Laser For Blood Circulation

The word “laser” gets tossed around a lot these days. It’s used to describe everything from hair removal to eye surgery and even laser surgery. But what exactly is a laser? And how does it work? A laser is a light source that uses intense heat from concentrated electromagnetic radiation to cut, burn, or vaporize materials. It works by emitting short pulses of high-energy light that can be focused onto a very small area. This allows for precise cutting at the microscopic level with minimal collateral damage to surrounding tissue.

Lasers are most often used in medicine as an alternative to traditional surgical procedures such as cutting or burning tissues. Lasers have proven effective in treating conditions such as skin lesions, varicose veins, and eye injuries because they allow surgeons to remove unwanted tissue without penetrating the skin’s surface or causing excessive bleeding.

Read on to learn more about Laser For Blood Circulation, Laser Treatment For Blemishes Cost and What to Expect During and After the Procedure

Laser For Blood Circulation

For some cardiovascular patients, laser-based procedures have become the best, and perhaps only, option to relieve pain and restore function associated with many diseases of the heart, arteries, and veins. New wavelengths, more rugged setups, lower-cost systems, and other advancements are being combined with minimally invasive techniques. Such combinations often promise improved patient outcomes and lower overall cost of therapy.

One new laser approach for blood-flow-related ailments involves the treatment of peripheral artery disease (PAD), a condition in which plaque builds up within the arteries. The ailment, which causes narrowing or blocking of blood vessels, is more common in the legs than in the arms. According to the U.S. Centers for Disease Control and Prevention, PAD occurs in about 25 percent of the population, with the percentage increasing as people age. In severe cases, the plaque buildup can completely block blood flow to a limb, such as the lower leg. Left untreated, such buildup can lead to tissue death, limb amputation, and poor prognosis.

“[Patients] had a very high mortality [rate] once they had an amputation,” said Dr. Athar Ansari, director of the California Heart and Vascular Clinic in El Centro, Calif.

A model of the heart, with the placement of a laser-beam-bearing probe showing where channels will be cut into heart muscle to alleviate heart pain (a). The diagram shows how the procedure is carried out, with an insert indicating treatment (b). Courtesy of CryoLife Inc.

Balloon angioplasty is a standard treatment option for PAD. With this technique, physicians maneuver a deflated balloon to the artery’s problem spot and then inflate it, thereby pushing the plaque aside. As part of the procedure, the surgeon may place a stent in the area to keep the artery open. Physicians may also use mechanical options, such as cutting, to clear the artery, or they may use lasers.

These approaches have suffered from several drawbacks, however — one being vessel trauma. Inflating a balloon, mechanically cutting away plaque, or using heat from a laser to remove an obstruction can all cause damage to the vessel being treated. The body’s healing response to the injury can then lead to scarring and possibly another partial or complete blockage, needing further intervention.

A second drawback is that these techniques require surgeons to thread a guide wire through the artery before the blood path can be cleared. Third, when a patient has a completely blocked artery, surgeons cannot perform any of these treatments on an outpatient basis. The only option becomes hospitalization, which is expensive and could potentially lead to infections in patients who are already in poor health.

To find a minimally invasive technique that offered better results in these difficult cases, Ansari took part a few years ago in the trial of a new laser-based device from Ra Medical Systems Inc. in Carlsbad, Calif. With a short-pulse-width ultraviolet source, the device’s novel approach offered important benefits. Ansari has since used the system to treat hundreds of cases of PAD.

“The beauty of this device is that it is nonthermal,” he said. “[And even] when there’s total occlusion, it causes minimal vessel trauma.”

Laser treatment of occluded popliteal (back of the knee) artery improved function quickly and significantly in a 67-year-old patient. Courtesy of Ra Medical Systems Inc.

In some instances, patients have been able to avoid expensive hospitalization. Many have even experienced health transformations, sometimes recovering physical abilities within days, for example. In a recent case, Ansari operated on an elderly man who had a complete peripheral artery blockage. Having suffered a stroke in the past, the patient was a poor candidate for surgery in a hospital. Using a nonthermal laser, Ansari created a channel for a guide wire, then inflated a balloon and inserted a stent.

