertion site to immobilize the cannula while allowing inspection for signs of or leakage, typically changed every 24-48 hours or if soiled. Fluid administration through these cannulas often supports procedural stability, such as maintaining during .

Aesthetic and Cosmetic Applications

Dermal Filler Injections

Blunt cannulas are employed in dermal filler injections to facilitate safe subcutaneous placement of fillers for cosmetic enhancement, minimizing compared to traditional . The technique typically begins with creating a single entry point using a small (27-30 ), through which the blunt cannula is inserted and advanced to the target depth in the subcutaneous layer. Once positioned, the cannula is maneuvered in a fan-like pattern to distribute the filler evenly, allowing for broader coverage from one puncture site, such as in the cheeks or nasolabial folds. This method offers significant advantages, including a markedly reduced of vascular ; multivariate analysis from a large survey indicates that cannula injections have 77.1% lower odds of vascular compared to needle injections, with overall occlusion rates remaining very low but favoring cannulas by a factor of approximately 6:1. Additionally, blunt cannulas result in less bruising, ecchymosis, and swelling post-procedure, particularly in high-risk areas like the nasolabial folds, due to fewer entry points and reduced vessel penetration—studies report bruising incidence of 19-68% with needles in general filler treatments. Cannulas used in these procedures are generally 22-27 in and 25-50 mm in length, constructed from flexible with a blunt tip and often featuring side ports for optimal filler flow; they are compatible with hyaluronic acid-based fillers, administered in typical volumes of 1-3 mL per treatment site to achieve natural augmentation. Effective use of this technique requires specialized training and certification for healthcare providers, such as physicians or nurse practitioners, to ensure anatomical knowledge and precise placement; inadequate training contributes to complications like the , a bluish discoloration from superficial or excessive placement leading to light scattering in the .

Anti-Aging and Rejuvenation Treatments

In anti-aging and rejuvenation treatments, cannulas play a key role in procedures such as fat grafting and thread lifts, enabling minimally invasive of volume and skin tightness. Fat grafting, also known as autologous fat transfer, involves harvesting from donor sites like the or thighs using cannulas typically measuring 3-5 mm in diameter to minimize trauma to adipocytes. The harvested fat is then purified through methods like or to remove blood, oil, and debris, before being reinjected via finer cannulas (1-2 mm) into areas of volume loss for natural contour . Graft survival rates in applications generally range from 50-70%, with long-term viability depending on factors such as vascular integration and injection technique. Thread lifts utilize cannula-guided insertion of absorbable (PDO) threads, often in gauges of 26-30G, to provide mechanical support and stimulate production for skin tightening. These blunt-tipped cannulas, similar to those employed in filler techniques for reduced tissue disruption, create entry points and guide threads along precise trajectories in multiple planes, from subdermal layers to the superficial musculoaponeurotic system (SMAS). The procedure addresses indications including facial volume loss, sagging skin, and wrinkles, particularly in the midface and lower face, offering a non-surgical alternative to traditional lifts. Outcomes for both fat grafting and thread lifts emphasize natural-looking rejuvenation with minimal downtime, typically allowing patients to resume normal activities within days. lifts provide lifting effects lasting 12-18 months as the PDO material dissolves and induces neocollagenesis, while fat grafting yields semi-permanent volume enhancement once surviving grafts integrate. Risks are low, but include potential asymmetry, with revision rates around 5-6% in reported series, often correctable through minor adjustments.

Body Modification

Piercing Techniques

In body piercing, the cannula technique involves using a encased in a plastic , typically ranging from to 18 gauge, to create a precise through the for jewelry insertion. The piercer first marks the entry and exit points on , applies a to stabilize the area, and advances the cannula needle through the in a single motion. Once the is pierced, the inner needle (stylet) is removed, leaving the flexible plastic in place to maintain the open without further to surrounding tissues. The chosen jewelry, such as a or stud, is then slid directly through the , after which the is carefully withdrawn, allowing the jewelry to remain positioned accurately. This method is particularly suited for piercings like the , , and , where the cannula's design facilitates smooth insertion while minimizing distortion of the piercing site. Sterilization is a critical step in the cannula piercing to prevent ; disposable cannulas are provided sterile from the manufacturer, while reusable tools like clamps are autoclaved using standard cycles such as 121°C for 15 minutes or 134°C for 3-4 minutes at appropriate pressures prior to use. During the procedure, the piercer wears sterile gloves, and the skin is cleansed with an such as 70% . Professional piercers do not recommend the use of numbing agents like topical lidocaine, as they can increase and risks. Post-procedure, aftercare emphasizes cleaning the piercing twice daily with sterile saline soaks or sprays to promote healing and remove crust buildup, avoiding irritants like or ointments that could hinder recovery. The cannula method offers advantages over traditional taper pin techniques, where a pointed jewelry end is forced through the , as the provides a stable, lubricated pathway that reduces tearing and . This results in less overall , particularly beneficial for delicate areas like the or , leading to decreased swelling and faster initial recovery compared to methods using piercing guns. Healing times vary by site: piercings typically heal in 6–8 weeks, in 2–6 months (up to 1 year), and in 6–8 weeks, influenced by factors such as individual healing response and adherence to aftercare. Body piercing with cannulas must be performed by trained professionals in licensed studios to comply with health regulations, as unlicensed procedures increase risks of or improper placement. A key risk is , which can occur if an oversized —such as starting with a 14G when a 16G is appropriate—is used, causing excessive tension on the healing and potential embedding or rejection. Initial piercings often start with a larger like 16G for stability, with downsizing to 18G after partial to prevent such complications. This technique shares design similarities with intravenous cannulas used in medical settings, adapting the for non-medical .

