Tuesday, July 14, 2009

Digital Thermometer


Specifications:


Gross wt/net wt 17.7/14.5 kg.


  1. Temp range 32 degC - 42 degC

  2. Display LoC : Temp below 32oC

  3. Display HoC : Temp above 42oC

  4. Accuracy : +- 0.1 oC

  5. Display mode : LCD (3.5)

  6. Power 0.15mV (working)

  7. Battery AG3 1.5V

  8. Alarm : Thermometer beeps after temperature taken

Monday, June 22, 2009

Color Medical Imager


For all of ur color imaging , this device provide u the lowest cost,highest image quality print solution of any color medical glass imager.

Uromat




Ergonimics are of the utmost importance for being able to work in a highly concentrated manner without exhaustion.The heart of the Uromat is therefore comprised of highly sensitive yet robust mechanics which can be used to move ,pivot or tile the table into any position.
The multifunctional footswitch allows the table to move into all directions during examinations.This X-ray equipment can be moved into in parked position when needed.
The Uromat offers u a variety of helpful extras for the daily needs of your medical practice-from exempary hygenic concepts to indivisual service tailored to meet u requirements to comprehensive high quality optional equipment.

Digital X-RAY Imaging Machine


It brings digital X-ray inaging directly to the patient where it's needed most.This transportable X-ray unit in a single ,self contained package.This stand solution is completely mobile ,making it ideal for a variety of appications.

Highle Versatile ;
Quick,Effecient availabilty of patient images and information is critical in today's busy health cre environment.It's light weight poratble design of Kodak

Quantum X-RAY Machine


This system is designed for hospital emergency departments,traumatology and all general radiography applications.the integrated C-arm design enable the inage receptor to remain in constant alignment owing to arm is rotated.It has vertical n rotational movement.It also has electronic safety bumpers for "Collision avoidence".
This ergonomic system easily facilitates exams of patients in a standing,seated or in a recumbent position.It is an extremly easy to use system.
It has dual speed motorized movements and collision avoidence electronics.

PSG-Equipment


Polysomnography (PSG) is the ultimate n potable system from Neuorovirtual canbe used to analyze and diagnose several types of sleeping disorders.It provides 20 digital channels.
The BW A nlysis Software provides for PSG recording n review and also allows easy location for any examination point,sleep stage or event.Also includes diagrams of all captured signals,automatic dtection of desaturations and apnea statistics,microarousals,hypnograms and other associated polysomnographic data.

V-Razer




It is the newest Aesthetic Medical Laser which aim to be engineered to provide a compact effective solution for vascular lesions.It has 980nm diode wavelength which delivers safe treatment of Red n Blue Vascular lesion on the face such as around the nose and on the cheeks.Variable spot sizes enable the treatment of small , hard to reach vessels.

Saturday, June 6, 2009

CPR


Cardiopulmonary resuscitation (CPR) is an emergency medical procedure for a victim of cardiac arrest or, in some circumstances, respiratory arrest.CPR is performed in hospitals, or in the community by laypersons or by emergency response professionals.
CPR is unlikely to restart the heart, but rather its purpose is to maintain a flow of oxygenated blood to the brain and the heart, thereby delaying tissue death and extending the brief window of opportunity for a successful resuscitation without permanent brain damage. Advanced life support (most commonly defibrillation) is usually needed to restart the heart. Defibrillation is not appropriate for 'flat line' (asystolic) patients, and in this instance, CPR can help bring a heart in to a shockable rhythm such as ventricular fibrillation or ventricular tachycardia.

Thursday, June 4, 2009

Eye Massager





  • It Simulates massage,quiver,beating,pressing.
  • It possess the qualities of a nine kinds of traditional Chinese medicine massage effect.
  • It has 26 Neodymium magnet massage dots which act on each impoints around the eyes.
  • It works on both Alternating current & direct current.
  • It has nine kinds of massage operate circularly 4 timing functions.

Eyes Operating Table


This table is widely use for Ophthalmology and Otorhinolaryngology surgical purposes.This table provides great ease to the Surgeons to done their jobs successfully as it possess sound technical anf functional specifications which r listed below.

