iOS App: HOOK

HOOK App

Hook on iTunes ($0.99, sometimes free)

What it is: A simple, minimalist, puzzle game of sequentially unraveling "hooks". There are 50 levels, with a slight increase in complexity as you move up. The interface is aesthetically pleasing and elegant. There's no time limits, menus, or statistics. If you make a mistake it simply restarts. Higher levels allow 3 mistakes before the level restarts.

For each puzzle you need to find the sequence in which each hook needs to be removed (otherwise they block each other) and then trace the hook back to its starting point where the removal is initiated. Once you initiate removal of a hook, the animation of it drawing in helps visualize the process. As each hook is removed, its entire path disappears. I find this process of solving each level especially rewarding. The next step may still be complex, but it's slightly simplified by previous success.

Screen Shot 1

In Screen Shot 1 you can see a simple level - level 4 (the first level where there is interaction among the hooks; in previous levels you can remove the hooks in any order). You can see the black circle that you press to initiate removal, and the hooks to be removed. You can see where a hook would block another one if it's removed in the wrong sequence (the one that curves upward, if it's removed before the hook whose point is wedged in the curve, would be caught in place).

How we can use it in Tx: The game-play is so simple, there's not much to plan. Just let your client solve the puzzle. I suggest always starting with the first levels because they help train for what to look for, and get a user adjusted to how the controls in the puzzle work (press the dot, watch the hook pulled in towards it).

The levels get more complex gradually, and the complexity is built in very clever ways. First more and more hooks are added so unraveling becomes more complicated. Screen

Screen Shot 2

Shot 2 shows an example of a slightly more complex puzzle level (level 12), where there are 6 hooks, and some are layered. The two hooks with starting points at the farthest to the left part of the puzzle can be removed first. So you can see the problem solving becomes not just more complex, but acquires more steps: you have to figure out which hooks are removable without being blocked by other hooks, and then you have to trace back their origins.

In more advanced levels the origin point also becomes less straightforward: more than one hook might be triggered by the same origin point, and other complexities are introduced as well, such as wireless activation of hooks and hinges that can be rotated to adjust which hook is activated. Screen Shot 3 of level 34 has an example of all of these added complexities: Note that there is only one activation point (the black circle) which is "wireless", and you have to adjust which hook gets activated by rotating the hinges. So the hook removal must still be sequential, and in this level the sequence is relatively simple with only 4 hooks to control, but the problem solving complexity is shifted to which hook is activated.

Screen Shot 3

There are no directions to follow - you learn the game-play as you work the levels. So we get to work on a skill that we rarely get a chance to address directly: the skill of learning. All the while using an elegant interface that clearly favors mature users over childish animation and distractions.

The music is relaxing, but I personally would still prefer to mute it and focus on levels of cuing I need to provide to my client. I would encourage the client to verbalize as much of the problem solving as possible, to better discern the breakdowns so I could provide targeted support for the needed skills, and help build up strategies. Since there are many levels and they go up in complexity gradually, allowing one to build success through practice before new obstacles are introduced, I imagine that - choosing wisely and knowing when to stop - frustration on the part of your client will be kept to a minimum.

Goals we can target in Tx with this app: Attention and memory goals, planning, reasoning, sequencing, problem solving. While I argue that most apps I review have some utility for addressing memory, this one in particular directly addresses learning. Short term/working memory is taxed in the problem solving process: One can trace a hook from its switch to its end and figure out a sequence for solving the puzzle, which as to be mentally manipulated and thereafter retained long enough to follow through. And as one gets better at solving the maximally simple puzzles, the complexity slowly builds, utilizing the strategies developed for earlier levels. Solving these puzzles also heavily depends, obviously, on visuospatial reasoning. As such, any field neglect will hamper one's progress, so cuing can be provided to draw attention to the neglected side.

Some specific examples:

1.  Allow your client to verbalize a solution to a puzzle. E.g., "I would pull in this hook first because nothing is in its way, and then it would also get out of the way of this second hook, and then I can pull that one in". Discuss it a little to build up context and assist with memory encoding & consolidation. Then after a short delay return to the puzzle for your client to implement (or have to re-generate) their solution (retrieval of memory or strategy; capitalizing on procedural memory).

2. Since the switch to pull in the hook and the hook itself are almost always in different visual fields (left/right, up/down) almost any puzzle would require scanning the full field, even the very first levels with just one or two hooks with no interactions between them. When the cause is on one side, and the effect on the other, tracking is key. For lateral neglect, therefore, even the simplest first puzzles should work.

iOS App: RGB Express - Mini Truck Puzzle

RGB Express App

RGB Express on iTunes ($2.99, sometimes free)

What it is: A simple puzzle game where you plan a route for the game pieces: Trucks that deliver same colored packages to same colored houses. You start at the truck, you map a path through the via point(s) to pick up packages, to the destination house. Trucks can't use the same road twice (neither theirs nor each other's). After you map a path for each truck you hit "play" to watch them drive.

The screen Shots show an example of one puzzle at a simple/mod complexity level. Screen Shot 1 is the starting position, and in Screen Shot 2 you see how the puzzle is solved: you draw the path of each truck to pick up the appropriately colored package and deliver it to the appropriately colored house without using the same road twice by either truck. Once you draw the solution, you press "play" and the truck driving and picking up/delivering packages is animated. Previous levels had one truck and many possible solutions, and subsequent levels may have more trucks/colors, and more than one package per truck resulting in more complicated routing and fewer possible solutions. There is no time limit to solving the puzzles, and you can redraw the paths until you're ready to hit "play" and test them.

Screen Shot 1

How we can use it in Tx: There are 3 key features of this puzzle game that benefit its use for treatment activities. First, it doesn't involve a time limit for solving each puzzle. The time limit, to me, is what eliminates many puzzle apps from being used in Tx. We want to challenge our clients in the skills we are working on, not frustrate them. More importantly, we want them to take the time to USE those skills and improve them.

The second useful feature of this app for Tx is its gradual increase in complexity. Unlike many puzzles that get too complex for most cog patients within just a handful of levels, this one increases the problem solving task slowly, and the increased complexity is focused on the reasoning aspects - that is, the exact skills we want challenged are the ones slowly increasing in complexity. Again, not the time limit or the distractions, but the specific spatial reasoning tasks: more complex routing for planning, more via points, additional colors to match, and eventually sequencing how many packages can be carried at once.

The third useful feature of this app for Tx is the ability to self correct: One can draw the possible routing solution, and if one determines there's a problem with it, one can redraw it before pressing the "play" button to animate the solution. So your client doesn't only get a chance to take their time planning a solution, they can produce a visual plan and determine its value before proceeding. This isolates some of the steps in problem solving and allows you as therapist to work on the component skills that require help and not merely the overall macro skill. The benefit of this aspect to Tx cannot be overstated. It is very rare to find a fun, motivating, task that allows us a glimpse into the micro component skills of reasoning.

