The paper assesses biased-coin designs for sequential treatment allocation in clinical trials. Comparisons emphasise the importance of considering randomness, as well as treatment balance, which are calculated as bias and loss. In the numerical examples, the responses are assumed normally distributed, perhaps after transformation, and balance is required over a set of covariates. The effect of covariate distribution on the properties of five allocation rules is investigated, with an emphasis on methods of comparison, which also apply to other forms of response. The concept of admissibility shows that the widely used minimisation rule is outperformed by Atkinson's rule derived from the theory of optimum experimental design. We present a simp...
Various restricted randomization procedures are available to achieve equal (1:1) allocation in a ran...
In recent years, several authors have investigated allocation rules for comparative clinical trials,...
This paper deals with the problem of allocating patients to two competing treatments in the presence...
The paper develops methods for the comparison of randomized rules of the biased coin type for the se...
Biased-coin designs are used in clinical trials to allocate treatments with some randomness while ma...
This dissertation treats baseline-dependent sequential designs of two-treatment parallel-group clini...
Randomized clinical trials (RCTs) are widely used as the gold standard for comparative medical studi...
Efron’s biased coin design (BCD) is a well-known randomization technique that helps neutralize selec...
Efron's biased coin design is a well-known randomization technique that helps to neutralize selectio...
The present paper deals with sequential designs intended to balance the allocations of two competing...
When there is a large number of baseline covariates whose imbalance needs to be controlled in sequen...
Contains fulltext : 89142reelick.pdf (publisher's version ) (Closed access)OBJECTI...
PhDRandomization schemes for two-treatment clinical trials are studied. Theoretical expressions for...
Contains fulltext : 48160.pdf (publisher's version ) (Closed access)Although minim...
The present paper deals with the problem of allocating patients to two competing treatments in the p...
Various restricted randomization procedures are available to achieve equal (1:1) allocation in a ran...
In recent years, several authors have investigated allocation rules for comparative clinical trials,...
This paper deals with the problem of allocating patients to two competing treatments in the presence...
The paper develops methods for the comparison of randomized rules of the biased coin type for the se...
Biased-coin designs are used in clinical trials to allocate treatments with some randomness while ma...
This dissertation treats baseline-dependent sequential designs of two-treatment parallel-group clini...
Randomized clinical trials (RCTs) are widely used as the gold standard for comparative medical studi...
Efron’s biased coin design (BCD) is a well-known randomization technique that helps neutralize selec...
Efron's biased coin design is a well-known randomization technique that helps to neutralize selectio...
The present paper deals with sequential designs intended to balance the allocations of two competing...
When there is a large number of baseline covariates whose imbalance needs to be controlled in sequen...
Contains fulltext : 89142reelick.pdf (publisher's version ) (Closed access)OBJECTI...
PhDRandomization schemes for two-treatment clinical trials are studied. Theoretical expressions for...
Contains fulltext : 48160.pdf (publisher's version ) (Closed access)Although minim...
The present paper deals with the problem of allocating patients to two competing treatments in the p...
Various restricted randomization procedures are available to achieve equal (1:1) allocation in a ran...
In recent years, several authors have investigated allocation rules for comparative clinical trials,...
This paper deals with the problem of allocating patients to two competing treatments in the presence...