Hyfrecator 2000 Operators Manual Rev AD

™

© 2022 CONMED Corporation

525 French Road Utica, New York 13502-5994 USA

For Technical Service or Return Authorization Phone: 303-699-7600 / 1-800-552-0138 Extension 5274 Fax 303-699-9854 For Customer Services or to order parts phone: 1-866-426-6633 or contact your CONMED Representative. European Authorized Representative MDSS GmbH Schiffgraben 41 D - 30175 Hannover Germany The revision level of this manual is specified by the highest revision letter found on either the inside front cover or enclosed errata pages (if any). Manual Number 7-900-OM-ENG Rev. AD 08/2022 Unit Serial Number ____________________________

2797

Table of Contents Section 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19

Figure 1 2 3 4 5 6 7 8 9 10 11 12 13

Title

Page

Introduction... 1 Inspection... 1 Safety Precautions and Warnings... 1 Operating Controls and Indicators... 5 Operation of Your Instrument... 8 Suggestions for First-Time Operation... 9 Terminology for Systems Configuration... 9 Terminology for Procedural Configuration... 11 Applications... 12 Maintenance... 16 Optional Accessories... 16 Warranty... 17 In Case of Difficulty... 18 Repair and Return Policy... 18 Environmental Protection... 18 Specifications... 19 Symbols... 21 Index of Reference Material... 22 Performance Graphs... 22 Electromagnetic Compatibility... 24

Title

Page

Front, Side and Bottom Panel Controls... 5 Back Panel Controls... 7 Monoterminal Without a Dispersive Plate Configuration... 9 Monoterminal with Dispersive Plate Configuration... 10 Bipolar Configuration... 10 Desiccation... 11 Epilation... 11 Fulguration... 11 Monoterminal Coagulation... 12 Bipolar Coagulation... 12 Peak Voltage vs. Setting... 22 Power Out vs. Display... 22 Load Regulation Curves... 23

This page intentionally left blank.

Introduction CAUTION: FEDERAL LAW (USA) RESTRICTS THIS DEVICE TO SALE BY OR ON THE ORDER OF A PHYSICIAN. Congratulations on your purchase of the CONMED HYFRECATOR® 2000 . The HYFRECATOR® was introduced in 1937 and has become the world leader in office-based electrosurgery. With the latest model, the HYFRECATOR® 2000, CONMED has refined the concept and utilized today’s technology to produce the finest machine of its kind. Safe and simple to use, the HYFRECATOR® 2000 has a wide range of applications - from dermatology and gynecology to ophthalmology and urology. The HYFRECATOR® 2000’s state of the art electronic circuitry utilizes two microprocessors to provide unsurpassed output power accuracy and patient safety. Whether it’s full power for broad surface coagulation, or low power in one-tenth watt increments for delicate facial procedures, the HYFRECATOR® 2000 provides the precision you demand. Internal selfdiagnostic tests are performed every time you turn on the HYFRECATOR® 2000 and the power output is monitored continuously during operation. This makes the HYFRECATOR® 2000 one of the safest office-based electrosurgery units in the world. Compatible with your existing HYFRECATOR® accessories, such as bipolar forceps and reusable electrodes, the HYFRECATOR® 2000 features an ergonomic design and contemporary style that complements modern office decor.

Section 2 - Safety Precautions and Warnings

Section 1 - Inspection

The use of the HYFRECATOR® 2000 on patients with cardiac pacemakers is potentially hazardous. The high frequency energy of the HYFRECATOR® 2000 output may interfere with the action of the pacemaker. Ventricular fibrillation or neuromuscular stimulation may occur. Precautions should be taken to ensure that the patient’s well-being is maintained in the event of such interference. We recommend that the manufacturer of the pacemaker be consulted for advice before using the HYFRECATOR® 2000 on a patient with a pacemaker. These precautions also apply to clinical personnel with cardiac pacemakers.

The CONMED HYFRECATOR® 2000 has been thoroughly tested and inspected before shipment from the factory. Please check the unit before using for any damage that may have occurred in transit to you. If any damage is evident, please immediately contact the Authorized CONMED Distributor from whom you purchased the unit. To activate your warranty, return the enclosed warranty card to CONMED Corporation within 10 days of receipt of your invoice.

This manual provides the set up and operating instructions for the HYFRECATOR® 2000 Electrosurgical Unit (ESU). Electrosurgery can be dangerous to patients, staff and other equipment if misused. Please understand and follow the warnings and cautions included in this manual. Technical specifications, performance characteristic curves and user maintenance instructions are also included. Safe and effective electrosurgery is dependent not only on equipment design, but also on factors under the control of the operator. It is important the instructions supplied with this equipment be read, understood and followed in order to ensure safe and effective use of the equipment. The HYFRECATOR® 2000 is capable of causing physiological effects, including burns to the patient or operator. Users are warned against the use of the HYFRECATOR® 2000 on patients with implants such as metal pins, metal joints, etc. Check with attending physician for patient’s medical history before using the HYFRECATOR® 2000.