Screen Shot 2

Although I don't list it as one of key beneficial features, there's one more thing I like about this app: It's simple and while it has use of color (necessary to the puzzle) and some animation, the color and animation are not distracting to the user. It doesn't feel inappropriately childish

So to use this in Tx you just let your client play the game, preferably on a large screen of an iPad or iPad mini. I usually have the sound on muted, and offer cuing as needed. Keep track of how much cuing was required to solve a puzzle, and what was most difficult (matching colors, drawing a path to destination and via points, addition of more via points or addition of more trucks, determining correctness of solution before hitting "play", etc.).

Goals we can target in Tx with this app: Planning a route for each truck via the point where the "package" is picked up to the destination (the house) requires problem solving, spatial reasoning, planning and scanning. Other skills engaged in solving these puzzles involve direction following, use of full visual field (as such, it can be useful to tasks targeting visual field neglect of various etiologies), sequencing (e.g., the order of packages before reaching the destination while avoiding the path of other trucks), focus/attention, categorization (colors, stopping points, destinations), and--as I always suggest--memory (e.g., to carry out the plan one comes up with to solve the puzzle). Also, as mentioned above, this task breaks up some of the components of problem-solving and allows you a glimpse into what specific component (planning, carry through, etc.) may need the most work.

Some specific examples:

1. For a lower functioning client you may want to work on recognizing a solution rather than generating one. Start at the lower levels with simpler road paths (like the one in the screen shots) and one truck picking up one package (one path to draw, one via point, one destination). Draw a route and ask if it's the shortest route to the destination. Draw one that passes the destination before the via point, and ask if that will work as a solution. Press "play" to determine if it works or not.

2. If you determine which increased challenge leads to the most errors (e.g., more complicated map or more via points or more trucks/colors) you can skip along to the levels that increase challenges in other areas but not the specific one causing problems so your client can continue to be challenged but not overwhelmed.

I also recommend doing these on your own so you can access all the levels in Tx because, as with most puzzles like this, advanced levels are unlocked as you complete previous ones. So make sure you have access to various levels that doesn't depend on your current client's progress.

iOS App: Winky Think Logic Puzzles

Winky Think Logic App

Winky Think Logic Puzzles App on iTunes ($2.99, sometimes free)

What it is: A collection of 180 logic puzzles that involve very simple to mod difficulty levels. The puzzles all consist of variously shaped and colored tiles that need to be positioned in specific spots. Sometimes it's as simple as moving a tile to its designated spot, sometimes several tiles to several spots, and sometimes there's obstacles to overcome and sequencing to determine. Solutions require single - to - multi steps to reach, with skills that tap into shape and color recognition, path determination, figuring out the outcome of various objects in the puzzles, etc.

Screen Shot 1 shows a simple level where you have to choose the correct shape to move to the center. Screen Shot 2 shows a simple level where there's some restriction on movement, and more than one target shape - so one has to move the tiles in sequence to place them. Subsequent levels include some additional problem solving. It never gets too difficult and it's pretty fun. If you get stuck, you can restart a level at any point - there's no timer and no points to lose; you just keep solving until it's solved.

Screen Shot 1

How we can use it in Tx: There's no settings to consider except whether or not you want music. If you are working on focus and need some distracting stim, you can keep the music on.

The levels are made more complex by the addition of obstacles, and multi-step solutions to the puzzle. A few levels require the use of more than one finger--I'd skip those levels in therapy unless you have a very highly functioning and dexterous individual. There's also a few levels at the end of the game where very precise movement is required (the obstacles cannot be "touched" by the tiles); I'd skip those as well as they may just frustrate more than help. But overall, levels are realistically solvable, especially with some cuing.

Screen Shot 2

You get to move up levels as you solve them (solve one, get to move on to subsequent levels) but once solved, you can reuse the levels. So, I would recommend solving ahead (as far as you plan to use with any client; or all 180 puzzles - it's fun). That way you can skip over levels that aren't appropriate for a particular client, and not worry about any subsequent levels being locked. Otherwise, just choose levels and play.

One issue that may arise is that solving some of the levels may require dexterity beyond the ability of your client. In such cases you can either skip that level, or split the task into parts that would still provide experience with the problem solving and the planning: the client may solve the puzzle by making a plan (e.g., for screen shot 2, figure out the sequence in which tiles need to be dragged into the track), and then verbalizing directions for someone else (likely the clinician) to carry out the plan. Then the dexterity of maneuvering the tiles would be left to the participant without deficits in this area.

Goals we can target in Tx with this app: Direction following, problem solving, reasoning, symbolic dysfunction, visual field neglect or other visual-field dysfunctions (like hemianopsia--to get used to scanning back and forth to compensate), sequencing, sorting, focus/attention, categorizing, planning, and of course spatial reasoning. And of course, as per my usual logic, memory.

Some specific examples:

1. As noted above, if you have a client who lacks the dexterity to maneuver the tiles in any or all levels, you can separate the task into manageable bits and remove the part that requires skill beyond your client's reach: the client can make a plan to solve the puzzle, verbalize it (or discuss it), then provide directions for another person to carry it out. The clinician, or another client if you're working in a group, can maneuver the tiles.

2. You can use this as a break between other tasks, or as its own task for a certain part of your session. To document skill and progress I would keep track of the cuing required and the number of steps that were needed to solve each puzzle to determine the difficulty of the task at each level. You might also note if the multi steps were homogenous: That is, were they the same step each time, as in sequencing the order like the puzzle in screen shot 2, or heterogeneous steps, as when one tile needs to be put on a spot that opens an obstacle or has to be maneuvered to a spot that allows it to change colors. I would consider heterogeneous steps more complex. For someone with symbolic dysfunction, you 'd want to also keep track of how many colors and/or shape choices were provided and how much cuing they needed to pick the correct shape/color (e.g., in the puzzle shown in screen shot 1).

3. Memory: you can show the solution to a min/mod difficult puzzle, and then ask your client to re-solve the puzzle using their reasoning and their memory of your solution. See, I can ALWAYS involve memory goals.

All in all, I think you can have a lot of fun with this puzzle both for direct Tx and for a motivating and useful break between other tasks you have planned.

Android and iOS app: Constant Therapy

Constant Therapy App

Apps: iPad Constant Therapy app on iTunes (free)
Android Constant Therapy app on Google Play (free)
Website: constanttherapy.com

What it is: A Speech Therapy tool for Cognitive-Communicative rehab. The app includes a large variety of language and cognitive tasks that can be customized to complexity level of your clients. It is free for clinicians, researchers and students; clients have to buy a subscription.

