Making your first appointment with a urologist might be nerve-wracking if you don't know when to start seeing one.

This internal blog will explore what a urologist is, when a person would require one, and how they can assist in the treatment of a variety of problems. It will also go over the typical equipment a urologist may utilise.

What Is a Urologist?

A urologist is a doctor who specialises in treating conditions affecting the urinary tract of both men and women. Urologists can work with anyone from infants to senior citizens. They mainly specialise in the urinary tract and the male reproductive system.

Urologists specialise in various procedures including surgery, laser surgery, and minimally invasive surgeries like biopsy or vasectomy.

The urologist will examine you and ask questions about your medical history, symptoms, and medications. They may also perform tests to examine your kidneys, bladder, or prostate gland.

Urologists may treat conditions that require surgery. The main responsibilities of urologists include:

• Diagnosing diseases of the genitourinary tract
• Treating diseases of the genitourinary tract
• Performing minimally invasive surgeries
• Treating male fertility problems and sexual dysfunction
• Diagnosing and treating urinary tract infections, kidney stones and other urinary tract disorders.

How Does A Urologist Help Patients?

A urologist is your best bet for diagnosis and treatment when it comes to health problems related to the urinary tract.

Suppose a doctor feels that a patient has a problem with their urinary tract (bladder, urethra, ureters, kidneys, or adrenal glands). In that case, they may send the patient to a urologist for further evaluation and possible treatment.

Urologists also treat male patients who have issues with their genitalia, including the epididymis, penis, prostate, seminal vesicles, and testes.

Urologists are trained in fields such as:

• Pediatric urology
• Male infertility
• Urinary tract infections (UTIs)
• Sexual medicine
• Urologic oncology

Urologists can be found in private practice or at hospitals. They may also work in urology clinics or with other specialists, such as nephrologists and radiologists, to provide comprehensive care for patients with complex medical needs (such as kidney disease). The urologist will often receive notes from the referring physician but will still do their assessment and examination.

In addition, they could request diagnostic procedures.

• Imaging studies like a CT scan, MRI, or ultrasound
• Cystoscopy to examine the urinary system and, in certain cases, to collect tissue samples for diagnostic analysis
• Urine analysis
• Biopsy

Some of the Conditions That Require a Visit to a Urologist

If you experience the following symptoms, it might be time to see a urologist.

• Problems starting or maintaining a steady stream of urine; discomfort; hazy or bloody pee; or a lack of urination.
• Alterations in urine patterns, such as the need to urinate often or constantly.
• A lack of or difficulty maintaining an erection.
• Infertility.
• Vaginal heaviness or the sensation that something is slipping down into your vagina.
• A sensation of discomfort in the pelvic region.
• Urinating at inopportune times, such as throughout the night, when you sneeze, laugh, or while you're working out.

Common Equipment A Urologist Uses

Urologists use many different tools and equipment while they treat patients. Some of these tools include:

Urology examining tables: These tables usually have stirrups to hold the patient’s legs and a mechanism to help adjust both the height of the table and the position of the stirrups. They also have a padded top for comfort.

Urology operating tables: In contrast to examining tables, operating tables do not have padded tops or stirrups. However, the operating table does have split leg sections that allow for the best stability possible while still allowing for simple access to the surgical site.

• Dilators: Urethral dilators are commonly used to stretch the urethral narrowing.
• Probes: Used during surgical procedures for exploration.
• Clamps: Used to hold or grasp tissue or blood vessels during surgery.
• Needles: Used to stitch incisions after surgery.
• Retractors: Used to hold a wound or incision open during surgery.
• Forceps: Used to remove foreign objects from the body.
• Urodynamic machines: These machines are used to measure bladder pressure and urine flow.
• Catheters: Used for bladder drainage.
• Stents: These help keep the urinary tract open during procedures.
• Scissors: Used to make incisions in invasive surgeries.
• Cystoscope: These are used for closer examination of the bladder and urinary tract.
• Ultrasound machine: Ultrasound machines are used to diagnose disorders and diseases of the urinary tract, the male reproductive system, bladder, kidneys or prostate gland.
• Endoscopes: These are long, thin tubes fitted with a small camera that allow a urologist to look closely inside your body.
• Surgical dressings and absorbents
• Mobile C-Arm: A type of portable X-ray machine, a mobile C-arm is used to take clear and concise images of the urinary tract to help with diagnoses and treatment of urinary tract disorders.

Takeaway

As a urologist, you know that the success of your practice depends on having the right equipment and supplies to perform your procedures. You can offer the best urology solutions only with an efficient and reliable workflow.

Paragon Care's quality medical equipment and supplies can help you achieve these goals by providing you with high-quality medical equipment supplies.

Our solutions are designed to provide value, performance, and reliability for urology practices. We offer a full range of high-quality medical equipment supplies, including irrigation products and diagnostic instruments. Our products are carefully selected for their superior performance in urology procedures.

An IV set is a collection of devices used to administer fluids and medications via an intravenous catheter. IV sets come in various styles depending on the patient's needs, but they all have one thing in common: they are an essential part of delivering safe and effective medical care.

The most common types of IV sets include filtered, vented, non-vented, and gravity tubing. Each type has its unique benefits, so it's important to understand how they work so you can make informed decisions about what type will work best for your patient.

We'll cover the differences between these types in this blog so you can make sure you're choosing the right set for your patient's needs.

What are IV sets?