Only properly qualified and trained operators should perform electrosurgery. The operator

1

and their support personnel must be diligent in assuring the ESU is properly configured and proper settings are used. The ESU must be in a location that assures the operator or their support personnel can readily verify the settings. Electrosurgery should NEVER be performed in the presence of flammable anesthetics, flammable prep solutions or drapes, oxidizing gases such as Nitrous Oxide (N2O), or in oxygen-enriched environments. The risk of igniting flammable gases or other materials is inherent in electrosurgery and cannot be eliminated by device design. Precautions must be taken to restrict flammable materials and substances from the electrosurgical site, whether they are present in the form of an anesthetic, life support, skin preparation agent, or are produced by natural processes within body cavities, or originate in surgical drapes, tracheal tubes, or other materials. There is a risk of pooling of flammable solutions in body depressions such as the umbilicus and in body cavities, such as the vagina. Any excess fluid pooled in these areas should be removed before the equipment is used. Attention should be called to the danger of ignition of endogenous gases. Some materials, for example, cotton, wool and gauze, when saturated with oxygen may be ignited by sparks produced in normal use of the HYFRECATOR® 2000. Interference may occur between the RF signals of the HYFRECATOR® 2000 and ground referenced ESUs that are used simultaneously with the HYFRECATOR® 2000. Do not use ground-referenced ESUs with HYFRECATOR® 2000. The active electrode should not be used in the vicinity of electrocardiograph electrodes.

treatment area before using the HYFRECATOR® 2000. It is not advisable to use this instrument in the proximity of jewelry, eyeglasses, digital watches, portable radios, pocket calculators, hearing aids, etc. Do not use monopolar electrosurgery on small appendages or other parts of the body having a relatively small cross sectional area, as in circumcision or finger surgery, as it can cause thrombosis and other unintended injury to tissue proximal to the surgical site. Should the surgeon decide the bipolar electrosurgical technique is acceptable for circumcision, do not apply the bipolar electrosurgical current directly to circumcision clamps. The tips of recently activated accessories may be hot enough to burn the patient or ignite flammable material. Temporarily unused active electrodes should be stored in the holder on the HYFRECATOR® 2000 or in an electrically insulated, flame resistant container to prevent injury due to hot tips or accidental activation of the footswitch. The unused active electrode should never be placed on the patient. Only non-flammable agents should be used for cleaning and disinfection. Exercise care when moving the ESU to avoid electrostatic charge buildup in the presence of flammable materials, as there is a risk of igniting these materials if a spark should occur. Electrosurgical leads (active, bipolar or return) should not be allowed to contact the patient, staff, or other electrical leads connected to the patient. The output power selected should be as low as possible and activation times should be as short as possible to achieve the desired surgical effect.

Heat applied by thermal blankets or other sources is cumulative with the heat produced at the dispersive electrode (caused by electrosurgical currents). Choosing a dispersive electrode site that is remote from other heat sources may minimize risk of a patient injury.

Avoid output power settings that may result in output voltages that exceed the rating of the attached accessory.

To avoid alternate site burns or potential shock, remove all metal objects from

The clinical use of electrosurgery is intermittent in nature. This ESU should not

2

When uncertain of the proper control setting for the power level in a given procedure, start with a low setting and increase as required.

be activated continuously for extended periods of time. Observe all caution and warning symbols.

interference from other equipment, discontinue use of the ESU until the problem can be remedied.

Do not ignore unexpected tones. Check to determine the cause of the tone to avoid potential injury.

Regularly inspect accessories for damage. In particular, electrode cables and endoscopically used accessories should be checked for possible damage to the insulation.

Ensure the footswitches are not inadvertently depressed in order to prevent accessories from being unintentionally activated. Place footswitches in locations that necessitate deliberate action in order to activate the footswitch. Use caution when selecting the correct footswitch to activate.

Use only accessories that have been approved for use with the HYFRECATOR® 2000. Do not use accessories that fail to meet the minimum peak voltage requirements per Fig 11 , Peak Voltage vs. control settings. It is recommended to use only accessories rated at the maximum peak voltage, for a given mode.

Do not place liquid containers on top of the unit. Wipe spilled liquids off the unit immediately. To prevent inadvertent entry of liquids, do not operate this unit except in its normal upright position.

Failure of the unit could result in an unintended increase of output power.

To prevent cross-infection, do not reuse disposable (single use) accessories. Used electrosurgical tips should be disposed of as sharp biological hazards per your local and hospital regulations. Studies have shown that smoke generated during electrosurgical procedures may be harmful to surgical personnel. These studies recommend using a surgical mask and adequate removal of the smoke using a surgical smoke evacuator or other means. Electrosurgery, by its nature produces significant levels of electromagnetic interference (EMI) when the ESU is activated. This EMI may damage or impair the function of other electronic equipment in the operating room, especially equipment that makes contact with the patient. Adverse effects can only be mitigated by use of equipment specifically designed to tolerate electrosurgical interference. Other equipment in the operating room, including portable or mobile communications equipment may produce EMI, which can affect the function of the ESU. Adverse effects can only be mitigated by use of equipment with EMI characteristics proven below recognized limits. In the event of suspected

When used, the neutral electrode (patient plate) should be reliably attached with the entire surface area in contact with the patient’s body and as close to the operating field as possible. When not in use, the neutral electrode should be disconnected from the HYFRECATOR® 2000 to avoid accidental burns. Apparent low output or failure of the HYFRECATOR® 2000 to function correctly at normal operating settings may indicate a faulty green wire ground connection. This could be due to a faulty power cord, loose connections inside the unit, the use of a two wire extension cord, or the use of a three-totwo prong adapter. These faults can result in a burn if the patient plate is used and is not in good contact with the patient. If the neutral electrode (patient plate) is being used, the low power may be due to faulty application or poor contact in its connections. In this case, the application of the neutral electrode and it’s connections should be checked before selecting a higher power. Skin to skin contact (for example, between the arms and body of the patient) should be avoided by the insertion of dry gauze or other suitable means. When the HYFRECATOR® 2000 and physiological monitoring equipment is used simultaneously on the same patient, any