Techinical Details:
Height Adjustment: 550mm – 800 mm
Table Horizontal Lenght: 2050mm
Table Width: 600mm
Table Base: 500mm x 980mm
Head Section: 215mm x 235mm
Back Section: 480mm x 330mm
Bed Section: 480mm x 1500 mm
Lifting Capacity: 150 kg
Functional Details:
Head Section: Adjustable vertical 45°, and flexible head system.
Sponge and polyurethane headpad.
Back Section: Adjustable between 0° and 75° .



Women Urology Surgical Chair


This Comprehensive Surgical Chair is been used for the Urological examination of women.Its an Electric multipurpose Operatiing chair.This chair offers the suitable height and angle as well as the right placement of the patient's operating part.
Specifications :
1.Table top dimension:1860 X 600
2.Table top heigh:630-880
3.Back rest adjust range:80 to 20 degree

MultiPurpose Operation Table


This Operation table can be used for several examinations.

Surgery Table



This operation table is controlled by eletricity ,it designed as the tools and mirror requires for the Gynecology and Urology and Surgery,the surface table designed as the curve of body, suit for the patient's body,it can adjust height and angle directly so that the patient may operate smoothly.For Doctors it happens to be very convenient,satisfying.For all the normal exminations ,Cure and Scratch uterus operation.
Faetures:
1.Table top dimension:1900mm×600mm
2.Table top Min level height:610mm(table height)
3.Table top Max level height:900mm(table height)
4.The buttock board Min level height when the back rest raising up :250mm(table height) 5.Electric buttocks board tilt angle range:upward 80 degree,downward 0 degree.
6.Assist table:520 X 550mm

Tuesday, May 26, 2009

Fetal Heartbeat Detector


The third generation of AngelSounds

Features:

1. Split-type design: separate design between host and probe

2. Power with dry batteries AAA

3. The probe taking the principal of fetal ultrasound to collect the fetal heart beat signals of fetus


Functions :

1. It acquires the fetal heart signals from fetus, broadcast the fetal heart sound through headphones or host embedded rock.

2. It can broadcast music.

3. It can be used singly and also transmit the fetal heart signal to the Remote Central Monitoring System in hospital through ordinary monitoring telephone to provide diagnosis for doctors, enjoying the hospital experts’ diagnostic services at home.

4.It can transmit the real-time sound of fetal heart to the computer saving for memory by specialized data lines 5 characters: small beautiful appearance, super aerodynamic design; strong ability of processing fetal heart signals, invulnerable to outside interference: isolation of probe and host, small and humane design, which are more convenient to find the place of the fetal heart. The host embedded rock can achieve many people listen the fetal heart sounds at the same time instead of using the external accessories.

Dental Equipment


Dental Therapy Device


This Device has 4 functions :


  • Pulp Tester

  • Ionophoresis

  • Apex Locator

  • Diode Laser

Pulp Tester help the dentist to know whether the pulp is alive or not.


Ionophoresis is the method that uses Bacterisitis Effect of +ve n -ve ions.This method is used in Dentistry for the sterilization of endodontium and hypersensitivity of dentin n teeth.


Diode Laser helps the dentist to treat Pulpitis,Gingivitis,Periodonditis,Pericoronaritis,Implantology.



Specifications :



Rub with hands,Beat,Kick to the Back.

Seat Massage.

Leg Massage.


Foot Massage.


Touch Control n Rubber Control.


Music.

Ventilatory Euipment


There are different types of High frequency ventilation.Each type has its own unique advantages and disadvantages. The types of High Frquency Ventilator are characterized by the delivery system and the type of exhalation phase.


High Frequency Oscillatory Ventilation (HFOV)


High Frequency Oscillatory Ventilation is characterized by high respiratory rates up to 15 hertz (900 breaths per minute). The rates used vary widely depending upon patient type and disease condition. In HFOV the pressure vibrates around the constant distending pressure (equivalent to the PEEP). Thus gas is pushed into the lung during inspiration, and then pulled out during expiration. HFOV generates very low tidal volumes that are generally less than the dead space of the lung. Tidal volume is dependent on endotrachial tube size, power and hertz. Different mechanisms of gas transfer come into play in HFOV compared to normal mechanical ventilation. It is often used in patients who have hypoxia refractory to normal mechanical ventilation: severe ARDS, ALI and other oxygenation issues that cannot be corrected with conventional ventilation. In some neonatal patients HFOV may be used as the first-line ventilator due to the high susceptibility of the premature infant to lung injury from conventional ventilation.

