F:\ejour\ecoman\index\ecoman_v6_n2.prn.pdf


SAJEMS NS Vol 6 (2003) No 2 369 

South African Pharmaceutical Prices: An 
International Price Comparison  
__________________________________________________________________________________ 
 
George G Djolov1 
 
School of Economic and Business Sciences, University of the Witwatersrand 
________________________________________________________________ 
 
ABSTRACT 
 
A major presumption underlying the current debate on pharmaceutical prices in 
South Africa is that South African medicines are priced at levels out of line with 
comparable products in other countries. This paper presents some empirical 
evidence in an attempt to ascertain the validity of these presumptions. The 
results provide little support for the view that South African prices are in need of 
controls over and above those already existing through competition. The 
evidence reveals that recent calls and public policy proposals for parallel 
importation and its variant reference pricing are misplaced. To put forward such 
proposals without taking account of existing empirical knowledge for policy (or 
legislative) making purposes is a less than optimal approach. 
 

JEL C 130, I 180 
 
1 INTRODUCTION 
 
A major presumption underlying the current debate on pharmaceutical prices in 
South Africa is that South African medicines are priced at levels out of line with 
comparable products in other countries.  To contain medicine costs Act 90 of 
1997 (§15C and §22G) proposes the use of parallel importation or its variant 
reference pricing. Parallel importation refers to the policy of allowing the 
importation of the same drugs as those available in South Africa if they can be 
obtained cheaper, i.e. at a lower price, elsewhere. A variant of parallel trade is 
reference pricing, which is the policy where the price set for a drug in a given 
country is the average of the lowest prices of the same drug in other countries. 
 
This paper presents some empirical evidence in an attempt to ascertain the 
validity of the presumptions guiding these public policy proposals.  First, some 
thoughts are presented about the intrinsic difficulties of carrying out price 
comparisons between countries.  Second, the results of two pricing studies, one 
for the private sector and the other for the public sector are presented. Here it 
may be instructive to note that the South African healthcare market splits into 



SAJEMS NS Vol 6 (2003) No 2 370 

two separate sectors or markets, i.e. the private and the public. The private 
sector caters for those with income and medical cover and the public sector, 
which is administered by the State, caters for the poor (or indigent). The State 
purchases drugs for the public sector using the COMED tender system. The 
manufacturer able to meet a tender at the lowest or specified price is awarded 
the tender for the supply of a particular medicine or medicines. The study for the 
private sector presents a comparison between prices in South Africa and seven 
other countries. The study for the public sector presents a comparison between 
tender prices in South Africa and those obtainable through international 
competitive bidding, i.e. international tendering.   
 
 
2 INTERNATIONAL PRICE COMPARISON CAVEATS 
 
The discussion here is based on a synthesis of that offered by Danzon (2000: 56-
59), Nesbitt (2000: 14-25 of chapter 2), and Reekie (1997: 20-26). 
 
International price comparisons of pharmaceuticals are subject to a number of 
difficulties.  Indeed the number and nature of the reservations imply that they 
should only be used with extreme care.  Many would argue they should not be 
used at all.  First, identical or analogous products must be compared.  Most 
countries have several hundred, even thousands of drugs on sale.  Many are not 
available elsewhere.  The products selected for comparison must not only be 
available to compare but they should be important in their respective markets. 
This is not necessarily easy to achieve since not all products are available in 
every country. Further, the mix of leading products varies by disease incidence, 
medical convention and legal framework.  These impact on product usage and 
even on the presentation of the product (e.g. vaccines and tablets may differ in 
usage between countries and hence so too, may the relative prices). Not only 
must the compared products all be of similar commercial importance on the 
demand side, that condition should also exist on the supply side.  If products 
vary in importance to the marketing firm, then price patterns may differ.  
Similarly, if the marketing firm is a licensee, this also impacts on pricing 
behaviour, as does the nature of any (unknown) royalty agreement.  Moreover, 
questions must be asked as to the level in the distribution chain at which the 
prices are compared. Are the prices affected by the nature of that institutional 
arrangement?  Manufacturer prices are the basis from which final consumer 
prices derive, but intermediaries vary in importance country-by-country in the 
costs they impose or save on any transaction.  Some intermediaries are passive; 
others are active buyers seeking out best prices. This in turn raises the issue of 
whether list prices or transaction prices are used.  Most data sources use list 
prices, and surveys, which use transaction prices –which are more 
meaningful−,are high cost tasks (and neither buyer nor seller may be willing to 