IV sets are a type of healthcare equipment that is used in hospitals and other healthcare facilities. IV sets are used to administer medications or fluids to a patient via intravenous (IV) access.

IVs are made up of a fluid-filled bag, a tube that the fluid flows through, and a needle that is used to inject the fluid into the veins. Meanwhile, the rate at which fluid is drawn from the bag and given to the patient is managed by an intravenous pump.

Together, these constituents form what are known as intravenous (IV) sets. IV kits are designed to make initiating an IV as simple and risk-free as possible. There are several varieties of IV sets, each designed for a particular situation or combination of circumstances. Knowing how to utilise the various IV sets available is essential for caring for patients.

Types of IV Sets and Their Applications

IV sets are used for intravenous therapy and include tubing and the needle or catheter. The type of IV set you need depends on the type of fluid you need to administer, as well as its viscosity and flow rate.

There are several different types of IV sets available for use in hospitals and other medical settings, including:

Filtered IV Sets

A filtered IV set has a filter in the tubing that prevents any foreign matter from entering the bloodstream. This is important because it ensures that the patient receives only sterile solutions through their IV. Filtered IV sets are mainly used when there is a risk of infection or contamination.

There is a wide range of drugs and solutions that are compatible with these IV setups. They use filters ranging in size from .22 to 5 microns, giving them much flexibility regarding what they can filter out. Filtered UV sets remove particles of any size, from the tiny to the large.

Vented IV Sets

There is a little blue hole in the side of the vented IV sets. The lid may be opened and closed by medical staff to let air in, displacing the fluid as it exits.

These IV kits must be stored in rigid plastic or fluid-proof glass containers. A fluid contained in a hard container will not escape unless the container is equipped with some sort of air release mechanism. The air intake vent is often installed on the drip chamber during manufacturing.

There are two forces at work on the fluid in vented IV systems, allowing it to flow:

• the pull of gravity
• the air pressure created by air passing through the vent

The fluid is pushed downward by gravity and the air pressure from the vented IV set. Gravity rises when you raise a bag or container of fluid, causing the fluid to flow more quickly. When medical staff lowers the bag or bottle of liquids, the opposite occurs.

Non-Vented IV Sets

A non-vented IV set does not include a removable air vent.

This sort of intravenous set is required for use with flexible plastic containers. Before attaching a non-vented IV set to a patient, the tubing must be filled with IV fluid to eliminate the presence of air. As the IV bag empties, the tubing produces a vacuum, causing the bag to collapse.

Non-vented intravenous sets rely on two forces acting on the fluid to allow it to flow:

• the force of gravity
• the pressure generated by the fluid's container when it collapses

The collapsing force is absent in fixed fluid containers like bottles and plastic tubing. This causes stagnation in the fluid. Venting the bottle or other stationary fluid container allows air to enter, triggering the fluid to flow.

Gravity Tubing

Gravity tubing is the most common type of IV set used in hospitals today. It consists of a plastic bag hung from a pole or hook, which holds it in place at a certain height above the patient's bed. The fluid is pushed through the tube and into the patient's bloodstream by gravity's force. Gravity tubing is used for delivering fluids and medications that do not need to be administered quickly because gravity will help move them from the bag down into the patient's vein at a slow but steady rate.

Takeaway

IV sets play a vital role in the healthcare industry, and you must choose the right one for your patient's needs. Paragon Care can provide a wide range of IV sets for your patient's needs—from the most common to the most complex. We can help you with everything from choosing the right type of IV set for your patient to finding other healthcare equipment to accompany them. We also offer a range of high-quality surgical equipment Australia-wide.

If you want more information about how Paragon Care can help your hospital stock its IV sets, contact us today.

Critical care in Australia is a vital part of the health care system. It is the most complex environment in which healthcare professionals work. They require highly skilled, educated, and motivated staff to provide patient safety, quality, and satisfaction.

In Australia, there are three levels of critical care that you can expect to receive during your stay in a hospital. This includes Intensive Care Unit, High Dependency Unit, and ward-based care.

This internal blog will examine the services offered at each level and give an overview of the treatments available at each stage so that you know what to expect when you are admitted.

What Is Critical Care?

Critical care medicine is a medical specialty focused on assessing and treating critically ill patients who require life-supporting interventions. They develop and implement treatment plans that provide maximal benefit to the patient while minimising harm; they also supervise less experienced members of the healthcare team. In a critical care unit, healthcare providers use lots of medical and surgical supplies to provide the highest medical care to patients diagnosed with critical illness or injury.

Various health professionals and allied health staff provide critical care in several different settings. This includes intensive care units (ICUs), high dependency units (HDUs), and general medical wards. Other types of critical care are provided in the community, such as emergency departments or hospitals without intensive care facilities.

The nurse-to-patient ratio is the key differentiator between intensive care and high-dependency care. The ratio of nurses to patients in the intensive care unit is one-to-one, whereas, in the high-dependency unit, it's one nurse for every two patients. On the other hand, on a typical ward, two registered nurses may be responsible for up to thirty patients.

Who Needs Critical Care?

Some people will be admitted directly to a critical care unit from the hospital emergency department (ED). Others may need to be transferred from other hospital areas, such as intensive care units (ICU) or surgical wards.