Tattoo and Scar Revision Aids

In tattooing, needle configurations are grouped into arrangements such as 3 to 14 for precise and shading applications, allowing artists to deposit in varying densities and patterns. These sterile, disposable needles are essential for minimizing cross-contamination risks during procedures. Techniques emphasize controlled depth penetration of approximately 1 to 2 mm to reach the upper , ensuring retention while avoiding excessive trauma to the . selection influences longevity, with inorganic pigments offering greater stability and fade resistance compared to ones, which provide brighter initial colors but may diminish over time. For scar revision, subcision employs 18- to 22-gauge cannulas to mechanically disrupt fibrous bands tethering atrophic scars to underlying tissue, promoting remodeling and scar elevation. This is often followed by dermal filler injection to restore volume and smooth contours. Safety protocols, including single-use disposables and barrier protections like gloves, reduce and transmission risks to very low levels in regulated settings. Post-procedure care involves moisturizing, gel application, and sun avoidance to prevent formation, particularly in prone individuals.

Non-Medical Applications

Laboratory and Research Uses

In laboratory and settings, cannulas are essential tools for precise handling, enabling the sampling, transfer, and injection of liquids while minimizing and ensuring in experiments. These devices, often constructed from or metal for durability in repeated use or disposable plastics for single-use applications, facilitate workflows in biological, chemical, and analytical . Their design allows for controlled flow rates and compatibility with sterile environments, supporting a range of protocols from animal model studies to assays. For sampling purposes, glass or metal cannulas are commonly employed in collection and microfluidic applications within laboratories. In small , such as those involving mice, a 24-27 cannula or needle is frequently used for in the tail or to obtain serial samples with minimal to the . This approach, often involving temporary cannulation, reduces stress on the animal and risks compared to direct needle punctures, particularly in longitudinal pharmacokinetic or experiments. Microfluidic setups utilize fine-bore cannulas to handle microliter volumes of fluids, enabling high-throughput sampling in or . In protocols, cannula-based transfer systems are utilized for aseptic media exchange to prevent during cell maintenance and expansion. Blunt-ended cannulas, typically in sizes ranging from 16 to 22 gauge, connect to syringes or tubing for safe aspiration and dispensing of culture media without coring or introducing particulates that could harm adherent or suspension cells. These systems are particularly valuable in bioreactor-scale cultures, where gravity-fed or pump-assisted transfers maintain sterility over extended periods, supporting applications in and development. Cannulas also play a key role in analytical techniques, such as , where they are integrated into sample injection setups to deliver precise volumes into columns or detectors. Disposable plastic cannulas with luer-lock fittings are preferred to eliminate carryover between samples, ensuring baseline purity in (HPLC) or gas chromatography-mass spectrometry (GC-MS) analyses of complex mixtures like metabolites or environmental pollutants. Their single-use nature complies with (GLP) standards, reducing cross-contamination risks in multi-sample workflows. Laboratory protocols for cannula use emphasize strict aseptic handling to safeguard experimental integrity and personnel safety. This includes surface disinfection, use of sterile gloves, and work within hoods to avoid airborne contaminants during insertion, transfer, or withdrawal. In animal research involving cannulas, ethical oversight is provided by Institutional Animal Care and Use Committees (IACUC), which mandate protocols for minimizing pain, such as during cannulation and limits on blood volume extraction, such as no more than 1% of circulating per collection every 24 hours, 7.5% every 7 days, or 10% every 2-4 weeks in , as per NIH guidelines. These guidelines, aligned with the Guide for the Care and Use of Laboratory Animals, ensure humane treatment and scientific validity in studies requiring vascular access.