BVS


The system is used all over the world for temporary left, right, or biventricular (both ventricles) support in patients with potentially reversible heart failure.


What are the symptoms of heart failure?
1-Left-sided heart failure :
* Shortness of breath together with a reduction in mobility.
* In less severe cases, breathing problems only start upon exertion.
* A dry cough may develop that doesn't go away.
*
Fatigue
2-Right-sided heart failure and biventricular failure
* Swelling in the legs (oedema).
* Oedema may lead to dry skin on the lower part of the legs because of pressure from inside the tissue.
*There may be an
eczema-type rash on legs, which can be complicated by ulcers that do not heal (venous leg ulcers).
*Possible accumulation of fluid in the abdominal cavity and organs, especially the liver. The organs swell and the abdominal wall might expand.

Wednesday, May 20, 2009

The GE Voluson 730 4D Ultrasound System marks a new dimension in obstetric imaging. It features advanced signal processing, which produces higher-quality ultrasound images. But what makes the system unique is exclusive GE 4D technology. GE 4D Ultrasound represents the difference between video and a still photograph. Through this revolutionary technology, your baby's three-dimensional image is continuously updated, providing a "live action" view that leads to a number of medical benefits. Physicians and sonographers can better analyze fetal development. So you'll know what to expect and can feel confident during your pregnancy. The Voluson 730 4D Ultrasound System is just one more example of the breakthroughs evolving every year from the scientists and engineers at GE Medical Systems - breakthroughs designed to provide you with all the information and security you need to ensure your family peace of mind and good health.

Tuesday, May 12, 2009

SonoGraphy

Ultrasound is cyclic sound pressure with a frequency greater than the upper limit of human hearing. Although this limit varies from person to person, it is approximately 20 kilohertz (20,000 hertz) in healthy, young adults and thus, 20 kHz serves as a useful lower limit in describing ultrasound. The production of ultrasound is used in many different fields, typically to penetrate a medium and measure the reflection signature or supply focused energy. The reflection signature can reveal details about the inner structure of the medium. The most well known application of this technique is its use in sonography to produce pictures of fetuses in the human womb.

Sonography is used routinely in obstetric appointments during pregnancy, but the FDA discourages its use for non-medical purposes such as fetal keepsake videos and photos, even though it is the same technology used in hospitals.
Obstetric ultrasound is primarily used to:


  • Date the pregnancy (gestational age)

  • Confirm fetal viability

  • Determine location of fetus, intrauterine vs ectopic

  • Check the location of the placenta in relation to the cervix

  • Check for the number of fetuses (multiple pregnancy)

  • Check for major physical abnormalities.

  • Assess fetal growth (for evidence of intrauterine growth restriction (IUGR))

  • Check for fetal movement and heartbeat.

  • Determine the sex of the baby

Thursday, April 9, 2009

"Open Bore" MRI Scanner


On March 16, 2007, Radiology received the latest in MRI technology when the Siemens Magnetom Espree arrived at the mobile MRI dock. This mobile magnet better serves our patients, particularly those with severe claustrophobia, wide abdominal girth, or a weight limit that precludes examination in an ordinary magnet. The Espree MRI, a high-field 1.5 Tesla magnet, is powerful and fast; it provides images with great detail (see photos below), and it has a significantly wider and shorter “bore” or opening. Patients who are having their spine or pelvis examined rest with their head and lower extremities outside the magnet; see photo above. To further ensure patient comfort, we have provided decoration and backlighting to create a sense of space within the mobile pad. This magnet is available for routine use from 6 a.m.-11 p.m. Monday-Friday, and from 7:30 a.m.-4:30 p.m. Saturday. Stop by and see MRI Team Leader Bob Ferranti in MRI for a tour!
Images of the scanner and the MRI pictures it can take are shown below. For Frequently Asked Questions (FAQs) on this scanner, click on the links below.