3

monitoring electrodes should be placed as far as possible from the surgical electrodes. Needle monitoring electrodes are not recommended. In any case, monitoring systems incorporating high frequency current limiting devices are recommended. Do not use the Handswitched Pencil with a footswitch. The unconnected switch connector can arc to nearby objects or personnel and cause a burn. Use the power cord provided with the unit. Replacement power cords may be obtained from ConMed. Connect the generator electrical cord to a properly grounded receptacle. Do not use extension cords or two wire adapters. Failure to adhere to this warning may cause increased leakage currents. Turn unit off and wait until storage capacitors have discharged before connecting test equipment. Do not connect wet accessories to the generator. The HYFRECATOR® 2000 must be mounted vertically to reduce the possibility of spilled liquids entering the chassis and adversely affecting the safety of the unit.

Anesthesia As in other types of surgery, the amount and type of anesthetic required for procedures depends upon the site of the operation and the tolerance of the patient. Small lesions can sometimes be removed without anesthetics when they are not in sensitive areas. Do not use explosive or flammable anesthetics due to the presence of the spark created by the HYFRECATOR® 2000. Similarly, when the site is cleaned with alcohol or other flammable cleansing agents, dry the surface thoroughly before proceeding.

Monoterminal Shock In all electrical devices where a current is emitted from the instrument, the current must have a return path. The return path for monoterminal applications is through the patient’s body, to the ground and back to the instrument. In this mode, if any portion of the patient’s body comes in contact with a grounded metal object, such as a chair or metal rail, the current will take the path

4

of least resistance and a slight shock may be felt. To minimize the possibility of shocking during monoterminal applications: • Do not let your patient come in contact with any grounded metal objects. • Position the electrode on or close to the patient before activating the output. • For procedures using the dispersive plate, do not allow the patient to break contact with the dispersive plate when the unit is activated. • If the physician or nurse must touch the patient, place hand on the patient before activating the HYFRECATOR® 2000. Do not break contact during activation. To lessen the possibility of a shock, wear gloves at all times and continue to avoid contact with grounded metal objects. No modification to this equipment is allowed. Service should not be attempted without reference to the HYFRECATOR® 2000 service manual (Catalog Number 7-900-SM-ENG), provided by ConMed. The Service Manual provides the Preventative Maintenance (PM) requirements, calibration instructions, circuit diagrams, and circuit components listing necessary for performing service on the HYFRECATOR® 2000.

Section 3 - Operating Controls and Indicators

Figure 1: Front, Side and Bottom Panel Controls

5

Front, Side and Bottom Panel Controls 1. ON/OFF SWITCH Turns unit on or off. When the HYFRECATOR® 2000 is turned on, the unit automatically “powers up” to the setting last used. 2. POWER ACTIVATION BUTTON When pressed, high frequency energy is emitted from the electrode. Additionally, an audible tone is generated and the active “on” indicator light illuminates. 3. POWER UP/DOWN SWITCHING HANDLE AND CORD Remove or insert the power handle in the indicated direction. 4. POWER OUTPUT INDICATOR Displays the power setting for the mode presently selected. Each mode automatically retains it’s own independent power setting that is set when the mode is selected again. 5. ACTIVE “ON” INDICATOR Illuminates when the power activation button is pressed. 6. POWER KNOB Increase power by rotating clockwise; decrease power by rotating counterclockwise. Power is advanced by one watt increments in High and Bipolar modes, and in the Low mode at a power level greater than 10 watts. Power is advanced in onetenths of a watt when less than ten watts in the Low mode. 7. HIGH OUTPUT TERMINAL Insert the power up/down switching handle and cord single pin into this outlet for heavy desiccation and fulguration procedures requiring high intensity. Provides between zero and 35 watts with high voltage. 8. LOW OUTPUT TERMINAL Insert the power up/down switching handle and cord single pin into this outlet for light desiccation and fulguration procedures requiring low intensity. Provides between zero and 20 watts with a voltage lower than the high output terminal. 9. BIPOLAR OUTPUT TERMINAL For coagulation procedures using forceps. When using forceps, the forceps plug into both bipolar outlets (a footswitch is required when forceps are utilized). Bipolar provides

6

between zero and 35 watts with a voltage lower than the high or low output terminals. 10. SWITCHING CONNECTOR The power up/down switching handle and cord socket plugs into this connector. Be sure to align the connector pins before inserting. NOTE: The optional footswitch plugs into this same connector. 11. TERMINAL SELECTOR SWITCH Selects the desired output terminal and output mode. Output displayed will be the last setting used. 12. PATIENT PLATE If a patient plate (also called neutral electrode or dispersive plate) is required or preferred for High or Low mode operation, depending upon the surgical procedure, simply plug the dispersive plate into this connector. 13. RF PLUG (Single Pin Accessory Plug) Used to connect the HI or LO output terminal to the handle. This plug must be connected to an Output terminal for the pencil to deliver current. Note that both the Handswitching and Footswitching Pencils use the same RF plug connection. 14. POWER UP BUTTON Press this button to increase the power setting for the selected mode. 15. POWER DOWN BUTTON Press this button to decrease the power setting for the selected mode. 16. RELEASE BUTTON To remove an accessory switching connector, press this button to release the accessory, then pull the connector straight away from the unit. 17. FOOTSWITCH (7-900-4) Used to activate the unit when a Footswitched Pencil or Bipolar Forceps are used. 18. BIPOLAR FORCEPS Must be used with a footswitch for activation. 19. FOOTSWITCHED PENCIL Use when footswitch activation is preferred.