Industrial and Recreational Uses

In industrial applications, cannula-like probes are employed for fluid sampling in sectors such as and gas extraction, where they facilitate the collection of representative samples from pipelines or reservoirs to monitor quality and composition. These probes, often constructed as insertion tubes, extract liquids or gases while filtering out contaminants like dust or scale to ensure sample integrity. For instance, in sampling, specialized probes enable proactive maintenance by allowing accurate without contaminating the process stream. Similarly, in gas handling, heated or preconditioned cannula probes draw samples for analysis, preventing and maintaining flow in high-pressure environments. In additive manufacturing, particularly , micro-tubular nozzles analogous to small-diameter cannulas (typically 0.1-1 mm) are used for precise , controlling material deposition at the micron scale. These nozzles, often made from durable metals like or , extrude molten polymers through a narrow to build layered structures, with design variations enabling flow for multimaterial prints. Such components enhance resolution and efficiency in producing complex geometries, though they require materials resistant to abrasion from filaments. Industrial cannulas and probes commonly utilize non-biocompatible materials like (PVC) for flexibility and chemical resistance, or metals such as for superior durability under high pressures and temperatures. PVC offers cost-effective performance in fluid transfer lines, maintaining integrity without cracking, while metal variants provide longevity in corrosive environments, outperforming plastics in strength for heavy-duty applications. In recreational contexts, (or ) stems function as rudimentary cannulas, serving as hollow tubes that channel flavored smoke from the water base to the user for . Typically crafted from metal or , these stems connect the bowl to the base, allowing cooled vapor to pass through a submerged downstem for . Egyptian-style stems, for example, feature a simple encased in decorative metal, facilitating smooth airflow during sessions that can last up to an hour. DIY vaping enthusiasts occasionally incorporate cannula-style tubing in custom builds to route or e-liquid, though this is less common than wire constructions; such adaptations use flexible PVC or tubes for durability in portable devices. However, safety concerns with use include exposure to from , , and other components, with studies detecting significantly higher blood concentrations of lead, , and urinary in consumers compared to non-smokers. The evolution of industrial cannulas traces back to 19th-century advancements in tubular fluid handling, where early metal probes and pipes emerged for basic extraction and transfer in emerging industries like and , evolving into automated sampling systems by the . Initial designs drew from wire gauge standards developed in early 1800s for precise tubing diameters, enabling reliable fluid lines before modern integrations.

