Why Choose Home IV Infusion Over Hospital Visits in Vancouver?
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Personalized and Convenient Treatment
When considering medical treatments, especially for conditions that require intravenous therapy, the thought of frequent hospital visits can be daunting. Get more details Why Home IV Infusion is Vancouver’s Latest Wellness Trend here. However, for residents of Vancouver, theres an alternative thats both personalized and convenient: home IV infusion. Intravenous line But why should one opt for this over traditional hospital visits? Lets delve into it.
Firstly, home IV infusion offers a level of personalization thats hard to match in a hospital setting. In a hospital, youre just one of many patients, and while the care is professional, it can sometimes feel impersonal. At home, the treatment is tailored to your needs, schedule, and comfort. You get to choose the environment-be it your cozy living room or sunny patio-while receiving care. This personal touch can make a world of difference in how you feel about your treatment. Saline drip
Convenience is another big factor. Hospital visits can be time-consuming! (Who hasnt spent hours in a waiting room?) With home IV infusion, theres no need to travel back and forth, which is especially beneficial for those with mobility issues or tight schedules. You can continue with your daily activities with minimal interruption.
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Plus, you avoid the hustle and bustle of a hospital, which can be overwhelming or stressful for some.
Moreover, the risk of hospital-acquired infections is not something to ignore. Hospitals, being environments where many sick people gather, naturally have a higher risk of spreading infections. While hospitals do their best to maintain cleanliness and control infections, its not always possible to eliminate the risk entirely. At home, youre in a controlled environment where you can manage cleanliness to your standard, potentially reducing the risk of catching something new.
Its also worth mentioning that home IV infusion can be more cost-effective in the long run. Hospital stays and visits can add up, with costs sometimes not fully covered by insurance. Home treatment can often be a more affordable option, alleviating some of the financial burdens.
Some might argue that hospitals are safer due to the immediate availability of medical staff. Hep lock While its true that hospitals have a full medical team ready, home IV services are staffed by trained professionals who can handle emergencies and are equipped with the necessary tools to ensure safe administration of treatment. You're not left alone!
In conclusion, choosing home IV infusion over hospital visits in Vancouver offers a personalized, convenient, and potentially safer alternative. While it might not be for everyone, it's certainly an option worth considering for those who prefer a more personalized approach to their health care.
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With the blend of comfort, convenience, and cost-effectiveness, it's no wonder more people are making the switch.
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Its a choice that reflects the growing trend of patient-centered care, emphasizing what works best for the individual, rather than a one-size-fits-all approach. So, why not explore this alternative and see if it suits your lifestyle needs?
Reduced Risk of Hospital-Acquired Infections
Choosing home IV infusion over hospital visits in Vancouver can be a wise decision for many, especially when considering the reduced risk of hospital-acquired infections. Intravenous fluid Hospitals, though essential for many treatments, are environments where infections can spread more easily. This isnt to say that hospitals are inherently unsafe, but they do house a diverse population of patients with various infectious diseases. In contrast, receiving IV infusion at home minimizes exposure to these potential sources of infection.
Imagine this: youre in the comfort of your own home, maybe sipping a cup of tea, while receiving your treatment. Its not just about convenience; its also about safety.
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Hospitals have strict protocols to prevent infections, yet theyre not foolproof. The fewer trips you make to a hospital, the less you expose yourself to the myriad of germs floating around there.
Now, some might think, "But isnt treatment at home less effective?" Not at all! Home IV infusions are administered by skilled healthcare professionals who ensure that the treatment is just as effective as it would be in a hospital setting.
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Plus, being in a familiar environment can even aid in the recovery process. Who wouldnt want to heal while surrounded by the comfort of their own space?
Lets not forget the psychological aspect. Hospitals can be stressful places, and stress isnt exactly a friend of the immune system. By opting for home treatment, you can sidestep the anxiety of hospital visits. This reduction in stress can contribute to a speedier recovery, which is what we all want, right?!
Moreover, home infusion therapy allows you to maintain your daily routine with minimal disruption. You dont have to worry about packing a bag or arranging for transportation. Its all done in the comfort of your living room (or wherever you choose to set up your treatment spot).
In conclusion, while hospitals play a crucial role in healthcare, they arent the only option.
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Home IV infusion offers a safe, effective, and less stressful alternative, with the added benefit of reducing the risk of hospital-acquired infections.
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So, next time youre weighing your options, consider staying home-where the heart (and health) truly is.
Cost-Effectiveness and Financial Benefits
When considering the term "Cost-Effectiveness and Financial Benefits" in the context of why one might choose home IV infusion over hospital visits in Vancouver, its essential to weigh the pros and cons (and there are quite a few!). Lets dive into it.
First off, the cost of healthcare can be hefty, especially when it involves regular hospital visits. Hospital stays, even if theyre brief, often come with a hefty price tag. But when you opt for home IV infusion, you might find that the overall expenses are significantly reduced. Why? Well, youre essentially cutting out a lot of the overhead costs that hospitals tack on. Youre not paying for a hospital bed or the utilities that come with keeping a facility running. Plus, theres no need to worry about transportation costs to and from the hospital.
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Now, lets not pretend that home IV infusion is a magic bullet that solves all financial woes-it isnt! There are still costs involved, such as the equipment and professional home care services.
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However, when compared side by side with hospital visits, its often the more economical choice for many. Its not just about the hard costs, either; think about the value of your time. Hospital visits can take hours out of your day, time that could be spent working or enjoying other activities.
