Difference between revisions of "Microsurgeon"

Microsurgeon
Microsurgeon Manual (Front Cover)
Publisher(s)	Imagic distributed by Texas Instruments (TI)
Original Retail Price	$39.95 (USD)
Programmer(s)	Rick Levine
Part#	PHM 3220
Format(s)	Solid State SoftwareTM Command Module
Release	1983 (3rd Quarter)
Genre(s)	Action

Microsurgeon is an action video game created and published by Imagic in 1982, originally for Mattel's Intellivision gaming console. It was ported to the TI-99/4A in 1983. The TI-99/4A version was ported by Imagic and distributed by Texas Instruments (TI). It was programmed by Rick Levine. Microsurgeon was distributed as a Solid State Software^TM Command Module with part # PHM 3220, and retailed originally for $39.95 (USD). Microsurgeon had added voice assistant features when used with the Solid State Speech^TM Synthesizer.

Gameplay

In Microsurgeon, the player is a surgeon who controls a microscopic robot probe throughout a patient's body attempting to treat various illness and diseases before those ailments terminate the patient. The diseases the patient can suffer from including bacterial infections, brain tumors, cholesterol blockages in arteries, tapeworms, and various diseases of specific organs.

The player gets a quick chance to review the patient's chart before the game begins, giving him/her the opportunity to evaluate where he/she needs to focus attention on the patient the quickest. It's generally most effective to treat the areas that are the most critical initially, and then focus on other areas as the progress or as other conditions are cured.

The robot probe has three different treatment regimens that can be used including ultrasonic rays, antibiotics, and aspirin. The ultrasonic rays treat most conditions found during the game. Antibiotics are used to treat the various bacterial infections that appear in a patient. Aspirin can temporarily disable a virus.

Fun Fact

Microsurgeon Cartridge

During the game, if the player has the Solid State Software^TM Command Module connected to the computer, the program will periodically say, "Paging Dr. Levine," a phrase in homage to Rick Levine the programmer of Microsurgeon.

Manual

Introduction

Do you ever dream of being an expert surgeon? Microsurgeon places you in an imaginary operating room where you work against time to save patients in critical need of treatment. In this fantasy setting, you perform experimental surgery to cure a variety of conditions. Each imaginary medical case presents a new challenge to your surgical skills. You gain satisfaction from curing patients and accumulating funds for medical research. Use this manual as your guide to successful microsurgery.

In Microsurgeon, you

• Develop your skills in microsurgery by first performing experimental surgery at the student level on practice patient0
• Treat a variety of different conditions and diseases as you select from 1000 patients
• Use an experimental Robot Probe as your surgical tool
• Diagnose the patient's condition and direct the Probe through the body toward threatening conditions
• Eliminate the conditions with medications from the Probe

With Microsurgeon, you

• Play alone or with a friend
• Use Wired Remote Controllers (joysticks) or keyboard control
• Enjoy multi-screen graphics
• Choose from three levels of difficulty -student,-intern, or surgeon
• Have more fun with synthesized speech that simulates the action and excitement of microsurgery

Note: Microsurgeon is designed to work with or without the Texas Instruments Solid State Speech^TM Synthesizer (sold separately). However, the Speech Synthesizer must be attached to activate the voice of the computer.

Preparing for Microsurgey

You see four small screens during microsurgery. They show the exact position of the Robot Probe in the body, monitor the condition of each organ and the overall status of the patient, and display activity in the patient's room. During microsurgery, the Robot Probe gains and loses power. The amount of power, your accumulated research funds, and the name of the organ in which the Probe is located appear on screen. The number of your patient and level of expertise also appear.

Microsurgeon screenshot with bold red number indicating important screen areas described below

1. Surgical Screen with Robot Probe

Shows the area of the body with the Robot Probe. The Probe is located within a white-bordered square. You see

• Red arteries
• Purple veins
• Orange lymphatic system

2. Patient Number and Level

Show the number of the patient and your selected level of surgical expertise. These appear below the Surgical Screen throughout the game. (The example above shows pateint #90 and surgical expertise as student)

3. Status Screen

Lists each organ and overall status of the patient. The length of the arrows indicates the condition of the individual organs and the patient's overall status.