References

  1. [1]
    Cannula: Definition, types, purpose, and more - MedicalNewsToday
    Mar 25, 2021 · A cannula is a thin tube that doctors insert into a person's body cavity, such as their nose, or into a vein. Doctors use them to drain fluid, administer ...Missing: authoritative | Show results with:authoritative
  2. [2]
    cannula | Taber's Medical Dictionary - Nursing Central
    (kăn′ū-lă ) [L., a small reed] A tube or sheath that encloses a trocar. After the device is inserted into a blood vessel, body cavity, duct, or hollow organ, ...Missing: authoritative | Show results with:authoritative
  3. [3]
    Peripheral Line Placement - StatPearls - NCBI Bookshelf - NIH
    Peripheral intravenous (IV) lines, catheters or cannulas are indwelling single-lumen plastic conduits that allow fluids, medications and other therapies such as ...Peripheral Line Placement · Technique Or Treatment · Clinical Significance
  4. [4]
    Nasal Cannula: Oxygen, Flow Rate, Benefits & How To Use
    A nasal cannula is a device that delivers extra oxygen through a tube and into your nose. They help people who are having difficulty breathing due to a medical ...
  5. [5]
    Cannula, trocar, ophthalmic - Product Classification - FDA
    Definition. The trocar/cannula set is a manual surgical instrument intended for use as single-use, disposable cannula system for establishing an entry site ...
  6. [6]
    Cannulation techniques for extracorporeal life support - PMC
    Large bore cannulas (23–31 Fr) are used for venous drainage whereas smaller (15–19 Fr) are sufficient for venous return. The tips of the cannulas should be at ...Central Ecmo Cannulation · Peripheral Va-Ecmo · Vv-Ecmo Cannulation
  7. [7]
    Cannula - Etymology, Origin & Meaning
    Cannula, from Latin cannula meaning "small reed or pipe," originated in the 1680s as a tubular surgical instrument inserted in the body to drain fluid.
  8. [8]
    cannula, n. meanings, etymology and more - Oxford English Dictionary
    OED's earliest evidence for cannula is from 1616, in Treat. Princ. Dis. Eyes. cannula is a borrowing from Latin. Etymons: Latin cannula.
  9. [9]
    https://www.anesthesiologynews.com/Review-Articles/Article/07-21/A-Brief-History-of-Resuscitation-and-Tracheotomy/63985
  10. [10]
    Origin of the Cannula for Tracheotomy During the Middle Ages and ...
    Feb 7, 2012 · Tracheotomy is mentioned in most ancient medical texts, but the origin of cannula insertion into the windpipe is unclear.<|separator|>
  11. [11]
    Modern developments--plastic cannulas and the court butterfly needle
    Modern developments--plastic cannulas and the court butterfly needle. Anaesth Intensive Care ... History, 20th Century; Humans; Plastics. Substances. Plastics.
  12. [12]
    IV Catheter Size and Flow Rates | Lippincott NursingCenter
    Feb 27, 2025 · Peripheral IV catheters come in different diameters, measured in gauge (G). The smaller the gauge number, the larger the catheter diameter ...
  13. [13]
    Parts of Cannula: A Comprehensive Guide By Denex International
    Jan 5, 2024 · The parts of a cannula include: Luer Lock Plug, Flashback Chamber, Needle Grip, Luer Connector, Wings, Valve, Injection Port, Bushing, Catheter ...Missing: shaft bevel stylet materials
  14. [14]
    [PDF] May 17, 2018 Dimesol, Inc. Courtney J. Miller, J.D., LL.M. Partner ...
    May 17, 2018 · following structural components: (1) a protective polypropylene cap for the cannula; (2) a cannula. (arterial or venous); (3) a hub; (4) a ...
  15. [15]
    [PDF] Use of International Standard ISO 10993-1, "Biological evaluation of ...
    Sep 8, 2023 · This FDA guidance document, issued September 8, 2023, covers the use of ISO 10993-1 for biological evaluation of medical devices within a risk ...
  16. [16]
    IV Cannula Sizes,Colors, Flow Rates and Usage - Denex International
    Dec 13, 2023 · The length of an IV cannula is denoted by the gauge, with lower gauge numbers indicating larger cannulas. Commonly used sizes include 14G, 16G, ...Components Of An Iv Cannula · Iv Cannula Sizes · Iv Cannula Colors And Iv...
  17. [17]
    What Are the Best Biocompatible Materials for Extracorporeal ... - NIH
    Jun 19, 2025 · This review provides an updated overview of the latest advancements in VA-ECMO materials, focusing on cannula, oxygenators, and centrifugal pumps.
  18. [18]
    [PDF] INTERNATIONAL STANDARD ISO 10555-5
    Jun 15, 2013 · The catheter unit shall be colour coded in accordance with Table 1 to indicate the nominal outside diameter of the catheter tube. 4.3.2 Catheter ...
  19. [19]
    Sterilization for Medical Devices - FDA
    Medical devices are sterilized in a variety of ways including using moist heat (steam), dry heat, radiation, ethylene oxide (EtO) gas, vaporized hydrogen ...Missing: IV cannula components hub shaft bevel stylet polyurethane teflon gauge color coding
  20. [20]
    Medical Device Sterilization | STERIS AST
    Medical device sterilization is the process of eliminating microbial life from medical devices to ensure they are safe for use.Missing: cannula | Show results with:cannula
  21. [21]
    Peripheral venous access in adults - UpToDate
    Aug 18, 2025 · This topic will discuss the indications, contraindications, performance, and complications of peripheral venous catheter placement without the ...Missing: procedure | Show results with:procedure
  22. [22]
    How To Do Peripheral Vein Cannulation - Critical Care Medicine