SAJEMS NS Vol 6 (2003) No 2 371 

divulge the information). Should the price be at pack level?  (Most products are 
sold in several alternative pack sizes). If so, which pack?  Should it be at unit 
level?  And if so, which unit?  (Units vary for the same product, e.g. 125 mg or 
375 mg).  Which form should be compared, oral solid or injectable, or some 
other? Should it rather be at cost per daily treatment, or cost per prescription 
(covering several days)?  After all different drugs require different quantities to 
be consumed daily, or have different numbers of days’ treatment in a regimen.  
To select any one criterion, of course, implies selection from a “most commonly 
adopted” criterion in country A, which may be inappropriate in country B. 
 
In a world of exchange rate movements, at what date is the comparison to be 
made?  A 10  per cent movement in a currency immediately alters any computed 
results by that amount.  
 
If non-branded (generic 2) drugs are excluded from a study, but they have a 
significant market share in any given country, then their exclusion will bias 
comparisons.  The bias could make the drug bill in the country with a small 
generic share appear to be relatively lower than it is in reality. The country with 
the high generic share would have its price level over-stated (since generics are 
generally cheaper than branded products).   
 
One further reservation is that in any study prices of drugs sold for ambulatory 
care should not be compared with those of drugs sold to bulk-buying institutions 
such as hospitals.  In the case of South Africa, this reservation must be extended 
to the exclusion of the entire State sector where drugs are purchased in bulk and 
by tender.  The relevant comparison in our first study is the prices of drugs in 
the South African private sector.  
 
Before proceeding with the results and the methodology of the study a note is in 
order concerning the type of price studies whose methodology may centre on 
comparing a basket of high selling (by value) products in one country with the 
same products in another country irrespective of the selling status of these 
products there. Precaution must be exercised with such studies given their 
methodology is highly likely to produce biased results. This can be explained 
with reference to the construction of the demand curve. If the products are high-
selling items in the one country (country A) but are low-selling items in the 
other (country B), prices in the former instance would be low, whereas in the 
latter instance they would be high. Thus if one is to construct price ratios 
(weighted by volumetric market share) the choice of the country which assumes 
the numerator determines which country appears cheaper. Accordingly if 
country A is placed in the numerator, the resulting price ratio would reflect it as 
more expensive than country B, or put differently country B would appear 
cheaper.  



SAJEMS NS Vol 6 (2003) No 2 372 

3 METHODOLOGY AND RESULTS FOR PRIVATE SECTOR 
ASSESSMENT  

 
With the above reservations in mind we now report on two studies that 
examined prices in South Africa in relation to seven other countries in 1998 and 
2001. These studies use the same data source and build on an identical 
methodology to that of a study first done by Reekie (1997: 20-6). There have 
been no updates of this latter study since it was first done, and what is presented 
here is the second of its kind. Without further ado we now proceed with 
discussing the research carried out but beforehand we describe the sample at 
hand. The sample of countries compared was South Africa, USA, UK, Germany, 
Denmark, the Netherlands, Australia, and Brazil. To ensure that the price 
comparisons are on a like-for-like basis the choice in countries should satisfy 
three important criteria, namely: 
 
(i) The countries chosen should have relatively liberal drug pricing systems; 

i.e. price controls on products (particularly on new product introductions) 
are either absent or exist in limited form, and if the comparisons involve 
prices of drugs sold for ambulatory care (as is the case here) than these 
should not be compared with those of drugs sold to bulk-buying 
institutions or ones with monopsony purchase power. Australia, Brazil 
and some Southern European states fail on this count in their comparison 
with the South African private sector. In Brazil, Mendonca (1999) has 
noted that since the abolition of the pharmaceutical price control system 
there in 1992 the country’s price regime on pharmaceutical products is 
one of “monitored freedom” where prices are still controlled through 
voluntary arrangements between the government and the pharmaceutical 
industry. In Australia the majority of prescriptions are written for 
medications that are subsidised under the taxpayer funded PBS 
(Pharmaceutical Benefits Scheme), which grants the Australian 
government a monopsony purchasing power (OECD, 2001). The prices of 
all products listed on the PBS are determined and reviewed by the 
Pharmaceutical Benefits Pricing Authority, which either resorts to 
reference pricing to infer if a given drug’s price is “fair” or includes 
products in the PBS on the basis of the lowest price or cost (from products 
falling in the same therapeutic sub-groups).  
 