Without the channel generated by photoablation, the alternative would have involved an ambulance trip because the patient’s condition would have required in-hospital surgery, hospitalization for several days, and possible associated complications. Performing the procedure on an outpatient basis eliminated these risks and avoided significant expense.

According to Ra Medical CEO Dean Irwin, the company started with a device that treated skin diseases, another area in which the company offers products. Ra Medical then adapted the same basic laser engine for vascular applications. The company also designed, developed, and built the solid-state excimer laser cavity used in its skin and vascular products, with the current version producing roughly 30-ns-wide pulses at a wavelength of 308 nm.

This wavelength breaks chemical bonds, so in the vascular application, occluding material such as plaque decomposes into its component parts. This reduces the risk of the plaque traveling elsewhere and causing further problems. At the same time, the 308-nm wavelength is long enough to avoid being mutagenic and potentially cancer-causing, Irwin said. Light at this wavelength can also be transmitted through water, an important feature for vascular applications. Finally, another significant benefit is achieved when the beam intensity exceeds a certain threshold.

“At fluences that exceed about 15 mJ per square millimeter, [the laser beam] is ablative, photochemically ablative,” Irwin said. “Interestingly enough, that photochemical ablation is nonthermal and nonmechanical.”

This photochemical process allows the system to remove a blockage while minimizing collateral damage, subsequently improving patient outcomes, he said.

The initial version of the technology weighed over 500 lbs, but Ra Medical engineers trimmed its weight fivefold. They also cut the cost of the system and made it more rugged and reliable. According to Irwin, the ability for the system to withstand vibration was important.

Cleared for use by the FDA in May 2017, Ra Medical’s vascular products can treat peripheral arteries and veins. The company plans to launch studies on other potential coronary applications as well.

Another example of a cardiac laser therapy used to treat blood-flow-related conditions is transmyocardial revascularization (TMR). It’s used to treat angina, a type of pain in the chest caused by an inadequate blood supply to the heart. With TMR, surgeons use a laser to create small channels through the wall of the lower left chamber of the heart. Although TMR’s exact therapeutic mechanism of action is unknown, several current theories exist as to why it works. These include reduction of symptoms caused by 1) disruption of function in pain fibers, 2) the creation of new channels, which increases blood flow to the heart tissue, and/or 3) the development of new capillary growth, which increases blood flow.

Many TMR systems — such as those from ForTec Medical in Hudson, Ohio — use a CO2 laser at a 10-µm wavelength. Studies by the company indicate that this approach yields better patient outcomes compared to other wavelengths, with investigators attributing the improved results to the interactions between laser and tissue that minimize the size of the heat-affected region beyond the channels, and therefore reduce trauma.

Obstruction of the popliteal artery below the knee (left). Improvement in obstruction after laser atherectomy (right). Courtesy of Dr. Eduardo Hernandez/Texas Heart Institute.

Other TMR systems use a holmium: YAG laser at 2.1 µm, such as the technologies developed by CryoLife Inc., based in Kennesaw, Ga. According to the company’s marketing manager, Corey Stewart, they opted for a solid-state laser with mid-IR emission because this combination enables rapid startup time; the laser offers simple, user-friendly touch pad controls; and there are no regulatory requirements for imaging the heart with this approach.

Regardless of the system used for treatment, patients who are best suited for cardiac laser therapy are those who experience chest pain from coronary artery disease because of damaged or diseased narrowed arteries. They may have already undergone multiple angioplasties and/or bypass operations. A study cited by CryoLife found that nearly 7 percent of all patients fall into the category of having no option for treatment because they have angina that is unlikely to be helped by medicine, stents, or surgical procedures.

Other studies have shown that the laser approach for angina is better than drug-based medical therapy alone, with laser-treated patients showing higher tolerance for exercise and improved quality of life, Stewart said. He added that laser-treated patients also have fewer cardiac-related return visits to the hospital.

According to Dr. Eduardo Hernandez, an interventional cardiologist in Houston who is affiliated with the Texas Heart Institute, lasers can be particularly useful in the treatment of occluded coronary and peripheral arteries. They are also often used for extracting pacemakers and leads to automatic implantable cardiac defibrillators, with the laser freeing the wires, he said.

