Multi-lumen breathing circuit including a flexible printed circuit board assembly

What is claimed is: 1 . A breathing circuit, comprising: a flexible hollow tube having a generally circular cross section, the flexible hollow tube having a proximal end and a distal end; and a flexible printed circuit board assembly disposed in the flexible hollow tube, the flexible printed circuit board assembly defining part of at least one inspiratory passage within the flexible hollow tube and part of at least one expiratory passage within the flexible hollow tube, wherein the flexible printed circuit board assembly is configured to: heat airflow within one or more of the at least one inspiratory passage and the at least one expiratory passage, and monitor a first property of the airflow within one or more of the at least one inspiratory passage and the at least one expiratory passage at multiple locations along the axial length of the flexible hollow tube. 2 . The breathing circuit of claim 1 , wherein the flexible printed circuit board assembly is disposed between an entirety of the axial length of the flexible hollow tube. 3 . The breathing circuit of claim 1 , wherein the flexible printed circuit board assembly is flat and has a dimension equal to an inner diameter of the flexible hollow tube. 4 . The breathing circuit of claim 3 , wherein the flexible printed circuit board assembly is disposed between two adjacent protrusions extending radially inward from an inner wall of the flexible hollow tube. 5 . The breathing circuit of claim 1 , wherein the flexible printed circuit board assembly defines part of one inspiratory passage within the flexible hollow tube and part of one expiratory passage within the flexible hollow tube. 6 . The breathing circuit of claim 5 , wherein the one inspiratory passage and the one expiratory passage are defined at opposite sides of the flexible printed circuit board assembly. 7 . The breathing circuit of claim 1 , wherein the flexible printed circuit board assembly has a generally circular cross section. 8 . The breathing circuit of claim 7 , wherein the flexible printed circuit board assembly is coaxial to the flexible hollow tube and shares a center axis with the flexible hollow tube. 9 . The breathing circuit of claim 7 , wherein the flexible printed circuit board assembly defines part of one inspiratory passage within the flexible hollow tube and part of two or more expiratory passages within the flexible hollow tube. 10 . The breathing circuit of claim 1 , wherein the flexible hollow tube is made of a material that is at least partially transparent. 11 . The breathing circuit of claim 1 , wherein the flexible printed circuit board assembly comprises one or more light emitting diodes that are configured to emit light if a predetermined condition of a monitored property of the airflow is detected. 12 . The breathing circuit of claim 1 , wherein the flexible printed circuit board assembly is configured to monitor a first property of the airflow within the at least one inspiratory passage and a second property of the airflow within the at least one expiratory passage. 13 . The breathing circuit of claim 12 , wherein the first property of the airflow within the at least one inspiratory passage and the second property of the airflow within the at least one expiratory passage are different types of properties. 14 . The breathing circuit of claim 1 , wherein the first property is temperature, humidity, pressure, airflow rate, presence of microbes or viruses, or concentration of a particular gas. 15 . The breathing circuit of claim 1 , wherein the flexible printed circuit board assembly comprises a wireless communications circuit to transmit values for the monitored first property.