This is one of the biggest problem with power strips (surge protectors)...

Overload!

The average person does not think about how much power each device is drawing, or how much the system can handle, they just see an open outlet and plug stuff in. If they can't find an open outlet... Oh yeah! they make adapters for that! I mean they sell the adapters, so they must be safe... Right?

If your power strips look like this (or worse), you better at least be checking the batteries in that smoke alarm (which is hopefully not plugged into this power strip too).

If you are using the power strip (or extension cord) properly (one plug per outlet, no adapters, no daisy chaining) and you inspect the power strip for damage (wear & tear) regularly, you should not have much to fear.

Another thing to look at when using a power strip or extension cord, is the size of the wire and the voltage and amperage ratings. If you are using things like electric heaters, power tools, vacuums, etc., make sure the wire (extension cord/power strip) is the proper size to handle the above average load of these types of devices. Overloaded wire can heat up quickly and cause a fire.

Basically if you use common sense, inspect the cables for obvious damage and/or wear & tear regularly, and use the cables for their intended purpose, you should have no problems using extension cords and/or power strips.

Here is some interesting stuff from The Office of Compliance about Power Strips and Dangerous Daisy Chains.

Problems:

OSHA regulations require that conductors and electrical equipment be used in accordance with the conditions under which they are approved by a recognized testing organization (29 CFR 1910.303(a)). Most power strips are approved for providing power to a maximum of four or six individual items; however, when multiple power strips are interconnected, the one directly connected to the building outlet is often supplying power to far more than the approved number. This electrical current overload can result in a fire or can cause a circuit breaker to trip, deenergizing computers and other equipment throughout the area. The risk is magnified when another outlet in the same wall or floor receptacle is also overloaded in a similar fashion. When other outlets on the same circuit are also overloaded, the risk increases.

Extension cords are sometimes used to energize power strips in locations far from outlets. Because electrical resistance increases with increased power cord length, interconnecting cords increases the total resistance and resultant heat generation. This creates an additional risk of equipment failure and fire, particularly when paper and other combustible materials are in contact with the wires. Additionally, OSHA’s regulations allow extension cords to be used only as temporary wiring for up to 90 days. Unfortunately,once in place, extension cords tend to become permanent wiring and a fire hazard.

Solutions:

Several safe solutions exist. In many cases, a power strip energized by an extension cord or another power strip can simply be replaced by a power strip with a power cord of adequate length to reach an outlet. Other times, use of a power strip that is better able to accommodate bulkier transformer plugs solves the problem. Several factors should be considered when selecting an appropriate surge protector. Since models vary in the amount of current that they are rated to safely carry, it is important to consider the amperage requirements of the devices to be energized. Models vary in length of power cord, typically ranging from three to 15 feet. Choose one whose length is most appropriate for reaching the intended room outlet. Avoid having too much excess cord, and make sure the surge protector is set on its base. Some have swivel plugs which makes them easier to connect to the outlet, and helps to protect the plug and cord from damage. Check each surge protector to make sure it is in good condition for use.

Only power strips equipped with internal fuses are acceptable as permanent wiring. Those lacking these fuses are equivalent to extension cords, and therefore may not be used as permanent wiring. When a power strip is installed, care must be taken to ensure that it is not suspended in mid-air by its power cord or cords plugged into it, resulting in excessive stress on electrical connections.

The National Electrical Code (NEC) has a whole article devoted to flexible cords and cables, one of the more applicable sections in this case would be 400.8.

2008 National Electrical Code

ARTICLE 400 Flexible Cords and Cables

400.8 Uses Not Permitted. Unless specifically permitted in 400.7, flexible cords and cables shall not be used for the following:
(1) As a substitute for the fixed wiring of a structure
(2) Where run through holes in walls, structural ceilings, suspended ceilings, dropped ceilings, or floors
(3) Where run through doorways, windows, or similar openings
(4) Where attached to building surfaces
*Exception to (4): Flexible cord and cable shall be permitted to be attached to building surfaces in accordance with the provisions of 368.56(B)**
(5) Where concealed by walls, floors, or ceilings or located above suspended or dropped ceilings
(6) Where installed in raceways, except as otherwise permitted in this Code
(7) Where subject to physical damage

*368.56(B) Cord and Cable Assemblies. Suitable cord and cable assemblies approved for extra-hard usage or hard usage and listed bus drop cable shall be permitted as branches from busways for the connection of portable equipment or the connection of stationary equipment to facilitate their interchange in accordance with 400.7 and 400.8 and the following conditions:
(1) The cord or cable shall be attached to the building by an approved means.
(2) The length of the cord or cable from a busway plug-in device to a suitable tension take-up support device shall not exceed 1.8 m (6 ft).
(3) The cord and cable shall be installed as a vertical riser from the tension take-up support device to the equipment served.
(4) Strain relief cable grips shall be provided for the cord or cable at the busway plug-in device and equipment terminations.

400.8(1) As a substitute for the fixed wiring of a structure.

400.8(2) Where run through holes in walls, structural ceilings, suspended ceilings, dropped ceilings, or floors.

400.8(3) Where run through doorways, windows, or similar openings.

400.8(4) Where attached to building surfaces.

400.8(5) Where concealed by walls, floors, or ceilings or located above suspended or dropped ceilings.

400.8(6) Where installed in raceways, except as otherwise permitted in this Code

400.8(7) Where subject to physical damage

If you notice none of the described symptoms when you plug the laptop adapter directly into the wall outlet then you should consider discontinuing the use of this surge protector / plug strip. This seems to me to be a serious safety issue that needs to be addressed immediately.

Once you get back to a safe usage scenario you should do some checking of the laptop adapter for safety issues as well. Remove the adapter from the wall power and from the laptop. Now using a digital multimeter in the resistance (ohms) measuring mode check for any low resistance readings (less than 10 megohms level) between any of the AC power leads and any of the contacts at the laptop charger plug end. If you find any low resistance connections from the AC to DC side of the adapter then you should replace that as well.

(Note that all of the numerous laptop adapters I have encountered are supposed to be 100% isolated from input to output. I.e. NO input to output electrical connection).

Now back to your surge protector. Some surge protectors may have installed components such as MOVs or high voltage capacitors between the AC lines (hot and neutral) and the earth ground connection of the AC wiring coming into the protector. If they are wired this way it is possible for some people to feel a slight shock when touching any grounded metal parts of equipment that is plugged into the downwind power jacks of the surge protector. In my electrical engineering opinion I do not think this type of surge protection wiring is the best idea. Now at the same time some manufacturer of a surge protector may boast that their unit is superior (and thus way more costly) if it has MOVs attached line-neutral, line-earth, and neutral-earth. This can lead to low level leakage currents from the AC line to the earth ground connection. If your "high end" unit is like this you should consider not using it!

If your laptop adapter has a connection from its input AC leads to DC output side and it is used in conjunction with a surge protector that has multi-MOVs causing leakage currents to flow then this can lead to the slight shocks that you feel when touching metal parts of the laptop.

My recommendation - safety first when dealing with anything electrical attached to the AC power lines. At first indication that there is something amiss discontinue use immediately.