Studies have shown that lasers can be particularly effective in treating obstructed or blocked stents. The body’s reaction to a foreign object, such as a stent, can lead to narrowing of the artery and to diminished blood flow from scar tissue that forms at or near the stent as part of the body’s healing response. This recurrence of abnormal narrowing of an artery after corrective surgery is known as restenosis. A process called laser atherectomy can remove stent-related scar tissue, addressing this problem.

“In the Excite ISR [in-stent restenosis] clinical trial,” Hernandez said, “laser atherectomy followed by balloon angioplasty was superior to balloon angioplasty alone at reducing recurrent obstruction and need for repeat procedures for obstructed stents.”

As these examples show, the use of a laser can be effective in treating blood-flow-related conditions, but additional research is needed. For instance, in the case of occlusive peripheral arterial disease, one current treatment uses balloon angioplasty to alleviate the obstructed artery, with employment of drug-coated balloons and stents to reduce recurrent obstructions of lower extremity arteries. Hernandez said larger studies are needed to see whether adding a laser or other plaque-removing devices to this drug-coated balloon approach will produce better results for reducing recurrence of the problem and for retreatment of the patient. These studies will provide information about which treatment to use and perhaps point the way toward other therapies.

“This [information] will help clarify the role of debulking and plaque modification in occlusive peripheral arterial disease,” Hernandez said.

Lasers show both progress and promise as treatment options for blood-flow problems and, with continued research and development, could offer significant benefits. Ongoing studies are helping determine the best future roles for lasers in blood-flow therapy.

Laser Treatment For Blemishes Cost

There are various types of lasers used in these procedures

According to the American Society of Plastic Surgeons in 2017, the average cost of laser skin resurfacing was $1,114-$2,124, which was average $2,071 in 2018. In 2019, the average cost of this procedure was $1,963 for ablatives and $1,201 for non-ablative. The cost varies widely depending on the type of procedure and areas of treatment.

Because laser skin resurfacing surgeries are not life-saving surgeries, there is no insurance coverage provided by the companies, except for the surgeries that are done to remove precancerous growth or modified scars on your skin.

The average cost does not include other related expenses. Therefore, you must consult your plastic surgeon and your insurance company before the procedure about payments. Most health insurance company plans do not provide coverage for cosmetic surgery or its complications. However, most plastic surgeons offer some payment options, so meet your plastic surgeon and determine your final cost.

The cost of laser skin resurfacing will vary based on the expertise, qualification of the plastic surgeon performing the procedure, the type of procedure, the time and effort required for that treatment, and the location of the office.

Generally, laser skin resurfacing procedure costs may include the following:

• Hospital facility cost for surgery
• Anesthesia fees
• Medication prescription

Satisfaction involves more than a fee. Therefore, while choosing a plastic surgeon for this procedure, you must assure the surgeon’s experience and your comfort, which are the most important aspects as much as the cost.

What is skin resurfacing?

Laser resurfacing is a procedure that removes layers of the skin and improves its appearance or treats minor facial flaws such as blemishes or acne scars by using lasers.

There are various types of lasers used in these procedures such as:

• Carbon dioxide (CO2): This type of laser is used to treat wrinkles, scars, and warts on your skin.
• Erbium: It is used to remove superficial or moderately deep lines and wrinkles on your face, hands, neck, and chest. It has fewer side effects than CO2 lasers.
• Pulsed-dye laser: These are non-ablative lasers that heat the skin and absorb pigments to reduce redness, hyperpigmentation, broken capillaries, and enlargement of facial blood vessels, giving rosacea (flushed appearance).
• Fractional laser: It treats only the fraction of the skin in the area by breaking laser energy into thousands of tiny beams. It can be used in ablative or non-ablative procedures. It can be used to treat age-related blemishes.
• Intense pulsed light (IPL): This treatment does not use a laser but uses a broad spectrum of light wavelength to treat pigmentations of the skin.

When should you have laser skin resurfacing?

You can ask for this procedure to a plastic surgeon if you have the following:

• Acne scars
• Age spots
• Crow’s feet (wrinkle at the outer corner of your eye)
• Sagged skin
• Scars
• Signs of sun damage to the skin
• Wrinkles

What are the possible risks of laser skin resurfacing?

