PLC Plc Systems,

Item 1. Business

Overview

        We are a medical device company specializing in innovative technologies for the cardiac and vascular markets. We pioneered and manufacture the CO ₂ Heart Laser System (the "Heart Laser System") that cardiac surgeons use to perform carbon dioxide (CO ₂ ) transmyocardial revascularization, or TMR, to alleviate symptoms of severe angina. In addition, we have commenced clinical trials for our RenalGuard Therapy and RenalGuard System (collectively "RenalGuard"), which is the primary growth initiative for our business. RenalGuard is designed to reduce the toxic effects that contrast media can have on the kidneys, which can lead to contrast-induced nephropathy ("CIN"), a potentially deadly form of acute kidney injury. We also manufacture CO ₂ surgical laser tubes and provide contract assembly services on general purpose CO ₂ lasers, which we sell to a single customer on an original equipment manufacturer ("OEM") basis.

        RenalGuard Therapy is based on the theory that creating and maintaining a high urine output is beneficial to patients undergoing imaging procedures where contrast agents are used. The real-time measurement and matched fluid replacement design of our RenalGuard System is intended to optimally administer RenalGuard Therapy and ensure that a high urine flow is maintained before, during and after these procedures, thus allowing the body to rapidly eliminate contrast, reducing its toxic effects. The RenalGuard System consists of a proprietary, closed loop, software-controlled console and accompanying single-use sets used for infusion and urine collection. The RenalGuard System, with its matched fluid replacement capability, is intended to minimize the risk of over- or under-hydration.

        In December 2006, we received full Food and Drug Administration ("FDA") approval to conduct our first human clinical trial utilizing RenalGuard under an investigational device exemption ("IDE"). This pilot clinical trial was designed to evaluate the safety of RenalGuard and the ability of our RenalGuard System to accurately measure and balance fluid inputs and outputs on up to 40 patients undergoing a catheterization imaging procedure where contrast media would be administered.

        We enrolled a total of 23 patients in this pilot study. Based upon the positive safety data collected in the study and discussions we had with the FDA, we elected to stop enrolling new patients in the pilot study in November 2007. We submitted an IDE supplement to the FDA in February 2008 seeking approval to move from our pilot study to a pivotal clinical trial to study the safety and effectiveness of RenalGuard in the prevention of CIN. In March 2008 the FDA granted us conditional approval to begin our pivotal study. We have received approval to study RenalGuard on 246 patients at up to 30 U.S. clinical sites. We expect to begin enrolling patients in this study this spring after obtaining necessary institutional review board approval at the clinical sites where the study will be conducted.

Other Recent Developments

CE Mark

        On December 21, 2007, we announced that we had received the CE Mark Certificate for our RenalGuard System, clearing the way for us to begin our initial limited launch of the product in the European Union ("EU").

Appointment of Artech as Exclusive RenalGuard Distributor in Italy

        On March 27, 2008, we appointed Artech s.r.l. ("Artech") as the exclusive distributor of our RenalGuard System in Italy. We signed a three year distribution agreement with Artech and they issued us purchase orders for an initial stocking order of RenalGuard System consoles and single-use sets totaling 90,000 Euros. We and Artech intend to focus our initial limited commercial launch activities

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for RenalGuard on ten select hospital sites in Italy. In doing so we hope to interest early adopters of our technology who recognize the benefits of utilizing the unique fluid balancing capabilities of the RenalGuard System in a catheterization laboratory setting during cardiovascular imaging procedures for patients at higher risk of CIN.

The CO ₂ Heart Laser System

        TMR is performed by a cardiovascular surgeon, who uses a laser to create channels through the myocardium of the heart in an attempt to restore perfusion to areas of the heart not being reached by diseased or clogged arteries. This technique is used for relief of symptoms of severe angina in patients with ischemic heart disease not amenable to direct coronary revascularization interventions, such as angioplasty, stenting or coronary artery bypass grafting (bypass surgery). In addition to providing new direct pathways for blood to reach the ischemic myocardium, the creation of TMR channels is also believed to promote angiogenesis, the development of new blood vessels.

        In August 1998, we received approval from the FDA to market our first generation CO ₂ Heart Laser, the HL1, throughout the U.S. We were the first company to receive FDA approval to commercialize a product to perform TMR. In January 2001, we received approval from the FDA to market our smaller and lighter second generation CO ₂ Heart Laser, the HL2.

        Each TMR procedure requires a sterile, single-use TMR kit containing assorted TMR handpieces, drapes and other disposable items. The HL1 and HL2 lasers each require this TMR kit as part of the system. The same TMR kit may be used with either the HL1 or HL2 laser. The combination of either an HL1 or an HL2 with a TMR kit is referred to throughout this annual report as the Heart Laser System.

        We manufacture the Heart Laser Systems at our facility in Franklin, Massachusetts.