Here is how it works: As a clinician you would have this app on your device (again, for you an account is free). When you have a client with cog-com goals, you would create an account for them on your device (this is all still free). You would choose appropriate tasks customized to your client's diagnosis and severity, functional needs and skills.

The variety of their tasks is extremely satisfying. For language they have tasks for auditory compr, naming, writing, reading and sentence planning; for cognition they have attention, visual processing, mental flexibility, memory, problem solving and executive skill tasks. This list does not do justice to the variety and creativity of these tasks. I'm not sure the exact number but I counted 34 language tasks and 31 cognition tasks. To get a better idea very quickly, I urge you to hop over to this page and just glance at these tasks (when you mouse-over any task, it shows you a screen shot): http://constanttherapy.com/constant-therapy-tasks.

In Tx: The program allows you to select which tasks to use with your client, and at the level of each task you can adjust the complexity. You then get a baseline for each task for the individual client, and the program continues to keep track of progress (as well as usage). There's too many activities that address a large variety of goals to go into detail here. What I can say is that the activities I've seen and tried are created almost exactly how I would have conceptualized them, and I found it was very intuitive how to explain the clinical justification for spending time on these to patients and their families. Also, CT's website discusses Evidence Based Practice (EBP) implementation.

Outside Tx: You can select the tasks you want as "homework" for your client. This is where their own subscription becomes beneficial: The clients that can continue to complete these tasks outside of the therapy session can purchase a subscription (http://constanttherapy.com/pricing). They should do it using the account you create for them in session, so that the homework you assign can show up in their account, and their progress with tasks in sessions and on their own can be tracked (from within the account of the clinician that originally created their login). This extends your therapy outside the session: you, the SLP, are making clinically-informed choices re which tasks are most appropriate and beneficial, and are able to modify your decision based on progress feedback. Very few tools allow this kind of flexibility for clinicians to address patient needs beyond the therapy session.

My experience: I've used it only with adults for both cognitive and language intervention. I found it extremely age-appropriate, interesting and motivating. My clients seemed to enjoy the tasks, and I can't say enough about the ability to track progress in such an individualized (per client, per goal, per task) manner. A few outpatients have purchased a subscription and they (and their spouses) report good motivation to work on tasks at home.

Bottom line: I can absolutely recommend this program/service to both clinicians and clients. For the clinician, you will find this to be one of your most used apps on your tablet. For the client, based on the prices in 2014-2015 the feedback I've received is that it is well worth it.

iOS app: Missing Link

Missing Link App

Missing Link on iTunes (free)

What it is: A puzzle where 3 words are presented with missing letters, and solving the puzzle requires filling in the blanks to find these words. The main clue you get is that in all 3 words the same string of letters is missing.

There are 3 difficulty levels: easy, medium and hard. At easy level there's usually 2 letters missing (see Screen Shot 1), 3 at medium level, and at hard level there's shorter words with 3 blanks, so a larger part of the word is obscured.

Screen Shot 1: Easy Level

The layout is clean enough, even with the ads that pop up at the top in the free version. It resembles
an old-style typewriter (with sounds to match) and is obviously directed at adult populations.

How we can use it in Tx: As far as language goals go, even at simple level this is not the easiest game because the target words aren't the most common. As such, I would use this app for the higher functioning language client, stick to the simplest level and provide a lot of cues.

As far as reasoning goals go, the directions are simple (find 2 letters that would complete all 3 words) and yet not automatically familiar (there's not a lot of games/puzzles like this) so you have a chance to work on direction-following, and on recall of directions from one puzzle to the next. In this context, you can work with mod impaired clients as long as they don't have comorbid symbolic dysfunction.

Cuing could involve recognizing letter/sound combinations in English (e.g., if you have a verb like "keel" in screen shot 1, followed by blank-blank-g, familiarity with English should make one think of the "-ing" ending); or cuing could involve clues towards guessing the words themselves (e.g., "what's another word for 'airplane'?"). You can enter letters (even wrong ones) and ask the client whether they recognize each entry as a word. Word-recognition is an important aspect of symbolic dysfunction, although normally I'd choose simpler and shorter words for such a task unless the client was pretty high functioning.

Goals we can target in Tx with this app: Language goals involving reading, word-finding, symbolic dysfunction and intelligibility (see example 3 below); memory/recall goals related to direction following and sequencing, as well as reasoning goals.

Some specific examples:

1. Higher functioning client with language goals, you can solve the puzzle providing cues as needed (start with sound/letter familiarity cues as discussed above, then add word definition hints if needed). Once solved request client form a sentence with each word, followed by one sentence using all 3 (it can be silly, as long as it's grammatically correct).

2. For client with language goal, after solving the 3 words, have them make a list of 3-5 additional words that contain the string of letters missing from the current puzzle.

3. For a client with intelligibility goals, the simple level puzzles in this app provide great practice word lists since they are mostly 2 or more syllables long. So, solve the puzzle for fun, then use the words for intelligibility strategies practice, and to make sentences (silly sentences are really great for intelligibility practice because they lack context and thus have greater dependency on each word being heard and understood).

Android, Windows and iOS app: 4 Pics 1 Word

4 Pics 1 Word App

4 Pics 1 Word for Windows RT, for Android devices on Google Play, and for iOS devices from iTunes (all are free at this time). Also available for Nook from Barnes and Noble, and for Kindle from Amazon (these cost $0.99, and possibly are from a different developer).

What it is: A simple puzzle that presents 4 pictures that have one word in common, and you have to guess what that word is. See screen shot below where the target word is "sweet".

The gameplay is simple. Just start it and it presents 4 pictures on the screen (beautiful and high resolution), 12 letters, and blanks for each letter of the target word. Figure out what word the 4 pictures have in common and fill in the answer. You can turn off the sound if you want (although it's not annoying, just sound effects for when you select letters) and you can turn off the notifications re "buying" hints and such. As you progress through the puzzle, you win "coins" with each correct answer, and then you can purchase hints with these coins. Players can also buy these "coins" via in-app purchase.

How we can use it in Tx: Solve the puzzles with your client, providing cues as needed. You can talk about each picture of the 4 presented per puzzle, ask questions and elicit replies. In many cases the target word has more than one meaning (e.g., "sign" where it could be a noun or a verb) which provides context for some great language intervention. Solving the puzzles is great, but the path to solving each puzzles provides context for some useful interaction.

The main problem with this app is that you can't go back to puzzles you've solved (unless you remove the app and reinstall it, presumably). The puzzles do get progressively more difficult but very gradually and not by much. It's not optimal but for now you can use it until it's too difficult for your population, then reinstall and start from the beginning. And hopefully down the road, there will be a setting to go back to solved puzzles/restart the progress. On the other hand, it's free so expectations for greater customization are rather low.