Back Panel Controls

Figure 2: Back Panel Controls 1. VOLUME CONTROL Adjusts volume of the audible tone generated when the power activation button is pressed. To increase volume, insert a screwdriver and rotate clockwise until resistance is felt. Do not force adjustment past the resistance point. For safety reasons, the tone cannot be completely turned off. 2. WALL MOUNTING STUDS Used with standard wall mounting kit, Cat. No. 7-796-20 (see the mounting kit for instructions). Instrument may also be mounted on optional mobile pedestal stand (Cat. No. 7-796-1). Note: The 7-796-20 mounting kit must be used to mount the unit on the mobile pedestal stand.

7

Section 4 - Operation of Your Instrument 1. The HYFRECATOR® 2000® should be mounted vertically with at least 2" (5cm) clearance around the top and sides of the unit. Approximately 5" (13cm) should be allowed at the bottom of the unit for access to the accessory connections. Adjust the volume to an acceptable level before mounting, because the volume control is at the back of the unit. Refer to the supplied Wall Mount Kit, or optionally, the Mobile Pedestal Stand instructions for additional information. 2. Verify that the HYFRECATOR® 2000® is the correct mains voltage and frequency by checking the serial number plate on the back of the unit. 3. Plug power cord into connector on the bottom of the HYFRECATOR® 2000. 4. The power cord of the ESU should be connected to a properly polarized and grounded power source whose voltage and frequency characteristics are compatible with those listed on the nameplate of this ESU. To avoid the risk of electric shock, this equipment must only be connected to a supply mains with protective earth. 5. Align and insert the four-pin connector from the switching handle or the footswitch into the connector on the bottom of the unit. To release the connector, press the release button and pull. 6. Slide Mode Selector Switch to HI, LO, or BI as indicated for the procedure. NOTE: This selection will also preset the power setting last used in that mode. These settings are retained, even when the unit is turned off. 7. Insert the RF Plug (for HI or LO operation) or the Bipolar plugs (for Bipolar operation) into the output jack(s) uncovered by the Mode Selector Switch. 8. Insert an Electrolase® Disposable Electrode or other HYFRECATOR® accessory electrode into the active end of the switching handle. 9. Turn the on/off switch to the “ on” (or “ 1” ) position. The HYFRECATOR® 2000 will then begin a self-diagnostic test sequence. During this time, the HYFRECATOR® 2000 will perform various function and safety

8

checks. These tests consist of a rotating pattern appearing in the Power Output Indicator, and four brief beeps before the last used power setting appears. NOTE: If a fault is detected during these tests, a continuous tone will sound and a Fault Code will appear in the Power Output Indicator. Refer to Section 12 in this manual if a fault occurs. 10. Adjust the power output for the selected mode to the desired wattage using either the Power knob on the front panel or the UP/ DOWN buttons on the power switching handle. This adjustment only affects the selected mode. The power output setting will be retained permanently upon activation or after 3 seconds of inactivity. NOTE: The power output controls have a rapid speed feature to make large power changes. Rapid speed is engaged by holding down either the up/down buttons or by rapid rotation of the power knob. Fine adjustment is achieved by brief button presses or by slow power knob rotation. 11. The selected output will be sent to the accessory electrode upon pressing either the pencil activation button (for handswitching accessories); or the footswitch (for footswitching accessories). Activation is indicated by the blue light and a continuous audible tone. Note: Tone volume may be set to the desired level, but not silenced, by the screwdriver adjustment on the rear of the unit. 12. When the procedure is complete, turn the on/ off switch to “ off ” (or “ 0” ) position.

Section 5 - Suggestions for FirstTime Operation Before using the HYFRECATOR® 2000 clinically, we suggest the following experiment: Hold a quarter-pound piece of room temperature beef or chicken firmly in hand or place it on a table and touch it with your hand to improve the path of electrical flow. Starting with a low power setting, experiment as follows. (If you are not familiar with desiccation, fulguration or coagulation, please see the Terminology for Procedural Configuration section): • Desiccation: In the monoterminal without a dispersive plate mode, using an Electrolase Tip, touch the meat and turn on the current for one to five seconds. Use different intensities with the low and the high output terminals. Cut the meat open with a scalpel and view the depth of penetration. A mild blanching of the tissue is sufficient for most conditions. • Fulguration: Using either the low or high output terminals, bring the electrode near, but not touching the meat (one to three mm). Use various settings and observe the different degrees of fulguration that can be produced. Short bursts of a spark alternated with short cooling periods are most acceptable to the patient. Continuous application of the spark creates heat that may become intolerable. Cut the meat open at the fulgurated spots to view the relatively shallow effect. • Coagulation: If you have purchased the optional cord and dispersive patient plate or the forceps and footswitch, you may wish to experiment with the effects of monoterminal and bipolar coagulation. You will find that monoterminal coagulation produces very deep effects while bipolar coagulation produces relatively superficial effects. A training tape covering basic dermatological procedures utilizing the HYFRECATOR® 2000 is included with the unit. Additional copies are available from your Authorized CONMED Distributor (Cat. No. 7-900-21).