Risks include:

• Pain
• Reactivation of herpes sores over lips
• Burning sensation
• Burns
• Itching
• Swelling
• Infection
• Bleeding
• Scarring
• Increased risk of sun damage
• Crusting of your skin
• Pigmentation or discoloration of the skin
• Bumps due to obstruction of the sweat glands

Laser treatment for face

If aging, acne, or too much time in the sun has left your face with blotches, scars, wrinkles, or lines, laser skin resurfacing may help your skin look younger and healthier.

Laser skin resurfacing removes skin layer by layer with precision. The new skin cells that form during healing give the skin a tighter, younger looking surface. The procedure can be done alone or with other cosmetic surgeries on the face.

Preparing for Laser Resurfacing

Start by consulting a plastic surgeon or dermatologist to find out if you’re a good candidate.

Tell your doctor if you get cold sores or fever blisters around your mouth. Laser skin resurfacing can trigger breakouts in people who are at risk.

If you decide to go ahead with laser skin resurfacing, your doctor will ask you to not take any medications or supplements — such as aspirin, ibuprofen, or vitamin E — that can affect clotting for 10 days before surgery.

If you smoke, you should stop for two weeks before and after the procedure. Smoking can prolong healing.

Your doctor may prescribe an antibiotic medication beforehand to prevent bacterial infections and also an antiviral medication if you are prone to cold sores or fever blisters.

What to Expect During and After the Procedure

Laser resurfacing is done by a plastic surgeon or dermatologist. It’s an outpatient procedure, meaning you’ll not have to stay overnight.

The doctor may treat wrinkles around your eyes, mouth, or forehead individually or treat your entire face. For small areas, the doctor will numb the areas to be treated with a local anesthetic and may also sedate you. You may require general anesthesia if your whole face is being treated.

Treating just parts of the face takes about 30 to 45 minutes. A full-face treatment takes up to two hours.

Following the laser procedure, the doctor will bandage the treated areas. After 24 hours, you will need to clean the treated areas four to five times a day and then apply an ointment such as petroleum jelly to prevent scabs from forming.

Swelling after laser skin resurfacing is normal. Your doctor may prescribe steroids to manage swelling around your eyes. Sleeping on an extra pillow at night can also ease swelling.

You may feel itching or stinging for 12 to 72 hours after the procedure. Five to seven days after laser resurfacing, your skin will become dry and peel.

Depending on the problem that was treated, healing typically takes 10 to 21 days. Once the skin heals, you can wear oil-free makeup to minimize redness, which usually fades in two to three months.

You will also probably notice that your skin is lighter for a while after surgery. It is particularly important that you use a “broad-spectrum” sunscreen, which screens ultraviolet B and ultraviolet A rays, to protect your skin during that time. When selecting a sunscreen, look for one specially formulated for use on the face with a 7% (or higher) zinc oxide content and a sun protection factor (SPF) of 30 or higher. Limit your time in the sun, especially between the hours of 10 a.m. and 2 p.m., and wear protective clothing, such as long-sleeved shirts, pants, and a wide-brimmed hat.Reapply your sunscreen every two hours when you are out, and more often if you are sweating or swimming.

It is also important to keep your new skin well moisturized. If you use Retin A or glycolic acid products, you should be able to start using them again after about six weeks or when the doctor says you can.

Benefits and Risks of Laser Resurfacing

Although skin resurfacing cannot produce perfect skin, it can improve the appearance of your skin. Potential risks of the procedure include:

• Burns or other injuries from the laser’s heat
• Scarring
• Changes in the skin’s pigmentation, including areas of darker or lighter skin
• Reactivating herpes cold sores
• Bacterial infection

Cost of Laser Skin Resurfacing

The average cost for laser skin resurfacing was about $2509 for ablative and $1445 for non-ablative laser skin resurfacing in 2020, according to the American Society of Plastic Surgeons. However, costs vary widely depending on where the procedure is being done.

Because laser skin resurfacing is considered a cosmetic procedure, most medical insurance companies will not cover it. There may be an exception if you get the procedure to modify scars or remove precancerous growths on your skin.

Talk with your doctor and your insurance company before the procedure about what the costs will be and what, if anything, insurance will pay for. Most doctors offer financing options.