Cardiovascular Disease and Current Therapies

        According to the Heart Disease and Stroke Statistics—2008 Update, or 2008 HSSU, which was published by the American Heart Association, an estimated 80.7 million Americans suffered from one or more types of cardiovascular disease in 2005, with an estimated 16 million suffering from coronary heart disease and 9.1 million suffering from angina pectoris (chest pain). This represents an increase over similar statistics published in the 2007 HSSU, when it was reported that 79.4 million Americans suffered from one or more types of cardiovascular disease in 2004, with an estimated 15.8 million suffering from coronary heart disease and 8.9 million suffering from angina pectoris.

        Cardiovascular disease is the leading cause of death in the U.S., resulting in approximately 35% of the 2,448,000 deaths in 2005, or 1 of every 2.8 deaths in the U.S. The American Heart Association estimates that the direct and indirect costs of cardiovascular disease in 2008 will be approximately $448.5 billion.

Angina—Current Treatments

        Angina is the medical term used to describe the chest pain or discomfort that an individual can experience when the heart does not receive an adequate supply of oxygen-rich blood. This can occur when the arteries supplying blood flow to the heart muscle become partially blocked or narrowed by the accumulation of fatty deposits known as plaque. This condition, where plaque progressively builds up in the interior walls of the arteries, resulting in reduced blood flow to the myocardium, ischemia and angina, is known as coronary atherosclerosis. Atherosclerosis is the principal form of cardiovascular disease and the primary cause of heart attacks. Traditional treatment of atherosclerosis as a means to improve blood flow to the heart includes drug therapy, angioplasty, stenting and bypass surgery.

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        Drug therapy alleviates some of the symptoms of atherosclerosis, but is often ineffective in serious cases. Angioplasty is a less invasive treatment for arteriosclerosis than bypass surgery. The most common form of angioplasty involves inserting a catheter with a balloon at the tip into a diseased artery. By inflating the balloon at the site of blockage, the arterial plaque can be pressed against the arterial walls and reshaped, resulting in increased blood flow and decreased angina symptoms. According to the 2008 HSSU, an estimated 1,271,000 inpatient angioplasty procedures were performed in the U.S. in 2005.

        Metallic stents were developed to help prevent abrupt closures that sometimes occur after angioplasty. These stents are inserted into the artery after balloon angioplasty to hold the expanded plaque in place. Because they are less traumatic and less costly, stenting procedures are preferred over bypass surgery when the blockages are not complicated and involve few coronary arteries. While offering certain benefits compared to bypass surgery, some studies suggest restenosis, or the reclosure of the stented portion of the artery over time, is a serious problem. A new generation of stents that are coated with drugs targeted at preventing restenosis have shown some success. Studies have shown significant reduction in restenosis when these drug-eluting stents are used. However, the results of a recent clinical study, the COURAGE trial, showed that, for those patients with stable angina, there was no long term mortality difference between drug-eluting stents and medical management. Other recent clinical studies of drug eluting stents have shown an increased risk of long term stent thrombosis complications when these devices are used. The results from these various clinical studies appear to have caused at least a temporary reduction in the use of drug-eluting stents and it could lead to an increase in bypass surgery procedures in the near term.

        Conventional bypass surgery involves cutting open the patient's chest, cutting through the sternum, usually connecting the patient to a heart-lung machine, stopping the heart, attaching a vein or artery removed from another part of the patient's body to create a bypass around the diseased blood vessel and restarting the heart. According to the 2008 HSSU, an estimated 469,000 coronary artery bypass procedures were performed on 261,000 patients in the U.S. in 2005 (up from an estimated 427,000 bypass procedures performed on 249,000 patients in the U.S. in 2004). Certain patients, however, are not suited for bypass procedures, including some who have previously undergone bypass surgery, patients with extremely diffuse diseases, patients with vessels that are too small to graft, patients with chronic obstructive pulmonary disease, some patients with diabetes, and others who are considered too ill to survive surgery.

        We believe that TMR using the Heart Laser System is useful as a treatment for patients who have severe, stable angina and who are no longer candidates for either angioplasty or bypass surgery because of either extensive disease or small coronary arteries. The FDA has approved the Heart Laser Systems for such patients.

        TMR as a sole therapy is designed to be less invasive and less expensive than traditional bypass surgery, and may avoid the restenosis problem common with bypass surgery and balloon angioplasty by not targeting the coronary arteries for treatment.

TMR Using the Heart Laser Systems

        The main challenge in treating atherosclerosis is to allow adequate blood to flow to the heart muscle without significantly damaging the heart. The techniques described above are used to bypass, reopen or widen blocked or narrowed arteries and can eventually fail due to restenosis or natural disease progression. TMR using the Heart Laser Systems involves a different technique whereby channels are created in the myocardium as a means of supplying oxygen-rich blood from the left ventricular chamber into the ischemic myocardium. TMR does not target the coronary arteries for treatment.