Some people who need critical care include:

• Those who have had an accident or have suffered trauma such as burns or fractures
• Those with serious infections such as pneumonia or sepsis
• Those who have had surgery or a major medical procedure

Other common reasons someone might need critical care include the following:

• cardiac arrest (heart attack)
• respiratory failure
• infection
• stroke
• severe head injury
• brain hemorrhage
• severe burns
• kidney failure
• seizures (epilepsy)
• heart rhythm disturbances
• spinal cord injuries

Levels of Critical Care in Australia

There are three levels of critical care available in Australia. These are:

Level 1

Intensive Care Unit (ICU). Here patients require continuous monitoring and treatment by highly trained medical staff. Intensive Care Units provide life support, including mechanical ventilation, intravenous access, and medications to treat infections and other complications.

In the intensive care unit (ICU), patients are often hooked up to various equipment, the most frequent of which are heart monitors and artificial ventilators (when patients can't breathe on their own). The devices in an intensive care unit (ICU) often generate piercing beeping noises and other alarms to alert medical workers to changes in a patient's condition.

In addition, the patient probably has several tubes going in and out of their body, either delivering or removing fluids and nutrients.

In the intensive care unit, there is a large number of doctors and nurses. A trained nurse is assigned to each patient and routinely examines all vital signs and other systems supporting the patient's life. The ICU often has its nursing station where medical staff can be called if needed urgently.

Level 2

High Dependency Unit (HDU). High Dependency Units (HDUs) are a type of intermediate care facility found in some hospitals. Higher Dependency Units (HDUs) are wards for patients who require more extensive monitoring, therapy, and nursing care than is typically provided in a regular ward but less than what is provided in intensive care. HDUs can be located within an intensive care unit or exist as separate areas within a hospital or healthcare facility.

There may be fewer nurses per patient than in intensive care, but there will still be more than in most ordinary wards. The patient stays at HDU might range from a few days to weeks or months, depending on the severity of their disease and the unit's current patient load.

Level 3

General Medical Wards. General medical wards receive patients who need 24-hour monitoring with support from nursing staff rather than continuous critical care. Here people stay overnight or longer while they recover from surgery or other procedures or are treated for an illness that isn't life-threatening but needs more care than an emergency room can offer. These patients tend to be stable enough to be transferred to another ward once they're better enough to be moved safely, so they don't receive ongoing intensive treatment such as mechanical ventilation or dialysis. There may be more than one general hospital ward at each hospital, depending on how many beds it has available and how sick the patients are.

Bottom Line

Critical care is a field that requires specialised equipment and supplies, as well as a full understanding of the process. At Paragon Care, we provide medical and surgical supplies to help healthcare professionals go through every step of the way. We offer you the best medical equipment for your critical care needs.

If you have any questions about our services or would like to request a quote, please feel free to contact us today.

Medical devices are a critical part of the healthcare industry and a key component of any hospital's equipment. In the medical device industry, mitigating risk is a top priority. Medical devices are often used to treat patients with severe or chronic conditions, and failure could have serious consequences. They are used for many purposes, from the simple to the complex: from monitoring heart rates to delivering life-saving care. As such, manufacturers must take all necessary steps to ensure that their products meet safety standards and are safe for patients.

This can be especially tricky for a company that manufactures urology solutions and other medical products in Australia. Not only do they have to worry about meeting government regulations, but they also must ensure their products comply with international standards. This is why ensuring that your medical product is manufactured under the highest standards is important.

In this article, we'll discuss how you can mitigate risk when manufacturing medical products in Australia.

Risk Assessment and Management Standards

As the medical industry has expanded, so too have the risks associated with production. While pharmaceuticals and medical devices are essential for patient care, they can also pose significant health and safety hazards.

The manufacturing of medical products in Australia is governed by strict regulatory requirements that protect human health and safety. These regulations are designed to ensure that medical products are safe and meet all quality standards.

The Therapeutic Goods Administration (TGA) set out the requirements for manufacturing medical devices in Australia. The main areas covered by these regulations include:

• Design review
• Quality management system
• Documentation requirements
• Compliance with standards
• Product recall and notification obligations

Risks When Manufacturing Medical Products

Here are some of the main risks associated with manufacturing medical devices:

Infection

Bacteria, viruses, and other pathogens can contaminate medical devices. This can lead to serious infections that can be life-threatening if left untreated. If patients are infected with a drug-resistant strain of bacteria or virus, their condition may worsen rapidly and they could die from their illness.

Product failure

Failure rates for medical devices tend to be high because they're used so often by patients who need them for their health or well-being. Some medical products may fail more frequently than others due to patient misuse or poor dth in some cases.

Patient safety violations

Poorly designed or manufactured products can also lead to patient safety violations that result in injuries or even death for patients who use them correctly according to instructions from their doctors or pharmacists.

Measures to Take to Ensure Compliance with TGA Regulations

The Therapeutic Goods Administration (TGA) is the Australian government agency responsible for ensuring that all medical products are safe and effective. The TGA has strict guidelines that must be met during the manufacturing process.

These are some of the steps that companies can take to ensure TGA compliance:

Certifying the manufacturing facility

The first step of complying with GMP regulations is certifying your facility to manufacture medical devices or pharmaceuticals. This involves applying for permission from the TGA and undergoing an audit of your factory.

Quality checking raw materials

Raw materials used in the production of your product must meet high-quality standards before being used in any stage of production or assembly. Raw materials must be checked for purity before entering your premises. This can be done through laboratory analysis or by testing samples from suppliers directly at their facilities.

Ensuring manufacturing equipment is in good condition

The next step to ensuring compliance with TGA regulations is ensuring that all of your manufacturing equipment is up to standard. This includes cleanliness, sterilisation, and maintenance of equipment. Equipment failure could result in a recall or other costly consequences.

