Article

Dealing With Packaging Complexity

Stephen McIndoe

By Stephen McIndoe, VP Consulting, Be4ward

In this series of articles, I am going to discuss the topic of packaging complexity and outline tips on approaches you can take to manage it.

So to start with, what is packaging complexity?  Many pharmaceutical companies have broad product portfolios that they are selling in multiple markets. Beyond the US and big five European markets, sales volumes can drop dramatically for individual SKUs (stock keeping units – lowest saleable item).  Even within those markets, portfolio expansion and specialized products can result in low volumes. These effects result in an explosion of packaging components of ever-decreasing volumes, creating a significant hidden factory to manage and maintain and reducing run times on packaging lines. We have seen pharmaceutical companies where >50% of their SKU portfolio have daily sales volumes of less than 30 packs, yet where packaging batches supply years of stock.

So why does this happen?  I would suggest there are four main root causes:

  1. Maximizing the value of the portfolio

As margins are squeezed and new blockbusters are becoming increasingly difficult to find, pharmaceutical companies are focusing their attention on maximizing the value they can extract from their current assets. One of the significant ways they can achieve this is to create and launch as many existing product variants, in as many markets, through as many channels as possible. For many companies, this represents a significant change of strategy as traditionally they would have focussed their attention on a few large products in the larger volume markets.

  1. The move to higher value, lower volume products

Many new products coming to market are for treating more complex conditions with increasingly tailored therapies. While these products may be very high value, the product volume is typically much lower than traditional pharma products. Moreover, they often have complex dosing regimes, devices, or combination products that require specialist and complicated packaging.

  1. Legislation and regulation

Legislation and regulation is ever increasing in the industry – Braille, font size, authentication, tamper evidence etc.  The requirements and development of this legislation is not harmonized across all of the different legislators globally, and in some cases, it could appear that any effort to harmonize is met with a counter requirement for differentiation.  This not only results in added complexity through new features having to be added to the packaging, but also those requirements being necessary for some markets but not others—yet a product may be packed for all markets on the same packaging line.

  1. Local requirements and preferences

Requirements here can fall into two groups – necessary requirements to meet the needs of the market, e.g. language, and local historical preferences, e.g. a 28 or 30 tablet blister count. Some of these are captured in local regulation and it can be difficult to differentiate between what is a “must have” and what is a “nice to have.” But even where it is not a mandated requirement, it can be very difficult to shift a local preference.

Packaging complexity creates a number of undesirable effects for both the pharma companies and their customer base. These include:

  • Compliance issues

It is essential the correct products and components are supplied to the correct markets with the latest approved product information. With an ever-increasing portfolio complexity, exercising appropriate jurisdiction control over what is supplied where and when gets ever more difficult.

Also, many companies have tried to overcome supply to the smallest markets with standard “general export” type packs, only to find unexpected and uncontrolled local repacking activity where standard leaflets are replaced with locally sourced local language ones.  These sorts of practices obviously present an unacceptable compliance risk.

  • Lost commercial opportunities and product unavailability

Sometimes the financial trade-off between supply of a unique variant to a specific market versus the cost of supply doesn’t merit selling that product in that location. While that may be considered a victory in minimising complexity, it is a lost opportunity and there are patients in that country that don’t have that product or product-form available to them. It is therefore a bit of a hollow victory, and if the company had more cost effective capabilities to supply and maintain such variants, this could have been avoided.

  • Manufacturing inefficiencies

Small volumes obviously mean small pack runs and lots of changeovers. This is generally counter to the objectives of a packaging operation, which are measured on efficiencies and line utilization. We have seen many examples where the packaging line spends more time being changed over than actually producing product.

Complexity can also create needs for specific additional tooling, equipment, and hand finishing.

  • Support function inefficiencies

In addition to manufacturing inefficiencies, there is a whole hidden factory in the support functions supporting the product and component range: additional regulatory staff maintaining licenses and product information, increased volumes of artwork change, more purchasing activity, and more warehouse space. This is often invisible and not considered in the cost of supply.

  • Obsolescence

There are two main types of obsolescence we would consider—packaging components and finished product.  Economic order quantities can mean that the volumes of packaging components purchased have a disproportionate amount of forward cover versus the typical rate of change of those components.  Therefore, high amounts of materials can be written off when components are changed.

Similarly, high inventories of low sales volume finished pack stock, caused by minimum packaging line order quantities risks obsolescence due to shelf life expiry, causing either product write-off or repacking.

So why is packaging complexity necessary?  We would suggest there are two main reasons:

  1. Market access – you cannot sell the product in this market without meeting these specific requirements, whether they be legislative or not.
  2. Commercial advantage – providing these features gives an advantageous position in the market and the incremental impact on cost of goods is outweighed by the commercial benefits obtained.

So some complexity may be considered ‘good complexity’ because it presents value in terms of the financial return from the sale of the product.  The key is to learn how to cope efficiently with this “good complexity” while developing methods to control the other type of complexity—the ‘bad complexity’.

Unfortunately, there does not seem to be any golden bullet that will do this for you.  Rather it is a series of techniques to be applied across the portfolio that allows you to manage and cope with the complexity you are presented with.  We see 20 techniques that are available to address your complexity challenges as follows:

Tips To Control Complexity

  1. Understand the product/therapy strategy and value of complexity

Is the commercialisation strategy for the product and therapy and the subsequent value of complexity understood?

  1. Understand the portfolio, volumes, and lifecycle of SKUs

Is the portfolio, volumes and lifecycles of your SKUs understood?

  1. Clear approval and control processes for portfolio changes

Do you have clear approval and control procedures for adding and removing SKUs from your portfolio?

  1. Prune the portfolio regularly

 

Is there a regular process to review the portfolio and prune unnecessary or non-performing SKUs?

  1. Control brand variation

 

Do you have a process to control the brand image and prevent unnecessary or undesirable proliferation of brand designs?

  1. Control platform sizes

Do you define and maintain a set of standard platform sizes?

  1. Standardize artwork templates and layouts

Are there standard templates and layouts for artworks?

  1. Minimize fonts, illustrations, and graphical elements

Are there defined standard fonts, illustrations, and graphical elements?

  1. Share components or packs

 

Are you maximizing the opportunities to share components or finished packs?

  1. Bundle changes

Are you maximizing the opportunities to combine changes to minimize the frequency of changes to components?

  1. Plan for runners, repeaters, and strangers

Do you have capability to supply product with different order and volume profiles—runners, repeaters, and strangers?

  1. Manage order quantities of components and finished packs

Do you have processes to effectively manage order quantities of components and finished packs?

  1. Postponement

 

Can you postpone customization to as late as possible in the supply chain?

  1. Late Customization

 

Can you late customize components and products?

  1. Packaging design

 

Have you designed your packaging to maximize the opportunities to deal with complexity?

  1. Build flexibility into packaging equipment

 

Do you have the right type of packaging equipment that provides suitable levels of flexibility?

  1. Reduce line changeover time

 

Have you maximized your opportunities for fast changeover?

  1. Supply chain design and hubs

Have you optimized your supply chain to provide required levels of variation and customization?

  1. Outsourcing

 

Have you considered outsourcing the things you are not best equipped to do?

  1. Plan for future legislation

 

Are you already planning for how you will introduce required

You don’t necessarily have to apply all 20 techniques to your portfolio; they are more of a toolkit that can be used as appropriate to address the challenges you are witnessing.

In the next article, we will look at the first four techniques in more detail.

Other articles in this series:

Dealing With Packaging Complexity: Tips 1 To 4

Dealing With Packaging Complexity: Tips 5 To 8

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