Moreover, its not just about saving money; its also about the financial benefits that come with flexibility and comfort. At home, youre in your own space, eating your own food, and sleeping in your own bed. That's priceless! Financially, this can translate to fewer missed workdays and a faster recovery time, potentially increasing your earnings. Or at the very least, it provides peace of mind which, lets face it, is invaluable.
However, lets not forget that home IV infusion isnt for everyone. Its crucial to have a healthcare provider assess whether its a suitable option for your medical needs.
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If it is, the financial benefits can be quite appealing.
So, in conclusion, while home IV infusion in Vancouver isnt without its challenges, it often emerges as a cost-effective alternative to hospital visits. Its a choice that allows for financial savings and offers the comfort of familiar surroundings. Just imagine spending more time with loved ones instead of in a sterile hospital room. Thats surely something to smile about!
Improving Patient Quality of Life
When it comes to improving patient quality of life, choosing home IV infusion over hospital visits in Vancouver can make a world of difference. Patients often find that receiving treatment in the comfort of their own home (rather than in a sterile hospital environment) can lead to better health outcomes. But whys that the case?
First off, lets talk about convenience. Hospitals, while necessary, can be quite stressful. Intra-venous injection The hustle and bustle of a busy medical facility, the long waits, and the travel time-none of these contribute positively to a patients well-being. Imagine having to brave the Vancouver weather just for a standard IV infusion. Its not exactly appealing! At home, patients can rest in their favorite chair, watch TV, or even take a nap while receiving treatment. They dont have to disrupt their daily routines or make elaborate arrangements to get to a hospital.
Moreover, home IV infusions can reduce the risk of infections. Hospitals are full of germs and bacteria that can be harmful, especially for those with weakened immune systems. IV therapies By staying at home, patients can avoid exposure to these potential hazards. Plus, they can control their environment, ensuring it's as clean as they want it to be.
Another important aspect is the personalized care that often comes with home infusions.
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Healthcare providers can be more flexible and attentive when theyre not juggling dozens of patients at once. They can tailor treatments to individual needs, leading to better outcomes and a more comfortable experience overall. Isn't that what everyone wants?
Let's not forget the emotional and psychological benefits. Being in a familiar environment can ease anxiety and stress-two things that are not conducive to healing. Patients can have their family, friends, or pets around, providing emotional support that's simply not available in a hospital setting.
Now, one might think that home IV infusion is less effective than hospital treatment, but thats not true. The quality of care is not compromised just because its administered at home.
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In fact, many patients report feeling more in control of their treatment plan, which can lead to better adherence and, ultimately, more positive health outcomes.
In conclusion, choosing home IV infusion over hospital visits in Vancouver can significantly enhance a patients quality of life. Its more than just a convenience; its about creating an environment thats conducive to healing (and who wouldn't want that?). So, for those who have the option, why not give it a shot? It could be the difference between merely surviving and truly thriving.
Intravenous therapy (abbreviated as IV therapy) is a medical process that administers fluids, medications and nutrients directly into a person's vein. The intravenous route of administration is commonly used for rehydration or to provide nutrients for those who cannot, or will not—due to reduced mental states or otherwise—consume food or water by mouth. It may also be used to administer medications or other medical therapy such as blood products or electrolytes to correct electrolyte imbalances. Attempts at providing intravenous therapy have been recorded as early as the 1400s, but the practice did not become widespread until the 1900s after the development of techniques for safe, effective use.
The intravenous route is the fastest way to deliver medications and fluid replacement throughout the body as they are introduced directly into the circulatory system and thus quickly distributed. For this reason, the intravenous route of administration is also used for the consumption of some recreational drugs. Many therapies are administered as a "bolus" or one-time dose, but they may also be administered as an extended infusion or drip. The act of administering a therapy intravenously, or placing an intravenous line ("IV line") for later use, is a procedure which should only be performed by a skilled professional. The most basic intravenous access consists of a needle piercing the skin and entering a vein which is connected to a syringe or to external tubing. This is used to administer the desired therapy. In cases where a patient is likely to receive many such interventions in a short period (with consequent risk of trauma to the vein), normal practice is to insert a cannula which leaves one end in the vein, and subsequent therapies can be administered easily through tubing at the other end. In some cases, multiple medications or therapies are administered through the same IV line.
IV lines are classified as "central lines" if they end in a large vein close to the heart, or as "peripheral lines" if their output is to a small vein in the periphery, such as the arm. An IV line can be threaded through a peripheral vein to end near the heart, which is termed a "peripherally inserted central catheter" or PICC line. If a person is likely to need long-term intravenous therapy, a medical port may be implanted to enable easier repeated access to the vein without having to pierce the vein repeatedly. A catheter can also be inserted into a central vein through the chest, which is known as a tunneled line. The specific type of catheter used and site of insertion are affected by the desired substance to be administered and the health of the veins in the desired site of insertion.
Placement of an IV line may cause pain, as it necessarily involves piercing the skin. Infections and inflammation (termed phlebitis) are also both common side effects of an IV line. Phlebitis may be more likely if the same vein is used repeatedly for intravenous access, and can eventually develop into a hard cord which is unsuitable for IV access. The unintentional administration of a therapy outside a vein, termed extravasation or infiltration, may cause other side effects.
Left: A person receiving fluids through an intravenous line in the wrist. Right: IV bags on a pole connected to IV lines.
Intravenous (IV) access is used to administer medications and fluid replacement which must be distributed throughout the body, especially when rapid distribution is desired. Another use of IV administration is the avoidance of first-pass metabolism in the liver. Substances that may be infused intravenously include volume expanders, blood-based products, blood substitutes, medications and nutrition.