(ii) Research and Development should play an important part in the market 
for pharmaceuticals. The OECD (1981) has noted that the South African 
pharmaceutical industry has a major research and development 
component and that the country is among the preferred locations of choice 
for the clinical trial activities of the multination pharmaceutical firms. 
Reinforcing the strong role of research and development in the industry 



SAJEMS NS Vol 6 (2003) No 2 373 

has been the continual or long-standing presence of a strong patent 
system. All this has been absent from Brazil, which only recently (i.e. as 
of 1996) placed a formal system in place for the protection of intellectual 
property rights for pharmaceuticals (Rozek, 2000).   
 
How strong is the enforcement of these rights is questionable. In 1999 a 
generic law was approved by the Brazilian legislature, which makes it 
mandatory for the generic name to be included in addition to the trade 
mark name on all product packs of the original product (Mendonca, 
1999).   

  
(iii) The countries should share a corresponding income per capita. In the 

South African private market, as  Table 1 shows, income per capita is in 
line with that of the high-income category of the World Bank. Thus 
comparisons with countries, whose income per capita is considerably 
below that of the South African private sector, as is the case with Brazil or 
some Southern European states, would be inappropriate.  

 
Table 1 Estimated income per capita for the private sector, 2000 
 

Country Income per capita (in purchasing power 
parity), US$ 

USA 
UK 

Germany 
Denmark 

Netherlands 
Australia 

Brazil 
South Africa1 

34100 
23550 
24920 
27250 
24970 
25850 
7300 

36288 
High-income group 2 

EU 
High-income OECD countries 3 

27770 
23600 
24874 

Sources: (1) World Development Report 2002 – World Bank, Oxford University 
Press.  

(2) Registrar of Medical Schemes Annual Report 2000 – Council for 
Medical Schemes (Pretoria).  

Notes: 1  The World Bank’s Development Report for 2002 recorded the South 
African populatio n at 43 million people in 2000 and the South African 
Gross National Income (in purchasing power parity terms) at US$ 392 
billion in 2000. The Annual Report for 2000 by the Registrar for 
Medical Schemes records the size of the South African private sector, 



SAJEMS NS Vol 6 (2003) No 2 374 

i.e. those with medical aid/insurance, at 7 million in 2000. As per the 
World Bank’s Development Report for 2002 which provides a 
breakdown of the income share of each income quintile it was assumed 
that the 7 million people forming the private sector constitute the 
highest paid 20 per cent of the population, which accounts for 64.8 per 
cent of the total South African income. The South African figure is an 
over-estimate. First not all 7 million people are likely to be part of the 
highest paid 20 per cent of the population, i.e. the possibility of middle 
income has to be accepted. Accordingly those paying for medical 
cover may account for less of the total South African income. Second 
the income per capita calculation assumes the denominator is 7 million 
people. This is an understatement. People without medical 
aid/insurance cover also attend private sector health care facilities (e.g. 
hospitals, doctors, pharmacies) via out-of-pocket expenditure. 

2 This group comprises the EU, the high-income OECD countries, and 
the high-income non-OECD countries. The income per capita for the 
high-income group is the average for the aforementioned groupings. 
The income per capita for the EU is also the average for the EU 
member states. By analogy the same applies for the high-income 
OECD countries. 

3 Income per capita calculation based on data for 21 of the 23 high-
income OECD member states. 

 
From the sample selection criteria the following should be taken cognisance of. 
Although the comparisons with Australia and Brazil (or for that matter these 
involving some Southern European States like Spain) would not live up to fulfil 
the sample selection criteria in turn making them questionable, their inclusion 
for reasons to be detailed later highlights the importance of pricing freedom and 
strong intellectual property protection.  
 
Let us now see what the studies entailed. The private sector studies looked at 
how much a basket of some of the best selling products in South Africa would 
cost in the other seven countries. The list prices of the products, which were in 
the currencies of each country, are ex-factory prices for ethical, i.e. prescription-
based, products dispensed through pharmacies. The source of the raw data for 
these prices (and the corresponding product volumes) is the market research 
house IMS.  
 