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        Heart muscle must be constantly supplied with oxygen in order to function effectively. Oxygen is delivered to the myocardium by blood, which is distributed to the myocardium through the right and left coronary arteries. If these arteries are narrowed or blocked as a result of atherosclerosis, sufficient oxygen-rich blood may be unable to reach the heart to satisfy the metabolic demands of the myocardium. Cardiovascular disease eventually may cause myocardial ischemia, often evidenced by severe and debilitating angina caused by lack of oxygen to the heart muscle, which can progress to myocardial infarction (the death of an area of the heart muscle). Advanced multi-vessel ischemic heart disease is typically treated with bypass surgery.

        During a sole therapy TMR procedure, the patient is given general anesthesia and an incision is made in the patient's side between the ribs, exposing the heart. The Heart Laser Systems are synchronized with the patient's heartbeat, firing only when the left ventricle is filled with blood and is electrically insensitive. We believe that synchronization may reduce the risk of arrhythmias (irregular heartbeats) and their associated morbidity and mortality. Research studies conducted by the Texas Heart Institute in animal models indicated that performing TMR without synchronization may be associated with an increase in life threatening arrhythmias. The synchronization technology is covered under a patent that we own. The Heart Laser Systems are capable of creating a transmural channel in less than 0.1 second with a single laser pulse in a patient whose heart has not been stopped and who has not been placed on a heart-lung bypass machine. The surgeon can vary the pulse width of the laser using a touch key control panel to accommodate for the thickness of the patient's heart wall. Transesophageal echocardiography is used to confirm that complete channels are made by the laser. Generally, 15 to 25 new channels are created during the procedure.

        We believe that, in addition to providing new temporary direct pathways for blood to reach the ischemic myocardium, the creation of transmural channels using the Heart Laser Systems also promotes angiogenesis, the formation of new blood vessels. We believe angiogenesis is the primary mechanism of action of TMR and the reason why patients who have undergone a TMR procedure have shown sustained angina relief.

Potential Benefits of TMR

        Based on clinical results to date, we believe that TMR using the Heart Laser Systems provides a number of benefits, although no assurance can be given that any of the mentioned benefits will be received by patients and no assurance can be given that the FDA will approve additional indications for use of the Heart Laser Systems or that the FDA will not withdraw or alter its current approval. These potential benefits include:

        Therapy for Patients Not Suitable for Coronary Bypass.     The FDA has approved the use of the Heart Laser Systems for patients who have stable angina (Canadian Cardiovascular Society Class III or IV) refractory to medical treatment and secondary to objectively demonstrated coronary artery atherosclerosis and with a region of the myocardium not amenable to direct coronary revascularization.

        Potentially Reduced Hospital Readmission Costs.     We believe that TMR is a cost effective treatment based on studies indicating that patients who receive TMR have fewer readmissions to the hospital for chest pain than those who receive only drug therapy.

        Potential Angiogenic Response Stimulator.     With additional clinical research, TMR therapy potentially could be found to be synergistic with delivered growth factors, which may prove useful in treating patients with CAD.

RenalGuard Program

        Our near term focus is to conduct clinical trials of RenalGuard to determine whether it is safe and effective in preventing CIN in patients who have some form of pre-existing renal impairment or other

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significant risk factors and who will be undergoing an imaging procedure where they will be exposed to potentially toxic contrast media. We believe if we can demonstrate through clinical studies that RenalGuard is safe and effective in preventing CIN in such patients that there will be substantial markets and revenue growth prospects for the RenalGuard System.

CIN

        The diagnosis and treatment of cardiovascular disease rely heavily on cardiovascular imaging. Interventional cardiologists and radiologists are increasingly becoming involved at earlier stages in the management and treatment of patients suffering from cardiovascular disease, as noninvasive imaging and interventional treatment techniques, such as angioplasty procedures and stent placements, increase in demand and outpace the use of invasive surgical options.

        We estimate that approximately seven million cardiovascular diagnostic and interventional imaging procedures are performed worldwide each year. These less invasive, image-guided medical procedures require the use of an iodine-based radiocontrast media, or dye, to facilitate the capture and display of x-ray images. These contrast agents are known to be toxic to the kidneys, whose main function is to filter and remove wastes and fluids, such as this dye, from the body. Patients who undergo a diagnostic or interventional imaging procedure and who present themselves with a certain level of pre-existing impaired renal (kidney) function are especially susceptible to the toxic effects of these contrast agents and to developing CIN.