Siemens New MRI Breast Scanner


Going for a Mammogram is no fun, in fact it could be downright painful. Siemens has just announced a new MRI breast scanner, the Magnetom Espree-Pink that will not only reduce the pain but specifically focus on being a dedicated solution for breast examinations. The machine is big enough for those being examined to feel comfortable but small enough to give accurate results. Another nice touch is that the MRI is indeed pink. There was no word in the press release of when it would be coming to hospitals in the states but I hope it makes it way here soon.

Opening the Doors to Medical Technology: Siemens Introduces an Affordable, All-New 1.5T MRI


MALVERN, Pa., Oct. 17, 2007 – Siemens Medical Solutions (www.usa.siemens.com/medical) today announced that it recently received U.S. Food and Drug Administration 510(k) clearance for a ground-breaking magnetic resonance imaging (MRI) system that will change the paradigm of how high-field MRI is offered, opening up access to diagnostic care previously unavailable in many communities.

Hospitals Try to Win MRI Scanner in Video Contest


One day after announcing a new cost-effective 1.5 T Magnetom Essenza MRI, Siemens has initiated a clever marketing strategy to bring attention to its product.

One small hospital in the US, currently without an MRI, has a chance to win the system by producing a short video on why they want the scanner, and entering it in the contest held over at WinAnMRI.com. The video with the most votes wins. So, whether you want to watch a bunch of amusing videos, or you want to side with your local hospital, head on to the website and vote.

MRI - MAGNETIC RESONANCE IMAGING



Advanced Imaging has a Siemens Avanto 1.5 Tesla MRI system with 18 channels.. This machine is state of the art and there is no better 1.5 T machine in existence. The Avanto is the latest generation MRI system, made in Germany. Most MRI machines equivalent to ours are used for high-end research at major universities. At Advanced Imaging we think our patients deserve the same high level of care right here at home.


Parallel Imaging with 18 receiver channels for improved image quality and unmatched speed Total Imaging Matrix (TIM) allows linking of multiple surface coils for improved resolution and faster speed.


Whole Body Capability

Short Bore for reduced claustrophobia

Feet First Exams for reduced claustrophobia and greater flexibility

Much Quieter gradients for greater patient comfort.!

CT - COMPUTED TOMOGRAPHY

SPEED = QUALITY

Our new CT scanner, the Siemens Sensation 64 Cardiac with Straton Tube, has the fastest rotation time of any 64 slice scanner made and is faster than any competing scanner in Wisconsin. This scanner is state of the art and is used at major universities and world class medical centers like the Mayo Clinic. .Rotation time is like the 0-60 time on a sports car, the lower the number the better, if you want to go fast. Quality CT diagnosis is all about speed.

Our scanner has a rotation time of .330 seconds and 64 slices per rotation. The scanner at our local hospital has a rotation time of .400 seconds and 16 slices per rotation.

Our scanner does 192 slices per second. Theirs does 40.Features Include:

Less radiation than comparable 16 and even 64 slice scanners

Higher z-resolution than comparable 16 slice scanners in routine use (0.60 mm vs 1.0mm)

Faster rotation speed means sharper images and less motion artifact on all studies.

Faster speed improves the quality of all CT angiography (carotid arteries, brain, aorta, renal and mesenteric arteries, extremities).

Faster speed allows smaller and safer contrast doses.

Innovation for Women’s Health – the new MRI breast scanner from Siemens

Magnetom Espree-Pink makes examinations
more comfortable for physicians and patients:




Siemens Healthcare recently presented its first MRI breast scanner, Magnetom Espree-Pink. This 1.5-Tesla system is the latest innovation in magnetic resonance imaging (MRI) from Siemens, featuring a dedicated solution for breast examinations. Particularly for obese and claustrophobic patients, the large, 70-centimeter magnet bore makes examinations more comfortable than with previous systems, or, in some cases, it makes them possible for the first time ever. The flexible design of the "Sentinelle Vanguard for Siemens" breast coil also optimizes the clinical workflow. Comprehensive applications such as syngo Grace or syngo Views additionally set a new standard in Women’s Health.