Prices were compared in Rands at the year-end exchange rate for 1998 and 
2001. The sample was restricted (owing to data availability) to the top 80 
products in South Africa in 1998 and 2001, ranked according to sales value. Of 
the 80 products, on the average, 23 products were actually found in common to 
be important sellers in the other countries in 2001 and 18 in 1998. The 



SAJEMS NS Vol 6 (2003) No 2 375 

remaining products were either produced only by South African pharmaceutical 
companies or were products that had ceased to be major sellers in the foreign 
markets. The prices of the common products, weighted by market share 
determined from their volumes traded in South Africa, were aggregated to 
derive a weighted average in order to find out how much the hypothetical basket 
(of comparable products) would cost in South Africa vis -à-vis the other 
countries studied. It was assumed when making the calculations that the market 
shares that the top selling products had in South Africa in 1998 and 2001 would 
be the same in the other countries as well. Simply put to address the question of 
how much South African consumers might pay (at ex-factory prices) if they 
faced foreign prices but maintained South African consumption patterns, prices 
were weighted according to the volume of purchases by South African 
consumers. Mathematically the calculations were carried out as per the standard 
formula for weighted average expenditure (WAE) given below:  
 WAE = S(piq

SA
i)/Sq

SA
i          [1] 

where S is the summation sign over the basket of the common products, pi 
the price for the ith product, and qSAi its quantity consumed in South 
Africa.   

 
Expression [1] was applied once to take account of the South African prices and 
a second time to take account of the non-South African prices, with the resulting 
values used to form the ratios in Table 2.  
    
Table 2 Eight country comparison -top 80 products 
 

1998 2001 
Pairwise  

comparison 
RSA/USA 
RSA/UK 

RSA/Germany 
RSA/Denmark 

RSA/Netherlands 
RSA/Australia 

RSA/Brazil 

N 
 

21 
22 
11 
13 
21 
21 
14 

Price 
Ratio 

1.00:4.58 
1.00:1.16 
1.00:1.06 
1.00:1.12 
1.00:1.14 
1.00:0.83 
1.00:1.17 

Pairwise  
comparison 
RSA/USA 
RSA/UK 

RSA/Germany 
RSA/Denmark 

RSA/Netherlands 
RSA/Australia 

RSA/Brazil 

N 
 

27 
27 
20 
20 
27 
26 
16 

Price 
Ratio 

1.00:3.20 
1.00:1.40 
1.00:1.19 
1.00:1.24 
1.00:1.29 
1.00:0.79 
1.00:1.15 

Note: N = Number of comparable products  
 
A note on interpreting the ratios is in order. The South African value would 
always be equal to 1, while the value for the foreign country would be variable.  
If the foreign country value is greater than 1, this means that country has higher 
prices than South Africa for the same basket of goods. The reverse would apply 
if the foreign country value were below 1. For example, for 2001 the ratio in the 



SAJEMS NS Vol 6 (2003) No 2 376 

pairwise comparison RSA/Netherlands is 1.29. This means that ex-factory prices 
in the Netherlands are 29 per cent higher than in South Africa (at a point in time) 
for the same basket of goods available in South Africa and the Netherlands. 
 
 
4 ANALYSIS OF PRIVATE SECTOR RESULTS 
 
There is little to suggest from the studies reported on above that South African 
private sector prices for pharmaceuticals are far out of line from those of 
countries with similar degrees of regulation, importance of research and 
development, and roughly similar income levels. We come to that conclusion, 
however, in the light of the reservations expressed earlier.  What adds credibility 
and some confidence to the findings here is that they confirm the systematic 
inability of the evidence to show that the prices of pharmaceuticals in the South 
African private sector are high in relation to comparable markets. For instance 
the findings here reinforce (or support) those of the earlier study by Reekie 
(1997: 25) reported in Table 3 below. It would be recalled that this study is 
based on the same methodology as the one applied here. The difference is that 
the top 50 rather than the top 80 products were looked at (also using IMS ex-
factory list prices data as it applies to ethical drugs dispensed through 
pharmacies).  
 