    In peripheral vein cannulation, a plastic catheter (cannula) is inserted into a peripheral vein, typically using a catheter-over-needle device.
  23. [23]
    Intravenous Cannulation: Background, Indications, Contraindications
    Apr 17, 2023 · Peripheral venous access in an injured, infected, or burned extremity should be avoided if possible. Some vesicant and irritant solutions (pH < ...
  24. [24]
    Occurrence and incidence rate of peripheral intravascular catheter ...
    Jan 6, 2021 · The most common and important PIVC-related complication is phlebitis, which occurs with 7–44% of catheters [13,14,15,16]. The occurrence of PIVC ...
  25. [25]
    [PDF] Bloodstream Infection Event (Central Line-Associated ... - CDC
    Rates and Ratios: The CLABSI rate per 1000 central line days is calculated by dividing the number of CLABSIs by the number of central line days and ...
  26. [26]
    Intravenous Cannulation Technique - Medscape Reference
    Apr 17, 2023 · Approach Considerations. Use properly fitted nonsterile gloves and eye protection device to prevent exposure via accidental blood splashes. The ...Insertion of Intravenous Catheter · Removal of Intravenous CatheterMissing: sterilization | Show results with:sterilization<|control11|><|separator|>
  27. [27]
    Seldinger Technique - LITFL
    May 8, 2025 · The Seldinger technique allows for the insertion of a catheter larger in diameter than the needle originally utilized. The Seldinger guide wire ...
  28. [28]
    Summary of Recommendations | Infection Control - CDC
    Feb 28, 2024 · Use ultrasound guidance to place central venous catheters (if this technology is available) to reduce the number of cannulation attempts and ...3. Hand Hygiene And Aseptic... · * 4. Maximal Sterile Barrier... · * 6. Catheter Site Dressing...<|control11|><|separator|>
  29. [29]
    [PDF] Central Line Insertion Practices (CLIP) Adherence Monitoring - CDC
    Central line-associated bloodstream infections (CLABSIs) may be prevented through proper placement and management of the central line.1-4 The CDC's Healthcare ...
  30. [30]
    Chapter 11 Oxygen Therapy - Nursing Skills - NCBI Bookshelf
    Flow rate: Nasal cannulas can have a flow rate ranging from 1 to 6 liters per minute (L/min), with a 4% increase in FiO2 for every liter of oxygen, resulting in ...
  31. [31]
    Oxygen Administration - StatPearls - NCBI Bookshelf - NIH
    Jan 22, 2025 · Oxygen is essential for maintaining normal cell function, and its absence can lead to hypoxia, which may result in multisystem dysfunction, ...
  32. [32]
    High-Flow Nasal Cannula - StatPearls - NCBI Bookshelf - NIH
    High-flow nasal cannula (HFNC) therapy is an oxygen supply system capable of delivering up to 100% humidified and heated oxygen at a flow rate of up to 60 ...
  33. [33]
    Tracheostomy Tube Change - StatPearls - NCBI Bookshelf
    Feb 14, 2024 · The only absolute contraindication for changing a tracheostomy tube is if the stoma is not fully matured. Potential contraindications include:.
  34. [34]
    Tracheostomy Tubes
    The cap is typically placed on the end of the 15mm hub of a deflated cuff or cuffless tracheostomy tube. Some inner cannulas may be removed to place a cap.
  35. [35]
    Shiley™ Flexible Adult Tracheostomy Tube - Medtronic
    Shiley™ flexible tracheostomy tube with disposable or reusable inner cannula options are available in cuffed and cuffless configurations.
  36. [36]
    A Novel Weaning Protocol for High-Flow Nasal Cannula in the PICU
    Our study suggests that a high-flow nasal cannula "holiday" protocol is a safe and effective way to successfully wean PICU patients off high-flow nasal ...
  37. [37]
    [PDF] The effect of high flow nasal cannula weaning protocol on ... - ThinkIR
    Jul 24, 2019 · The weaning protocol was initiated when the patient required oxygen of 40% or less, with saturations greater than 90. %, and respiratory rate ...
  38. [38]
    Cannulation for Cardiopulmonary Bypass - IntechOpen
    Based on the surgical procedure, it must be determined if the distal ascending aorta is an appropriate cannulation site. Instances where this may not be the ...1. Introduction · 4. Preoperative Imaging · 6. Steps To CannulationMissing: Fr | Show results with:Fr
  39. [39]
    Cannulation strategies in aortic surgery: techniques and decision ...
    Unlike traditional cardiac operations, aortic pathology may preclude distal ascending aorta for cannulation and an alternative cannulation site is needed.Missing: placement | Show results with:placement
  40. [40]
    [PDF] Cannulae Product Catalog 2020 - Medtronic
    Our adult and pediatric arterial cannulae are available in sizes from 6. Fr to 24 Fr in a variety of tip configurations, lengths, and connector sizes to meet ...
  41. [41]
    Arterial Lines - StatPearls - NCBI Bookshelf - NIH
    Mar 23, 2025 · Arterial lines are crucial for continuous hemodynamic monitoring and frequent arterial blood sampling in critically ill and perioperative ...Arterial Lines · Anatomy And Physiology · Technique Or Treatment
  42. [42]
    Arterial Pressure Monitoring - StatPearls - NCBI Bookshelf - NIH
    Mar 19, 2023 · Another factor that affects the accuracy of data is the damping of the system (see Figure. Damping of Arterial Pressure Waveform). This is ...
  43. [43]
    Suction Drains - StatPearls - NCBI Bookshelf - NIH
    Feb 23, 2025 · Suction drains play a crucial role in postoperative care by removing excess fluids such as blood, serum, and lymph from surgical sites.Missing: cannula | Show results with:cannula
  44. [44]