Wednesday, April 8, 2009

suppository


A suppository is a drug delivery system that is inserted either into the rectum (rectal suppository), vagina (vaginal suppository) or urethra (urethral suppository) where it dissolves.
They are used to deliver both systemically-acting and locally-acting medications.
The alternative term for delivery of medicine via such routes is pharmaceutical pessary.
The general principle is that the suppository is inserted as a solid, and will dissolve inside the body to deliver the medicine


Rectal suppositories

Glycerin suppositories (laxative)
Rectal suppositories are commonly used for:
laxative purposes, with chemicals such as glycerin or bisacodyl
treatment of hemorrhoids by delivering a moisturizer or vasoconstrictor
delivery of many other systemically-acting medications, such as promethazine or aspirin
general medical administration purposes: the substance crosses the rectal mucosa into the bloodstream; examples include paracetamol (acetaminophen), diclofenac, opiates, and eucalyptol suppositories.

[edit] Mode of insertion
In 1991, Abd-El-Maeboud and his colleagues published a study in The Lancet,[1] based upon their investigation into whether there was some hidden and forgotten knowledge behind the traditional shape of a rectal suppository.
Their research very clearly demonstrated that there was, indeed, a very good reason for the traditional "torpedo" shape; namely, that the shape had a strong influence on the extent to which the rectal suppository traveled internally — and, thus, upon its increased efficiency.
They (counter-intuitively) found that the ideal mode of insertion was to insert suppositories "blunt"-end first, rather than the generally used mode of inserting the "pointy"-end first. This conclusion was based on the greater distance of internal travel of the suppository once inserted, which was entirely a mechanical consequence of the natural actions of the bowel's muscular structure and the rectal configuration.
As a consequence, and in order to guarantee the maximum optimal efficiency, they recommended that all rectal suppositories be inserted "blunt"-end first. The findings of this single study have been challenged as insufficient evidence on which to base clinical practice.[2]

[edit] Non-laxative rectal suppositories

Four 500 mg acetaminophen/paracetamol suppositories
Non-laxative rectal suppositories are to be used after defecation, so as not to be expelled before they are fully dissolved and the substance is absorbed. The use of a examination glove or a finger cot can ease insertion by protecting the rectal wall and the fingernail(s) from each other.

[edit] Vaginal suppositories
Vaginal suppositories are commonly used to treat gynecological ailments, including vaginal infections such as candidiasis.

[edit] Urethral suppositories
Alprostadil pellets are urethral suppositories used for the treatment of severe erectile dysfunction. They are marketed under the name Muse in the United States.[3] Its use has diminished since the development of oral impotence medications, but is still on the market.

[edit] Constituents
Some suppositories are made from a greasy base, such as cocoa butter, in which the active ingredient and other excipients are dissolved; this grease will melt at body temperature (this may be a source of discomfort for the patient, as the melted grease may pass through the anus during flatulences). Other suppositories are made from a water soluble base, such as polyethylene glycol. Suppositories made from polyethylene glycol are commonly used in vaginal and urethral suppositories. Glycerin suppositories are made of glycerol and gelatin.

[edit] Indications

Eucalyptol suppository, for the treatment of some respiratory ailments
Suppositories may be used for patients in the event it may be easier to administer than tablets or syrups.
Suppositories may also be used when a patient has a vomiting tendency, as oral medication can be vomited out.
Drugs which often cause stomach upset, for example diclofenac sodium (Voltaren) are better tolerated in suppository form.

[edit] "Liquid suppository"
The phrase "liquid suppository" is also sometimes applied to the activity of injecting a liquid, typically a laxative, with a small syringe, into the rectum.

jet injector


jet injector is a type of medical injecting syringe that uses a high-pressure narrow jet of the injection liquid instead of a hypodermic needle to penetrate the epidermis. It is powered by compressed air or gas, either by a pressure hose from a large cylinder, or from a built-in gas cartridge or small cylinder. Some are multi-shot, and some are one-shot. They are made in various shapes, as the links to images below show.
They are used by diabetics to inject insulin as an alternative to needle syringes, though they are still not very common.
In the Star Trek franchise, and sometimes in other fictional scenarios and occasionally in the real world, it is called a hypospray.