        CIN is a major and growing problem due to the increasing number of older patients, diabetics and patients with pre-existing renal failure requiring interventional procedures that use radiographic contrast media. It is the third most common cause of in-hospital acute renal failure. CIN is associated with increased in-hospital mortality rates, and increases in long-term mortality, major in-hospital adverse cardiac events, and risk of renal dialysis therapy. Any of these can result in prolonged hospital stays and increased medical costs. We believe that approximately 10% to 20% of all patients undergoing image-guided cardiology and radiology procedures are at risk of developing CIN. The estimated mortality rate for patients that develop CIN may be as high as 35%.

Potential Market Size

        Based on a market research study that was performed for us as well as other sources, we estimate that there are approximately 4 million diagnostic and interventional cardiology and radiology imaging procedures requiring the use of contrast agents that are performed annually in the U.S. alone. Patients with other significant risk factors besides renal insufficiency, such as congestive heart failure, anemia, peripheral vascular disease, diabetes and being over the age of 75, are also at risk for developing CIN. This population continues to grow. Specifically, the 2008 HSSU estimates that there were 171 million individuals with diabetes worldwide in 2000 and that number is projected to rise to 366 million by 2030. Heart failure affected an estimated 5.3 million people in the U.S. alone in 2005. An estimated 16.8% of U.S. adults aged 20 or older between 1999 and 2004 had either chronic kidney disease or chronic kidney disease indicators.

        At-risk patients with renal insufficiency are easily identified with a routine blood analysis involving the level of a waste product in the blood called serum creatinine and an industry standard calculation called a creatinine clearance. Creatinine clearance can be accurately calculated using serum creatinine concentration and some or all of the following variables: sex, age, weight and race, as suggested by the National Diabetes Association. An increase in creatinine clearance is generally accepted as a good indicator of kidney disease. CIN is usually defined as an increase in serum creatinine of 25% over baseline within four days of a procedure where contrast is administered.

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        Of the estimated 7 million diagnostic and interventional imaging procedures performed worldwide each year that involve the use of contrast agents, we believe that 15% of these cases, or approximately 1 million patients, could benefit from the use of our RenalGuard System and Therapy.

RenalGuard System and Therapy

        RenalGuard is designed to reduce the toxic effects that contrast media can have on the kidneys, which may lead to a reduction in the incidence of CIN in at-risk patients. RenalGuard Therapy is based on existing published literature, including the industry-recognized PRINCE study, that supports the theory that inducing and maintaining high urine output through the kidneys allows the body to rapidly eliminate contrast, reducing its toxic effects.

        Our RenalGuard System is a real-time measurement and matched fluid replacement device. The system is comprised of a software-controlled, fluid balancing system and a console with a delivery mechanism for sterile replacement fluid, including detectors, monitors and alarms. It is a closed loop system where the urine produced by the patient through a standard Foley-type catheter is continuously measured. A unique sterile disposable kit is required for each procedure.

        Our RenalGuard Therapy entails the use of a standard FDA approved loop diuretic that induces the required high urine output that is measured and in real-time replaced with an equal volume of sterile solution, such as saline, by the RenalGuard System. This matched fluid replacement is intended to minimize the risk of over- or under-hydration, which can lead to increased patient risks, including pulmonary edema—a swelling and/or fluid accumulation in the lungs which leads to impaired gas exchange and may cause respiratory failure.

Potential Benefits of RenalGuard

        We are attempting to bring RenalGuard to market as the first product of its kind. We believe it is a safe, innovative technology capable of achieving significant market adoption due to its evidence-based therapy and straightforward integration into hospital environments where contrast agents are routinely used.

Evidence-based Therapy

        We have successfully completed supporting pre-clinical and human trials of our RenalGuard Therapy. The aim of these studies was to determine if very high urine outputs with precise matching of intravascular volume significantly reduced the risk of CIN.

        These feasibility studies have given us confidence in our proof of concept by concluding that high urine output with matched fluid replacement to maintain intravascular volume reduced the incidence of CIN. These studies indicated a reduction in CIN relative to accepted predictive models and current literature for the patients studied, without the occurrence of any serious long-lasting adverse events.

Straightforward Hospital Integration

        We believe RenalGuard can easily be integrated into hospital environments where contrast agents are routinely used. It leverages existing hospital resources to protect at-risk patients within the current therapy window.

        RenalGuard is designed to be simple to operate and to have features that are similar to devices currently used by hospital staff.

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Development Timeline

        RenalGuard is currently an investigational device. In December 2006, we received full FDA approval to conduct our first human clinical trial utilizing RenalGuard under an IDE. This pilot clinical trial was designed to evaluate the safety of RenalGuard and the ability of our RenalGuard System to accurately measure and balance fluid inputs and outputs on up to 40 patients undergoing a catheterization imaging procedure where contrast media would be administered.