Section 6 - Terminology for Systems Configuration Monoterminal (monopolar) without Dispersive Plate The vast majority of HYFRECATOR® 2000 procedures use monoterminal techniques without a dispersive plate. They are easily set up, provide excellent results and do not require any accessory equipment. The current flows from either the high or low output terminals to the electrode, then passes to the patient. The electricity “completes the circuit” by seeking its own ground through the patient to the table and across the floor, returning to your unit via the electrical outlet (see Figure 3). Monoterminal procedures without a dispersive plate produce desiccation and fulguration.

Figure 3: Monoterminal Without a Dispersive Plate Configuration

9

Monoterminal (Monopolar) with Dispersive Plate Monoterminal applications with a dispersive plate (See Figure 4) are less common than monoterminal applications without a dispersive plate. Here, the high-frequency current starts from either of the bipolar terminals, then travels through an electrode to your patient, where it exits through the dispersive patient plate and returns directly to the unit. Monoterminal applications with a dispersive plate improve the coagulation efficiency by providing a better path for the current flow. It’s use is indicated when more effective coagulation is desired. The power setting should be reduced when a dispersive plate is used until the surgeon becomes accustomed to the increased coagulation efficiency that the dispersive plate provides. It is important that the dispersive plate has maximum contact area with the patient, and that contact is maintained whenever activation occurs. Do not allow the patient to break contact while the unit is activated, or a burn could result at the last point of contact. Place the dispersive plate under a well vascularized muscle mass that is thoroughly clean and dry. Clean and shave site as necessary to provide adequate electrical connection. Avoid placement over scar tissue, bony prominences or other areas where pressure points on small areas might develop.

Figure 4: Monoterminal with Dispersive Plate Configuration

Bipolar For bipolar configurations, the current flow is similar to monoterminal techniques, except the electricity never spreads deeply into the tissue. Instead, forceps - or other highly specialized electrodes - keep the current flow on the surface, travelling from one tine of the forceps to the other (see Figure 5). Bipolar techniques produce coagulation and are recommended for procedures requiring more efficient coagulation or hemostasis. NOTE: Bipolar forcep procedures require the use of a footswitch.

Figure 5: Bipolar Configuration

10

Section 7 - Terminology for Procedural Configuration Desiccation Desiccation comes from the Latin word “desiccate”, meaning to dry. It is a monoterminal without a dispersive plate technique. The electrode either touches, or is inserted into the tissue. The current evaporates the cellular fluids, blanching the area treated (see Figure 6). Typically, the depth of blanching is greater with desiccation than with fulguration.

Figure 6: Desiccation NOTE: Continued electrodesiccation at increased intensity will result in tissue destruction and charring. NOTE: Epilation by thermolysis is a special form of desiccation where a fine-wire electrode (product number 714) destroys hair follicle. This procedure uses the low terminal at very low power settings (see Figure 7).

and sloughs off in seven to ten days. Large lesions may produce two to three successive crusts. NOTE: In an area of good blood supply and abundant subcutaneous tissue, healing will be rapid. • Post-Operative Care - Small lesions may not require dressing. Larger areas of destruction will require antiseptic dressing and medication until the wound is epithelialized. As in any surgical procedure, large open wounds should be protected against secondary infection.

Fulguration Fulguration comes from the Latin word “fulgur”, meaning an act of lightning. It is a monoterminal without a dispersive plate technique where the electrode is held slightly away from the surface being treated (see figure 8), resulting in sparking to the surface. When delicately fulgurating, you must precisely position the point of the active electrode close to the area being treated or the electrical arc may divert to adjacent tissue areas. If desired, you can quickly fulgurate broad areas by holding the electrode further from the skin. Fulguration limits tissue destruction to a shallow area under the spark and is normally characterized by an eschar.

Figure 8: Fulguration

Figure 7: Epilation • Application - As the power and/or time of treatment increases, the amount of desiccation also increases. You must, however, consider the effects of the size of the electrode, especially when inserting an electrode needle. For instance, a large diameter needle requires more power and time to produce the same effect as a small needle. • Healing - Small lesions usually heal completely in one to three weeks. First, granulation forms on the base, then epithelializes. A crust forms

• Application - Factors such as power, treatment time, electrode size and the moisture content of the tissue influence the area and depth destroyed with one application. Additionally, the distance between the electrode and the tissue is important. • Post-Operative Care - Same as desiccation. • Healing - Same as desiccation.

Coagulation Coagulation derives from the Latin word “coagulate”, meaning to clot. As seen in Figures 9 and 10, there are two types of coagulation:

11

Monoterminal Coagulation - Uses the dispersive patient plate (also called a “return electrode” or an “indifferent electrode”) as seen in Figure 9. Bipolar Coagulation - A technique where the current flows between two closely placed electrodes as seen with the forceps in Figure 10. A dispersive patient plate is not used.