    Jackson-Pratt (JP) Drain: What It Is, Care & Removal - Cleveland Clinic
    A Jackson-Pratt (JP) drain is a surgical suction drain that gently draws fluid from a wound to help you recover after surgery.Missing: cannula assisted
  45. [45]
    Risk factors for cannula-associated arterial thrombosis following ...
    Aug 23, 2023 · The primary risk factors identified for such complications are female gender, younger age, and preexisting peripheral vascular disease.
  46. [46]
    Intraoperative aortic dissection - PMC - NIH
    Intraoperative aortic dissection is a rare but fatal complication of open heart surgery. By recognizing the population at risk and by using a gentle operative ...
  47. [47]
    Aortic Dissection as a Complication of Cardiac Surgery: Report From ...
    Aortic dissection is a rare but catastrophic complication of cardiac surgery. Femoral cannulation is associated with an increased frequency of this complication ...
  48. [48]
    Long-term Urinary Catheter Users Self-Care Practices and Problems
    Balloon size varied from 5–30 mL with 70% being 5–10mL; the water within the ... rates per 1000 catheter use days for CAUTI, blockage, and dislodgement.Missing: volume | Show results with:volume
  49. [49]
    Ultrasound-Guided Percutaneous Core Needle Biopsy of Abdominal ...
    In general, USPCB can be successfully performed using an 18-gauge needle with an automated spring-loaded biopsy gun to obtain sufficient tissue samples (7,14,18 ...Missing: pubmed. | Show results with:pubmed.
  50. [50]
    Musculoskeletal Aspiration Procedures - PMC - NIH
    Arthrocentesis is defined as the puncture of a joint with subsequent aspiration of joint fluid. There are many indications for arthrocentesis, the most common ...
  51. [51]
    Single-Incision Laparoscopic Surgery (SILS) in Biliary and ...
    The best combination of instruments required for SIMPLE typically includes three or four ports, each 5 mm or smaller in diameter. The placement of multiple ...
  52. [52]
    Intravenous (IV) catheter placement - WVS Academy
    In this article we give an overview of types of catheters, key principles for catheter maintenance and a step-by-step guide to placement.
  53. [53]
    Placing IV Catheters - Hints, Tips and Avoiding Common Mistakes ...
    Mar 7, 2018 · 1. Select an appropriate vein. Peripheral indwelling IV catheters are most commonly placed in the cephalic vein in dogs and cats.
  54. [54]
    Intravenous Catheters: Which, Where, Why, and How? - FVMA
    Intracaths are usually inserted in the lateral or medial saphenous vein. Site selection and preparation is the same as described above for pIVCs. Sterile gloves ...
  55. [55]
    What, When, and How Much of Fluid Therapy - VIN
    This can be simplified by using 2–6 ml/kg/h for dogs and 2–3 ml/kg/h for cats as a rule of thumb for maintenance requirements.
  56. [56]
    Choosing the correct I.V catheter - B. Braun VetCare
    For example, if the catheter size chosen is 0.7mm (24G) then the vein should be around 1.4mm. A catheter that is too large for the vein, is an obstruction.
  57. [57]
    https://lafeber.com/vet/how-to-guide-intravenous-catheter-placement-in-the-bird/
  58. [58]
    IV Catheters for Dogs: What Are They, and How Do You Care For ...
    Jul 18, 2024 · Preparation for IV Catheters for Dogs. There are no specific preparations that a pet parent should do at home before an IV catheter placement.<|control11|><|separator|>
  59. [59]
    Uncommon IV Catheter Sites in Small Animals
    Nov 18, 2022 · The most common “go to” site for intravenous (IV) access in small animal patients is the cephalic vein. However, what happens if this vein is ...
  60. [60]
    Arterial Blood Gas, Electrolyte and Acid-Base Values as Diagnostic ...
    Oct 17, 2023 · The study aimed to investigate if arterial blood analysis in conscious horses presenting with signs of colic and breathing ambient air had diagnostic or ...
  61. [61]
    Colic Surgery: Testing and Procedure - Mid-Rivers Equine Centre
    Jan 30, 2016 · The horse's vital signs are continually monitored with an EKG, a pulse oximeter, and an arterial catheter is placed for blood pressure ...
  62. [62]
    The use of small-bore wire-guided chest drains for the management ...
    Thoracostomy drains are divided into large-bore thoracostomy tubes (LBTTs) (14–16 Fr for cats and 24–26 Fr for dogs) (Drobatz et al., 2018) and small-bore ...
  63. [63]
    https://www.vin.com/apputil/content/defaultadv1.aspx?pId=20539&catId=113449&id=8506453
  64. [64]
    Bone Marrow Aspirate - Dick White Referrals
    The size of needle should be appropriate to the patient and the site being aspirated. Animal size, Suggested Jamshidi Needle. Cats / Dogs <5kg, 16 – 18 gauge.Missing: cannulas | Show results with:cannulas
  65. [65]
    Comparison of Arthroscopic Lavage and Needle Lavage ...
    Jan 15, 2016 · Higher lavage flow rates were achieved with arthroscopic lavage than needle lavage, likely because of the larger cannulas used. Despite this ...
  66. [66]
    Clinical findings and diagnostic test results for calves with septic ...
    Apr 15, 2018 · Treatments. Joint lavage was performed by use of needles, teat cannulas, and arthrotomies; during arthroscopic surgery; or some combination ...
  67. [67]
    How to place an intraosseous catheter in a puppy or kitten - VETgirl
    Sep 6, 2017 · The most common sites for intraosseous access include the trochanteric fossa of the femur, the greater tubercle of the proximal humerus, the ...