Training staff to handle equipment correctly and safely

Another important step in ensuring compliance with TGA regulations is ensuring that all your employees are properly trained to use and maintain all production equipment for making medical devices. They must also know of any risks involved with using these machines to avoid accidents while working on them.

Labelling and packaging products correctly

The labelling on your products must meet all TGA labelling requirements. You also must ensure that your packaging complies with regulations governing hazardous substances, child-resistant packaging, etc. Failure to comply can result in fines or even prosecution.

Inspecting finished products for quality defects

You should ensure that all finished products meet quality standards before they are released for distribution or sale. This includes checking them and using pre-market testing methods such as physical inspection, chemical analysis, etc. This will help identify problems like contamination or damage before they reach customers' hands.

Storing finished products safely until distribution

Once you've completed your inspection, store your finished product safely until they're ready for distribution. For example, if you manufacture IV bags, ensure they are kept away from heat sources so they don't degrade before reaching their destination. You should also ensure that all packaging materials are secure so nothing gets damaged in transit.

Strive towards perfection

Quality management data should be used to encourage adaptability and drive major changes in your production processes to guarantee the best possible health, safety, and financial results.

Wrapping Up

Manufacturers of medical products in Australia have a clear legal obligation to ensure that their products are safe and reliable. The Therapeutic Goods Administration (TGA) provides guidance and information on fulfilling this obligation. That is why the medical manufacturing industry in Australia is highly credible.

Paragon Care's commitment to compliance has resulted in our products being used worldwide. Our manufacturing process is designed to ensure that our equipment meets the highest safety and quality standards, and we take every measure to ensure this is the case.

We are proud to be a part of Australia's healthcare industry, and we will continue to work with our clients to provide them with urology solutions with high-quality surgical equipment and medical supplies.

Neonatal Intensive Care Units (NICU) are places where newborns are treated when they require intensive medical care. They are some of the most advanced medical facilities in the world. The equipment used in these units is designed to provide comfort and safety for babies born prematurely or with health problems.

The NICU is staffed by a multidisciplinary team of specialist doctors, nurses, respiratory therapists, and healthcare professionals who provide continuous monitoring, diagnostic testing, and treatment to the most vulnerable infants.

The equipment used in a NICU is designed to meet the unique needs of these patients, who require close monitoring and specialised treatment to ensure survival. As such, NICUs use various medical devices and equipment to help keep babies safe and healthy.

This article describes some of the common equipment used in NICUs worldwide.

Common Equipment in the NICU

Neonatal Intensive Care Units (NICU) are the most critical areas of a hospital and are used to treat premature and very ill new borns. They use a wide range of equipment to monitor and care for these babies, including:

Incubators

Incubators temporarily house premature babies until they're strong enough for more advanced care or can go home. Incubators use heat transfer to warm up the baby's environment so they can grow properly without being exposed to viruses or bacteria from their surroundings.

A baby's incubator is a small, enclosed box. A heating system is located underneath the infant tray and warms the air mixture that is then circulated in the baby's enclosed surroundings. Indicators on the panels show both the air and the baby's temperature. Depending on the incubators, temperature regulation can be either automatic or manual. Alarms are installed in incubators to alert the user to any significant changes in the internal temperature.

Ventilators

Ventilators are medical devices that help patients breathe when they can't do it on their own. They're used in many different situations, from recovering from surgery to people who have stopped breathing because of an injury or accident. Neonatal ventilators are designed specifically for babies who have breathing problems related to premature birth or other conditions affecting the lungs or heart.

A plastic tubing connects the ventilator to the patient (endotracheal or ET tube). Babies often have the ET tube inserted into their nose or mouth. The tube enters the infant's windpipe via the baby's voice box. The baby's trachea is the entry point for the air from the ventilator; from there, it goes to the lungs. Each infant's oxygen, air pressure, and respiratory rate demands may be individually accommodated.

Radiant Warmer

Radiant warmers help keep newborns at a constant temperature, as they require a warm environment in the first few hours of life. A radiant warmer is the most fundamental piece of equipment in a neonatal intensive care unit (NICU). It is used to keep a newborn's internal body temperature stable and slow down their metabolic rate. Warmers are used as an artificial support mechanism to help keep the body temperature of some newborns from dropping too quickly.

An open tray in the centre of a radiant warmer is heated by a system positioned above. Babies are monitored by the use of a temperature knob that is connected to their clothing, with the results shown on a tiny LCD panel.

Cardiorespiratory Monitor

Attached to the baby's skin with sensors, a physiologic monitor (also known as a cardiorespiratory monitor) offers a continuous readout of the baby's vital signs, including heart rate and rhythm, breathing rate, arterial or central venous pressure, and other relevant information. An alarm will sound when a monitored vital sign exceeds or falls below a user-defined threshold. A wide range of sizes and styles of monitoring devices are available, with the newest ones often including embedded computer systems that may perform activities such as trend analysis, long-term data storage, and false-alarm suppression.

Apnea Monitors

Apnea monitors are used to monitor for apnea or cessation of breathing. They use a sensor attached to the baby’s chest and alert the nurse when there is a change in heart rate or breathing pattern.

Heart Rate Monitor

The heart rate monitor, also called an electrocardiogram (ECG) machine, records a baby's heart rhythm.