Table 3 Six country comparison - top 50 products (1995)  
 

Pairwise Country 
Comparison 

Number of Comparable 
Products 

Price ratio 

RSA : USA 20 1.00 : 1.57 
RSA : UK 21 1.00 : 0.75 

RSA : Germany 15 1.00 : 1.59 
RSA : Denmark 19 1.00 : 1.00 

RSA : Netherlands 22 1.00 : 1.16 
    Source: Reekie (1997: 25) 
 
It should be noted that direct comparison of the price ratios between Table 2 and 
Table 3 (and within Table 2 itself) is not possible since the products between the 
periods are not the same, i.e. new products are introduced and old ones are 
discontinued over time. All that can be inferred is that at any point in time the 
comparable basket of important sellers across the comparable countries 
examined costs less in South Africa than elsewhere. For instance in 2001, for 
directly comparable products, relative to South African prices US prices were 
220 per cent higher, UK prices were 40 per cent higher, German prices 19 per 
cent higher, Danish prices 24 per cent higher, and for the Netherlands 29 per 



SAJEMS NS Vol 6 (2003) No 2 377 

cent higher. In the sample of comparable markets (countries) considered in 
Table 2 (and Table 3) South Africa consistently appears to be the second 
cheapest country whilst the USA was always the most expensive.   
 
Although direct price comparisons with Australia and Brazil may not be 
possible, their comparison to the South African private sector highlights two 
important points, namely: 
(a) where intellectual property protection is perverted relative to en 

environment where it is not prices of pharmaceutical products are higher. In 
this case they were 15 per cent higher in 2001 and at least this much in 
1998; and  

(b) Free markets produce prices, which are as low, and very likely lower 
compared to ones arrived at by government control or intervention. In cases 
where such controls or interventions exist the cost(s) they come with must 
also be examined. Although Australian prices may be around 20 per cent 
lower than South African ones (whether in 1998 or 2001), 84 per cent of the 
total cost of the PBS is subsidised by government (OECD, 2001: 155).       

 
The evidence suggests that letting freedom of choice in the selection of products 
exist and allowing manufacturers to exercise discretion in the pricing of their 
products, subject to their assessment of the conditions of demand and supply, 
produces the results that legislative proposals in the name of the public interest, 
like parallel trade, promise to attain.  
 
A detailed report by the Boston Consulting Group, which studied the impact of 
price controls on pharmaceuticals, came to a conclusion not dissimilar to the one 
expressed above. In particular the report (1999: 36) noted that “the diffusion of 
innovation seems to bear out a simple economic truth: where pharmaceutical 
companies have an economic incentive to ensure that more people get treated, 
and are given the freedom to price and market accordingly in response to market 
competition, more people will get appropriately treated. Where these incentives 
and freedoms are reduced, treatment levels reflect the policies put in place by 
the government officials who define pharmaceutical industrial policy”.  
 
At this point we move to the pricing study for the public sector.  
 
 
5 METHODOLOGY AND RESULTS FOR PUBLIC SECTOR 

STUDY 
 
Following various allegations of excessive pricing in South Africa compared to 
international sources, as described in Report 6 of 1997 by the Public Protector, 
an analysis was undertaken of prices in the South African State sector. The 



SAJEMS NS Vol 6 (2003) No 2 378 

government bases its purchases on pharmaceuticals on nine tenders. Out of the 
nine tenders, information pertaining to only eight of these could be obtained.  
In all cases the price comparisons were based on the weighted volumes of the 
quantities (in packs) called for on the COMED tenders. The intention is to show 
what the total purchase value would  be on a weighted basis as opposed to price 
alone. Simply put to maintain consistency with the methodology followed on the 
private sector studies, inter alia, use is made of expression [1] in the case of the 
public sector too. Here to address the question of how much the South African 
State might pay if it faced foreign prices but maintained its consumption 
patterns, prices were weighted according to the volume of purchases the State 
makes.  
 
The public sector price comparison involves (a) low levels of income (see Table 
4) and (b) the same kind of pharmaceuticals, i.e. generics.  
 
Table 4 Estimated Income Per Capita For The Public Sector, 2000 
 

Country Income per Capita (in Purchasing 
Power Parity), US$ 

South Africa1 
Low-Income Countries 

316 
1980 

Sources: (1) World Development Report 2002 – World Bank, Oxford University 
Press.  
(2) Registrar of Medical Schemes Annual Report 2000 – Council for 
Medical Schemes (Pretoria).  