        We enrolled a total of 23 patients in this pilot study. Based upon the positive safety data collected in the study and discussions we had with FDA, we elected to stop enrolling new patients in the pilot study in November 2007. We submitted an IDE supplement to the FDA in February 2008 seeking approval to move from our pilot study to a pivotal clinical trial to study the safety and effectiveness of RenalGuard in the prevention of CIN. In March 2008 the FDA granted us conditional approval to begin our pivotal study. We have received approval to study RenalGuard on 246 patients at up to 30 U.S. clinical sites. We expect to begin enrolling patients in this study this spring after obtaining necessary institutional review board approval at the clinical sites where the study will be conducted.

Near Term Commercialization Strategy

        On December 21, 2007 we announced that we had received the CE Mark Certificate for our RenalGuard System, clearing the way for us to begin our initial limited launch of the product in the European Union. We expect to focus our initial limited commercial launch activities for RenalGuard in 2008 on ten select hospital sites in Italy and prepare for a broader EU launch in 2009.

Other Potential Markets

        We plan to focus our short-term marketing efforts on the interventional cardiovascular and radiology markets and the reduction of CIN in imaging procedures requiring the use of contrast. In addition, we believe that our RenalGuard Therapy and System may be effectively used for patients undergoing other diagnostic treatments that require the use of contrast, such as CT scans and other radiography procedures.

Current Treatment Methods for CIN

        The only clinically accepted and endorsed preventive measure for patients at risk for CIN is pre- and post- procedure overnight hydration. There is currently no FDA approved device or drug for CIN prevention. However, we believe that there are a number of other companies developing or investigating potential new CIN preventive drugs, devices and therapies.

        Other preventive measures being used in clinical practice today include:

Mucomyst®

        N-acetylcysteine (Mucomyst®) is both a renal vasodilator and antioxidant. It is prescribed by a doctor prior to the start of an interventional procedure and is taken by the patient in prearranged doses that may start the day before the procedure. This therapy is employed by most physicians due to an extremely low risk profile and cost. Clinical data linking Mucomyst to a reduction in CIN is to date inconclusive.

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Sodium bicarbonate

        Sodium bicarbonate is a pre-mixed pharmaceutical solution that is given intravenously on the same day as the procedure, prior to the start. Currently, there are only a small number of published studies that have evaluated utilizing sodium bicarbonate as a preventive measure. There is some industry adoption of this measure to reduce the incidence of CIN simply due to the lack of expense and low risk to patients.

Device-Based Competition

        FlowMedica, Inc. has introduced their Benephit® CV Infusion System, which is a catheter designed to deliver drugs and/or fluid directly to the renal arteries during an interventional procedure. This system is FDA 510(k)-cleared and CE marked for the infusion of physician-specified agents in the peripheral vasculature. We believe market challenges for this approach may include concerns regarding complications of direct renal intervention and the cost of the catheter.

Sales and Marketing Strategy

TMR Products—Sales Channel

        On March 20, 2007, we appointed Novadaq Corp. ("Novadaq"), a subsidiary of Novadaq Technologies Inc., to succeed Edwards Lifesciences LLC ("Edwards") as our exclusive U.S. distributor for the HL2 and all TMR disposable procedure kits. Outside the U.S., we have established an independent distributor network to market our TMR products, although in some areas, principally Europe, we continue to sell our TMR products directly to hospitals.

        Novadaq is a medical device company that develops and commercializes medical imaging devices for use in the operating room. Their proprietary SPY® Intra-operative Imaging System enables cardiac surgeons to visually assess coronary bypass graft functionality during the course of open-heart surgery by means of an intravenous administration of a fluorescent imaging agent, IC-Green™, coupled with a low level infrared laser source. We believe Novadaq will continue to market our Heart Laser System and the TMR procedure as a treatment option to be used intra-operatively by the cardiac surgeon if their SPY Imaging System shows the surgeon that a bypass graft is not adequately providing new blood flow to a specific region of the heart as intended.

        We believe this strong synergistic multi-product offering of the SPY Imaging System, which can be used by the cardiac surgeon as a real-time diagnostic device, and the Heart Laser System, which can be used as a real-time treatment option when bypass grafts are shown not to be functioning as intended, can be an effective sales tool with cardiac surgeons.

        Novadaq currently employs a direct sales force that is responsible for marketing our TMR products along with their own SPY Imaging System, as well as other imaging related product lines they market for non-cardiac applications.

        International sales (by origin) accounted for 3% of our total revenue in 2007, 8% in 2006 and 6% in 2005. We had no sales by origin in Canada, our jurisdiction of incorporation.

        We sell our TMR products to both Novadaq and our international distributors at a discount off list price.

Marketing Programs

        As the exclusive U.S. distributor of our TMR products, Novadaq determines the programs, including sale, lease, rental and usage-based offerings, that it believes will be most effective in the U.S. in selling our products to hospitals.