Oxygen Saturation Monitor

This monitor measures the amount of oxygen in your baby's blood, which helps determine if he or she needs supplemental oxygen.

Temperature Monitoring Systems

Temperature monitoring systems record your baby's temperature at all times to ensure it stays within normal limits.

Pulse Oximeters

A pulse oximeter is a small device attached to your baby's foot or hand. It measures how much oxygen your baby's blood carries to estimate how well your baby's lungs work.

IV pumps and Infusion Pumps

These devices deliver medications to patients through intravenous lines.

They are often used to administer antibiotics, diuretics, and other medications. Infusion pumps allow the administration of drugs at specific intervals, which is important for preventing drug overdoses.

Endotracheal (ET) And Tracheostomy Tubes

These tubes are inserted into the trachea and secured with adhesive or surgical tape. These devices provide a conduit for mechanical ventilation and protect the airway from aspiration of stomach contents. Depending on the patient's condition, ET tubes may be inserted through the nose or mouth.

Tracheostomy tubes are placed surgically through an incision in the front of the neck and secured with sutures or staples.

Suction Machines

Suction machines clear the baby's airway by removing excess mucus, blood, and other fluids from the baby's mouth and nose.

Takeaway

Medical device companies are one of the most important parts of the healthcare industry as they provide crucial medical equipment in the NICU.

Paragon Care can provide medical equipment in Australia for all your NICU needs.

We are committed to ensuring that you have the best possible equipment for your neonatal intensive care unit so that you can provide excellent care to your small angels.

An infusion pump is a device used by medical professionals manufactured by medical device companies to administer medications and fluids to patients. The pump can be operated manually or remotely, using tubing attached to the patient's body to deliver the medication.

Infusion pumps are used for various medical purposes, but they all have one thing in common: they deliver a steady flow of medication over a set amount of time. There are many different infusion pumps, but they all work the same way.

This article will discuss how infusion pumps work, their benefits and drawbacks, and their uses in modern medicine.

Types of Infusion Pumps

An infusion pump is a medical device that delivers a drug or other fluid through a tube or catheter. The pump can be used to deliver a short or long-term dose of medication, or it can be used to administer blood transfusions. They are often used in hospitals and nursing homes to administer antibiotics, chemotherapy drugs, or painkillers. Infusion pumps also deliver nutrition to patients who cannot eat independently. The medication is administered in a controlled manner through a flexible tube that connects the pump to a vein or artery in the patient's body.

In most cases, a trained user will control an infusion pump's flow rate and timer using the device's in-built user interface software. There are several benefits to using an infusion pump rather than manually administering fluids, including the capacity to provide fluids in extremely tiny amounts and at precisely set rates or automatic intervals.

Infusion pumps come in a wide variety of configurations, including large volume pumps (LVP), patient-controlled analgesia (PCA), insulin pumps, total parenteral nutrition (TPN), syringe, and enteral, among others. Some are made primarily for use at the bedside of a patient. Some, known as ambulatory infusion pumps, can even be worn or carried around.

The administration of high-risk drugs and other essential fluids often requires infusion pumps; therefore, pump failures can seriously affect patient safety. A variety of alarms and other operator notifications are standard on many infusion pumps and are designed to go off in the case of a malfunction. Some pumps, for instance, can notify caregivers if air or another blockage is found in the tubing used to transport fluid to the patient. Some modern infusion pumps, sometimes called smart pumps, are designed to inform the user when there is a danger of an unfavourable medication interaction or when the user changes the pump's settings outside of predetermined safety limits.

How Do Infusion Pumps Work?

Infusion pumps use either electronic or mechanical controls to deliver the desired flow rate. They use a hybrid approach called quasi-peristaltic motion. A three-chambered cassette is used in conjunction with a pumping mechanism to create the system. The volume of fluid to be conveyed and the fluid delivery rate is specified in millilitres per hour. The pump will not push fluid over a certain delivery pressure to avoid harming the patient.

One way to do this is by monitoring reservoir pressure and preventing it from rising over a certain threshold. Once the pressure is reached, the pump will stop. A warning signal called an occlusion alarm provides this information. An alarm will go off if the pump isn't working as it should be, such as if the patient isn't receiving the expected amount of fluid. Since the infusion pump has a built-in battery, it can remain functioning even if the power goes out.

Applications of Infusion Pumps

Infusion pumps are used in many settings, such as hospitals, nursing homes, and long-term care facilities. These pumps can be used in many different applications, including:

• In cancer treatment, these pumps are used to administer chemotherapy.
• The medical industry puts them to use at clinics for injecting various drugs.
• When used to administer intramuscular injections of nutrition or drugs, these pumps raise standards of care by ensuring greater precision and uniformity.
• In addition to this, it is utilised for pain management.

Benefits of Infusion pumps

The benefits of using an infusion pump include:

● Ease of use

Infusion pumps can be programmed to deliver a set amount of medication at regular intervals, which makes them especially useful in situations where it’s important to administer medications consistently.

● Convenience

An infusion pump can be worn on a belt or attached to your clothing so that you don’t have to remember to take it with you when leaving home or going out in public.

● Safety

The automatic delivery mechanism ensures that the correct dosage is delivered without fail, which helps prevent under- or overdosing that might otherwise occur if left up to a person’s memory or ability to follow directions.

Takeaway

Infusion pumps are life-saving devices used by millions of healthcare professionals daily. At Paragon Care, we believe that when it comes to medical devices, the customer experience is critical. That's why we work hard to ensure that our infusion pumps are easy-to-use and intuitive.