Figure 9: Monoterminal Coagulation

Figure 10: Bipolar Coagulation • Application - The two types of coagulation have different effects on tissue. In the first case, the dispersive patient plate deeply draws the current into the tissue. The current efficiently flows through the patient back to the HYFRECATOR® 2000 producing heavy dehydration at the electrode site. Conversely, the use of bipolar forceps during bipolar coagulation produces the least tissue damage with the current remaining on the surface as it flows from one tine to the other. • Healing - same as desiccation. • Post-Operative Care - same as desiccation.

12

Section 8 - Applications Dermatology BENIGN LESIONS The HYFRECATOR® 2000 can destroy a variety of benign skin lesions. With its wide range of power settings, the HYFRECATOR® 2000 treats even the most delicate facial lesions as well as the thickest scaling lesions of the trunk. Some of the clinical applications include: • Acrochordon (skin tag): Electrodesiccation or fulguration quickly destroys these lesions. The remaining char is removed with a gauze pad or curette. • Actinic Keratoses: These pre-malignant lesions respond well to light electrofulguration. Since these lesions occur on exposed surfaces, a cosmetic result is essential. Using a low power setting will help you control the destruction and ensure a satisfactory cosmetic result. • Adenoma Sebaceum: Treat each papule with desiccation using a low power setting. • Angiokeratoma: Superficial desiccation is generally sufficient. • Angiomas, Capillary: Superficial desiccation of fulguration is usually quite successful in treating these lesions. The remaining char may be wiped away with a gauze pad. • Angiomas Cavernous: Electrodesiccation may satisfactorily treat small lesions. Multiple needle insertions are usually necessary. • Angiomas, Spider: Electrodesiccation of the centrum, from which the telangiectatic vessels radiate cosmetically, removes the lesions. • Condyloma Acuminatum (Venereal Wart): Condylomata respond quickly to electrofulguration. Anesthesia is generally required and care must be taken to avoid postoperative infection in the warm, moist genital area. • Fibroma: Light electrodesiccation or fulguration easily destroys small pedunculated fibromas. • Keratoacanthoma: After a deep shave or “scoop” biopsy for diagnosis, the base of this lesion should be electrofulgurated to achieve hemostasis and destroy any residual tumor. • Lymphangioma: These uncommon tumors may respond to electrodesiccation or fulguration. • Molluscum Contagiosum: These viral lesions

resolve quickly with electrodesiccation. • Pyogenic Granuloma: This loose vascular tissue responds well to electrofulguration. • Seborrheic Keratoses: These are perhaps the most common and most cosmetically annoying skin tumors in adults. Their presence is often associated with old age. Initial fulguration enables you to easily wipe away the charred remains with a gauze pad or gentle curette. The cosmetic result is usually excellent. Multiple small seborrheic keratoses of the face in young blacks (dermatosis papulosa nigra) may be treated without anesthesia using a low power setting. While excellent cosmetic results are achievable, it is prudent to initially treat one or two as a therapeutic cosmetic test. • Sebaceous Papules: Seen in rosacia and older, oily-skinned patients, these lesions may be removed by light electrofulguration. • Syringomas: Very light fulguration, followed by gentle curettage, may be curative. Test one or two lesions initially as a cosmetic trial. • Telangiectasias: Facial telangiectasias respond well to gentle electrodesiccation. Use LOW terminal at low power settings at one or more sites along their length. This procedure has several advantages over more costly laser treatments and less controllable sclerosing injections. Leg lesions, however, are more recalcitrant to electrosurgery and more likely to recur. • Common Warts (Verrucae Vulgaris): Most common warts respond to electrofulguration and curettage of the base. Special care must be given to warts that occur over specifically located nerves. Such sites include the digital nerves or those that occur on weight-bearing surfaces like the foot (Verruca Plantais). Care should be taken to avoid excessively deep tissue destruction which may result in painful scarring. • Filiform Warts: Electrodestruction of the pedicle near its base yields a high cure rate with excellent cosmoses. • Flat Warts (Verrucae Plana): Flat warts respond well to light electrofulguration. MALIGNANT LESIONS If malignancy is suspected take a biopsy before treatment by electrosurgery for histopathologic examination. The most common skin cancers are basal and squamous cell carcinomas. Appropriately selected ones may be treated easily,

quickly and effectively with curettage and electrofulguration. You usually need to repeat the procedure once or twice at the same sitting to achieve a high cure rate. The tumors you wish to treat generally should be less than two centimeters in diameter, occurring on a sun-exposed site (face, arms, upper back, lower legs) and not involving a body fold (such as the alar groove or inner canthus of the eye). When lesions are chosen appropriately, as noted above, very acceptable cure rates for electrosurgery can be achieved. In addition, electrosurgery has the advantage of being easy to learn, simple to perform and costeffective. Cosmeses is quite acceptable and, in many cases, may be preferable to the cosmetic results of excisional surgery or radiotherapy. • Basal Cell Carcinoma: Obtain a shave biopsy before electrosurgery. After initial tumor delineation with a curette, fulguration is performed and followed by thorough removal of the necrotic debris with additional curettage. Curettage and fulguration is typically repeated once or twice. • Bowen’s Disease (Squamous Cell Carcinoma in Situ): These lesions respond to the same techniques for basal cell carcinomas. Since these lesions may extend further laterally than they clinically appear, anesthesia should extend one to two centimeters beyond the visible lesions. • Bowenoid Papulosis: Occurring on the genitals, these papules respond to electrofulguration. • Squamous Cell Carcinoma: The same techniques are again employed as with basal cell carcinoma. You should only treat lesions arising in sun-damaged areas. Squamous cell carcinomas arising in non-sun-exposed skin and in mucous membranes are more aggressive biologically.