Goals we can target in Tx with this app: Language goals that involve word-finding and naming are addressed rather straightforwardly, but there's also good use of repetition and Q/A that can be useful in addressing apraxia and dysarthria goals. Describing and discussing the 4 pictures presents a great opportunity to practice verbal expression. Reasoning is addressed with solving the puzzles, and focus/attention can be addressed as well (presenting 4 different pictures to solve for one word would require some cuing for focus for quite a few of my current clients). A client with lateral neglect may benefit from having to give equal attention to all 4 pictures to solve the puzzle. And you can always address memory goals with recall of pictures.

Some specific examples: Just a couple of examples of the less straightforward uses of the puzzle.

1. Memory goals: after discussing each of the 4 pictures and, hopefully, solving the puzzle, turn off the device and recall the 4 images. Start by cuing with the common word, then provide additional cues as needed.

2. Homographs/homonyms: address the various meanings of the target words as they come up in the puzzle. Since it will be as part of the puzzle-solving activity, and since the differing meanings of the words are in most cases what make the puzzle (e.g., in the screen shot above the actual taste of something vs. a synonym for "cute"), you'll have a great opportunity for this type of activity in  context (rather than a rote list of words as part of a structured task).

iPad app: Move & Match

Move & Match App

Move & Match app on iTunes (US $1.99)

What it is: Listed in the "Education" category, this app lets you create elements on a background and move them around freely. Elements can only be rectangular, but they can hold photos/pictures or words, they can be custom sized (as can the text within), they have a variety of background colors, and they can be cloned. If this description doesn't do much for your imagination, look at the screen images of examples I threw together really quickly (or look at the developers' examples of uses in iTunes via the link above).

Within the app you make a project file for each exercise that you create, and hence can build yourself a nice database of go-to tasks for a variety of goals. The developers also have a selection of pre-created projects that you can download off Dropbox directly into the app and use (this is accessible via the "i" information screen within the app).

Screen Image 1: Closed paragraph

How we can use it in Tx: This app allows easy creation of a host of closed-exercises that require either filling in the blank from provided choices (like in Screen Image 1), multiple choice answers, any kind of matching, or word/sentence building. For cogn goals you can create sequencing and sorting tasks. If you take the time you can build some useful visuospatial/executive function tasks such as completing a pattern or an analogy (you'd need to create some images externally--via an image editor and then get the pictures on your iPad first). I discuss some of these suggestions in the "specific examples" section below. But really, the possibilities are endless... just about anything you do with worksheets that involves multiple choice can be replicated and expanded on using this app!

Goals we can target in Tx with this app: Language and word finding goals through a variety of fill-in-blank, closed paragraph, matching, word/sentence building or multiple choice tasks. Higher level cogn goals like planning, sequencing and reasoning. Sequencing and sorting either words, numbers or images (e.g., photographs of various stages of some activity, just like photo sorting cards but all in one screen). You can make simple math problems with multiple choice answers (there's actually a few of these ready-made and freely available from the developers already). You can create a background monthly calendar with fill-in elements to work on orientation and recall.

Screen Image 2: Sequencing photos and/or text

Some specific examples:

1. Sequencing/sorting: As I mention above, you can take photos of various stages of an activity (e.g., doing laundry, heating up a pizza, making ice cubes, etc.). You can import pictures from your album which means you can use your camera or do image searches online, save them to album, and use them from album. Once you have enough steps to sequence you just let the client move them around into the correct order. You can also make text elements to sort or sequence (e.g., months, numbers, days of the week, or steps of an activity listed in text instead of as photos). See Screen Image 2 of a quick and dirty example where I use photos I took for another app I reviewed recently, but also added text that can be moved and reordered.

2. For language goals you can create just about any matching exercise you can come up with. Antonyms, synonyms, definitions, pictures of items and their names... etc.

Screen Image 3: Categorizing text and/or images

3. Categorizing task: create a few headings (e.g., furniture, food, countries, etc.) and a bunch of words or images that fit in each of these and have your client drag the words around to place them under the appropriate category name. See Screen Image 3 for a quick and dirty example I made for this task. The images I just downloaded after a very quick google search, and, you can see at the bottom of the screen the elements waiting to be sorted.

4. Scanning activity: create a whole bunch of elements (icons or words or letters or numbers or even just squares with colors) and direct your client to find (and, for example, move to a specific side of the screen) all the elements that fit some set of criteria (e.g., all the blue squares, or all the blue squares with "r").

Screen Image 4: Calendar

5. Orientation/recall: use an image of a calendar (in my example in Screen Image 4 I used a weekly view of the iPad Calendar that was blank) and add some elements that can be moved around (visitors, routines like therapy and meals, etc.). Work on today, or recall yesterday. I like the weekly view for this because it has all this room to hold the collection of elements while the client decides if to use them and where to put them in the daily list.

There's just too many things you can do with this app to list them all... Since these projects can be saved and shared, maybe if there's enough SLPs using this app we can have our own section on the developer's Dropbox down the road... or find some other way to share amongst ourselves. I know I plan to create a whole load of projects in this app, and although some may take great time and effort, I know I'll use them a lot.

iOS/Android App: Counting Dots

Counting Dots App

Counting Dots on iTunes ($0.99)
There's also a version for Androids on Google Play (same price)

What it is: It is described as a colorful counting game for kids. The colors are vibrant but crisp and clean (if nobody told me it was for children, I'd just think of the layout as modern). Popping sounds and vibrations can be shut off as well. The task is one of counting, where you can count by 1's, 5's or 10's, and you can start with any number you choose (so if you start with "5" and count by 5's you'll get 5, 10, 15, 20, etc, just like in the screen image below; and if you start with "2" and count by 5's you'll get 2, 7, 12, 17, etc.).

A player is presented with dots in various colors and sizes with numbers on them, and the task is to select them in ascending order. The game playing happens in levels of increasing number of dots. First you're given one dot. When you clear that (by selecting the one dot) you are given 2 dots. When you clear those, you are presented with 3, and so on.

The background colors and dot colors are different each turn. The dots overlap, but the correct answer is always visible (though sometimes hidden by the previous answer). The sizes vary randomly (so 80 may be tiny and 85 large; but all fully legible and selectable). If you touch the wrong dot it shakes for a split second, nothing else happens. So there's no error reporting, there's no scoring and as far as I can tell, there's no end.