As a leading medical device company in Australia, we are committed to working with you to ensure that your patients get the right care at the right time. We want to help you provide the best equipment possible, whether it's through our infusion pumps or any other medical device in our product line.

Advances in technology have brought a lot of changes to the medical sector. From the way we treat diseases to how we perform surgeries, there has been an influx of new equipment and technology that promises to make your treatment better and more efficient.

One such device is the surgical helmet system. This device is commonly known as a surgical helmet and is used in the operating room (OR) setting to protect surgeons from germs and bacteria that can cause infection or disease.

As an orthopaedic surgeon, you know that your work is incredibly important. You're not only providing relief to people in pain but also helping them live their lives as fully as possible.

That's why it's so important that you have the best medical equipment and supplies possible when you perform surgeries. Without the right surgical equipment in Australia, you can't do your job as well as you should be able to—and that means patients will suffer for it.

A surgical helmet system is one of the most important tools in any orthopaedic surgeon's arsenal. It helps ensure patient safety by keeping them still during procedures, which reduces complications and improves outcomes. But maybe even more importantly, it helps ensure your job as an orthopaedic surgeon goes smoothly too!

This article will examine why orthopaedic surgeons need a helmet system and what makes a good one.

Surgical Helmet System – Explained

There are two types of surgical helmet systems (SHS): loose-fitting hoods and hoods that are part of an overall gown (called a toga system). Using SHSs during orthopaedic surgeries helps reduce the risk of deep wound infection by preventing the surgeon's skin and other contaminants from entering the open surgical site. Since there is a growing concern for healthcare workers' protection, using SHS to shield surgical personnel from infectious blood splashes and possibly infectious aerosols created by power tools during orthopaedic operations has garnered much attention.

A surgical helmet provides the highest level of safety possible for the staff and the patients undergoing surgery. It is a barrier against germs, sweat, and dust without sacrificing performance or efficiency.

Advantages of Using Surgical Helmets in Ortho Surgeries

The surgical helmet system is an innovative technology used for several years in orthopaedic surgery. It allows the surgeon to operate on a joint or bone more precisely than ever.

The advantages of using a surgical helmet in ortho surgeries are:

• Decreased risk of infection - The headgear protects surgeons from bacteria and other pathogens that could be present on patients' skin or clothing. This helps reduce the risk of infection during surgery.
   
• Improved visibility - The surgical helmet allows better visibility than ever before. The clear plastic helmet lets you see exactly what you're doing while keeping your hands free from dirt and debris. The headgear also prevents stray hairs from falling into the wound during surgery.
   
• Protection against aerosol compounds - In orthopaedic operations, drilling is a major contributor to the creation of aerosols. The use of power drills in orthopaedic surgery has been shown to generate statistically significantly more particles than ambient air. The exposure that orthopaedic surgeons are subjected to while drilling is complex since it is a skilled step in nearly all orthopaedic surgeries that requires adequate vision and great mobility.
  
  It is well-documented that aerosols can carry infectious agents in their particles.
  
  It has been hypothesised that SARS-COV-2 might be transmitted by blood aerosols created during operational procedures. To counteract this transmission route, however, surgeons must be cautious and implement procedures to curb aerosol production in operating rooms (OTs). Thus, a surgical helmet system can help to prevent these substances from entering your body while you are operating on a patient.
   
• Increased Efficiency
  
  The use of surgical helmets reduces the time taken for operating since it allows for better vision, less movement by the surgeon, and more precision in terms of positioning instruments and other tools necessary for performing a procedure on a patient's body part.

Features of A Quality Surgical Helmet System

Quality is a priority for your surgeon. They must use the best surgical helmet system available because it will make their work easier, faster, and more accurate. A good surgical helmet system is:

• Lightweight and comfortable to wear.
• Adjustable for a perfect fit.
• Distraction-free, providing low noise levels.
• Aerate system.
• Cost-effective design.

Takeaway

As you can see, there are many reasons an orthopaedic surgeon should start using a surgical helmet system. The surgical helmet system by Paragon Care is a great choice for orthopaedic surgeons who want to improve their efficiency and reduce costs.

As the leading provider of surgical equipment in Australia, we understand the importance of having the best medical equipment and supplies for your practice.

At Paragon Care, we have a range of equipment commonly used by urologists. From high-end ultrasound systems to medical consumables, our urology solutions ensure your medical facility is always equipped with the best diagnostic and therapeutic imaging equipment. In this blog, we discuss some of the most commonly used equipment by urologists:

Diagnostic Tools:

If you wish to reduce your turnaround time, you can skip the lab and install diagnostic tools like our point-of-care blood chemistry analyser in your urology centre. This will allow you to gain results on-site and make faster clinical decisions. The most common diagnostic tools used in urology include:

• Ultrasound scanner
• Urine analyser
• X-rays
• Cystoscope
• Laparoscopes
• Nephroscopes
• Resectoscopes
• Endorectal probe

BK Medical, a partner of Paragon Care, has been developing ultrasound solutions for medical professionals for the past 40 years. BK Medical’s surgical ultrasound systems offer unmatched image quality, seamlessly integrate with MRI/Fusion systems, and offer contrast imaging to allow urologists to make more accurate diagnoses. They also support robotic-assisted surgery.

Catheters:

Some of the most commonly used tools in urology are catheters. Catheters are available in several different shapes and sizes, and each type is typically used for a different purpose. There are three main types of catheters: indwelling catheter, condom catheter and intermittent self-catheter.