If you successfully treat an organ, its arrow grows shorter and eventually disappears, signaling a cure. If you neglect to treat an organ, its arrow grows longer, eventually reaching the right side of the Status Screen.

When an organ becomes terminal, its name is framed in red. In general, when two or more organs become terminal, the overall status line is framed in red. Then, the patient's condition is terminal and the game ends.

4. Patient's Room

Shows a hospital room with the patient lying in bed. A doctor or visitor occasionally appears.

5. Close-Up Scanner

Shows a magnified view of the exact position of the Robot Probe. Use the Scanner to stay within veins, arteries, and lymphatic systems for safe and fast travel. The Scanner does not scan bacteria, viruses, and white blood cells.

6. Robot Probe Location and Power

Shows the name of the organ in which the Robot Probe is located. The organ's name appears when the Probe is centered in the organ. The name of an organ does not appear on the Surgical Screen when the Robot Probe is between organs.

Beneath the name you see the number of power units you have to operate the Robot Probe.

7. Research Funds

Shows the amount of your research funds. The amount is updated periodically.

Getting Started

When the Microsurgeon title screen appears, press any key to begin or press the FIRE button on your Wired Remote Controllers (joysticks). First, select your patient number. Second, select the level of play suited to your surgical expertise. Then, navigate the Probe through the patient's body to areas that need treatment.

Developing Your Skills for Microsurgery

Microsurgery is complex, and your patient's health is in your hands. Follow these steps to develop your skills before advancing to more complicated medical cases.

• Study the manual before you begin.
• Press AID to see a preview of game play functions.
• Select patient number 0, a practice patient, as your first case.
• Select the student level of surgical expertise until your skills improve.
• If you do not yet have the skills to save a rapidly deteriorating organ, treat as many diseases as possible to stabilize the patient's overall condition.

Selecting Your Patient

Patients are numbered O to 999, giving you a variety of surgical challenges.

Type a number to select your patient and press ENTER. To change your selection, press ERASE before pressing ENTER.

Choosing Surgical Expertise Level

Select one of the following:

Special Keys

Moving the Robot Probe

You can move the Robot Probe through the body at two speeds. Stay within areas that allow you to travel swiftly and avoid white blood cell attacks. After treating the patient, leave the body carefully through an approved exit. You can play Microsurgeon with one or two players using the joysticks or the keyboard.

Moving through the Body

Control the speed of the Probe by pressing the 7 key (Slow) or 8 key (Fast). Your quickest route is through the arteries, veins, and lymphatic system. Stay within these routes to avoid constant attack by white blood cells (phagocytes).

Stationary white blood cells (lymphocytes), located in the arteries, veins, and lymphatic system, cannot be destroyed. When moving through lymphocytes, the Robot Probe slows down and can be attacked by phagocytes.

To move from one part of the body to another, move the Probe in the desired direction. The Surgical Screen automatically shows the new section of the body as you proceed.

To leave the body, pilot the Robot Probe slowly through an approved exit to prevent damaging your Probe.

Identifying the Wired Remote Controllers

Each Wired Remote Controller Joystick) serves a different function in Microsurgeon. The primary joystick controls movement and issues medication. The secondary joystick only issues medication. Be sure to identify and use the primary joystick for one-player games.

In two-player games, the player moving the Robot Probe uses the left side of the keyboard or primary joystick. The player issuing medication uses the right side of the keyboard or the secondary joystick.

Using the Wired Remote Controllers for Movement

To pilot the Probe, move the lever of the primary joystick in the desired direction.

Note: The ALPHA LOCK must be in the OFF (up) position when using the Wired Remote Controllers (joystick).

Using the Keyboard for Movement

Movement of the Robot Probe is controlled by the following keys:

Key	Directions
(↑) E	Up
(↓) X	Down
(←) S	Left
(→) D	Right
() W	Diagonally left, up
Example	Example
Example	Example
Example	Example

External Links

• Game FAQs: Microsurgeon
• Moby Games: Microsurgeon
• TI-99/4A Video Game House: Microsurgeon
• WikiPedia: Microsurgeon (video game)