Fluids may be administered as part of "volume expansion", or fluid replacement, through the intravenous route. Volume expansion consists of the administration of fluid-based solutions or suspensions designed to target specific areas of the body which need more water. There are two main types of volume expander: crystalloids and colloids. Crystalloids are aqueous solutions of mineral salts or other water-soluble molecules. Colloids contain larger insoluble molecules, such as gelatin. Blood itself is considered a colloid.[1]
The most commonly used crystalloid fluid is normal saline, a solution of sodium chloride at 0.9% concentration, which is isotonic with blood. Lactated Ringer's (also known as Ringer's lactate) and the closely related Ringer's acetate, are mildly hypotonic solutions often used in those who have significant burns. Colloids preserve a high colloid osmotic pressure in the blood, while, on the other hand, this parameter is decreased by crystalloids due to hemodilution.[2] Crystalloids generally are much cheaper than colloids.[2]
Buffer solutions which are used to correct acidosis or alkalosis are also administered through intravenous access. Lactated Ringer's solution used as a fluid expander or base solution to which medications are added also has some buffering effect. Another solution administered intravenously as a buffering solution is sodium bicarbonate.[3]
Saline and 5% dextrose solution (left), levofloxacin 750mg (right), and log sheet hanging from an IV pole
Medications may be mixed into the fluids mentioned above, commonly normal saline, or dextrose solutions.[4] Compared with other routes of administration, such as oral medications, the IV route is the fastest way to deliver fluids and medications throughout the body.[5] For this reason, the IV route is commonly preferred in emergency situations or when a fast onset of action is desirable. In extremely high blood pressure (termed a hypertensive emergency), IV antihypertensives may be given to quickly decrease the blood pressure in a controlled manner to prevent organ damage.[6] In atrial fibrillation, IV amiodarone may be administered to attempt to restore normal heart rhythm.[7] IV medications can also be used for chronic health conditions such as cancer, for which chemotherapy drugs are commonly administered intravenously. In some cases, such as with vancomycin, a loading or bolus dose of medicine is given before beginning a dosing regimen to more quickly increase the concentration of medication in the blood.[8]
The bioavailability of an IV medication is by definition 100%, unlike oral administration where medication may not be fully absorbed, or may be metabolized prior to entering the bloodstream.[4] For some medications, there is virtually zero oral bioavailability. For this reason certain types of medications can only be given intravenously, as there is insufficient uptake by other routes of administration,[9] such is the case of severe dehydration where the patient is required to be treated via IV therapy for a quick recovery.[10] The unpredictability of oral bioavailability in different people is also a reason for a medication to be administered IV, as with furosemide.[11] Oral medications also may be less desirable if a person is nauseous or vomiting, or has severe diarrhea, as these may prevent the medicine from being fully absorbed from the gastrointestinal tract. In these cases, a medication may be given IV only until the patient can tolerate an oral form of the medication. The switch from IV to oral administration is usually performed as soon as viable, as there is generally cost and time savings over IV administration. Whether a medication can be potentially switched to an oral form is sometimes considered when choosing appropriate antibiotic therapy for use in a hospital setting, as a person is unlikely to be discharged if they still require IV therapy.[12]
Some medications, such as aprepitant, are chemically modified to be better suited for IV administration, forming a prodrug such as fosaprepitant. This can be for pharmacokinetic reasons or to delay the effect of the drug until it can be metabolized into the active form.[13]
This patient of an intensive care unit of a German hospital could not eat due to a prior surgical operation of the abdominal region which was complicated by a severe sepsis. He received antibiotics, parenteral nutrition and pain killers via automated injection employing syringe drivers (background, right).
Parenteral nutrition is the act of providing required nutrients to a person through an intravenous line. This is used in people who are unable to get nutrients normally, by eating and digesting food. A person receiving parenteral nutrition will be given an intravenous solution which may contain salts, dextrose, amino acids, lipids and vitamins. The exact formulation of a parenteral nutrition used will depend on the specific nutritional needs of the person it is being given to. If a person is only receiving nutrition intravenously, it is called total parenteral nutrition (TPN), whereas if a person is only receiving some of their nutrition intravenously it is called partial parenteral nutrition (or supplemental parenteral nutrition).[16]
Medical imaging relies on being able to clearly distinguish internal parts of the body from each other. One way this is accomplished is through the administration of a contrast agent into a vein.[17] The specific imaging technique being employed will determine the characteristics of an appropriate contrast agent to increase visibility of blood vessels or other features. Common contrast agents are administered into a peripheral vein from which they are distributed throughout the circulation to the imaging site.[18]
IV rehydration was formerly a common technique for athletes.[19] The World Anti-Doping Agency prohibits intravenous injection of more than 100 mL per 12 hours, except under a medical exemption.[19] The United States Anti-Doping Agency notes that, as well as the dangers inherent in IV therapy, "IVs can be used to change blood test results (such as hematocrit where EPO or blood doping is being used), mask urine test results (by dilution) or by administering prohibited substances in a way that will more quickly be cleared from the body in order to beat an anti-doping test".[19] Players suspended after attending "boutique IV clinics" which offer this sort of treatment include footballer Samir Nasri in 2017[20] and swimmer Ryan Lochte in 2018.[21]
In the 1960s, John Myers developed the "Myers' cocktail", a non-prescription IV solution of vitamins and minerals marketed as a hangover cure and general wellness remedy.[22] The first "boutique IV" clinic, offering similar treatments, opened in Tokyo in 2008.[22] These clinics, whose target market was described by Elle as "health nuts who moonlight as heavy drinkers", have been publicized in the 2010s by glamorous celebrity customers.[22] Intravenous therapy is also used in people with acute ethanol toxicity to correct electrolyte and vitamin deficiencies which arise from alcohol consumption.[23]