An indwelling catheter is left inside the bladder and collects urine in a drainage bag, which can be discretely attached to your leg under your clothes. A condom catheter is a condom-like device placed over the penis with a tube leading to a drainage bag. Intermittent self-catheters are used when the patient only needs to use a catheter occasionally, and it does not attach to a bag.

Lasers:

Lasers are one of the most commonly used urology solutions and can help a urologist treat several conditions. These lasers allow them to use endoscopic instruments with small diameters. These allow them to see even the minutest details in the urinary tract to help with diagnosis and treatment. Lasers can also remove blockages from the urinary tract or kidney, which previously used to be done via surgery. It is also safe to be performed on pregnant women.

Paragon Care offers Dornier MedTech Holmium Lasers as part of its extensive portfolio of urology solutions. These powerful and versatile lasers are tailored specially for urologists and come with unmatched features and smart controls.

Imaging Systems:

A diagnostic tool that allows urologists to accurately view the inside of the body and suspicious tissue structure to assess problems and perform safer procedures, imaging systems like laparoscopes, cystoscopes, nephroscopes and resectoscopes are essential for any urology centre. These eliminate the need for open surgery and improve visibility. Many imaging systems today also offer features like Ultra-High Definition, Magnified Visualisation and Wider-Colour Gamut and LCD touch panels for better results.

Other imaging tests include pyelograms, cystography, CT scans, sonograms, renal angiograms and ultrasounds.

Urology Examination Tables and Chairs:

No urology centre can be complete without a urological examination chair or table. These specialised tables and chairs have been designed to provide support to patients during urological procedures. The adjustable backs and seat rest in the chair allow the specialist to tilt the patient back to the appropriate level, whereas the leg support can enable the patient to comfortably put their feet up for a closer examination by a specialist.

Infection Control Equipment:

Because of the invasive nature of most of the tools used in urological procedures, it is essential for stringent infection control protocols to be in place. This includes the use of disposable probe covers, probe pre-cleaning and transport accessories and high-level disinfection systems, as well as the use of consumables of the highest quality to aid in the prevention of healthcare-associated infection. Your urology centre also needs a hefty supply of personal protective equipment (PPE) like face masks, gowns, gloves, hair caps and goggles. Additionally, your facility should be well-equipped with hand sanitiser and disinfectant spray for better infection control.

Surgical Instruments:

Like any other surgeon, a urologist must be well-equipped with surgical equipment. These include forceps, scissors, scalpels, clamps, catheter introducers, urethral sounds, needles and needle holders, surgical sutures, skin adhesive, surgical dressing and suction.

How Paragon Care Can Help

Paragon Care’s extensive product portfolio has everything you need to furnish an exceptional urology centre, from infection control equipment and consumables to diagnostic and imaging tools. Paragon Care partners with CIVCO to offer peerless infection control. Moreover, all of Paragon Care’s products provide an additional layer of disinfection through UV-C technology designed to improve infection control.

Paragon Care's the one to call when in need of healthcare products and medical devices to set up a urology centre from scratch or to upgrade the equipment in one. Get in touch with our representative to learn more about how we can help you.

As a hospital manager or administrator, it may fall on you to ensure your hospital’s operating room is equipped with the right tools and equipment. Operating rooms are highly specialised areas of the hospital that require highly functional equipment for doctors or surgeons to perform operations effectively. As such, it is imperative that the operating room of your medical facility be fitted with the appropriate medical surgical supplies for the best results.

In this blog, we provide a checklist of the most important medical and surgical supplies required for use in an operating room:

- Surgical Table and Accompaniments

No operating room can be complete without a surgical table and accompaniments. Ideally, your surgical table needs to be height and angle adjustable and offer arm and leg support to allow you and your team to perform operations confidently and efficiently. You may also look for features such as safety straps, special cushioning and headrests if your facility regularly performs longer surgeries. Every medical facility needs a good surgical table, from dentist clinics to cardiology centres.

- Surgical and Exam Lights

Good, expansive light is an essential part of any operating theatre. A doctor or surgeon may perform critical surgery, requiring them to focus on minor details. Surgical lights allow them to see what they are doing, preventing mistakes and errors. Several high-quality surgical lights are available today, including ceiling-mounted, mobile, or surgical headlights.

- Infection Control Equipment

It is imperative that an operating room be kept clear of any kind of germs, viruses or bacteria, which magnifies the importance of using sterile, new consumables. But buying new forceps, scissors or retractors for every surgery is not feasible; this is why sterilisation equipment is necessary for any operating room. While it is true that you could pre-sterilise supplies before bringing them to the OR, but travelling through the corridors of a hospital could expose the supplies to an untold amount of germs and bacteria, which defeats the entire purpose of sterilisation.

By cleaning and sterilising supplies in the OR, hospital personnel can ensure that everything is pristine and hygienic.

- Disposables and Consumables

An OR needs an almost endless supply of disposables and consumables like face masks, gloves, biohazard bags, waterproofing pads, personal protective equipment (PPE), surgical sutures, dressings and adhesives. Your doctors or nurses should be able to change their equipment as and when needed without fear of running out.

- Clamps

Clamps are one of the most simple but highly necessary accessories that allow several other accessories to be attached to the surgical table. These include IV poles, anesthesia screens or arm boards. Clamps are available in several different styles and can be attached to different parts of the surgical table, but it is essential to test if the clamp you choose is the right fit for your table and accessories before purchase.