How we can use it in Tx: I'd shut off sounds and vibrations in the settings, and set the difficult appropriately for each client. Here's my opinion of settings ranging from easiest to most complex given the parameters of this app:

1. Starting with 1 or any number, and counting by 1's (1, 2, 3, 4, etc.)
2. Counting by 10's, starting with 10 (10, 20, 30, 40, etc.)
3. Counting by 5's starting with 5 (5, 10, 15, 20, 25, etc.)
4. Counting by 10's starting with something other than 10, for example 3 (3, 13, 23, 33, etc.)
5. Counting by 5's starting with any number between 1 and 4, for example 2 (2, 7, 12, 17, etc.)

Using an iPad with its larger screen is probably best. Ask the patient to perform the task (select the dots in ascending order, with a greater number of dots presented each after the previous one is cleared). You can keep track of accuracy by counting errors (error stats, as I mention above, are not kept; but the incorrectly pressed dot does shake for a split second providing a quick but not distracting or discouraging visual of an error if a therapist is watching for it). Maybe stop the game either after a certain time limit (play it for 5 minutes, for example, and note how many levels have been achieved in that time) or after the pt seems to get stuck a lot (hits the wrong dot several turns in a row). Definitely try to stop before frustration sets in, but do try to get to a level that is challenging for your client.

Goals we can target with this app: Sequencing obviously, providing a range of difficulty levels for this task. Certainly math (on the simpler level, although you'd be surprised how challenging it can be to sort the dots in ascending order as you get into the higher numbers). Memory (STM, working-memory) are addressed: it is actually pretty challenging to remember where you are in the sequence once you've been playing for a while, especially with distraction of colors and sizes of the dots. Visual field neglect and scanning are incorporated as the dots are spread across the screen, and again, the colors and sizes can provide competing stim. And if there's competing stim, focus and attention play a role as well as direction following. I wouldn't spend too long on this task, but it's a nice 5 minute exercise that can address a number of goals.

Some specific examples (or in this case, rather, just notes):

1. If you are working on memory goals, then note the fluency with which the sequence is carried out. That is, to play this game smoothly the player must remember what number they are on. If, however, they forget, they can still carry the task out by scanning the screen and finding the smallest number to select. So it would be up to us to see which strategy is being used.

2. If you are working on visual neglect or scanning, note accuracy involving the weaker side compared to the stronger.

3. Patients with focus goals will probably be most distracted by size differences between the dots. You may also want to add another layer to the task, where if a smaller number has a larger circle your client must somehow acknowledge it (verbally, for example) which will provide a divided attention aspect to the exercise.

4. For a reasoning/problem-solving (and math) goal you could set up the starting number and intervals, and let the client start playing with the goal of figuring out what the sequence is counted by (1, 5, or 10). Difficulty levels for this type of exercise are similar to those listed above, although it is fairly limited in that respect.

iPhone/iPad app: Speed Match

Speed Match App

Speed Match on iTunes ($0.99, sometimes free)

What it is: a game where you are presented with two columns of 5 icons, and you have to remove them by matching icons from each column. Sometimes there's a few icons that are the same in both columns, sometimes only one (as in the screen shot here). Once you've matched and removed all the icons you win the round.

While playing, you can swipe a tile off the board from either column as needed, and these tiles are replaced by different ones. There is no "punishment" for doing this except for wasting time if you do it too often. There are no untimed rounds, sadly. There are several levels: you get the same total time to complete the rounds (4 minutes) and with each level you have a larger number of tiles to clear. The easiest is 25 tiles, then 50, 100, 125 and 150.

Screen Shot

As I mentioned already, all levels are timed. Additional challenges include that you can only mismatch 3 times (see 1 of the 3 spaces under the time left in the screen shot is lit up); once you mismatch 3 times the round ends. Waiting too long between matches will also cost a "mismatch" light. There are also several selections of tile styles, but I think the ones in the screen shot (the default ones) are probably easiest.

One other thing: this game is optimized for the iPhone/iPod screen sizes, but works really well in x2 mode on the iPad. I recommend only using the larger iPad screen in Tx.

How we can use it in Tx: I have written the developers and asked if they'd consider adding an untimed mode that could be used for practice or younger players in general, and our target population in particular. But until such a mode is added, I envision using the easiest level (matching 25 tiles) and setting realistic goals of how many tiles to remove before the clock runs out rather than expecting a pt to clear the board completely. You can vary the level of support provided to reach the goal. You can also make it maximally simple by finding a match yourself, and then touching the pair-able tile on one side, and asking the pt to find that tile on the other side. But remember, to play this you can't select tiles, you have to be actively/continuously touching both at the same time (however, you can be touching one side and take time before touching the other side; the tile will be removed once both sides are touched).

Goals we can target with this app: attention and focus, following directions, problem solving, scanning and visual field neglect, and of course memory.

Some specific examples:

1. For memory goals, the therapist can find a pair-able tile, bring it to the pt's attention and ask for the pair, then cover the tile up (thereby "selecting" the tile by touching it, so when the paired tile is touched it is removed) for the pt to find the matching tile from memory. Set a goal for how many tiles you want matched before the round ends (either due to time running out or 3 errors).

2. For visual field neglect just playing this game and having to simultaneously touch tiles from both sides is a great activity. A variation could be having the ST find the pairs and, like in #1 above, pointing out a tile on the pt's stronger visual side (but not covering it up like in #1, just pointing at it) and having the pt find the corresponding tile on the neglected side.

3. To target problem solving make a goal that involves removing unmatchable tiles while looking for matches. For example, tell the pt to remove 2 tiles they consider in their way every time they are stuck looking for a match. On the go reasoning is required to make these decisions (play the game for a bit and you'll see yourself).

4. To target direction following the ST, again, can be the one locating the matches, and communicating which tiles to touch to the pt. This information can be communicated by describing the tile (shape, color) or their location in the column (at the very top, halfway down, etc.) or both. This will take quite a bit of time so don't expect to clear too many tiles before time runs out. Maybe if an untimed mode is added.... :-)

4. Brain-training: for the regular (not rehab-patient) population, this game can provide great stimulation for attention/focus, memory, reflexes, scanning, decision-making and prioritizing. It's kind of addicting, but for short bursts of game playing (not one of those games you'll find yourself wasting your whole day on).

iPad/iPhone App: NxtApp

NxtApp App

NxtApp on iTunes ($0.99, free sometimes)

What it is: A mental math puzzle where you have to find the next number in a sequence using basic math. For example, you may get the following screen: 5, 8, 11, 14, ___ and you have to solve for the missing number. Using simple math (in this case addition) and logic you deduce that the missing number is 17 (each number is the sum of the previous number + 3). The missing number in the sequence is not always the final one, it can be any of the numbers.

In each round you get 10 sequences to solve, although instead of just counting how many you solved correctly (which would have been much better) the round stops with the first error. But it lets you restart the round immediately so it's not a huge problem... it just means that if you want an accuracy % you'll need to keep track manually. There is a timer that runs while the sequence is being solved, but thankfully there does not appear to be a limit to how long one takes.
 