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        Novadaq's marketing efforts are directed primarily at cardiothoracic surgeons, whose influence is believed to be critical in a hospital's decision to purchase our products. Novadaq emphasizes the synergistic nature of the SPY Imaging System and the Heart Laser System in their sales process with cardiac surgeons, highlighting the benefits the use of both these technologies can provide them in their efforts to provide patients with the most complete revascularization treatment.

Products and Customers

        We currently sell and service one principal product line, the Heart Laser Systems, which accounted for approximately 87%, 95% and 89% of our revenues for the years ended December 31, 2007, 2006 and 2005, respectively.

        Our U.S. distributor (Novadaq currently and Edwards prior to March 20, 2007) is our largest customer and accounted for 85%, 88% and 89% of our total revenues in the years ended December 31, 2007, 2006 and 2005, respectively. We expect this sales concentration with one customer to continue for the near future.

Manufacturing

        We manufacture and test our products at our facility in Franklin, Massachusetts, approximately 40 miles west of Boston. We believe that our manufacturing capacity will be sufficient to meet market demands anticipated in the coming year for all our products.

        Some of the components for our Heart Laser Systems, most notably the power supply and certain optics and fabricated parts for the HL2, are only available from one supplier, and we have no assurance that we will be able to source any of our sole-sourced components from additional suppliers. Should the supply of certain critical components be interrupted or become unavailable, we may not be able to meet demand for our products, which could have a material adverse effect on our business and results of operations.

        Our manufacturing facilities are subject to periodic inspection by regulatory authorities to ensure compliance with FDA and EU quality system regulations.

Government Regulation

        The Heart Laser Systems and RenalGuard are subject to extensive regulation by the FDA and other regulatory authorities in the U.S. and abroad. The Federal Food, Drug, and Cosmetic Act (the "FDC Act") and other federal and state statutes and regulations govern the research, design, development, manufacturing, preclinical and clinical testing, installation, storage, packaging, recordkeeping, servicing, labeling, distribution and promotion of medical devices in the U.S. Our laser products are subject to additional FDA regulation under the radiation health and safety provisions of the FDC Act, which impose labeling and other safety requirements related to radiation hazards.

        As a device manufacturer, we are also required to register with the FDA. As such, we are subject to inspection on a routine basis for compliance with the FDA's Quality Systems regulations. These regulations require that we manufacture our products and maintain our documents in a prescribed manner with respect to manufacturing, testing and control activities. Further, we are required to comply with various FDA requirements for reporting. The FDC Act and medical device reporting regulations require that we provide information to the FDA on deaths or serious injuries alleged to have been caused or contributed to by the use of our products, as well as product malfunctions that would likely cause or contribute to death or serious injury if the malfunction were to recur. The FDA also prohibits an approved device from being marketed for unapproved uses. Our product promotion and advertising is subject to continuing FDA regulation. Our laser products are subject to periodic inspection under the radiation health and safety provisions of the FDC Act for compliance with labeling and other safety

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regulations. The failure to comply with the applicable regulatory requirements may subject us to a variety of administrative or judicially imposed sanctions, including the FDA's refusal to approve pending or supplemental applications, withdrawal of an approval or clearance, warning letters, product recalls, product seizures, total or partial suspension of production or distribution, injunctions, fines, and civil and criminal penalties against that company or its officers, directors or employees. Failure to comply with regulatory requirements could have a material adverse effect on our business, financial condition and results of operations.

        As a condition of our original FDA approval for our TMR products, we were required by the FDA to perform a postmarket surveillance study. The FDA requested that we submit a PMA Postapproval Study report summarizing this postmarket surveillance study. As part of this report, the FDA requested that we analyze and discuss the adverse event and mortality rates seen in the postmarket study and compare these results to the premarket study that was presented as part of our initial FDA PMA application. We filed this postapproval study report with the FDA on February 28, 2007.

        Because of the significant safety information collected in the postapproval study, and as the FDA has indicated it plans to do in other product areas, we believe that the FDA plans to present the results at a future meeting of the FDA Circulatory System Devices Advisory Panel and thereafter determine what, if any, actions should be taken with respect to our current Heart Laser Systems PMA.

        From time to time, legislation is drafted and introduced in Congress that could significantly change the statutory provisions governing the approval, manufacturing and marketing of drug products and medical devices. In addition, FDA regulations and guidance are often revised or reinterpreted by the agency in ways that may significantly affect our business and our products. It is impossible to predict whether legislative changes will be enacted, or FDA regulations, guidance, or interpretations changed, and what the impact of such changes, if any, may be.

        Various foreign countries in which our products are or may be sold impose additional or different regulatory and testing requirements. The international regulatory approval process varies from country to country and is subject to change in a given country as regulatory requirements change. Thus, the time required for an approval may differ and there can be substantial delays in obtaining approval after the relevant applications are filed. There is no assurance that foreign regulatory authorities will approve the use or sale of our products in a particular country on a timely basis, or at all.