- Defibrillators

Although defibrillators will not always be necessary in every surgery, having one on hand can greatly reduce the amount of time it takes your medical team to respond in case of an emergency.

- Anaesthesia Screens

Many surgeries require the patient to receive conscious sedation, where they are awake but unable to feel the sensations of surgery being performed on them. In this case, an anaesthesia screen can separate the patient’s view from intimidating surgical supplies and the surgery itself. No one wants to see themselves being cut up, and such a view could be traumatising and overwhelming for the patient.

- Vital Signs Monitor

Another essential equipment in any operating room is a vital signs monitor. These allow the medical team to stay aware of the patient’s condition while performing surgery on them and to take appropriate measures in case any of the vitals start to drop.

- Head Supports

Although this might often be forgotten, head supports are vital for surgeries where the patient is expected to lie flat for a long period. Tilting the head up could allow the patient to breathe better, and different surgeries might require the head to be in a different position. Make sure to stock your operating room with different types and shapes of headrests for best results, such as a doughnut headrest for prone position surgical procedures.

- Emergency Power Backups

In an emergency, if the power goes out while you’re in the middle of surgery, an emergency power backup should be able to keep you going while you complete your surgery. Your patient might be hooked up to an oxygen machine, in which case losing power could be disastrous.

Paragon Care - Your Partner for Medical Surgical Supplies

Whether you’re looking for surgical consumables or common operating room products, Paragon Care has it all. With an extensive product portfolio containing medical surgical supplies like sterile tourniquets, patient support systems, surgical helmet systems, skin adhesives, gowns, masks, gloves and more, and medical devices like anaesthesia delivery systems, we can ensure that your OR is well-stocked with all the essentials.

When setting up a new clinic, laboratory or hospital, one of the first considerations is selecting the right healthcare equipment. The right equipment can make the difference between saving and losing a life, which is why it is essential for hospital managers and administrators to make the correct choice.

Today, with advancements in medical science and technology, there are a number of medical devices available. The efficacy of each device, its user-friendliness and accuracy will differ, which can often make it difficult to make sure you’re making the right choice. When selecting healthcare equipment for your medical facility, keep the following in mind:

How to select the right healthcare equipment:

Nature of your facility:

The first thing to look at is whether your facility offers specialised services or is part of a larger facility that offers a number of different medical services. For example, the clinic of an obstretician and gynaecologist will be outfitted with different equipment than one of a urologist. Any good hospital manager or administrator will talk to the presiding doctors and nurses of the facility to find out what the medical facility requires. It is only the people who use the equipment everyday who can tell you what needs to be bought or needs an upgrade.

Moreover, consider the size of your facility. Not every piece of equipment will be suited to each situation. For example, a hospital emergency ward will likely see a lot of traffic and so the equipment fitted in the room needs to be able to handle that load. Finally, think about the power resources you have at your disposal and whether the equipment needs to be constantly charged.

Features of the equipment:

You want the healthcare equipment you buy to be easy-to-use and offer a number of different functions. If you’re buying new equipment and are not sure how it functions, talk to the supplier about giving some basic training to your personnel about its use. Ideally, you should be looking for user-friendliness along with functionality when looking for the right healthcare equipment. Your doctors, physicians and nurses don’t want to be fiddling around with controls when there’s a critical patient at their table.

Cost:

Most medical equipment is costly. But medical equipment is not something to cut costs on. Cheaply made, faulty apparatus can put a patient’s life at risk and could open your medical facility up to negligence lawsuits. But while patient care should always be the priority, it is not impossible to find quality products that fit your budget. Remember, cost should never outweigh quality when buying medical equipment for your healthcare facility.

Quality:

Speaking of quality, this is another consideration to keep in mind when it comes to selecting healthcare equipment for your facility. Look at the supplier or manufacturer’s ISO certifications, design techniques, use of technology and their quality control standards before buying equipment aimed for use at a medical facility. Good quality products are everything in the healthcare industry. Because doctors, physicians, nurses and hospital staff are dealing with people’s lives, it is imperative that only the highest-quality and most reliable products are used. To ensure you are covered if the equipment turns out to be faulty, also look for products with a full warranty.

After-sale customer service:

Technology can fail at any time. When dealing with medical equipment, if a fault occurs, you want your product to be back up and running in no time. A piece of equipment that is giving improper readings or won’t start can put lives at jeopardy, which is why after-sale service is so important. When buying a product from a supplier or a manufacturer, you need to be sure that the provider will supply ongoing care and maintenance when required.

Reputation of the supplier or manufacturer

Lastly, the supplier or manufacturer you buy from must enjoy a good reputation in the market. They should also have an extensive inventory of products in their portfolio. By buying all the equipment you require from a single vendor, you streamline the delivery and installation as well as the after-sales service for your facility. The best suppliers are those who not only have extensive market knowledge, but also have several satisfied customers who can vouch for their authenticity and service.

Paragon Care - leading providers of healthcare equipment in Australia

At Paragon Care, we ensure all of our equipment is sourced from the leading manufacturers in the industry and offer extensive after-sales customer service.

From veterinary to neonatal, orthopaedics to critical care in Australia, we have an extensive product portfolio to meet the needs of any healthcare facility in the country. We also offer other medical products and consumables such as surgical covers, needle guides, grids and drapes, IV sets and ultrasound probe covers to keep healthcare facilities well-stocked.