Types of jet injector

[edit] Jet Injectors
The Jet Injector Gun and the Ped-O-Jet are air-powered medical injector devices designed to administer vaccinations in an extremely efficient manner. Invented by Aaron Ismach, these medical devices were bought in mass quantities by the US Government and provided to governments around the world to eradicate smallpox and other diseases. Servicemen in the Armed Forces were routinely injected with these medical devices to immunize them, and civilian usage included vaccinations during flu epidemics and the like. The Jet Injector is powered by electricity, while the Ped-O-Jet version is powered by a foot pump and does not require electricity to administer the vaccines. These devices have various specialized nozzles for different medication densities and also permitted the efficient inoculation of animal populations as well.
The Biojector 2000 is a make of gas-cartridge-powered jet injector. It is claimed that it can deliver intramuscular injections and subcutaneous injections up to 1 milliliter. The part which touches the patient's skin is single-use and can be replaced easily. It can be powered from a big compressed gas cylinder instead of gas cartridges. It is made by Bioject.
In October 2006 it was in clinical trials for patients using Fuzeon as part of their HAART treatment for HIV. For clinical trial and related information see http://www.hivdent.org/drugs1/drugBIFI0306.htm

[edit] History
See also Hypospray#Real-world timeline.
19th century: Workmen in France had accidental jet injections with high-powered grease guns [1]
1920s: Diesel engines begin to be made in large quantities: thus beginning of serious risk of accidental jet-injection by their fuel injectors as workshop accidents.
1937: First known recorded accidental jet injection by a diesel engine's fuel injector[1].
1960: Aaron Ismach invented and patented the Jet Injector medical device which was used for quick mass vaccination of smallpox and other diseases. Ismach was assisted by Dr. Abram Benenson in the development of the Jet Injector Gun. The new method met with tremendous success as teams vaccinated large numbers of people at collecting points in the affected countries. The foot operated gun was called the Ped-O-Jet and the electric operated gun was called the Jet Injector Gun.
1962: Robert Andrew Hingson claimed to have invented a prototype jet injector and called it the peace gun, for quick mass vaccination. But sometimes the injection process dislodged infected matter from a patient onto the nozzle of the injector, risking cross-infection.
1964: Aaron Ismach was presented with a Gold Medal from the US Government for his efforts related to the Jet Injector Gun. The Jet Injector also appeared on postage stamps as a commemorative of his efforts.
September 1966: The Star Trek series started, exposing the public to the idea of jet injectors under the name "hypospray".
1976: The USA Agency for International Development published a book called War on Hunger which detailed the War Against Smallpox which Ismach's Jet Injector gun was used to eradicate the disease in Africa and Asia. The US Government spent $150 million a year to prevent its recurrence in North America.
1997: The USA Department of Defense, the jet injector's biggest user, announced that it would stop using it for mass vaccinations due to concerns about infection. The DoD order Veterans info page

[edit] Accidental jet injection
Accidents have happened in vehicle repair garages and elsewhere where one of these has unintentionally acted as a hypodermic jet injector:-
A fuel injector of a diesel engine.
A high-pressure grease gun.
A pinhole leak in a tube supplying a high-powered grease gun from a separate grease pressure-tank.
A pinhole leak in a tube of high pressure hydraulic oil equipment.
A high pressure paint spray.
High pressure injections of oil or paint can cause very serious injuries which may require amputation and can induce fatal blood poisoning. Particular care must be taken around high pressure sprays of this kind to avoid such injuries.

infusion pump

An infusion pump infuses fluids, medication or nutrients into a patient's circulatory system. It is generally used intravenously, although subcutaneous, arterial and epidural infusions are occasionally used.
Infusion pumps can administer fluids in ways that would be impractically expensive or unreliable if performed manually by nursing staff. For example, they can administer as little as 0.1 mL per hour injections (too small for a drip), injections every minute, injections with repeated boluses requested by the patient, up to maximum number per hour (e.g. in patient-controlled analgesia), or fluids whose volumes vary by the time of day.
Because they can also produce quite high but controlled pressures, they can inject controlled amounts of fluids subcutaneously (beneath the skin), or epidurally (just within the surface of the central nervous system- a very popular local spinal anesthesia for childbirth).


