Deranged Blood Sugar Levels in Type 2 Diabetics induced impairment of nerve conduction
Zia ul Mustafa, Muhammad Aleem Uddin, Jamshad Latif, Rabea Nasir, Rahma Zahid Butt, Faiza Irshad, Mufassar Nishat
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ABSTRACT
Background: One
of the complications of diabetes is Peripheral neuropathy that becomes the
source of frailty and indisposition. Metabolic malfunction is the root cause in
diabetes that target nerve damage.
Aim: To evaluate
electrophysiological case research with respect to effect of diabetics on nerves
and to link it along with blood sugar
Methods: Assessment
of nerves related to of upper limb was carried out for motor nerve by aid of
computerized system and surface electrodes in 40 male individuals suffering from
type 2 and 40 healthy males. The ulnar and median nerve was selected for case research.
Parameters that were being discussed included conduction velocity and distal
latency
Results: Diabetics
have increased distal delay and reduced conduction velocity. These variables
were linked to blood sugar levels in diabetics.
Conclusions: There is affect to nerves in case of diabetes as shown by poor motor
nerve function and depicted via testing electro physiologically. Increase in
sugar blood levels is associate with damage to nerves.
Keywords:
Electrophysiological tests, Conduction velocity, Peripheral neuropathy,
Diabetes,
ABSTRACT
Background: One
of the complications of diabetes is Peripheral neuropathy that becomes the
source of frailty and indisposition. Metabolic malfunction is the root cause in
diabetes that target nerve damage.
Aim: To evaluate
electrophysiological case research with respect to effect of diabetics on nerves
and to link it along with blood sugar
Methods: Assessment
of nerves related to of upper limb was carried out for motor nerve by aid of
computerized system and surface electrodes in 40 male individuals suffering from
type 2 and 40 healthy males. The ulnar and median nerve was selected for case research.
Parameters that were being discussed included conduction velocity and distal
latency
Results: Diabetics
have increased distal delay and reduced conduction velocity. These variables
were linked to blood sugar levels in diabetics.
Conclusions: There is affect to nerves in case of diabetes as shown by poor motor
nerve function and depicted via testing electro physiologically. Increase in
sugar blood levels is associate with damage to nerves.
Keywords:
Electrophysiological tests, Conduction velocity, Peripheral neuropathy,
Diabetes,