There are several categories of level difficulty: The first listed is "beginner" but it's actually a link to a different app from the same seller, intended for kids. The next level is called category 1, and it includes additions (+) and subtractions (-), category 2 multiplications (x) and divisions (÷), category 3 can have x, + or -, category 4 has powers, +, and -, category 5 has powers and x, category 6 is more powers and 7 is mystery. So as you can tell, the task gets more complex with each category.

How we can use it in Tx: When it's a game like this, simply have your pt play the game and adjust your cuing as needed. For most pts the most appropriate category would probably be 1 (limited to + and - math operations). For most pts when the operation that makes the sequence is adding or subtracting more than single digits (for example a sequence such as 2, 13, 24, 35 where each number is the previous + 11) they may need a pen and paper to calculate. And pts with reasoning goals may need additional cuing to determine what to calculate (to subtract the preceding number from the one that follows it).

Goals we can target with this app: Problem-solving, reasoning and specifically math goals, obviously sequencing goals, direction following and focus (focusing on a math problem in competing noise is quite the task), and of course memory--especially working memory--if the pt can do at least some of the task in their head (thereby having to retain the numbers and operations in memory).

Some specific examples:

1. For memory goals, play this game with the therapist looking at the screen and the pt having to solve the sequence either mentally or (more likely since some of the operations are a little harder) by writing the sequences down but from memory. That is, open a new sequence problem and read it to the pt all at once ("5, 8, 11, blank, 17"). The pt then has to remember all 5 numbers and repeat them before writing them down. If the pt couldn't repeat the sequence correctly immediately after it's read out, the therapist can read it again, and the pt can repeat it again. Repeat as needed until the correct sequence is repeated back, and then have the pt write it down. You can vary this task and make it easier by only reading out 3 or 4 numbers at a time. This way you are working on retaining lists of numbers (and subsequently writing them down) as part of a larger task making the list-repeating feel a little less rote.

2. For reasoning, sequencing and math goals simply play the game and choose the level of cuing your pt needs. The math required to solve each puzzle is fairly basic, but the logic and reasoning skills to figure out how to solve it may be rather difficult for many of our pts. Whichever of these goals is yours, pay attention to the cuing needed for that specific skill (i.e., your pt may need max cues to figure out which numbers to subtract or add to figure out the answer, and what to do with the answer when it's figured out, but may be able to independently carry out the actual math operation once it's determined).

3. Brain-training: for the regular (not rehab-patient) population, this is a great math and logic puzzle to train your mental math abilities. Try to beat the clock and do it quickly or aim for accuracy over speed.

iPhone app: Oh, My Word! 2

Oh My Word! 2 App

OhMyWord2 app in iTunes (free)

What it is: Dubbed a prettier and more interesting version of hangman, this is a game where you guess a common 5 letter word based on being given two words that would flank it if listed in alphabetical order. You enter a 5 letter word as your guess, and if it's not the target word, your guess replaces one of the flanking clue words, getting you closer to the target. For example in the screen image below, the target word if listed alphabetically would be between GYROS and OFFER. So the hidden word must start with G, H, I, J, K, L, M, N or O. Put in a few guesses of words starting with these letters, and you narrow it down to a word that in alphabetic order would be between LIMPS and LINKS and must therefore start with LI- (see screen image 2, below).

Screen Image 1

There are several levels at which this game can be played, including a relaxed (called "classic") un-timed easy level where you are given 50 guesses, and the goal is to see how many words you can find within that number of guesses. There's also hints where you can request to be shown one of the letters in the hidden word. After playing this game several times (ok, a whole lot of times... this is a fun game!) I can attest to the fact that the target words indeed are common.

How we can use it in Tx: Access to an un-timed level with truly common words makes this a useful Tx tool. Definitions do not enter into the game. It is more about word recognition and letter sequencing in alphabetic order. Word-finding in the traditional sense normally involves coming up with the word for a specific item, and as such the definition is an integral part. Coming up with words that start with a specific letter (or sequence of letters) is a skill that combines language and reasoning, but still relies on word familiarity and ability to access stored words. For my acute pts with Aphasia I developed a mini word recognition game: I would put two cards with consonants in front of a pt, for example "p" and "g" and then give them cards with all 5 vowels, and ask them to choose the vowels that would form a real word if placed between the the two consonants; so in this example 'e' (peg), 'i' (pig), and 'u' (pug). And I'd ask the pt to also tell me what each word means (often they would choose a vowel that does not make a word, and realize so when they couldn't come up with a definition). It was a multi-step simple word finding activity that first required to recognize the word, then access its meaning. In the same manner for this app, since the words are common, supplemental tasks involving word meanings can be incorporated for those pts who need it.

Screen Image 2

Goals we can target with this app: Word-finding and naming, language, reasoning, sequencing (since alphabetical order plays a large role in this game), question/answer goals (simple y/n where you ask the pt if this letter comes before that one, or if this word precedes or follows the other in the dictionary). For verbal expression deficits reading the words aloud could also be added, incorporating apraxia, dysarthria, voice, intelligibility goals as part of a fun activity.

Some specific examples:

1. For a pt working on using intelligibility strategies at word-level, this game can provide a nice set of short words to practice strategies on. Many of the words have consonant clusters, which provide great practice for exaggerating movements. And since this is a fun thinking activity, it is easier to gauge level of cuing needed to use the intelligibility strategies at word-level (since usually, a word-level task involves a rote list of words and the drill-like manner of the exercise often reminds the pt to use strategies; not that it's a bad thing to have this built-in reminder--in fact it is a great way to get the strategies practiced--but it's nice to have a halfway point where the exercise is still word-level, but the focus is elsewhere and strategy use is less in the forefront of one's mind.

2. For a pt with sequencing goals, this game is a great practice involving alphabetic order. If coming up with words is too difficult for the pt, the ST can focus only on the alphabetic sequence of letters and make word suggestions for the pt to respond. If the two flanking words are GHOST and ICONS, for example, ask the pt what letters come between G and I. If that's too hard, make it a Y/N question: Does K come between G and I? Does H? Then ascertain which letters the target word can start with (in this case G, H, I). Now say you've entered HORSE, and now the flanking words are HORSE and ICONS. What letters can our word start with? (H or I). If it's an H word, what 2nd letter can it be? (O-Z) If it's an I word, what 2nd letter can it be? (A-C). Anyway, you get the picture, just focus on sequences and then suggest the words to guess with.