Plastic Surgery Many surgeons use the HYFRECATOR® 2000 for hemostasis in plastic and reconstructive surgery. It saves time and produces minimal tissue reaction compared to other methods. Coagulation occurs by touching each bleeding point with an electrodesiccating current. Because blood will dissipate the energy, a sponge should be used prior to application.

13

Gynecology • Vaginal Cysts: Treat these cysts by first excising an oval strip and emptying the contents, then use a strong desiccating current to cauterize the interior. Gartner cysts extending near the vault and alongside the cervix respond to this method. • Condylomata of the Vulva: You can effectively destroy these warts as you would destroy the various types of warts on the surface of the body. (see Venereal Warts under Dermatology and Urology). • Cervical Polyps: Cervical polyps up to two centimeters in diameter respond to desiccation of the base without the need for a local anesthetic. If shallow, a fulgurating spark may blanch them thoroughly. Polyps extending into the cervical canal may require more than one treatment. Remember that endocervical and intrauterine polyps may be present. Dilation and curettage of the uterine cavity under general anesthesia may be indicated. As with all such lesions, preliminary biopsy is advisable. • Pruritus Vulvae: By fulgurating the entire surface using a strong current, excellent results can be achieved. Take care to prevent urethral stenosis. • Urethral Tumors: The majority of urethral tumors are benign and respond readily to desiccation. However, treatment should be thorough to avoid recurrence. • Cervical Erosion: Many cervical erosions are asymptomatic and require no treatment. However, if the erosions produce symptoms such as increased discharge or pain, you should treat them effectively with desiccation, fulguration or coagulation. Typically, this is done without the need for a local anesthetic. • Cervicitis: A strong desiccating current effectively destroys the entire infected mucosa, although more than one treatment is usually necessary. • Bartholin’s Cysts or Abscesses: Aspiration alone may cure the condition, if this fails, incise the cyst or abscess, evacuate its contents and coagulate the cyst wall using a fulgurating spark. Recurrent cysts respond to marsupialization. • Nabothian Cysts: Puncture these infected glands and cysts with a sharp needle point, then desiccate.

14

• Skene’s Glands: Insert a sharp point into the abscess or cyst, then desiccate using a strong current. The wound closes by granulation.

Dental and Oral Surgery • Apicoectomy: To prepare for an apicoectomy, insert a fine desiccating needle electrode (Cat. No. 705A) slightly beyond the apex of the tooth, then apply the desiccating current to the infected area. The resulting coagulation reduces capillary bleeding and minimizes the spread of infection during later root resection. • Buccal Gingival Caries: Soft, infected gingival tissue responds to desiccating currents. • Cysts, Mucous: Small cysts of the mouth respond to epilation. An application of the desiccating current for a few seconds will boil out the mucous fluid and destroy the cyst lining. Results are excellent with minimal scarring. • Dentin Desensitization: Fulguration desensitizes hypersensitive exposed dentin. Spray the area with a topical anesthetic before the first treatment, then fulgurate with a weak current. Only two treatments are usually required. • Frenectomy: Intense fulguration of the superfluous tissue under local anesthesia reduces abnormal labial frenum. • Hemostasis: To control bleeding after exodontia, desiccation or fulguration with a small ball electrode (Cat. No. 727) can be most effective. • Gingivectomy: The removal of gingival tissue, such as the exposure of the gingival margin, the preparation for taking hydrocolloid impressions and papillectomies and the elimination of gum flaps, responds to both electrodesiccation and fulguration. • Root Canal Sterilization: The dental electrode (Cat. No. 705A) can sterilize the pulp chamber after first removing the debris. Use one-second bursts of fulguration and gradually move the electrode deeper into the chamber and root canal.

Ophthalmology • Chalazion (Meibomian Cysts): To treat these cysts, first anesthetize the area. Next, incise and evacuate the cysts. • Entropion: Treat each nodule by inserting a very fine needle point electrode (Cat. No.

714). Use a low-powered desiccating current. Treat only a small portion at each session. • Xanthelasma: These cholesterol deposits respond effectively to light desiccation or light fulguration. Several treatments are preferable to avoid any scarring. • Burn Entropion: Light fulguration is recommended. • Spastic Entropion: Following surgical incision and desiccation to separate it from the orbicularis oculi muscle, desiccate the muscle lightly until it is a light brownish-green color. Suture and dress the wound with antibiotic ointment.

Otolaryngology • Adenoid - Hypertrophied Remnants: Coagulate small areas under local anesthesia and repeat the process until the hypertrophied areas are completely destroyed. • Epistaxis: Electrodesiccation is very effective for hemostasis. Anesthetize the areas and carefully identify the vessels. Bring the electrode into direct contact with the ruptured arteriole and use a light current. Exercise care to avoid excessive tissue damage that could result in perforation of nasal septum. For that reason, it is inadvisable to treat both sides simultaneously. • Granular Pharyngitis: Desiccate each point using a mild desiccating current. • Nasal Polyps: Desiccate these polyps at the base. • Hemostasis in Tonsilloadenoidectomy: Use either monoterminal or monopolar coagulation. The monoterminal technique uses the HIGH output. Bleeding is controlled with a sponge dampened with epinephrine (Adrenalin) 1:1,000 before activation of the electrode. Use a ball electrode (Cat. No. 727) as the active electrode. • Tonsil Tag Destruction: Bipolar coagulation, using a specialized electrode (Cat. No. 789CC), can destroy tonsillar tissue. Insert the double needles into the tissue and destroy the tissue between them. • Turbinate Shrinkage: Use either monoterminal or monopolar coagulation. The monoterminal mode uses a fine needle with a long, insulated sheath (Cat. No. 716). Monopolar coagulation uses the same

electrodes along with the Dispersive Patient Plate (Cat. No. 7-900-7) to complete the circuit.