        The FDA has approved the use of the Heart Laser Systems for patients who have stable angina (Canadian Cardiovascular Society Class III or IV) refractory to medical treatment and secondary to objectively demonstrated coronary artery atherosclerosis and with a region of the myocardium not amenable to direct coronary revascularization.

Third-Party Reimbursement

        Healthcare providers, including hospitals and physicians that purchase medical devices, such as the Heart Laser Systems, for use on their patients, generally rely on third-party payers, principally Medicare, Medicaid and private health insurance plans, to reimburse all or part of the costs associated with the procedures performed with these devices.

        Currently, Medicare coverage is provided for TMR when it is performed as a sole therapy treatment. In addition, when two or more medical procedures are performed in combination with each other, Medicare rules generally allow hospitals to bill for whichever of the two procedures carries the higher reimbursement amount. Therefore, in situations where sole therapy TMR reimbursement rates exceed that provided for bypass surgery alone, if hospitals perform a combination procedure where both bypass surgery and adjunctive TMR are performed on a patient, the hospital is able to bill for the

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higher TMR procedure reimbursement payment. In these instances, the doctor also can bill an additional amount for performing multiple procedures.

        Certain private insurance companies and health maintenance organizations also currently provide reimbursement for TMR procedures performed with our products, and physician reimbursement codes have been established for TMR when performed as a sole therapy or as an adjunct to bypass surgery; however, we have limited data as to the breadth of this coverage for the TMR procedure by private insurance companies and health maintenance organizations.

        No assurance can be given, however, that these payers will continue to reimburse healthcare providers who perform TMR procedures using our products now or in the future. Further, no assurance can be given that additional payers will reimburse healthcare providers who perform TMR procedures using our products or that reimbursement, if provided, will be timely or adequate. In addition, the market for our products could be adversely affected by future legislation to reform the nation's healthcare system or by changes in industry practices regarding reimbursement policies and procedures.

Proprietary Processes, Patents, Licenses and Other Rights

        It is our practice to file patent applications to protect our technology, inventions and product improvements. We also rely on trade secret protection for certain confidential and proprietary information.

        Since April 1992, we have received 33 U.S. patents. These patents have terms which expire from 2009 through 2023 and cover, among other things, laser technology to create a pulsed, fast-flow laser system, the use of a laser on a beating heart to revascularize the heart using TMR related disposable components, and the system used to time the heart's contractions to synchronize the laser firing at the correct time. We also have U.S. patent applications pending relating to technology used in the Heart Laser Systems and technologies associated with percutaneous myocardial revascularization. In addition, we have two patents issued and three applications filed in the field of percutaneous valves.

        In addition, we currently have nine patent applications pending at the U.S. patent office in connection with the prevention of contrast induced nephropathy. Seven of the applications are related to our RenalGuard System and RenalGuard Therapy. The two additional applications cover other systems and methods for preventing contrast induced nephropathy and acute renal failure.

        In January 1999, CardioGenesis Corporation, our only direct competitor in the TMR market, agreed to the validity and enforceability of certain of our patents in connection with a settlement of certain litigation between the companies. The patents, U.S. Patent No. 5,125,926 and related international patents, cover our proprietary synchronization technology, which we believe is a critical factor in increasing the safety of TMR procedures. We granted CardioGenesis a non-exclusive worldwide license to the patents in exchange for payment of a license fee and ongoing royalties over the life of the patents.

        Although we believe our patents to be strong, litigation by a competitor seeking to invalidate these patents could have a material adverse effect on our business, financial condition and results of operations. No assurance can be given that the existing patents will be held valid if challenged, that any additional patents will be issued or that the scope of any patent protection will exclude competitors. The breadth of claims in medical technology patents involves complex legal and factual issues and therefore can be highly uncertain.

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        We also rely upon unpatented proprietary technology and trade secrets that we seek to protect, in part, through confidentiality agreements with employees and other parties. No assurance can be given that these agreements will not be breached, that we will have adequate remedies for any breach, that others will not independently develop or otherwise acquire substantially equivalent proprietary technology and trade secrets or disclose such technology or that we can meaningfully protect our rights in such unpatented technology. In addition, others may hold or receive patents that contain claims covering products developed by us.

        We believe our patents to be valid and enforceable. However, there has been substantial litigation regarding patent and other intellectual property rights in the medical device industry. Litigation, which could result in substantial cost and diversion of our efforts, may be necessary to enforce our patents, to protect our trade secrets, to defend ourselves against claimed infringement of the rights of others and to determine the scope and validity of the proprietary rights of others. Adverse determinations in litigation could subject us to significant liabilities to third parties, require us to seek licenses from third parties and prevent us from manufacturing, selling or using our products, any of which could have a material adverse effect on our business, financial condition and results of operations.