In some countries, non-prescription intravenous glucose is used to improve a person's energy, but is not a part of routine medical care in countries such as the United States where glucose solutions are prescription drugs.[24] Improperly administered intravenous glucose (called "ringer" [citation needed]), such as that which is administered clandestinely in store-front clinics, poses increased risks due to improper technique and oversight.[24] Intravenous access is also sometimes used outside of a medical setting for the self-administration of recreational drugs, such as heroin and fentanyl, cocaine, methamphetamine, DMT, and others.[25]
Intravenous therapy is also used for veterinary patient management.[26]
Some medications can be administered as a bolus dose, which is called an "IV push". A syringe containing the medication is connected to an access port in the primary tubing and the medication is administered through the port.[27] A bolus may be administered rapidly (with a fast depression of the syringe plunger) or may be administered slowly, over the course of a few minutes.[27] The exact administration technique depends on the medication and other factors.[27] In some cases, a bolus of plain IV solution (i.e. without medication added) is administered immediately after the bolus to further force the medicine into the bloodstream. This procedure is termed an "IV flush". Certain medications, such as potassium, are not able to be administered by IV push due to the extremely rapid onset of action and high level of effects.[27]
An infusion of medication may be used when it is desirable to have a constant blood concentration of a medication over time, such as with some antibiotics including beta-lactams.[28] Continuous infusions, where the next infusion is begun immediately following the completion of the prior, may also be used to limit variation in drug concentration in the blood (i.e. between the peak drug levels and the trough drug levels).[28] They may also be used instead of intermittent bolus injections for the same reason, such as with furosemide.[29] Infusions can also be intermittent, in which case the medication is administered over a period of time, then stopped, and this is later repeated. Intermittent infusion may be used when there are concerns about the stability of medicine in solution for long periods of time (as is common with continuous infusions), or to enable the administration of medicines which would be incompatible if administered at the same time in the same IV line, for example vancomycin.[30]
Failure to properly calculate and administer an infusion can result in adverse effects, termed infusion reactions. For this reason, many medications have a maximum recommended infusion rate, such as vancomycin[30] and many monoclonal antibodies.[31] These infusion reactions can be severe, such as in the case of vancomycin, where the reaction is termed "red man syndrome".[30]
Any additional medication to be administered intravenously at the same time as an infusion may be connected to the primary tubing; this is termed a secondary IV, or IV piggyback.[27] This prevents the need for multiple IV access lines on the same person. When administering a secondary IV medication, the primary bag is held lower than the secondary bag so that the secondary medication can flow into the primary tubing, rather than fluid from the primary bag flowing into the secondary tubing. The fluid from the primary bag is needed to help flush any remaining medication from the secondary IV from the tubing.[27] If a bolus or secondary infusion is intended for administration in the same line as a primary infusion, the molecular compatibility of the solutions must be considered.[27] Secondary compatibility is generally referred to as "y-site compatibility", named after the shape of the tubing which has a port for bolus administration.[27] Incompatibility of two fluids or medications can arise due to issues of molecular stability, changes in solubility, or degradation of one of the medications.[27]
IV infusion set (not yet in use)A nurse inserting an 18-gauge IV needle with cannulaA needle for intravenous access should be inserted at an approximately 25-degree angle.
The simplest form of intravenous access is by passing a hollow needle through the skin directly into a vein. A syringe can be connected directly to this needle, which allows for a "bolus" dose to be administered. Alternatively, the needle may be placed and then connected to a length of tubing, allowing for an infusion to be administered.[32]: 344–348 The type and location of venous access (i.e. a central line versus peripheral line, and in which vein the line is placed) can be affected by the potential for some medications to cause peripheral vasoconstriction, which limits circulation to peripheral veins.[33]
A peripheral cannula is the most common intravenous access method utilized in hospitals, pre-hospital care, and outpatient medicine. This may be placed in the arm, commonly either the wrist or the median cubital vein at the elbow. A tourniquet may be used to restrict the venous drainage of the limb and make the vein bulge, making it easier to locate and place a line in a vein. When used, a tourniquet should be removed before injecting medication to prevent extravasation. The part of the catheter that remains outside the skin is called the connecting hub; it can be connected to a syringe or an intravenous infusion line, or capped with a
heplock or saline lock, a needleless connection filled with a small amount of heparin or saline solution to prevent clotting, between uses of the catheter. Ported cannulae have an injection port on the top that is often used to administer medicine.[32]: 349–354
The thickness and size of needles and catheters can be given in Birmingham gauge or French gauge. A Birmingham gauge of 14 is a very large cannula (used in resuscitation settings) and 24-26 is the smallest. The most common sizes are 16-gauge (midsize line used for blood donation and transfusion), 18- and 20-gauge (all-purpose line for infusions and blood draws), and 22-gauge (all-purpose pediatric line). 12- and 14-gauge peripheral lines are capable of delivering large volumes of fluid very fast, accounting for their popularity in emergency medicine. These lines are frequently called "large bores" or "trauma lines".[32]: 188–191, 349
A peripheral intravenous line is inserted in peripheral veins, such as the veins in the arms, hands, legs and feet. Medication administered in this way travels through the veins to the heart, from where it is distributed to the rest of the body through the circulatory system. The size of the peripheral vein limits the amount and rate of medication which can be administered safely.[35] A peripheral line consists of a short catheter inserted through the skin into a peripheral vein. This is usually in the form of a cannula-over-needle device, in which a flexible plastic cannula comes mounted over a metal trocar. Once the tip of the needle and cannula are placed, the cannula is advanced inside the vein over the trocar to the appropriate position and secured. The trocar is then withdrawn and discarded. Blood samples may also be drawn from the line directly after the initial IV cannula insertion.[32]: 344–348