Proctology • Fissure-in-ano: Spray a fairly strong fulgurating current over the involved tissue. Healing is prompt, but there is some discomfort during the first three days. Do not destroy the tissue too deeply. Instruct your patient to keep the area clean and to apply an antiseptic ointment. • Hemorrhoids: Some authorities advocate bipolar coagulation for office management of hemorrhoids. Individually distend the hemorrhoids with a fluid solution and then coagulate. • Ischiorectal: Incise and drain these lesions, then desiccate the wall with strong current. • Papilloma: Small papillomas readily respond by inserting a fine needle electrode, but a fairly strong current is needed. Larger polyps within the bowel are better treated with snares and an electrosurgical cutting current.

Urology • Bladder: Desiccation or fulguration of various growths within the bladder are well established urological techniques. Use a cystoscope and a continuous flow of water. (Check with the manufacturer of your cystoscope to determine compatibility with the HYFRECATOR® 2000). • Vasectomy: After your patient has been anesthetized, the lumen of the vas deferens can easily be desiccated, minimizing any peripheral damage to the surrounding muscle layers. • Venereal Warts: Venereal warts and other small polypoid tumors respond to desiccation. Insert the sharp, fine needle point electrode into the base of the growth, intermittently applying the current until the tissue mildly blanches. It is not necessary to remove the desiccated tissue, as epithelization occurs beneath it.

15

Section 9 - Maintenance

Section 10 - Optional Accessories

The HYFRECATOR® 2000 should be tested by qualified service personnel on a periodic basis. CONMED suggests examination of the unit at least every 12 months.

1. ELECTROLASE® (Cat. Nos. 7-100-12, non-sterile Electrolase® Sharp, 7-100-8, sterile Electrolase® Sharp, 7-101-12, nonsterile Electrolase® Blunt, 7-101-8, sterile Electrolase® Blunt). ELECTROLASE® TIPS - THE SOLUTION TO CROSS CONTAMINATION & ACCIDENTAL NEEDLE STICKS Contrary to popular belief, the use of an electrodesiccator does not self-sterilize the electrode. For example, the British Journal of Dermatology reported that “Contaminated electrodes [with Herpes Simplex] were not sterilized by electrical discharge and virus transfer to skin samples was demonstrated after contact treatment.” Also, according to a recent article in the Journal of the American Academy of Dermatology, the use of disposable electrodes can prevent the “transmission of hepatitis B and other viralassociated infections, such as AIDS.”2,3 Electrolase® Tips are disposable single use electrodes for use with your HYFRECATOR® 2000. They offer a safe, economical solution to the threat of potential cross contamination or accidental transfer of a virus to you or your staff. For your convenience, Electrolase® Tips are available in both Sharp and Blunt configurations: the Sharp configuration is for pinpoint procedures and the Blunt configuration is for broad based coagulation. The tips are also available in both non-sterile and sterile packaging. Non-sterile Electrolase® Tips should be used in treating patient when a “hospital clean” environment is satisfactory. Sterile Electrolase® Tips are available for work requiring a “sterile field.” The HYFRECATOR® 2000 comes with a starter box of non-sterile Electrolase® Sharp Tips and a starter box of non-sterile Electrolase® Blunt Tips. 2. HYFRECATOR PENCIL SHEATHS: (Cat. No. 7-796-18). Disposable non-sterile, clear plastic sheaths protect the pencil body from external contamination during procedures. 3. STERILE HANDPIECE SHEATH (Cat. No. 7-796-19) Disposable sterile, clear plastic sheaths protect the pencil body from external contamination during procedures. 4. MOBILE PEDESTAL STAND (Cat. No.

NOTE: All internal service should be performed by qualified service personnel only.

External Cleaning To keep your instrument performing at its best, external cleaning should be performed on a regular basis. To clean the external case of the HYFRECATOR® 2000 and the up/down switching handle and cord: • Moisten a lint-free cloth with a mixture of mild soap and water. • Clean all external surfaces with this solution. • Dry all surfaces thoroughly using a clean, lintfree cloth. Soap-based solutions, rather than harsh chemicals, are recommended cleaning agents for the HYFRECATOR® 2000. Evaporative solutions are preferred so as to limit exposure of internal electrical components. Material characteristics of the unit do not allow for gas, steam or cold sterilization techniques.

Sterilization of Accessories For sterilization of HYFRECATOR accessories, refer to the Instructions for Use insert included with the accessory. NOTE: It is not advisable to cold sterilize surgical electrodes due to potential corrosion. NOTE: Non-sterile Electrolase® Tips are not validated for sterilization. Do not attempt to sterilize these tips. NOTE: Do not sterilize the footswitch (Cat. No. 7-900-4).

16