Types of infusion
The user interface of pumps usually requests details on the type of infusion from the technician or nurse that sets them up:
Continuous infusion usually consists of small pulses of infusion, usually between 20 nanoliters and 100 microliters, depending on the pump's design, with the rate of these pulses depending on the programmed infusion speed.
Intermittent infusion has a "high" infusion rate, alternating with a low programmable infusion rate to keep the cannula open. The timings are programmable. This mode is often used to administer antibiotics, or other drugs that can irritate a blood vessel.
Patient-controlled is infusion on-demand, usually with a preprogrammed ceiling to avoid intoxication. The rate is controlled by a pressure pad or button that can be activated by the patient. It is the method of choice for patient-controlled analgesia (PCA).
Total parenteral nutrition usually requires an infusion curve similar to normal mealtimes.
Some pumps offer modes in which the amounts can be scaled or controlled based on the time of day. This allows for circadian cycles which may be required for certain types of medication.

[edit] Types of pump

A Baxter International Colleague CX infusion pump
There are two basic classes of pumps. Large volume pumps can pump nutrient solutions large enough to feed a patient. Small-volume pumps infuse hormones, such as insulin, or other medicines, such as opiates.
Within these classes, some pumps are designed to be portable, others are designed to be used in a hospital, and there are special systems for charity and battlefield use.
Large-volume pumps usually use some form of peristaltic pump. Classically, they use computer-controlled rollers compressing a silicone-rubber tube through which the medicine flows. Another common form is a set of fingers that press on the tube in sequence.
Small-volume pumps usually use a computer-controlled motor turning a screw that pushes the plunger on a syringe.
The classic medical improvisation for an infusion pump is to place a blood pressure cuff around a bag of fluid. The battlefield equivalent is to place the bag under the patient. The pressure on the bag sets the infusion pressure. The pressure can actually be read-out at the cuff's indicator. The problem is that the flow varies dramatically with the patient's blood pressure (or weight), and the needed pressure varies with the administration route, making this quite risky for use by an untrained person. Pressures into a vein are usually less than 8 lbf/in² (55 kPa. Epidural and subcutaneous pressures are usually less than 18 lbf/in² (125 kPa).
Places that must provide the least-expensive care often use pressurized infusion systems. One common system has a purpose-designed plastic "pressure bottle" pressurized with a large disposable plastic syringe. A combined flow restrictor, air filter and drip chamber helps a nurse set the flow. The parts are reusable, mass-produced sterile plastic, and can be produced by the same machines that make plastic soft-drink bottles and caps. A pressure bottle, restrictor and chamber requires more nursing attention than electronically-controlled pumps. In the areas where these are used, nurses are often volunteers, or very inexpensive.
The restrictor and high pressure helps control the flow better than the improvised schemes because the high pressure through the small restrictor orifice reduces the variation of flow caused by patients' blood pressures.
An air filter is an essential safety device in a pressure infusor, to keep air out of the patients' veins: doctors estimate that 0.55 cm³ of air per kilogram of body weight is enough to kill (200-300 cm³ for adults) by filling the patient's heart. Small bubbles could cause harm in arteries, but in the veins they pass through the heart and leave in the patients' lungs. The air filter is just a membrane that passes gas but not fluid or pathogens. When a large air bubble reaches it, it bleeds off.
Some of the smallest infusion pumps use osmotic power. Basically, a bag of salt solution absorbs water through a membrane, swelling its volume. The bag presses medicine out. The rate is precisely controlled by the salt concentrations and pump volume. Osmotic pumps are usually recharged with a syringe.
Spring-powered clockwork infusion pumps have been developed, and are sometimes still used in veterinary work and for ambulatory small-volume pumps. They generally have one spring to power the infusion, and another for the alarm bell when the infusion completes.
Battlefields often have a need to perfuse large amounts of fluid quickly, with dramatically changing blood pressures and patient condition. Specialized infusion pumps have been designed for this purpose, although they have not been deployed.
Many infusion pumps are controlled by a small embedded system. They are carefully designed so that no single cause of failure can harm the patient. For example, most have batteries in case the wall-socket power fails. Additional hazards are uncontrolled flow causing an overdose, uncontrolled lack of flow, causing an underdose, reverse flow, which can siphon blood from a patient, and air in the line, which can starve a patient's tissues of oxygen if it floats to some part of a patient's body.