  68. [68]
    Management of the Neonate in Dogs and Cats
    The proximal humerus, trochanteric fossa of the femur, and proximomedial tibia offer intraosseous sites for drug administration. DeLee Aspirator.<|separator|>
  69. [69]
    Incidence of arterial catheter complications: a retrospective study of ...
    May 18, 2018 · The aim of this study was to investigate the incidence of complications associated with arterial catheterization in cats in a veterinary hospital.
  70. [70]
    Placement and maintenance of peripheral intravenous catheters to ...
    May 29, 2019 · Carefully secure the catheter with tape and cover it with sterile bandage materials. Povidone iodine ointment may be applied at the site of ...
  71. [71]
    Tear Trough Filler Using the Three-point Tangent Technique - NIH
    Jun 9, 2023 · A blunt cannula is used to reduce tissue trauma and the risk of complications. The benefit of our technique is that the curved nasojugal and ...
  72. [72]
    Filler injections with the blunt-tip microcannula - PubMed
    Using the blunt-tip microcannula as an alternative to the hypodermic needles has simplified filler injections and produced less bruising, echymosis, and pain ...
  73. [73]
    Rates of Vascular Occlusion Associated With Using Needles vs ...
    Dec 30, 2020 · Multivariate analysis found that injections with cannula had 77.1% lower odds of occlusion compared with needle injections. Participants ...Missing: advantages | Show results with:advantages
  74. [74]
    Minimizing Bruising Following Fillers and Other Cosmetic Injectables
    Larger cannula needles are more likely to transect blood vessels and cause bruising. Due to particle size, some fillers require the use of larger caliber ...
  75. [75]
    The Use of a 27-Gauge Cannula in Aesthetic Medicine - PMC - NIH
    Two publications recommended larger gauge cannulae for safer dermal filler treatments based on the decreased ability of larger cannulae to penetrate cadaver ...
  76. [76]
    Research Letter: The flexible needle, a safe and easy new ...
    Sep 2, 2010 · Flexibility is possible due to a very thin wall made of stainless steel. It enables us to inject into the skin most of the filling agents, with ...
  77. [77]
    Efficacy and Safety of Resilient Hyaluronic Acid Fillers Injected with ...
    Apr 6, 2023 · Safety and effectiveness of injection of calcium hydroxylapatite via blunt cannula compared to injection by needle for correction of nasolabial ...Missing: length | Show results with:length
  78. [78]
    Patient factors influencing dermal filler complications - NIH
    Small-bore needles are recommended by some to slow the injection rate27 and blunt needles/cannulas in high-risk regions to reduce vessel injury.
  79. [79]
    Management of Tyndall Effect - PMC - NIH
    The Tyndall effect is used to describe the bluish hue that is visible within the skin caused by too superficial placement of hyaluronic acid (HA) filler.
  80. [80]
    Fat Graft Size: Relationship Between Cannula and Needle Diameters
    Apr 9, 2020 · When fat is grafted to the torso or breasts, a 3- to 5-mm cannula is commonly used; larger particles of fat (2 to 3 mm) are then aspirated. The ...Missing: rejuvenation | Show results with:rejuvenation
  81. [81]
    Current Fat Grafting Practices and Preferences: A Survey...
    Mar 29, 2023 · For injection of fat, 87.1% of respondents prefer 1- to 2-mm cannulas. Handheld syringes/cannulas were the preferred device by all the surgeons ...
  82. [82]
    Facial aesthetic fat graft retention rates after filtration, centrifugation ...
    Fat grafting retention varied from 21% to 82%. We found filtration and centrifugation techniques could result in better retention outcomes. However, retention ...
  83. [83]
    What Gauge of PDO Threads is Used for Different Thread Lifts?
    PDO mono threads with gauges ranging from 26-31G and have lengths of 12-60mm are used primarily for skin rejuvenation and skin tightening.
  84. [84]
    Outcomes in Thread Lift for Facial Rejuvenation: a Study Performed ...
    Jan 17, 2014 · The incidence of complications was low. Only 6% of the patients had slight post-operation asymmetry that was easily corrected. Minor ...
  85. [85]
    Fat Grafting for Facial Rejuvenation - PMC - PubMed Central - NIH
    Fat grafting provides volumetric rejuvenation to the face while surgical lift effectively repositions and removes ptotic and redundant tissue.
  86. [86]
    PDO Thread Lift Procedure, Benefits, and Side Effects - Healthline
    Feb 18, 2021 · A PDO thread lift is a procedure that uses dissolvable sutures to rejuvenate and lift sagging skin. It's a cheaper and faster alternative to facelift surgery.Missing: 26- 30G
  87. [87]
    https://bloodywolftattoosupply.com/products/cannula-needles
  88. [88]
    https://www.painfulpleasures.com/blogs/help-center/typical-piercing-sizes
  89. [89]
    [PDF] Intravenous cannula for sterile ear piercing - Our Dermatology Online
    Oct 9, 2022 · The ear piercing technique was shown on a video clip available at the editorial office. The intravenous cannula is a cheap and sterile solution.
  90. [90]
    Aftercare - Association of Professional Piercers
    Mixing your own sea salt solution will commonly result in the product being far too salty and strong, this can over dry the piercing and interfere with healing.
  91. [91]
    Piercing Guns - Association of Professional Piercers
    The effect on the body is more like a crush injury than a piercing and causes similar tissue damage. ... piercing technique which creates less trauma and swelling ...Missing: cannula advantages