Note: 1 The World Bank’s Development Report for 2002 recorded the South 
African population at 43 million people in 2000 and the South African 
Gross National Income (in purchasing power parity terms) at US$ 392 
billion in 2000. The Annual Report for 2000 by the Registrar for 
Medical Schemes records the size of the South African private sector, 
i.e. those with medical aid/insurance, at 7 million in 2000. Thus it was 
assumed the public sector takes care of 36 million people. As per the 
World Bank’s Development Report for 2002 which provides a 
breakdown of the income share of each income quintile it was assumed 
that the 36 million people forming the public sector constitute the lowest 
paid 20 per cent of the population, which accounts for 2.9 per cent of the 
total South African income. The South African public sector figure is an 
under-estimate. First not all 36 million people are likely to be part of the 
lowest paid 20 per cent of the population, i.e. the possibility of middle 
income has to be accepted. Accordingly those using public sector health 
facilities may account for more of the total South African income. 
Second the income per capita calculation assumes the denominator is 36 



SAJEMS NS Vol 6 (2003) No 2 379 

million people. This is an overstatement. People without medical 
aid/insurance cover also attend private sector health care facilities (e.g. 
hospitals, doctors, pharmacies) via out-of-pocket expenditure. 

 
The public sector comparison was conducted using the International Drug Price 
Indicator Guide (IDPIG) jointly developed by the World Health Organisation 
and Management Sciences for Health (a non-profit organisation). The guide is 
an indicator of the international price norm of generics. It is appealing to use 
because it provides the actual international tender prices through international 
competitive bidding (ICB) for the supply of generic drugs by procurement 
agencies and vendors to poor or low-income countries.  
 
In summary the international price comparison for the public sector refers to 
prices that are (a) obtained through a tender based process, (b) are aimed at the 
same income level and (c) involve the same kind of drugs. The data comprises 
list prices. The comparison is with reference to available data for the year 2000.    
 
To ensure the comparison is on a like-for-like basis the international and 
COMED tender prices refer to products common to the South African essential 
drug list, the COMED tenders, and the listing of products obtainable through 
international competitive bidding. In total 79 comparable products were 
identified. Of the 79 products considered information on 71 was available. The 
products came from the various tenders as depicted in Table 5.  
 
Table 5 Composition of public sector price comparison sample 
 
Tenders Tender origin of 

products (%) 
RT 280 – Drops, Aerosols, Inhalers and Inhalants 4 
RT 281 – Semi-Solids and Powders 4 
RT 285 – Biological Preparations 1 
RT 289 – Solid Dosage Forms 56 
RT 297 – Small Volume Parenterals and Insulin 
Administration Devices 

21 

RT 299 – Large Volume Parenterals and Accessories 1 
RT 300 – Liquids 4 
RT 301 – Antibiotics 9 
TOTAL 100 

Source: Office of the State Tender Board – Tender contracts 
 
Data from the products considered reveals that in the case of the COMED 
tenders 71 per cent of products are supplied in patient-ready packs and 29 per 



SAJEMS NS Vol 6 (2003) No 2 380 

cent in bulk packs. In short under the COMED tenders the prices for products 
apply to packs. By contrast the prices for products obtainable through 
international competitive bidding are exclusive of packaging and recorded in 
comparable dosage unit (e.g. tablets or millilitres). Like the COMED tender 
prices the international tender prices are delivery or CIF (cost, insurance, and 
freight) inclusive. In contrast to the COMED tender prices the international 
tender prices are not VAT inclusive. To make the comparison in the same 
currency the year-end Rand-Dollar exchange rate for 2000 was applied (given 
international tender prices are recorded in US dollars). In addition to account for 
the difference in packaging and VAT the international tender prices in each 
instance (prior to calculating the expenditures) were loaded by: 
(a) The size of the pack required under the COMED tender. 
(b) 10 per cent to reflect the cost of packaging (on the premise, following a 

study by the NPI (1989, p 53-64), that packaging costs for South African 
pharmaceutical manufactures amount to 10 per cent of total manufacturing 
costs, and that these costs are the same for the international suppliers); and  

(c) 14 per cent to reflect the presence of VAT.  
 