Competition

        Our only direct competitor in the TMR market at this time is CardioGenesis. Although we do not believe it likely, because of the length of time and significant cost involved to conduct the necessary human clinical trials that would be required to secure approval from the FDA to market new TMR products, other companies may enter the TMR market in the future.

        CardioGenesis has received FDA approval to market its holmium laser in the U.S. to perform TMR. CardioGenesis has also received CE Mark approval for their TMR system, which allows them to sell their product commercially in the European Union. CardioGenesis promotes the advantages they believe their TMR system provides surgeons who wish to perform minimally invasive or robotically assisted TMR procedures. It is unclear at this time how successful, if at all, CardioGenesis will be with this marketing approach or what impact their TMR products will have in terms of competing with our present Heart Laser System design.

        In addition to their TMR system, CardioGenesis has pursued a "percutaneous" method of performing myocardial revascularization, previously known as PMR, and recently rebranded as PMC (percutaneous myocardial channeling). PMC procedures are performed via a catheter inserted through an incision in a patient's leg and is a less invasive method than TMR of creating channels in a human heart. CardioGenesis' PMC system was reviewed by the FDA Circulatory System Devices Panel in July 2001. That panel, in a 7-2 vote, found the PMA application for their PMC system to be not approvable. CardioGenesis has previously announced that they have approval from the FDA under an Investigation Device Exemption ("IDE") to conduct a new clinical trial related to PMC; however, we do not believe at this time that they have initiated a study pursuant to this IDE. Presently there are no FDA approved PMC devices in the marketplace and we are unable to assess whether there ever will be an approved PMC device in the marketplace.

        We believe that the primary competitive factors in the medical treatment of coronary artery disease are clinical safety and efficacy, product safety and reliability, regulatory approval, availability of reimbursement from insurance companies and other payers, product quality, price, reputation for quality, customer service and ease of use. We believe that our competitive success will be based on our ability to create and maintain scientifically effective and safe technology, obtain and maintain required regulatory approvals, obtain and maintain third party reimbursement for use of our products, attract and retain key personnel, obtain and maintain patent or other protection for our products and successfully differentiate, price, manufacture and market our products either directly or indirectly through outside parties.

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        The medical care products industry is characterized by extensive research efforts and rapid technological progress. New technologies and developments are expected to continue at a rapid pace in both industry and academia. Competition in the market for surgical lasers and for the treatment of cardiovascular disease is intense and is expected to increase. We believe that the Heart Laser Systems must compete not only with other TMR systems and potentially PMC systems, but also with medical management (drugs) and other coronary procedures (e.g., coronary bypass surgery, balloon angioplasty, atherectomy, laser angioplasty and stents, including new drug-eluting stents that may significantly reduce restenosis). Many of the companies manufacturing these products have substantially greater resources and experience than we do. Such companies may succeed in developing products that are more effective, less invasive or less costly in treating coronary disease than the Heart Laser Systems and may be more successful than us in manufacturing and marketing their products. No assurance can be given that our competitors or others will not succeed in developing technologies, products or procedures that are more effective than any being developed by us or that would render our technology and products obsolete or noncompetitive. Although we will continue to work to develop new and improved products, the advent of either new devices or new pharmaceutical agents could hinder our ability to compete effectively and have a material adverse effect on our business, financial condition and results of operations.

Research and Development

        Research and development expenses were $2,382,000, $1,924,000 and $2,750,000 for the years ended December 31, 2007, 2006 and 2005, respectively. We expect to continue to incur significant new research and development expenditures in future years. Our current and near term development efforts will be focused on performing clinical trials of RenalGuard, which should result in increased research and development expenditures through at least 2009.

        We continue to monitor technologies that may be applicable to TMR or the market for CIN prevention. No assurance can be given that our research and development goals will be implemented successfully.

Employees

        As of March 14, 2008, we had 31 full-time employees worldwide, including our executive officers. Of these, seven are in general and administrative positions, three are involved in sales, six are involved in research and development, two are involved in clinical affairs, six are involved in manufacturing, five are involved in service and two are involved in quality and regulatory affairs. We also employ one part-time employee in administration. None of our employees are represented by a union. We consider our relationship with our employees to be good.

Company Information

        We were incorporated in British Columbia, Canada on March 3, 1987. We transferred our jurisdiction of incorporation to the Yukon Territory of Canada in March 1999. Our principal offices and manufacturing facilities are located at 10 Forge Park, Franklin, Massachusetts 02038. Our telephone number is (508) 541-8800. Our Internet address is www.plcmed.com . As used herein, the references to PLC, we, our and the Company mean, unless the context requires otherwise, PLC and its subsidiaries, PLC Medical Systems, Inc. and PLC Sistemas Medicos Internacionais (Deutschland) GmbH.