Illustration of a non-tunneled central venous access deviceThe central line kit (out of its packaging)
A central line is an access method in which a catheter empties into a larger, more central vein (a vein within the torso), usually the superior vena cava, inferior vena cava or the right atrium of the heart. There are several types of central IV access, categorized based on the route the catheter takes from the outside of the body to the central vein output.[36]: 17–22
A peripherally inserted central catheter (also called a PICC line) is a type of central IV access which consists of a cannula inserted through a sheath into a peripheral vein and then carefully fed towards the heart, terminating at the superior vena cava or the right atrium. These lines are usually placed in peripheral veins in the arm, and may be placed using the Seldinger technique under ultrasound guidance. An X-ray is used to verify that the end of the cannula is in the right place if fluoroscopy was not used during the insertion. An EKG can also be used in some cases to determine if the end of the cannula is in the correct location.[37]: Ch.1, 5, 6
A Hickman line, a type of tunneled catheter, inserted through the skin at the chest and tunneled to insert into the jugular vein in the throat
A tunneled line is a type of central access which is inserted under the skin, and then travels a significant distance through surrounding tissue before reaching and penetrating the central vein. Using a tunneled line reduces the risk of infection as compared to other forms of access, as bacteria from the skin surface are not able to travel directly into the vein.[38] These catheters are often made of materials that resist infection and clotting. Types of tunneled central lines include the Hickman line or Broviac catheter. A tunnelled line is an option for long term venous access necessary for hemodialysis in people with poor kidney function.[39]
An implanted port is a central line that does not have an external connector protruding from the skin for administration of medication. Instead, a port consists of a small reservoir covered with silicone rubber which is implanted under the skin, which then covers the reservoir. Medication is administered by injecting medication through the skin and the silicone port cover into the reservoir. When the needle is withdrawn, the reservoir cover reseals itself. A port cover is designed to function for hundreds of needle sticks during its lifetime. Ports may be placed in an arm or in the chest area.[40]
Equipment used to place and administer an IV line for infusion consists of a bag, usually hanging above the height of the person, and sterile tubing through which the medicine is administered. In a basic "gravity" IV, a bag is simply hung above the height of the person and the solution is pulled via gravity through a tube attached to a needle inserted into a vein. Without extra equipment, it is not possible to precisely control the rate of administration. For this reason, a setup may also incorporate a clamp to regulate flow. Some IV lines may be placed with "Y-sites", devices which enable a secondary solution to be administered through the same line (known as piggybacking). Some systems employ a drip chamber, which prevents air from entering the bloodstream (causing an air embolism), and allows visual estimation of flow rate of the solution.[32]: 316–321, 344–348
Alternatively, an infusion pump allows precise control over the flow rate and total amount delivered. A pump is programmed based on the number and size of infusions being administered to ensure all medicine is fully administered without allowing the access line to run dry. Pumps are primarily utilized when a constant flow rate is important, or where changes in rate of administration would have consequences.[32]: 316–321, 344–348
To reduce pain associated with the procedure, medical staff may apply a topical local anaesthetic (such as EMLA or Ametop) to the skin of the chosen venipuncture area about 45 minutes beforehand.[32]: 344–348
If the cannula is not inserted correctly, or the vein is particularly fragile and ruptures, blood may extravasate into the surrounding tissues; this situation is known as a blown vein or "tissuing". Using this cannula to administer medications causes extravasation of the drug, which can lead to edema, causing pain and tissue damage, and even necrosis depending on the medication. The person attempting to obtain the access must find a new access site proximal to the "blown" area to prevent extravasation of medications through the damaged vein. For this reason it is advisable to site the first cannula at the most distal appropriate vein.[32]: 355–359
Placement of an intravenous line inherently causes pain when the skin is broken and is considered medically invasive. For this reason, when other forms of administration may suffice, intravenous therapy is usually not preferred. This includes the treatment of mild or moderate dehydration with oral rehydration therapy which is an option, as opposed to parenteral rehydration through an IV line.[41][42] Children in emergency departments being treated for dehydration have better outcomes with oral treatment than intravenous therapy due to the pain and complications of an intravenous line.[41]Cold spray may decrease the pain of putting in an IV.[43]
Certain medications also have specific sensations of pain associated with their administration IV. This includes potassium, which when administered IV can cause a burning or painful sensation.[44] The incidence of side effects specific to a medication can be affected by the type of access (peripheral versus central), the rate of administration, or the quantity of drug administered. When medications are administered too rapidly through an IV line, a set of vague symptoms such as redness or rash, fever, and others may occur; this is termed an "infusion reaction" and is prevented by decreasing the rate of administration of the medication. When vancomycin is involved, this is commonly termed "Red Man syndrome" after the rapid flushing which occurs after rapid administration.[45]
As placement of an intravenous line requires breaking the skin, there is a risk of infection. Skin-dwelling organisms such as coagulase-negative staphylococcus or Candida albicans may enter through the insertion site around the catheter, or bacteria may be accidentally introduced inside the catheter from contaminated equipment. Infection of an IV access site is usually local, causing easily visible swelling, redness, and fever. However, pathogens may also enter the bloodstream, causing sepsis, which can be sudden and life-threatening. A central IV line poses a higher risk of sepsis, as it can deliver bacteria directly into the central circulation. A line which has been in place for a longer period of time also increases the risk of infection.[32]: 358, 373