  92. [92]
    Piercing FAQ - Association of Professional Piercers
    When performed by a skilled and experienced professional using appropriate sterile, disposable instruments the risks are minimal and the procedure is ...Missing: oversized | Show results with:oversized
  93. [93]
    Jewelry for Initial Piercings - Association of Professional Piercers
    Must be of an appropriate gauge (thickness). The body may treat jewelry that is too thin in gauge like a splinter, resulting in migration or rejection. Must be ...Missing: oversized | Show results with:oversized
  94. [94]
    Tattoo Needle Guide | Needle Types & Sizes - Barber DTS
    Nov 21, 2019 · Sterile Body Jewellery Sterile Piercing Needles Disposable Piercing Equipment Jewellery Displays Piercing Aftercare ... All these options fall ...
  95. [95]
    https://safepiercing.org/jewelry-for-initial-piercings/
  96. [96]
    https://www.barberdts.com/uk/advice-hub/tattoo-needle-guide/
  97. [97]
    https://vladblad.com/blog/tattoo-needle-guide/
  98. [98]
    Can Subcision with the Cannula be an Acceptable Alternative ... - NIH
    The 18-gauge spinal needle Cannula was used for Subcision of scars. The Cannula was inserted into the superficial dermis and passed through the sub-dermal ...Missing: 22G | Show results with:22G
  99. [99]
    Taylor Liberator Subcision For Acne Scars - Dr Davin Lim
    This procedure is best reserved for severe tethered scars involving facial areas. Subcision is often combined with lasers, RF microneedling & deep focal peels.
  100. [100]
    Subcision for Acne Scars - NYC - Dr. Michele Green M.D.
    Then, Dr. Green will insert an 18- or 20-gauge needle or cannula at an acute angle next to the scar, with the bevel of the needle pointed upwards ...Missing: 22G | Show results with:22G
  101. [101]
    Can You Get HIV From a Tattoo or Body Piercing? - Verywell Health
    According to the Centers for Disease Control and Prevention (CDC), the risk of HIV through tattooing or body piercing is considered low to negligible. While the ...
  102. [102]
    Keloid Tattoo: When Scars Form, Tattooing Over Keloids, More
    Sep 14, 2018 · As soon as the tattoo heals, cover the area with silicone sheets or gel. Silicone can help slow the activity of fibroblasts and collagen ...Keloid · Tattoo around keloid · Prevention · Treatment
  103. [103]
    Keloid scars: Self-care - American Academy of Dermatology
    Dec 5, 2023 · After the wound scabs, apply silicone gel sheets or silicone gel. You can buy both of these products without a prescription. They can help ...
  104. [104]
    Oil Sampling Probes - US Petrolon Industrial
    Aids accurate oil sampling with proper sampling procedures · Allows proactive maintenance decisions to be made accurately and dependably ...
  105. [105]
    Sample probes for liquid and gas take-off - Mechatest
    A sample probe nozzles works as a filter, keeping dust, pipe scale and entrained liquid drops out of the extracted fluid sample.
  106. [106]
    [PDF] Sample Probe Module Application Guide - Swagelok
    Using sample probes in conjunction with sample probe valves can improve safety, sample purity, and timeliness.
  107. [107]
    https://oacu.oir.nih.gov/system/files/media/file/2022-12/b2-Survival_Blood_Collection_Mice_Rats.pdf
  108. [108]
    Novel design for an additively manufactured nozzle to produce ...
    In this study, a methodology for designing and manufacturing a nozzle that can be fitted onto a fused filament fabrication 3D printer is proposed.Missing: cannula | Show results with:cannula
  109. [109]
    Medical-Grade PVC & Polymers for Healthcare & Life Sciences
    Our medical-grade PVC compounds offer biocompatibility, chemical resistance, & flexibility for IV tubing, medical enclosures, & life-saving devices.
  110. [110]
    Choosing the Right Material: Metal Piping vs Plastic Piping
    Mar 19, 2019 · One of the main benefits of utilizing metal piping is that metal is hard and generally lasts longer than its plastic counterpart.
  111. [111]
    Hookah Basics: Hookah Stem Styles – zahrahusa.com
    Jan 19, 2021 · The hookah stem, also known as the pipe, is the central piece that connects the base, the bowl, the tray, and the hose.
  112. [112]
    The Definitive Guide to Hookah Stem Types
    Oct 3, 2023 · First is the classic Egyptian stem. Hookahs, like the Khalil Mamoon pictured here, consist of a simple, straight piece of pipe surrounded by an ...
  113. [113]
    Examining of Heavy Metal Concentrations in Hookah Smokers
    Sep 23, 2022 · The mean levels of blood for lead, arsenic, and urinary thallium in hookah users are significantly higher than the control group (p < 0.05). ...
  114. [114]
    Total metal analysis in hookah tobacco (narghile, shisha) - An initial ...
    Aug 6, 2025 · Recent studies reported that hookah users transfer many various organic pollutants and toxic chemicals such as lead, cadmium, arsenic, and ...
  115. [115]
    [PDF] 3 Introduction to Needles and Cannulae - Routledge
    The gauge, formally known as the Stubs Iron Wire. Gauge, was developed in early 19th century England. Developed initially for use in wire manufacture, each ...
  116. [116]
    A history of syringes and needles - Faculty of Medicine
    Dec 20, 2018 · Syringes were invented long before hypodermic needles. Their origins are found in Greek and Roman literature where there are descriptions of hollow reeds.<|separator|>