In all cases the price comparisons were based on the estimated quantities (in 
packs) called for on the COMED tenders. Table 6 presents the price comparison 
result (with expression [1] being applied on the one occasion to take account of 
the South African prices and on the other of the non-South African prices, with 
the values so formed used to obtain the ratios in the table. The interpretation of 
the ratios is the same as that for Table 2. For instance in 2000, for directly 
comparable products, relative to COMED prices, IDPIG prices were 53 per cent 
higher. Put another way relative to the IDPIG international tender prices, prices 
obtained under the COMED tender system yield the State a 53 per cent saving in 
its drug expenditure (for comparable products).  
 
Table 6 Comed-IDPIG comparison for 71 common products, 2000 
 
 Price ratio 
For COMED Tenders at Comed Prices 1.00 
For COMED Tenders at International (IDPIG) Tender 
Prices 

1.53 

Savings 53%  

Note: The information is based on 8 out of 9 tenders in total 
  



SAJEMS NS Vol 6 (2003) No 2 381 

6 ANALYSIS OF PUBLIC SECTOR RESULTS 
 
There is little to suggest from the above study that the South African public 
sector prices for pharmaceuticals, the State secures through the COMED tender 
system, are higher than the international tender prices the State would face if it 
were to participate in international competitive bidding for the same drugs. 
Relative to the IDPIG international tender prices, prices obtained under the 
COMED tender system yield the State a 53 per cent saving in its drug 
expenditure (for comparable products). In short it appears that the competition-
for-the-market the COMED tender system creates in the supply of drugs for the 
public sector is very intense compared to the ICB norm.  What adds credibility 
and some confidence to the findings here is that they join a list of studies that 
systematically fail to show that the prices of pharmaceuticals in the South 
African public sector are high when compared with the IDPIG norm. The 
previous studies (PMA, 2001: 28), which are based on comparisons involving 
the average of IDPIG supplier rather than tender prices, have established that the 
savings in expenditure achieved by the State with the use of COMED (relative 
to the IDPIG) could be deemed to be 30 per cent on the average.  
 
In the present study it should be accepted that the saving is likely to be lower 
than estimated. First as presented above there are historical reasons for 
supposing so. In addition in the case of the public sector study assumptions were 
made in order to balance off the packaging difference between the COMED and 
international tender prices. If the packaging cost for the international suppliers is 
lower than the one assumed than the reported savings would also be lower. It 
should also be noted that quantity estimates rather than actual consumption 
figures were available for the calculation of the expenditure figures. Any 
discrepancies between the estimates and the actual figures (which must be 
assumed exist) would also mean that we have to content with accepting a level 
of savings lower than is reported in Table 6. 
 
 
7 CONCLUSION 
 
On the basis of the findings the conclusion drawn is simple. The results provide 
little support for the view that South African prices are in need of controls over 
and above those already existing through competition, i.e. recall that in the 
private sector companies are free to price their products and that in the public 
sector competition is encouraged by means of tendering. The evidence reveals 
that any calls or public policy proposals for parallel importation and its variant 
reference pricing are misplaced. To put forward such proposals without taking 
account of existing empirical knowledge for policy (or legislative) making 



SAJEMS NS Vol 6 (2003) No 2 382 

purposes is a less than optimal approach and one that the South African 
legislature ought to steer away from.  
 
 
ENDNOTES  
 
1 I would like to thank the head office of a PMA member company, without 

whose help it would not have been possible to gain access to the 
proprietary IMS raw data on which the private sector studies are based.  I 
would also like to thank Ms Marita van Rooyen from the Pharmaceutical 
Management Cluster of the Department of Health for providing the 
proprietary COMED data pertaining to the quantity estimates for the 
public sector without which conducting the public sector study would not 
have been possible. Thanks are due to Prof. WD Reekie for spending time 
to elaborate on his pricing studies on the pharmaceutical industry. The 
assistance of Ms Christine Schoeman during the data processing stages of 
the studies reported in here is acknowledged. The views expressed by the 
author (in this article) do not represent those of the Pharmaceutical 
Manufacturers’ Association of South Africa.    

2 Generic medicine is the one with the same chemical composition or active 
ingredient as the original medicine. 

 
 
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4 MANAGEMENT SCIENCES FOR HEALTH (2001) International Drug 
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