Inflammation of the vein may also occur, called thrombophlebitis or simply phlebitis. This may be caused by infection, the catheter itself, or the specific fluids or medication being given. Repeated instances of phlebitis can cause scar tissue to build up along a vein. A peripheral IV line cannot be left in the vein indefinitely out of concern for the risk of infection and phlebitis, among other potential complications. However, recent studies have found that there is no increased risk of complications in those whose IVs were replaced only when clinically indicated versus those whose IVs were replaced routinely.[46] If placed with proper aseptic technique, it is not recommended to change a peripheral IV line more frequently than every 72–96 hours.[47]
Phlebitis is particularly common in intravenous drug users,[48] and those undergoing chemotherapy,[49] whose veins can become sclerotic and difficult to access over time, sometimes forming a hard, painful "venous cord". The presence of a cord is a cause of discomfort and pain associated with IV therapy, and makes it more difficult for an IV line to be placed as a line cannot be placed in an area with a cord.[50]
Infiltration occurs when a non-vesicant IV fluid or medication enters the surrounding tissue as opposed to the desired vein. It may occur when the vein itself ruptures, when the vein is damaged during insertion of the intravascular access device, or from increased vein porosity. Infiltration may also occur if the puncture of the vein by the needle becomes the path of least resistance—such as a cannula which has been left inserted, causing the vein to scar. It can also occur upon insertion of an IV line if a tourniquet is not promptly removed. Infiltration is characterized by coolness and pallor to the skin as well as localized swelling or edema. It is treated by removing the intravenous line and elevating the affected limb so the collected fluids drain away. Injections of hyaluronidase around the area can be used to speed the dispersal of the fluid/drug.[51] Infiltration is one of the most common adverse effects of IV therapy[52] and is usually not serious unless the infiltrated fluid is a medication damaging to the surrounding tissue, most commonly a vesicant or chemotherapeutic agent. In such cases, the infiltration is termed extravasation, and may cause necrosis.[53]
If the solutions administered are colder than the temperature of the body, induced hypothermia can occur. If the temperature change to the heart is rapid, ventricular fibrillation may result.[54] Furthermore, if a solution which is not balanced in concentration is administered, a person's electrolytes may become imbalanced. In hospitals, regular blood tests may be used to proactively monitor electrolyte levels.[55]
The first recorded attempt at administering a therapeutic substance via IV injection was in 1492, when Pope Innocent VIII fell ill and was administered blood from healthy individuals.[56] If this occurred, the treatment did not work and resulted in the death of the donors while not healing the pope.[56] This story is disputed by some, who claim that the idea of blood transfusions could not have been considered by the medical professionals at the time, or that a complete description of blood circulation was not published until over 100 years later. The story is attributed to potential errors in translation of documents from the time, as well as potentially an intentional fabrication, whereas others still consider it to be accurate.[57] One of the leading medical history textbooks for medical and nursing students has claimed that the entire story was an anti-semitic fabrication.[58]
In 1656 Sir Christopher Wren and Robert Boyle worked on the subject. As stated by Wren, "I Have Injected Wine and Ale in a liveing Dog into the Mass of Blood by a Veine, in good Quantities, till I have made him extremely drunk, but soon after he Pisseth it out." The dog survived, grew fat, and was later stolen from his owner. Boyle attributed authorship to Wren.[59]
Richard Lower showed it was possible for blood to be transfused from animal to animal and from animal to man intravenously, a xenotransfusion. He worked with Edmund King to transfuse sheep's blood into a man who was mentally ill. Lower was interested in advancing science but also believed the man could be helped, either by the infusion of fresh blood or by the removal of old blood. It was difficult to find people who would agree to be transfused, but an eccentric scholar, Arthur Coga, consented and the procedure was carried out by Lower and King before the Royal Society on 23 November 1667.[60] Transfusion gathered some popularity in France and Italy, but medical and theological debates arose, resulting in transfusion being prohibited in France.
There was virtually no recorded success with any attempts at injection therapy until the 1800s, when in 1831 Thomas Latta studied the use of IV fluid replacements for cholera treatment.[56][61] The first solutions which saw widespread use for IV injections were simple "saline-like solutions", which were followed by experiments with various other liquids, including milk, sugar, honey, and egg yolk.[56] In the 1830s, James Blundell, an English obstetrician, used intravenous administration of blood to treat women bleeding profusely during or after delivery.[56] This predated the understanding of blood type, leading to unpredictable results.
Intravenous therapy was expanded by Italian physician Guido Baccelli in the late 1890s[62] and further developed in the 1930s by Samuel Hirschfeld, Harold T. Hyman and Justine Johnstone Wanger[63][64] but was not widely available until the 1950s.[65] There was a time, roughly the 1910s–1920s, when fluid replacement that today would be done intravenously was likelier to be done with a Murphy drip, a rectal infusion; and IV therapy took years to increasingly displace that route. In the 1960s, the concept of providing a person's complete nutritional needs through an IV solution began to be seriously considered. The first parenteral nutrition supplementation consisted of hydrolyzed proteins and dextrose.[56] This was followed in 1975 with the introduction of intravenous fat emulsions and vitamins which were added to form "total parenteral nutrition", or that which includes protein, fat, and carbohydrates.[56]
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^Peacock WF, Hilleman DE, Levy PD, Rhoney DH, Varon J (July 2012). "A systematic review of nicardipine vs labetalol for the management of hypertensive crises". The American Journal of Emergency Medicine. 30 (6): 981–993. doi:10.1016/j.ajem.2011.06.040. PMID21908132.
