Erratum: Author Correction: Redox-active conducting polymers modulate biofilm formation by controlling availability of electron acceptors.

[This corrects the article DOI: 10.1038/s41522-017-0027-0.].

The role of ATP signalling in response to mechanical stimulation studied in T24 cells using new microphysiological tools.

The capacity to store urine and initiate voiding is a valued characteristic of the human urinary bladder. To maintain this feature, it is necessary that the bladder can sense when it is full and when it is time to void. The bladder has a specialized epithelium called urothelium that is believed to be important for its sensory function.

Inhibitory Effects of Urothelium-related Factors.

The urothelium of the bladder has long been recognized as a protective barrier between detrusor and urine. In recent years, it has become more evident that the urothelium plays a role as an active source of mediators. The urothelium can release neurotransmitters and modulators such as acetylcholine, ATP, nitric oxide, prostaglandins and neuropeptides.

Prostaglandin D effects and DP /DP receptor distribution in guinea pig urinary bladder out-flow region.

The proximal urethra and urinary bladder trigone play important roles in continence. We have previously shown that PGD is released from guinea pig bladder urothelium/suburothelium and can inhibit detrusor contractile responses. We presently wished to investigate PGD actions in guinea pig out-flow region and the distribution of DP /DP receptors.

Localization of P2X receptor subtypes 2, 3 and 7 in human urinary bladder.

Background: Voiding dysfunctions are a common problem that has a severe negative impact on the quality of life. Today there is a need for new drug targets for these conditions. The role of ATP receptors in bladder physiology has been studied for some time, primarily in animal models.

Receptors involved in the modulation of guinea pig urinary bladder motility by prostaglandin D2.

Background And Purpose: We have described a urothelium-dependent release of PGD2 -like activity which had inhibitory effects on the motility of guinea pig urinary bladder. Here, we have pharmacologically characterized the receptors involved and localized the sites of PGD2 formation and of its receptors.

Experimental Approach: In the presence of selective DP and TP receptor antagonists alone or combined, PGD2 was applied to urothelium-denuded diclofenac-treated urinary bladder strips mounted in organ baths.

Mechanical stimulation of epithelial cells using polypyrrole microactuators.

The importance of mechanotransduction for physiological systems is becoming increasingly recognized. The effect of mechanical stimulation is well studied in organs and tissues, for instance by using flexible tissue culture substrates that can be stretched by external means. However, on the cellular and subcellular level, dedicated technology to apply appropriate mechanical stimuli is limited.

Organic bioelectronics in nanomedicine.

Background: Nanomedicine is a research area with potential to shape, direct, and change future medical treatments in a revolutionary manner over the next decades. While the common goal with other fields of biomedicine is to solve medical problems, this area embraces an increasing number of technology platforms as they become miniaturized. Organic electronics has over the past two decades developed into an exciting and thriving area of research.

Active control of epithelial cell-density gradients grown along the channel of an organic electrochemical transistor.

Complex patterning of the extracellular matrix, cells, and tissues under in situ electronic control is the aim of the technique presented here. The distribution of epithelial cells along the channel of an organic electrochemical transistor is shown to be actively controlled by the gate and drain voltages, as electrochemical gradients are formed along the transistor channel when the device is biased..

Electrochemical modulation of epithelia formation using conducting polymers.

Conducting polymers are soft, flexible materials, exhibiting material properties that can be reversibly changed by electrochemically altering the redox state. Surface chemistry is an important determinant for the molecular events of cell adhesion. Therefore, we analyzed whether the redox state of the conducting polymer PEDOT:Tosylate can be used to control epithelial cell adhesion and proliferation.

Flow and composition of afferent mammary gland lymph.

Afferent mammary lymphatic flow was characterized in conscious lactating cows during milking and prior to, during, and after intramammary infusion of endotoxins. Lymph flow (13 to 45 ml/h) was pulsatile with monophasic and multiphasic episodes. Flow resulted from 62 to 67 episodes per h.

Endocrine responses in cows milked by hand and machine.

Plasma concentrations of oxytocin, prolactin, and cortisol were compared in five Swedish Red and White cows milked by hand versus machine. Cows were divided into two groups. One group was hand-milked; the other group was machine-milked.

Effect of local stimulation of one quarter on milk production and milk components.

The existence of local udder regulatory mechanisms involved in the regulation of milk production was demonstrated. Because the four quarters of the udder are independent, yet share a common environment, the experiment was designed to give one quarter extra stimulation by hand-milking while the other quarters were machine-milked. A difference in milk production was found, proving the existence of local mechanisms.

Milking and feeding-induced release of the gastrointestinal hormones gastrin and somatostatin in dairy cows.

In monogastric animals, suckling influences the secretion of gastrointestinal hormones during lactation. The aim of the present study was to investigate whether similar effects are induced by milking in cows. Experiments were performed on four cows in midlactation.