[edit] Safety features available on some pumps
The range of safety features varies widely with the age and make of the pump. A state of the art pump in 2003[update] may have the following safety features:
Certified to have no single point of failure. That is, no single cause of failure should cause the pump to silently fail to operate correctly. It should at least stop pumping and make at least an audible error indication. This is a minimum requirement on all human-rated infusion pumps of whatever age. It is not required for veterinary infusion pumps.
Batteries, so the pump can operate if the power fails or is unplugged.
Anti-free-flow devices prevent blood from draining from the patient, or infusate from freely entering the patient, when the infusion pump is being set-up.
A "down pressure" sensor will detect when the patient's vein is blocked, or the line to the patient is kinked. This may be configurable for high (subcutaneous and epidural) or low (venous) applications.
An "air-in-line" detector. A typical detector will use an ultrasonic transmitter and receiver to detect when air is being pumped. Some pumps actually measure the volume, and may even have configurable volumes, from 0.1 to 2 ml of air. None of these amounts can cause harm, but sometimes the air can interfere with the infusion of a low-dose medicine.
An "up pressure" sensor can detect when the bag or syringe is empty, or even if the bag or syringe is being squeezed.
A drug library with customizable programmable limits for individual drugs that that helps to avoid medication errors.
Mechanisms to avoid uncontrolled flow of drugs in large volume pumps (often in combination with a giving st based free flow clamp) and increasingly also in syringe pumps (piston-brake)
Many pumps include an internal electronic log of the last several thousand therapy events. These are usually tagged with the time and date from the pump's clock. Usually, erasing the log is a feature protected by a security code, specifically to detect staff abuse of the pump or patient.
Many makes of infusion pump can be configured to display only a small subset of features while they are operating, in order to prevent tampering by patients, untrained staff and visitors.

self-microemulsifying drug delivery system


A self-microemulsifying drug delivery system (SMEDDS) is a drug delivery system that uses a microemulsion achieved by chemical rather than mechanical means. That is, by an intrinsic property of the drug formulation, rather than by special mixing and handling. It employs the familiar ouzo effect displayed by anethole in many anise-flavored liquors. Microemulsions have significant potential for use in drug delivery, and SMEDDS (including so-called "U-type" microemulsions) are the best of these systems identified to date.[1] SMEDDS are of particular value in increasing the absorption of lipophilic drugs taken by mouth.
SMEDDS in research or development include formulations of the drugs anethole trithione,[2] oridonin,[3][4][5] curcumin,[6] vinpocetine,[7][8] tacrolimus,[9][10][11] berberine hydrochloride,[12] nobiletin,[13] piroxicam,[14][15] anti-malaria drugs beta-Artemether[16] and halofantrine,[17][18] anti-HIV drug UC 781,[19][20] nimodipine,[21][22] exemestane,[23] anti-cancer drugs 9-nitrocamptothecin (9-NC)[24] paclitaxel,[25][26] and seocalcitol,[27][28] alprostadil (intraurethral use),[29] probucol,[18][30] itraconazole,[31] fenofibrate,[32] acyclovir,[33] simvastatin,[34][35] xibornol,[36] silymarin,[37][38] alpha-asarone,[39] enilconazole,[19] puerarin (an isoflavone found in Pueraria lobata),[40][41][42][43] atorvastatin,[44][45][46] heparin,[47] carvedilol,[48] ketoconazole,[49] gentamicin,[50] labrasol,[51] flurbiprofen,[52] celecoxib,[53] danazol,[54] cyclosporine,[55] and idebenone.[56]
SMEDDS offer numerous advantages: spontaneous formation, ease of manufacture, thermodynamic stability, and improved solubilization of bioactive materials.[1] Improved solubility contributes to faster release rates and greater bioavailability. For many drugs taken by mouth, faster release rates improve the drug acceptance by consumers. Greater bioavailability means that less drug need be used; this may lower cost, and does lower the stomach irritation and toxicity of drugs taken by mouth.
For oral use, SMEDDS may be formulated as liquids or solids, the solids packaged in capsules or tablets. Limited studies comparing these report that in terms of bioavailability liquid SMEDDS are superior to solid SMEDDS,[21] which are superior to conventional tablets.[42][47][21] Liquid SMEDDS have also shown value in injectable (IV and urethral) formulations and in a topical (oral) spray