^Vardas PE, Kochiadakis GE (September 2003). "Amiodarone for the Restoration of Sinus Rhythm in Patients with Atrial Fibrillation". Cardiac Electrophysiology Review. 7 (3): 297–299. doi:10.1023/B:CEPR.0000012400.34597.00. PMID14739732.
^Halter JB, Ouslander JG, Studenski S, High KP, Asthana S, Supiano MA, Ritchie C (23 December 2016). "Chapter 35". In Edmonson KG, Davis KJ (eds.). Hazzard's geriatric medicine and gerontology (Seventh ed.). New York: McGraw Hill. ISBN978-0-07-183345-5.
^Runge VM, Ai T, Hao D, Hu X (December 2011). "The developmental history of the gadolinium chelates as intravenous contrast media for magnetic resonance". Investigative Radiology. 46 (12): 807–16. doi:10.1097/RLI.0b013e318237913b. PMID22094366. S2CID8425664.
^Rawson JV, Pelletier AL (1 September 2013). "When to Order a Contrast-Enhanced CT". American Family Physician. 88 (5): 312–6. PMID24010394.
^Flannery AH, Adkins DA, Cook AM (August 2016). "Unpeeling the Evidence for the Banana Bag: Evidence-Based Recommendations for the Management of Alcohol-Associated Vitamin and Electrolyte Deficiencies in the ICU". Critical Care Medicine. 44 (8): 1545–1552. doi:10.1097/CCM.0000000000001659. PMID27002274. S2CID22431890.
^ abJiha Ham (March 20, 2015). "A Life Upended After an IV Glucose Treatment Popular Among Asian Immigrants". The New York Times. Retrieved March 21, 2015. Although many doctors warn Asian immigrants in New York that the effects of injecting glucose differ little from drinking sugary water, many Asians, especially of older generations, still use the intravenous solution. In their homelands, it is commonly prescribed by doctors as a method to cure colds, fevers and sometimes an upset stomach.
^ abcdefghiKanji S, Lam J, Johanson C, Singh A, Goddard R, Fairbairn J, Lloyd T, Monsour D, Kakal J (September 2010). "Systematic review of physical and chemical compatibility of commonly used medications administered by continuous infusion in intensive care units". Critical Care Medicine. 38 (9): 1890–1898. doi:10.1097/CCM.0b013e3181e8adcc. PMID20562698. S2CID205539703.
^ abDhaese S, Heffernan A, Liu D, Abdul-Aziz MH, Stove V, Tam VH, Lipman J, Roberts JA, De Waele JJ (25 July 2020). "Prolonged Versus Intermittent Infusion of β-Lactam Antibiotics: A Systematic Review and Meta-Regression of Bacterial Killing in Preclinical Infection Models". Clinical Pharmacokinetics. 59 (10): 1237–1250. doi:10.1007/s40262-020-00919-6. PMID32710435. S2CID220732187.
^Chan JS, Kot TK, Ng M, Harky A (November 2019). "Continuous Infusion Versus Intermittent Boluses of Furosemide in Acute Heart Failure: A Systematic Review and Meta-Analysis". Journal of Cardiac Failure. 26 (9): 786–793. doi:10.1016/j.cardfail.2019.11.013. PMID31730917. S2CID208063606.
^ abcElbarbry F (June 2018). "Vancomycin Dosing and Monitoring: Critical Evaluation of the Current Practice". European Journal of Drug Metabolism and Pharmacokinetics. 43 (3): 259–268. doi:10.1007/s13318-017-0456-4. PMID29260505. S2CID13071392.
^Rivera AM, Strauss KW, van Zundert A, Mortier E (2005). "The history of peripheral intravenous catheters: how little plastic tubes revolutionized medicine". Acta Anaesthesiologica Belgica. 56 (3): 271–82. PMID16265830.
^Marino PL (2014). "2. Central Venous Access". Marino's the ICU book (Fourth ed.). Philadelphia: LWW. ISBN978-1451121186.
^Sandrucci S, Mussa B, eds. (5 July 2014). Peripherally inserted central venous catheters. Milan: Springer. ISBN978-88-470-5665-7.
^Agarwal AK, Haddad N, Boubes K (November 2019). "Avoiding problems in tunneled dialysis catheter placement". Seminars in Dialysis. 32 (6): 535–540. doi:10.1111/sdi.12845. PMID31710156. S2CID207955194.
^Roca-Tey R (March 2016). "Permanent Arteriovenous Fistula or Catheter Dialysis for Heart Failure Patients". The Journal of Vascular Access. 17 (1_suppl): S23 –S29. doi:10.5301/jva.5000511. PMID26951899. S2CID44524962.
^Heng SY, Yap RT, Tie J, McGrouther DA (April 2020). "Peripheral Vein Thrombophlebitis in the Upper Extremity: A Systematic Review of a Frequent and Important Problem". The American Journal of Medicine. 133 (4): 473–484.e3. doi:10.1016/j.amjmed.2019.08.054. PMID31606488. S2CID204545798.
^Bruniera FR, Ferreira FM, Saviolli LR, Bacci MR, Feder D, da Luz Gonçalves Pedreira M, Sorgini Peterlini MA, Azzalis LA, Campos Junqueira VB, Fonseca FL (February 2015). "The use of vancomycin with its therapeutic and adverse effects: a review". European Review for Medical and Pharmacological Sciences. 19 (4): 694–700. PMID25753888.