3. For a pt with higher level language goals, just play the game. Add/reduce cuing as needed to come up with word guesses, and if relevant to pt's goals, ask for definitions of all suggested words.

iPad/iPhone app: Hemispheres

Hemispheres App

Hemispheres app in iTunes (regularly $0.99, sometimes free)

What it is: Solve simple math problems while mixing two colors together. On their own, each of these tasks is simple, but carrying them out at the same time is quite a bit less simple, as your brain must switch between the two problems, simultaneously engaging the logical/math and creative hemispheres. Talk about split attention task! This task is timed, which ups the difficulty level.

How we can use it in Tx: There is no easy or relaxed level, so expect pts to only be able to get through the first couple of problems (the game ends with the third error on either side; running out of time counts as an error as well). But even a couple of rounds of this game can be useful, and it's definitely something to use with higher functioning pts.

Goals we can target with this app: Attention, focus, math, and to a certain extent visual field neglect since the problems presented by the app are side-by-side, so attention to each side is needed. It is definitely a worthy brain-training tool as well.

Some specific examples: Since this app only has one level and the tasks are timed, there is not really a way to make the task simpler. Therefore, I would be weary of giving it to pts working on the very simple or basic skills. I would target pts with more advanced goals.

1. The most obvious use is for a split-attention task for higher functioning individuals with mild executive function deficits. Set as goal trying to get through as many of the problems as possible (i.e., get the highest possible score).

2. For field neglect goals, instruct the pt to focus on the weaker side's problem (e.g., for left neglect have them only solve the left-sided problem, ignoring the one on right). This will make for a short round, as concentrating only on one side will ensure the other side will run out of time and add to the count of errors, ending the round after 3. But solving 3 problems on the weak side with competing stimulus from the strong side is actually not a bad task, especially since the game can be restarted as many times as wanted (so you can ask to solve the 3 problems at a time, x5 for the entire activity).

3. Brain-training: for the regular (not rehab-patient) population, switching between the hemisphere-heavy tasks makes for a great exercise of multitasking, prioritizing, attention and focus skills.

iPad/iPhone app: Numbers Addict Free

Numbers Addict App

Numbers Addict Free app in iTunes

What it is: A simple matching and adding game that could not be more fun (or addicting for that matter). It's reminiscent of Tetris, where balls with numbers (each number has its own color so it's easier to recognize) are stacked along a grid of 5 columns, 8 rows. You can see the next 3 balls that need to be stacked (see screen shot below).

There are 3 difficulty levels, and the "easy" one has no time limit: the balls don't drop until you place them, but a new row of balls appears at the bottom every few rounds. You have to match by number to pop them (remove them from the grid), and you need that number of balls to pop them. So you need two 2's, three 3's, four 4's, etc. to clear them. The first levels start with 1-5, and after a few completed levels you get the 6, then the 7, up to 9. You can also move two balls together to create a ball of the sum: if you move the "2" to the "1", it becomes a light blue "3" ball. The sum has to be within the limit of the highest number on that level (so on a level where you only have 1-5, you cannot make a 6 or above). You're scored by total number popped, so six 6's will give you a higher score than two 2's. There's also a paid ad-free version of this game.

Screen Shot Level 1

How we can use it in Tx: Assume you will only use the "easy" relaxed level that has no time limit, and most likely only the first few rounds of it (where you don't have to match anything above a 5). And let the pt play this game (preferably on a larger device like an iPad). Cue as needed, depending on your goals. In the specific examples section below I make some suggestions.

Goals we can target with this app: Attention and focus, following directions, math, problem-solving, scanning, sequencing, and sorting are the main ones.

Specific examples:

1. If you want to target sorting and/or visual neglect and scanning, direct the pt to sort the numbers in adjoining columns (so only put the 1's in the first column, the 2's in the second, and the 3's in the third... etc.). For added complexity ask the pt to predict when a column will get cleared (e.g., when you add the 4th "4" ball to its stack).

2. To target higher level reasoning and math, for higher functioning pts, make the game's goal to add together as many balls as possible (e.g., drag the middle "4" to the "1" below it in the screen shot to create a "5") to direct attention to the more complex possibilities within the game playing than just matching numbers and colors.

3. For a cool scanning and problem solving task ask the pt to fill up the grid with balls allowing as few as possible to pop. It's not possible to control this altogether because every few balls that are placed a new line of balls appears from below, and some of those may create a match. But the pt's task would be to go for the lowest score possible by placing the balls under their control in a way that doesn't allow two 2's or three 3's, etc. This would be a scanning-intensive task.

4. Brain-training: this is also a great app in general for exercising one's multitasking, math, problem solving, reflexes, planning ahead, prioritizing, attention and focus skills.

iPad/iPhone app: Success Story

Success Story App

Success Story from iTunes (free for a while)

What it is: A FUN (and kind of addicting) time management game. These types of games usually involve playing a role of a cook or waiter purveyor of some sort of goods or services, and your task is to complete your customers' requests (e.g., cook specific dishes to order, or arrange ingredients in a sequence) to make a specified profit and move up to next level. As requests become a little more intricate, and customers can get pissy if you don't deliver on time and walk away, you have to prioritize the steps to complete your tasks. That's the "time management" aspect of these games. I have long considered these types of games optimal for Tx for both adults and children, but the problem is that these games are often overly complex with too many steps to negotiate in too little time. My motto, which I keep repeating here, is that if it goes from fun to frustrating too fast, it's not useful as a Tx tool.

Screen image towards end of 1st level

"Success Story" is, finally, a time management game that takes it easy; while there is a timed aspect to this game, the complexity of the tasks is built up slowly, and I feel that a large number of levels (way more than needed for Tx) are usable. In this game you are making sandwiches to order; there is a grid of 11 plates where single ingredients are presented for a time, although not all the plates are full especially in the first levels so it's easier to choose (see screen image). If an ingredient is not used after a while the plate empties and is replace with another ingredient. Customers come up to the counter (it starts with one at a time, then two, and a maximum of 3 customers at higher levels) and order sandwiches (each customer needs 3 identical sandwiches). All levels start out with one ingredient sandwiches (e.g., hamburger, or lettuce or bacon). The "order" is shown as an image so you can see what is in the requested sandwich. You click on the ingredient (e.g., hamburger) once per sandwich (so x3 for an order) and then a few desserts pop up: each customer finishes a meal with desserts. The desserts you just click on, you needn't check what the customer asked for. Complexity is slightly increased with additional ingredients (two items, but in sequence: hamburger and lettuce, or lettuce and pickles; then three items, and more) and at higher levels there is less time as customers get impatient quicker, the ingredient plates time out faster, and of course there's more ingredients per sandwich. There's a few other details like powerups and between-level mini games, some of which are memory games. Let me tell you, it may sound complicated when you read about it, but it is really fun and addicting. And the initial levels are really easy to get through as you only need to serve a portion of your customers to move up a level.