^Lv L, Zhang J (May 2020). "The incidence and risk of infusion phlebitis with peripheral intravenous catheters: A meta-analysis". The Journal of Vascular Access. 21 (3): 342–349. doi:10.1177/1129729819877323. PMID31547791. S2CID202745746.
^Mihala G, Ray-Barruel G, Chopra V, Webster J, Wallis M, Marsh N, McGrail M, Rickard CM (2018). "Phlebitis Signs and Symptoms With Peripheral Intravenous Catheters: Incidence and Correlation Study". Journal of Infusion Nursing. 41 (4): 260–263. doi:10.1097/NAN.0000000000000288. PMID29958263. S2CID49613143.
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^Jorge Dagnino; Wren, Boyle, and the Origins of Intravenous Injections and the Royal Society of London. Anesthesiology 2009; 111:923–924 https://doi.org/10.1097/ALN.0b013e3181b56163
^Felts, J. H. (2000). Richard Lower: anatomist and physiologist. Annals of internal medicine, 133(6), 485.
Are There Any Potential Side Effects Associated With Zipdrip's Mobile IV Therapy Services?
Yes, you might experience some side effects from mobile IV therapy services, such as bruising, infection at the injection site, or an allergic reaction. Always ensure a healthcare professional is administering and monitoring the treatment.
How Does Zipdrip Ensure the Safety and Cleanliness of Its Mobile IV Therapy Equipment?
Zipdrip ensures the safety and cleanliness of its equipment by following strict sterilization protocols, using single-use disposables, and adhering to health guidelines. You'll always get clean, safe service with their mobile IV therapy.
Can Zipdrip's IV Therapy Sessions Be Customized for IndIViduals With Specific Dietary or Health Restrictions?
Yes, you can customize Zipdrip's IV therapy sessions to fit your specific dietary or health restrictions. They're flexible and work with you to ensure the treatment meets your individual needs and health goals.
What Training and Qualifications Do Zipdrip's Mobile IV Therapy Practitioners Hold?
Zipdrip's mobile IV therapy practitioners are highly trained and qualified. They've got certifications in their field, ensuring they meet health and safety standards. So, you're in good hands when you choose their services.
Is There an Age Limit or Any Contraindications for Using Zipdrip's Mobile Hydration Services?
You should know there's an age limit and specific contraindications for using mobile hydration services. It's crucial to check these details before booking to ensure the service is safe and appropriate for you.
Can Zipdrip Accommodate Groups or Events for IV Therapy Sessions?
Yes, you can book Zipdrip for group sessions or events. They offer customizable IV therapy experiences to meet the needs of any gathering, ensuring you and your guests receive top-notch care and service.
How Does Zipdrip Handle Allergic Reactions or Complications That May Arise During an IV Therapy Session?
If you experience an allergic reaction or complication during an IV therapy session, Zipdrip's trained healthcare professionals promptly address the issue, ensuring your safety and comfort with appropriate medical interventions and monitoring throughout the process.
Are There Any Age Restrictions for ReceIVing IV Therapy Through Zipdrip?
Yes, there are age restrictions for receiving IV therapy through Zipdrip. You'll need to check their specific guidelines, as they ensure treatments are safe and appropriate for each age group they serve.
Does Zipdrip Offer Any Loyalty or Subscription-Based Discounts for Regular Users?
Yes, Zipdrip offers loyalty and subscription-based discounts for regular users. If you frequently use their service, you'll save money over time. It's a great way to make their on-demand IV therapy more affordable for you.
How Does Zipdrip Ensure the PrIVacy and Confidentiality of Its Clients During Mobile IV Therapy Sessions?
Zipdrip ensures your privacy during mobile IV therapy sessions by adhering to strict confidentiality protocols, using discreet vehicles, and employing professional staff trained in data protection. They prioritize your comfort and privacy at all times.
Can Zipdrip's Mobile IV Therapy Services Be Customized for Group Events, Such as Weddings or Corporate Wellness Days?
Yes, you can customize ZipDrip's mobile IV therapy services for group events, including weddings or corporate wellness days, to ensure your guests enjoy a unique health and wellness experience tailored to the occasion.
What Measures Has Zipdrip Taken to Ensure the PrIVacy and Confidentiality of Its Clients During Mobile IV Therapy Sessions?
ZipDrip's ensured your privacy and confidentiality by implementing strict protocols, including discreet service and secure data handling, during your mobile IV therapy sessions. They prioritize making you feel safe and protected while receiving treatment.
How Does Zipdrip Handle Emergency Situations or Adverse Reactions That May Occur During or After the IV Therapy?
ZipDrip's team is trained to handle emergencies or adverse reactions quickly and efficiently during your IV therapy. They've got protocols in place to ensure you're safe, responding promptly to any issues that might arise.
Are There Any Loyalty Programs or Discounts Available for Regular Clients of Zipdrip's Mobile IV Therapy Services?
Yes, you can benefit from loyalty programs or discounts as a regular client of the mobile IV therapy services. These incentives are designed to make your wellness journey more affordable and rewarding over time.
Does Zipdrip Offer Any Follow-Up Care or Consultation Services After the Completion of an IV Therapy Session to Assess Its EffectIVeness or Manage Any Ongoing Health Concerns?
Yes, ZipDrip offers follow-up care and consultation services after your IV therapy session. They'll assess its effectiveness and manage any ongoing health concerns, ensuring you're supported throughout your wellness journey.