How we can use it in Tx: Let a pt play this game, going through the first 3-5 levels where at most sandwiches include 3-ingredients. This game will work on an iPhone/iPod touch, but I'd recommend only using it on iPad for patients. The tutorial section is actually very useful, and is the virtual version of full modeling of the task. If a patient can get even one customer served (shouldn't be a problem in the first few levels no matter how long one takes) it's considered successful, and they can replay the same level instead of moving to the next one. You can quantify progress by how many ingredients were picked correctly, how few were picked incorrectly (incorrect ingredients require an extra step to remove from an order), or how many customers were served.

Goals we can target in Tx with this app: Direction following (this game involves 1-, 2-, 3-, and at later levels more, step commands). The game directions do get a little easier to follow as one gets used to the game, and the difficulty is increased very slowly so there's plenty of time to enjoy the game before it gets frustrating (if ever). Problem solving in the form of prioritizing (do you finish one customer's dessert order or take care of another customer's sandwich order first so they don't leave, do you grab the power-ups or finish an order, etc.), and as such there's sequencing of steps as well as sequencing of ingredients (if a customer wants lettuce topped by pickles, they will not take pickles with lettuce on top). Scanning goals can be addressed as well since there is a grid of 11 ingredients that need to be scanned to select the required ones, and during dessert time, the player has to distinguish all the dessert ingredients in the grid and grab them. Memory goals are also addressed with some of the mini-games between levels, where the ingredient grid is turned into a tiny memory game of matching two ingredients at a time. Attention and focus can also be indirectly addressed. Categorization skills are accommodated in the part of the game where desserts are sent to customers, since this part of the step involves scanning the grid of ingredients for any dessert items (rather than looking at the specific order).

Specific examples:

1. For scanning or visual neglect write a goal to use a certain % of the ingredients on the neglected side during a level. So for example, if one is making a bacon and tomato sandwich, the 11-ingredient grid will have plates of bacon in random locations, and a player without visual neglect would normally not favor either side of the grid; so ask your pt to specifically grab available ingredients from the side they tend to neglect, and then quantify what % of bacon plates were selected from that side.

2. For memory goals, at a level where more than one ingredient is needed per sandwich, quantify how much cuing was necessary for the 2nd and 3rd sandwich for each order. That is, when a customer orders a burger, cheese, tomato sandwich, you have to make 3 of these to complete the order. The first one requires looking at the order image for each ingredient, but the next two sandwiches should be built from memory or verbal repetition. As an aside, completing these tasks is a great way to contextually practice holding an increasingly larger list of (related) items in memory using visual and verbal cues.

3. Brain-training: this is also a great app in general for exercising one's memory, reaction time, attention and focus.

And hey, how appropriate is the name of this app for Tx purposes?!

iPad app: More Cookies!

More Cookies App

More cookies (free for a short time, usually $0.99) from iTunes

What it is: Bake virtual cookies using a recipe or "pre-made" dough; add ingredients, mix, cut into shapes, bake and decorate. If you want you can save your creations to your album, email them, or "eat" them. With the recipe option you choose the type of cookie you want to make, and then drag ingredients to a mixing bowl (with extra steps like cracking the eggs) and then swirl your finger to mix the dough. With "pre-made" you also get to choose the type of cookie, and with some you have to roll out the dough and cut it in to shapes, and with others just drag pieces of cookie dough to the pan. With both options you have to lay the cookies in the pan (if you're not careful how you lay them out, you may not fit them all) and then bake them, followed by decorating (you have a ton of options for icing, sprinkles, candy, fruit/nuts, and weird stuff).

Here is my creation for the purpose of this blog: it was a pre-made version of sugar cookies, cut into bunny shape, with yellow frosting, purple sugar sprinkles, and gummy brains!! What, I'd totally eat it!!

How we can use it in Tx: The most obvious way to use this is as a direction-following task. The app provides some of the directions (add ingredients, mix, roll out dough, cut into shapes, place on pan, bake, decorate...) and we can provide additional ones that can also be more open-ended (frost with any of the choices, add some sprinkles and a couple of candies, or more specific like "add two nuts and 3 candies"). Some sequencing can be implemented in the decorating part.

Reasoning can also be involved in requesting a batch of cookies appropriate for, say, a holiday that occurs at the end of October. Access to the "weird stuff" for decorating (things like bacon, jalapenos and fried egg) opens up possibilities for question/answer tasks, decision making, and explaining why to use or not use a particular ingredient.

I think I can even get some memory work out of this app: the "from scratch" option shows recipes for the cookies. One needn't remember the amount needed of each ingredient to play, but a pt could be asked to look over the recipe, and for example remember how much vanilla or how many eggs were needed; then when the cookies are done and decorated delayed recall could be assessed.

Even scanning and sorting can be addressed by decorating a cookie with a lot of different things and one weird one, and asking the pt to search for the it or count how many marshmallows there are, or something similar. Decorating the cookies and laying them out in a pan to bake can address visual field neglect deficits.

For an extra bit of fun I would save pictures of the virtual cookies and print them for the pt, especially if the cookies are "prepared" for an upcoming holiday.

Goals we can target in Tx with this app: Direction following, sequencing, memory, question/answer, reasoning/problem-solving, scanning.

Some specific examples:

I give some ideas in the "How we can use it" section above, but here are some more specific examples:

1. For sequencing and/or scanning goals: Create a cookie with 1 of one topping (say, 1 marshmallow), 2 of another (say gummy bears), 3 of another (chocolate chip), 4 of another and 5 of yet another. Ask pt to list the toppings in order of how many there is of each from lowest to highest.

2. For memory (immediate, short term, delayed or spaced retrieval) goals: Start with the making cookies from scratch option, and while scanning the recipe tell the pt to remember how many total ingredients were needed (or how many ingredients that add sweetness to the recipe there are). Tell the pt that after the cookies are made and decorated you will ask for this information (or, if you're working on spaced retrieval, ask for this information as soon as you move to the next screen, then with each next step and again at the end).

3. For direction-following goals: In the "from scratch" option where ingredients are added to the bowl one at a time, ask the pt to add all the dry ingredients first and then all the wet ones.

4. For problem-solving/reasoning goals: Give a scenario that involves an occasion (either a specific holiday, or the time of year for one so the pt has to figure that part out first, or another type of occasion) and ask the pt to decorate cookies for that occasion, choosing the most appropriate shapes and colors.

5. For visual field neglect goals: Work on spacing the cookies on the pan before baking, making sure the whole pan is used (you can bake up to 12 cookies at a time, so ask the pt to fit all 12 in... this would require extra care). Draw attention to the neglected side of the cookie, and make sure it is decorated the same as the strong side. Or request specific differences between the two sides to require attention to both (e.g., make a gingerbread man and frost the left side of his body one color and the right another).